// Copyright (c) 2016 Klemens D. Morgenstern // // 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_PROCESS_DETAIL_WINDOWS_ASYNC_PIPE_HPP_ #define BOOST_PROCESS_DETAIL_WINDOWS_ASYNC_PIPE_HPP_ #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace process { namespace detail { namespace windows { inline std::string make_pipe_name() { std::string name = "\\\\.\\pipe\\boost_process_auto_pipe_"; auto pid = ::boost::winapi::GetCurrentProcessId(); static std::atomic_size_t cnt{0}; name += std::to_string(pid); name += "_"; name += std::to_string(cnt++); return name; } class async_pipe { ::boost::asio::windows::stream_handle _source; ::boost::asio::windows::stream_handle _sink ; inline async_pipe(boost::asio::io_context & ios_source, boost::asio::io_context & ios_sink, const std::string & name, bool private_); public: typedef ::boost::winapi::HANDLE_ native_handle_type; typedef ::boost::asio::windows::stream_handle handle_type; typedef typename handle_type::executor_type executor_type; async_pipe(boost::asio::io_context & ios) : async_pipe(ios, ios, make_pipe_name(), true) {} async_pipe(boost::asio::io_context & ios_source, boost::asio::io_context & ios_sink) : async_pipe(ios_source, ios_sink, make_pipe_name(), true) {} async_pipe(boost::asio::io_context & ios, const std::string & name) : async_pipe(ios, ios, name, false) {} async_pipe(boost::asio::io_context & ios_source, boost::asio::io_context & ios_sink, const std::string & name) : async_pipe(ios_source, ios_sink, name, false) {} inline async_pipe(const async_pipe& rhs); async_pipe(async_pipe&& rhs) : _source(std::move(rhs._source)), _sink(std::move(rhs._sink)) { } template> explicit async_pipe(::boost::asio::io_context & ios_source, ::boost::asio::io_context & ios_sink, const basic_pipe & p) : _source(ios_source, p.native_source()), _sink(ios_sink, p.native_sink()) { } template> explicit async_pipe(boost::asio::io_context & ios, const basic_pipe & p) : async_pipe(ios, ios, p) { } template> inline async_pipe& operator=(const basic_pipe& p); inline async_pipe& operator=(const async_pipe& rhs); inline async_pipe& operator=(async_pipe&& rhs); ~async_pipe() { boost::system::error_code ec; close(ec); } template> inline explicit operator basic_pipe() const; void cancel() { if (_sink.is_open()) _sink.cancel(); if (_source.is_open()) _source.cancel(); } void close() { if (_sink.is_open()) { _sink.close(); _sink = handle_type(_sink.get_executor()); } if (_source.is_open()) { _source.close(); _source = handle_type(_source.get_executor()); } } void close(boost::system::error_code & ec) { if (_sink.is_open()) { _sink.close(ec); _sink = handle_type(_sink.get_executor()); } if (_source.is_open()) { _source.close(ec); _source = handle_type(_source.get_executor()); } } bool is_open() const { return _sink.is_open() || _source.is_open(); } void async_close() { if (_sink.is_open()) boost::asio::post(_sink.get_executor(), [this]{_sink.close();}); if (_source.is_open()) boost::asio::post(_source.get_executor(), [this]{_source.close();}); } template std::size_t read_some(const MutableBufferSequence & buffers) { return _source.read_some(buffers); } template std::size_t write_some(const MutableBufferSequence & buffers) { return _sink.write_some(buffers); } template std::size_t read_some(const MutableBufferSequence & buffers, boost::system::error_code & ec) noexcept { return _source.read_some(buffers, ec); } template std::size_t write_some(const MutableBufferSequence & buffers, boost::system::error_code & ec) noexcept { return _sink.write_some(buffers, ec); } native_handle_type native_source() const {return const_cast(_source).native_handle();} native_handle_type native_sink () const {return const_cast(_sink ).native_handle();} template BOOST_ASIO_INITFN_RESULT_TYPE( ReadHandler, void(boost::system::error_code, std::size_t)) async_read_some( const MutableBufferSequence & buffers, ReadHandler &&handler) { return _source.async_read_some(buffers, std::forward(handler)); } template BOOST_ASIO_INITFN_RESULT_TYPE( WriteHandler, void(boost::system::error_code, std::size_t)) async_write_some( const ConstBufferSequence & buffers, WriteHandler && handler) { return _sink.async_write_some(buffers, std::forward(handler)); } const