boost/process/pipe.hpp
// Copyright (c) 2006, 2007 Julio M. Merino Vidal // Copyright (c) 2008 Ilya Sokolov, Boris Schaeling // Copyright (c) 2009 Boris Schaeling // Copyright (c) 2010 Felipe Tanus, Boris Schaeling // Copyright (c) 2011, 2012 Jeff Flinn, Boris Schaeling // // 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_PIPE_HPP #define BOOST_PROCESS_PIPE_HPP #include <boost/config.hpp> #include <boost/process/detail/config.hpp> #include <streambuf> #include <istream> #include <ostream> #include <vector> #if defined(BOOST_POSIX_API) #include <boost/process/detail/posix/basic_pipe.hpp> #elif defined(BOOST_WINDOWS_API) #include <boost/process/detail/windows/basic_pipe.hpp> #endif namespace boost { namespace process { using ::boost::process::detail::api::basic_pipe; #if defined(BOOST_PROCESS_DOXYGEN) /** Class implementation of a pipe. * */ template<class CharT, class Traits = std::char_traits<CharT>> class basic_pipe { public: typedef CharT char_type ; typedef Traits traits_type; typedef typename Traits::int_type int_type ; typedef typename Traits::pos_type pos_type ; typedef typename Traits::off_type off_type ; typedef ::boost::detail::winapi::HANDLE_ native_handle; /// Default construct the pipe. Will be opened. basic_pipe(); ///Construct a named pipe. inline explicit basic_pipe(const std::string & name); /** Copy construct the pipe. * \note Duplicated the handles. */ inline basic_pipe(const basic_pipe& p); /** Move construct the pipe. */ basic_pipe(basic_pipe&& lhs); /** Copy assign the pipe. * \note Duplicated the handles. */ inline basic_pipe& operator=(const basic_pipe& p); /** Move assign the pipe. */ basic_pipe& operator=(basic_pipe&& lhs); /** Destructor closes the handles. */ ~basic_pipe(); /** Get the native handle of the source. */ native_handle native_source() const; /** Get the native handle of the sink. */ native_handle native_sink () const; /** Assign a new value to the source */ void assign_source(native_handle h); /** Assign a new value to the sink */ void assign_sink (native_handle h); ///Write data to the pipe. int_type write(const char_type * data, int_type count); ///Read data from the pipe. int_type read(char_type * data, int_type count); ///Check if the pipe is open. bool is_open(); ///Close the pipe void close(); }; #endif typedef basic_pipe<char> pipe; typedef basic_pipe<wchar_t> wpipe; /** Implementation of the stream buffer for a pipe. */ template< class CharT, class Traits = std::char_traits<CharT> > struct basic_pipebuf : std::basic_streambuf<CharT, Traits> { typedef basic_pipe<CharT, Traits> pipe_type; typedef CharT char_type ; typedef Traits traits_type; typedef typename Traits::int_type int_type ; typedef typename Traits::pos_type pos_type ; typedef typename Traits::off_type off_type ; constexpr static int default_buffer_size = BOOST_PROCESS_PIPE_SIZE; ///Default constructor, will also construct the pipe. basic_pipebuf() : _write(default_buffer_size), _read(default_buffer_size) { this->setg(_read.data(), _read.data()+ 128, _read.data() + 128); this->setp(_write.data(), _write.data() + _write.size()); } ///Copy Constructor. basic_pipebuf(const basic_pipebuf & ) = default; ///Move Constructor basic_pipebuf(basic_pipebuf && ) = default; ///Destructor -> writes the frest of the data ~basic_pipebuf() { if (basic_pipebuf::is_open()) basic_pipebuf::overflow(Traits::eof()); } ///Move construct from a pipe. basic_pipebuf(pipe_type && p) : _pipe(std::move(p)), _write(default_buffer_size), _read(default_buffer_size) { this->setg(_read.data(), _read.data()+ 128, _read.data() + 128); this->setp(_write.data(), _write.data() + _write.size()); } ///Construct from a pipe. basic_pipebuf(const pipe_type & p) : _pipe(p), _write(default_buffer_size), _read(default_buffer_size) { this->setg(_read.data(), _read.data()+ 128, _read.data() + 