// Copyright 2014 Renato Tegon Forti, Antony Polukhin. // Copyright Antony Polukhin, 2015-2024. // // 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_RUNTIME_SYMBOL_INFO_HPP #define BOOST_DLL_RUNTIME_SYMBOL_INFO_HPP #include #include #include #include #if BOOST_OS_WINDOWS # include # include #else # include # include #endif #ifdef BOOST_HAS_PRAGMA_ONCE # pragma once #endif /// \file boost/dll/runtime_symbol_info.hpp /// \brief Provides methods for getting acceptable by boost::dll::shared_library location of symbol, source line or program. namespace boost { namespace dll { #if BOOST_OS_WINDOWS namespace detail { inline boost::dll::fs::path program_location_impl(boost::dll::fs::error_code& ec) { return boost::dll::detail::path_from_handle(NULL, ec); } } // namespace detail #endif /*! * On success returns full path and name to the binary object that holds symbol pointed by ptr_to_symbol. * * \param ptr_to_symbol Pointer to symbol which location is to be determined. * \param ec Variable that will be set to the result of the operation. * \return Path to the binary object that holds symbol or empty path in case error. * \throws std::bad_alloc in case of insufficient memory. Overload that does not accept \forcedlinkfs{error_code} also throws \forcedlinkfs{system_error}. * * \b Examples: * \code * int main() { * dll::symbol_location_ptr(std::set_terminate(0)); // returns "/some/path/libmy_terminate_handler.so" * dll::symbol_location_ptr(::signal(SIGSEGV, SIG_DFL)); // returns "/some/path/libmy_symbol_handler.so" * } * \endcode */ template inline boost::dll::fs::path symbol_location_ptr(T ptr_to_symbol, boost::dll::fs::error_code& ec) { static_assert(boost::is_pointer::value, "boost::dll::symbol_location_ptr works only with pointers! `ptr_to_symbol` must be a pointer"); boost::dll::fs::path ret; if (!ptr_to_symbol) { ec = boost::dll::fs::make_error_code( boost::dll::fs::errc::bad_address ); return ret; } ec.clear(); const void* ptr = boost::dll::detail::aggressive_ptr_cast(ptr_to_symbol); #if BOOST_OS_WINDOWS boost::winapi::MEMORY_BASIC_INFORMATION_ mbi; if (!boost::winapi::VirtualQuery(ptr, &mbi, sizeof(mbi))) { ec = boost::dll::detail::last_error_code(); return ret; } return boost::dll::detail::path_from_handle(reinterpret_cast(mbi.AllocationBase), ec); #else Dl_info info; // Some of the libc headers miss `const` in `dladdr(const void*, Dl_info*)` const int res = dladdr(const_cast(ptr), &info); if (res) { ret = info.dli_fname; } else { boost::dll::detail::reset_dlerror(); ec = boost::dll::fs::make_error_code( boost::dll::fs::errc::bad_address ); } return ret; #endif } //! \overload symbol_location_ptr(const void* ptr_to_symbol, boost::dll::fs::error_code& ec) template inline boost::dll::fs::path symbol_location_ptr(T ptr_to_symbol) { boost::dll::fs::path ret; boost::dll::fs::error_code ec; ret = boost::dll::symbol_location_ptr(ptr_to_symbol, ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::symbol_location_ptr(T ptr_to_symbol) failed"); } return ret; } /*! * On success returns full path and name of the binary object that holds symbol. * * \tparam T Type of the symbol, must not be explicitly specified. * \param symbol Symbol which location is to be determined. * \param ec Variable that will be set to the result of the operation. * \return Path to the binary object that holds symbol or empty path in case error. * \throws std::bad_alloc in case of insufficient memory. Overload that does not accept \forcedlinkfs{error_code} also throws \forcedlinkfs{system_error}. * * \b Examples: * \code * int var; * void foo() {} * * int main() { * dll::symbol_location(var); // returns program location * dll::symbol_location(foo); // returns program location * dll::symbol_location(std::cerr); // returns location of libstdc++: "/usr/lib/x86_64-linux-gnu/libstdc++.so.6" * dll::symbol_location(std::placeholders::_1); // returns location of libstdc++: "/usr/lib/x86_64-linux-gnu/libstdc++.so.6" * dll::symbol_location(std::puts); // returns location of libc: "/lib/x86_64-linux-gnu/libc.so.6" * } * \endcode */ template inline boost::dll::fs::path symbol_location(const T& symbol, boost::dll::fs::error_code& ec) { ec.clear(); return boost::dll::symbol_location_ptr( boost::dll::detail::aggressive_ptr_cast(boost::addressof(symbol)), ec ); } #if BOOST_COMP_MSVC < BOOST_VERSION_NUMBER(14,0,0) // Without this MSVC 7.1 fails with: // ..\boost\dll\runtime_symbol_info.hpp(133) : error C2780: 'filesystem::path dll::symbol_location(const T &)' : expects 1 arguments - 2 provided template inline boost::dll::fs::path symbol_location(const T& symbol, const char* /*workaround*/ = 0) #else //! \overload symbol_location(const T& symbol, boost::dll::fs::error_code& ec) template inline boost::dll::fs::path symbol_location(const T& symbol) #endif { boost::dll::fs::path ret; boost::dll::fs::error_code ec; ret = boost::dll::symbol_location_ptr( boost::dll::detail::aggressive_ptr_cast(boost::addressof(symbol)), ec ); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::symbol_location(const T& symbol) failed"); } return ret; } /// @cond // We have anonymous namespace here to make sure that `this_line_location()` method is instantiated in // current translation unit and is not shadowed by instantiations from other units. // // boost-no-inspect namespace { /// @endcond /*! * On success returns full path and name of the binary object that holds the current line of code * (the line in which the `this_line_location()` method was called). * * \param ec Variable that will be set to the result of the operation. * \throws std::bad_alloc in case of insufficient memory. Overload that does not accept \forcedlinkfs{error_code} also throws \forcedlinkfs{system_error}. */ static inline boost::dll::fs::path this_line_location(boost::dll::fs::error_code& ec) { typedef boost::dll::fs::path(func_t)(boost::dll::fs::error_code& ); func_t& f = this_line_location; return boost::dll::symbol_location(f, ec); } //! \overload this_line_location(boost::dll::fs::error_code& ec) static inline boost::dll::fs::path this_line_location() { boost::dll::fs::path ret; boost::dll::fs::error_code ec; ret = this_line_location(ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::this_line_location() failed"); } return ret; } /// @cond } // anonymous namespace /// @endcond /*! * On success returns full path and name of the currently running program (the one which contains the `main()` function). * * Return value can be used as a parameter for shared_library. See Tutorial "Linking plugin into the executable" * for usage example. Flag '-rdynamic' must be used when linking the plugin into the executable * on Linux OS. * * \param ec Variable that will be set to the result of the operation. * \throws std::bad_alloc in case of insufficient memory. Overload that does not accept \forcedlinkfs{error_code} also throws \forcedlinkfs{system_error}. */ inline boost::dll::fs::path program_location(boost::dll::fs::error_code& ec) { ec.clear(); return boost::dll::detail::program_location_impl(ec); } //! \overload program_location(boost::dll::fs::error_code& ec) { inline boost::dll::fs::path program_location() { boost::dll::fs::path ret; boost::dll::fs::error_code ec; ret = boost::dll::detail::program_location_impl(ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::program_location() failed"); } return ret; } }} // namespace boost::dll #endif // BOOST_DLL_RUNTIME_SYMBOL_INFO_HPP