handle_type & sink () const & {return _sink;} const handle_type & source() const & {return _source;} handle_type && source() && { return std::move(_source); } handle_type && sink() && { return std::move(_sink); } handle_type source(::boost::asio::io_context& ios) && { ::boost::asio::windows::stream_handle stolen(ios.get_executor(), _source.native_handle()); boost::system::error_code ec; _source.assign(::boost::winapi::INVALID_HANDLE_VALUE_, ec); return stolen; } handle_type sink (::boost::asio::io_context& ios) && { ::boost::asio::windows::stream_handle stolen(ios.get_executor(), _sink.native_handle()); boost::system::error_code ec; _sink.assign(::boost::winapi::INVALID_HANDLE_VALUE_, ec); return stolen; } handle_type source(::boost::asio::io_context& ios) const & { auto proc = ::boost::winapi::GetCurrentProcess(); ::boost::winapi::HANDLE_ source; auto source_in = const_cast(_source).native_handle(); if (source_in == ::boost::winapi::INVALID_HANDLE_VALUE_) source = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, source_in, proc, &source, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); return ::boost::asio::windows::stream_handle(ios.get_executor(), source); } handle_type sink (::boost::asio::io_context& ios) const & { auto proc = ::boost::winapi::GetCurrentProcess(); ::boost::winapi::HANDLE_ sink; auto sink_in = const_cast(_sink).native_handle(); if (sink_in == ::boost::winapi::INVALID_HANDLE_VALUE_) sink = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, sink_in, proc, &sink, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); return ::boost::asio::windows::stream_handle(ios.get_executor(), sink); } }; async_pipe::async_pipe(const async_pipe& p) : _source(const_cast(p._source).get_executor()), _sink (const_cast(p._sink).get_executor()) { auto proc = ::boost::winapi::GetCurrentProcess(); ::boost::winapi::HANDLE_ source; ::boost::winapi::HANDLE_ sink; //cannot get the handle from a const object. auto source_in = const_cast(p._source).native_handle(); auto sink_in = const_cast(p._sink).native_handle(); if (source_in == ::boost::winapi::INVALID_HANDLE_VALUE_) source = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, source_in, proc, &source, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); if (sink_in == ::boost::winapi::INVALID_HANDLE_VALUE_) sink = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, sink_in, proc, &sink, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); if (source != ::boost::winapi::INVALID_HANDLE_VALUE_) _source.assign(source); if (sink != ::boost::winapi::INVALID_HANDLE_VALUE_) _sink. assign(sink); } async_pipe::async_pipe(boost::asio::io_context & ios_source, boost::asio::io_context & ios_sink, const std::string & name, bool private_) : _source(ios_source), _sink(ios_sink) { static constexpr int FILE_FLAG_OVERLAPPED_ = 0x40000000; //temporary ::boost::winapi::HANDLE_ source = ::boost::winapi::create_named_pipe( #if defined(BOOST_NO_ANSI_APIS) ::boost::process::detail::convert(name).c_str(), #else name.c_str(), #endif ::boost::winapi::PIPE_ACCESS_INBOUND_ | FILE_FLAG_OVERLAPPED_, //write flag 0, private_ ? 1 : ::boost::winapi::PIPE_UNLIMITED_INSTANCES_, 8192, 8192, 0, nullptr); if (source == boost::winapi::INVALID_HANDLE_VALUE_) ::boost::process::detail::throw_last_error("create_named_pipe(" + name + ") failed"); _source.assign(source); ::boost::winapi::HANDLE_ sink = boost::winapi::create_file( #if defined(BOOST_NO_ANSI_APIS) ::boost::process::detail::convert(name).c_str(), #else name.c_str(), #endif ::boost::winapi::GENERIC_WRITE_, 0, nullptr, ::boost::winapi::OPEN_EXISTING_, FILE_FLAG_OVERLAPPED_, //to allow read nullptr); if (sink == ::boost::winapi::INVALID_HANDLE_VALUE_) ::boost::process::detail::throw_last_error("create_file() failed"); _sink.assign(sink); } template async_pipe& async_pipe::operator=(const basic_pipe & p) { auto proc = ::boost::winapi::GetCurrentProcess(); ::boost::winapi::HANDLE_ source; ::boost::winapi::HANDLE_ sink; //cannot get the handle from a const object. auto source_in = p.native_source(); auto sink_in = p.native_sink(); if (source_in == ::boost::winapi::INVALID_HANDLE_VALUE_) source = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, source_in.native_handle(), proc, &source, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); if (sink_in == ::boost::winapi::INVALID_HANDLE_VALUE_) sink = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, sink_in.native_handle(), proc, &sink, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); //so we also assign the io_context if (source != ::boost::winapi::INVALID_HANDLE_VALUE_) _source.assign(source); if (sink != ::boost::winapi::INVALID_HANDLE_VALUE_) _sink.assign(sink); return *this; } async_pipe& async_pipe::operator=(const async_pipe & p) { auto proc = ::boost::winapi::GetCurrentProcess(); ::boost::winapi::HANDLE_ source; ::boost::winapi::HANDLE_ sink; //cannot get the handle from a const object. auto &source_in = const_cast<::boost::asio::windows::stream_handle &>(p._source); auto &sink_in = const_cast<::boost::asio::windows::stream_handle &>(p._sink); source_in.get_executor(); if (source_in.native_handle() == ::boost::winapi::INVALID_HANDLE_VALUE_) source = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, source_in.native_handle(), proc, &source, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); if (sink_in.native_handle() == ::boost::winapi::INVALID_HANDLE_VALUE_) sink = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, sink_in.native_handle(), proc, &sink, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); //so we also assign the io_context if (source != ::boost::winapi::INVALID_HANDLE_VALUE_) _source = ::boost::asio::windows::stream_handle(source_in.get_executor(), source); else _source = ::boost::asio::windows::stream_handle(source_in.get_executor()); if (sink != ::boost::winapi::INVALID_HANDLE_VALUE_) _sink = ::boost::asio::windows::stream_handle(source_in.get_executor(), sink); else _sink = ::boost::asio::windows::stream_handle(source_in.get_executor()); return *this; } async_pipe& async_pipe::operator=(async_pipe && rhs) { _source = std::move(rhs._source); _sink = std::move(rhs._sink); return *this; } template async_pipe::operator basic_pipe() const { auto proc = ::boost::winapi::GetCurrentProcess(); ::boost::winapi::HANDLE_ source; ::boost::winapi::HANDLE_ sink; //cannot get the handle from a const object. auto source_in = const_cast<::boost::asio::windows::stream_handle &>(_source).native_handle(); auto sink_in = const_cast<::boost::asio::windows::stream_handle &>(_sink).native_handle(); if (source_in == ::boost::winapi::INVALID_HANDLE_VALUE_) source = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, source_in, proc, &source, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); if (sink_in == ::boost::winapi::INVALID_HANDLE_VALUE_) sink = ::boost::winapi::INVALID_HANDLE_VALUE_; else if (!::boost::winapi::DuplicateHandle( proc, sink_in, proc, &sink, 0, static_cast<::boost::winapi::BOOL_>(true), ::boost::winapi::DUPLICATE_SAME_ACCESS_)) throw_last_error("Duplicate Pipe Failed"); return basic_pipe{source, sink}; } inline bool operator==(const async_pipe & lhs, const async_pipe & rhs) { return compare_handles(lhs.native_source(), rhs.native_source()) && compare_handles(lhs.native_sink(), rhs.native_sink()); } inline bool operator!=(const async_pipe & lhs, const async_pipe & rhs) { return !compare_handles(lhs.native_source(), rhs.native_source()) || !compare_handles(lhs.native_sink(), rhs.native_sink()); } template inline bool operator==(const async_pipe & lhs, const basic_pipe & rhs) { return compare_handles(lhs.native_source(), rhs.native_source()) && compare_handles(lhs.native_sink(), rhs.native_sink()); } template inline bool operator!=(const async_pipe & lhs, const basic_pipe & rhs) { return !compare_handles(lhs.native_source(), rhs.native_source()) || !compare_handles(lhs.native_sink(), rhs.native_sink()); } template inline bool operator==(const basic_pipe & lhs, const async_pipe & rhs) { return compare_handles(lhs.native_source(), rhs.native_source()) && compare_handles(lhs.native_sink(), rhs.native_sink()); } template inline bool operator!=(const basic_pipe & lhs, const async_pipe & rhs) { return !compare_handles(lhs.native_source(), rhs.native_source()) || !compare_handles(lhs.native_sink(), rhs.native_sink()); } }}}} #endif /* INCLUDE_BOOST_PIPE_DETAIL_WINDOWS_ASYNC_PIPE_HPP_ */