128); this->setp(_write.data(), _write.data() + _write.size()); } ///Copy assign. basic_pipebuf& operator=(const basic_pipebuf & ) = delete; ///Move assign. basic_pipebuf& operator=(basic_pipebuf && ) = default; ///Move assign a pipe. basic_pipebuf& operator=(pipe_type && p) { _pipe = std::move(p); return *this; } ///Copy assign a pipe. basic_pipebuf& operator=(const pipe_type & p) { _pipe = p; return *this; } ///Writes characters to the associated output sequence from the put area int_type overflow(int_type ch = traits_type::eof()) override { if (_pipe.is_open() && (ch != traits_type::eof())) { if (this->pptr() == this->epptr()) { bool wr = this->_write_impl(); if (wr) { *this->pptr() = ch; this->pbump(1); return ch; } } else { *this->pptr() = ch; this->pbump(1); if (this->_write_impl()) return ch; } } else if (ch == traits_type::eof()) this->sync(); return traits_type::eof(); } ///Synchronizes the buffers with the associated character sequence int sync() override { return this->_write_impl() ? 0 : -1; } ///Reads characters from the associated input sequence to the get area int_type underflow() override { if (!_pipe.is_open()) return traits_type::eof(); if (this->egptr() == &_read.back()) //ok, so we're at the end of the buffer this->setg(_read.data(), _read.data()+ 10, _read.data() + 10); auto len = &_read.back() - this->egptr() ; auto res = _pipe.read( this->egptr(), static_cast<typename pipe_type::int_type>(len)); if (res == 0) return traits_type::eof(); this->setg(this->eback(), this->gptr(), this->egptr() + res); auto val = *this->gptr(); return traits_type::to_int_type(val); } ///Set the pipe of the streambuf. void pipe(pipe_type&& p) {_pipe = std::move(p); } ///Set the pipe of the streambuf. void pipe(const pipe_type& p) {_pipe = p; } ///Get a reference to the pipe. pipe_type & pipe() & {return _pipe;} ///Get a const reference to the pipe. const pipe_type &pipe() const & {return _pipe;} ///Get a rvalue reference to the pipe. Qualified as rvalue. pipe_type && pipe() && {return std::move(_pipe);} ///Check if the pipe is open bool is_open() const {return _pipe.is_open(); } ///Open a new pipe basic_pipebuf<CharT, Traits>* open() { if (is_open()) return nullptr; _pipe = pipe(); return this; } ///Open a new named pipe basic_pipebuf<CharT, Traits>* open(const std::string & name) { if (is_open()) return nullptr; _pipe = pipe(name); return this; } ///Flush the buffer & close the pipe basic_pipebuf<CharT, Traits>* close() { if (!is_open()) return nullptr; overflow(Traits::eof()); return this; } private: pipe_type _pipe; std::vector<char_type> _write; std::vector<char_type> _read; bool _write_impl() { if (!_pipe.is_open()) return false; auto base = this->pbase(); if (base == this->pptr()) return true; std::ptrdiff_t wrt = _pipe.write(base, static_cast<typename pipe_type::int_type>(this->pptr() - base)); std::ptrdiff_t diff = this->pptr() - base; if (wrt < diff) std::move(base + wrt, base + diff, base); else if (wrt == 0) //broken pipe return false; this->pbump(static_cast<int>(-wrt)); return true; } }; typedef basic_pipebuf<char> pipebuf; typedef basic_pipebuf<wchar_t> wpipebuf; /** Implementation of a reading pipe stream. * */ template< class CharT, class Traits = std::char_traits<CharT> > class basic_ipstream : public std::basic_istream<CharT, Traits> { mutable basic_pipebuf<CharT, Traits> _buf; public: typedef basic_pipe<CharT, Traits> pipe_type; typedef CharT char_type ; typedef Traits traits_type; typedef typename Traits::int_type int_type ; typedef typename Traits::pos_type pos_type ; typedef typename Traits::off_type off_type ; ///Get access to the underlying stream_buf basic_pipebuf<CharT, Traits>* rdbuf() const {return &_buf;}; ///Default constructor. basic_ipstream() : std::basic_istream<CharT, Traits>(nullptr) { std::basic_istream<CharT, Traits>::rdbuf(&_buf); }; ///Copy constructor. basic_ipstream(const basic_ipstream & ) = delete; ///Move constructor. basic_ipstream(basic_ipstream && lhs) : std::basic_istream<CharT, Traits>(nullptr), _buf(std::move(lhs._buf)) { std::basic_istream<CharT, Traits>::rdbuf(&_buf); } ///Move construct from a pipe. basic_ipstream(pipe_type && p) : std::basic_istream<CharT, Traits>(nullptr), _buf(std::move(p)) { std::basic_istream<CharT, Traits>::rdbuf(&_buf); } ///Copy construct from a pipe. basic_ipstream(const pipe_type & p) : std::basic_istream<CharT, Traits>(nullptr), _buf(p) { std::basic_istream<CharT, Traits>::rdbuf(&_buf); } ///Copy assignment. basic_ipstream& operator=(const basic_ipstream & ) = delete; ///Move assignment basic_ipstream& operator=(basic_ipstream && lhs) { std::basic_istream<CharT, Traits>::operator=(std::move(lhs)); _buf = std::move(lhs._buf); std::basic_istream<CharT, Traits>::rdbuf(&_buf); return *this; }; ///Move assignment of a pipe. basic_ipstream& operator=(pipe_type && p) { _buf = std::move(p); return *this; } ///Copy assignment of a pipe. basic_ipstream& operator=(const pipe_type & p) { _buf = p; return *this; } ///Set the pipe of the streambuf. void pipe(pipe_type&& p) {_buf.pipe(std::move(p)); } ///Set the pipe of the streambuf. void pipe(const pipe_type& p) {_buf.pipe(p); } ///Get a reference to the pipe. pipe_type & pipe() & {return _buf.pipe();} ///Get a const reference to the pipe. const pipe_type &pipe() const & {return _buf.pipe();} ///Get a rvalue reference to the pipe. Qualified as rvalue. pipe_type && pipe() && {return std::move(_buf).pipe();} ///Check if the pipe is open bool is_open() const {return _buf.is_open();} ///Open a new pipe void open() { if (_buf.open() == nullptr) this->setstate(std::ios_base::failbit); else this->clear(); } ///Open a new named pipe void open(const std::string & name) { if (_buf.open() == nullptr) this->setstate(std::ios_base::failbit); else this->clear(); } ///Flush the buffer & close the pipe void close() { if (_buf.close() == nullptr) this->setstate(std::ios_base::failbit); } }; typedef basic_ipstream<char> ipstream; typedef basic_ipstream<wchar_t> wipstream; /** Implementation of a write pipe stream. * */ template< class CharT, class Traits = std::char_traits<CharT> > class basic_opstream : public std::basic_ostream<CharT, Traits> { mutable basic_pipebuf<CharT, Traits> _buf; public: typedef basic_pipe<CharT, Traits> pipe_type; typedef CharT char_type ; typedef Traits traits_type; typedef typename Traits::int_type int_type ; typedef typename Traits::pos_type pos_type ; typedef typename Traits::off_type off_type ; ///Get access to the underlying stream_buf basic_pipebuf<CharT, Traits>* rdbuf() const {return &_buf;}; ///Default constructor. basic_opstream() : std::basic_ostream<CharT, Traits>(nullptr) { std::basic_ostream<CharT, Traits>::rdbuf(&_buf); }; ///Copy constructor. basic_opstream(const basic_opstream & ) = delete; ///Move constructor. basic_opstream(basic_opstream && lhs) : std::basic_ostream<CharT, Traits>(nullptr), _buf(std::move(lhs._buf)) { std::basic_ostream<CharT, Traits>::rdbuf(&_buf); } ///Move construct from a pipe. basic_opstream(pipe_type && p) : std::basic_ostream<CharT, Traits>(nullptr), _buf(std::move(p)) { std::basic_ostream<CharT, Traits>::rdbuf(&_buf); }; ///Copy construct from a pipe. basic_opstream(const pipe_type & p) : std::basic_ostream<CharT, Traits>(nullptr), _buf(p) { std::basic_ostream<CharT, Traits>::rdbuf(&_buf); }; ///Copy assignment. basic_opstream& operator=(const basic_opstream & ) = delete; ///Move assignment basic_opstream& operator=(basic_opstream && lhs) { std::basic_ostream<CharT, Traits>::operator=(std::move(lhs)); _buf = std::move(lhs._buf); std::basic_ostream<CharT, Traits>::rdbuf(&_buf); return *this; }; ///Move assignment of a pipe. basic_opstream& operator=(pipe_type && p) { _buf = std::move(p); return *this; } ///Copy assignment of a pipe. basic_opstream& operator=(const pipe_type & p) { _buf = p; return *this; } ///Set the pipe of the streambuf. void pipe(pipe_type&& p) {_buf.pipe(std::move(p)); } ///Set the pipe of the streambuf. void pipe(const pipe_type& p) {_buf.pipe(p); } ///Get a reference to the pipe. pipe_type & pipe() & {return _buf.pipe();} ///Get a const reference to the pipe. const pipe_type &pipe() const & {return _buf.pipe();} ///Get a rvalue reference to the pipe. Qualified as rvalue. pipe_type && pipe() && {return std::move(_buf).pipe();} ///Open a new pipe void open() { if (_buf.open() == nullptr) this->setstate(std::ios_base::failbit); else this->clear(); } ///Open a new named pipe void open(const std::string & name) { if (_buf.open() == nullptr) this->setstate(std::ios_base::failbit); else this->clear(); } ///Flush the buffer & close the pipe void close() { if (_buf.close() == nullptr) this->setstate(std::ios_base::failbit); } }; typedef basic_opstream<char> opstream; typedef basic_opstream<wchar_t> wopstream; /** Implementation of a read-write pipe stream. * */ template< class CharT, class Traits = std::char_traits<CharT> > class basic_pstream : public std::basic_iostream<CharT, Traits> { mutable basic_pipebuf<CharT, Traits> _buf; public: typedef basic_pipe<CharT, Traits> pipe_type; typedef CharT char_type ; typedef Traits traits_type; typedef typename Traits::int_type int_type ; typedef typename Traits::pos_type pos_type ; typedef typename Traits::off_type off_type ; ///Get access to the underlying stream_buf basic_pipebuf<CharT, Traits>* rdbuf() const {return &_buf;}; ///Default constructor. basic_pstream() : std::basic_iostream<CharT, Traits>(nullptr) { std::basic_iostream<CharT, Traits>::rdbuf(&_buf); }; ///Copy constructor. basic_pstream(const basic_pstream & ) = delete; ///Move constructor. basic_pstream(basic_pstream && lhs) : std::basic_iostream<CharT, Traits>(nullptr), _buf(std::move(lhs._buf)) { std::basic_iostream<CharT, Traits>::rdbuf(&_buf); } ///Move construct from a pipe. basic_pstream(pipe_type && p) : std::basic_iostream<CharT, Traits>(nullptr), _buf(std::move(p)) { std::basic_iostream<CharT, Traits>::rdbuf(&_buf); }; ///Copy construct from a pipe. basic_pstream(const pipe_type & p) : std::basic_iostream<CharT, Traits>(nullptr), _buf(p) { std::basic_iostream<CharT, Traits>::rdbuf(&_buf); }; ///Copy assignment. basic_pstream& operator=(const basic_pstream & ) = delete; ///Move assignment basic_pstream& operator=(basic_pstream && lhs) { std::basic_istream<CharT, Traits>::operator=(std::move(lhs)); _buf = std::move(lhs._buf); std::basic_iostream<CharT, Traits>::rdbuf(&_buf); return *this; }; ///Move assignment of a pipe. basic_pstream& operator=(pipe_type && p) { _buf = std::move(p); return *this; } ///Copy assignment of a pipe. basic_pstream& operator=(const pipe_type & p) { _buf = p; return *this; } ///Set the pipe of the streambuf. void pipe(pipe_type&& p) {_buf.pipe(std::move(p)); } ///Set the pipe of the streambuf. void pipe(const pipe_type& p) {_buf.pipe(p); } ///Get a reference to the pipe. pipe_type & pipe() & {return _buf.pipe();} ///Get a const reference to the pipe. const pipe_type &pipe() const & {return _buf.pipe();} ///Get a rvalue reference to the pipe. Qualified as rvalue. pipe_type && pipe() && {return std::move(_buf).pipe();} ///Open a new pipe void open() { if (_buf.open() == nullptr) this->setstate(std::ios_base::failbit); else this->clear(); } ///Open a new named pipe void open(const std::string & name) { if (_buf.open() == nullptr) this->setstate(std::ios_base::failbit); else this->clear(); } ///Flush the buffer & close the pipe void close() { if (_buf.close() == nullptr) this->setstate(std::ios_base::failbit); } }; typedef basic_pstream<char> pstream; typedef basic_pstream<wchar_t> wpstream; }} #endif