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authorAlexander Gluzsky <sss123next@list.ru>2013-02-03 12:57:54 +0000
committerAlexander Gluzsky <sss123next@list.ru>2013-02-03 12:57:54 +0000
commitd5be95c522cda2579057a11f5c21458c627a9b40 (patch)
tree48b70ed1c907d3380fee74cfeeb75059c28dcf2c /plugins/New_GPG
parent96cba52e2116953f6c80544ac9cfafbf6bc937b1 (diff)
deleted: src/include/pstream.h
git-svn-id: http://svn.miranda-ng.org/main/trunk@3408 1316c22d-e87f-b044-9b9b-93d7a3e3ba9c
Diffstat (limited to 'plugins/New_GPG')
-rw-r--r--plugins/New_GPG/src/include/pstream.h2095
1 files changed, 0 insertions, 2095 deletions
diff --git a/plugins/New_GPG/src/include/pstream.h b/plugins/New_GPG/src/include/pstream.h
deleted file mode 100644
index c0a1f964dd..0000000000
--- a/plugins/New_GPG/src/include/pstream.h
+++ /dev/null
@@ -1,2095 +0,0 @@
-/* $Id: pstream.h,v 1.112 2010/03/20 14:50:47 redi Exp $
-PStreams - POSIX Process I/O for C++
-Copyright (C) 2001,2002,2003,2004,2005,2006,2007,2008 Jonathan Wakely
-
-This file is part of PStreams.
-
-PStreams is free software; you can redistribute it and/or modify
-it under the terms of the GNU Lesser General Public License as published by
-the Free Software Foundation; either version 3 of the License, or
-(at your option) any later version.
-
-PStreams is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-GNU Lesser General Public License for more details.
-
-You should have received a copy of the GNU Lesser General Public License
-along with this program. If not, see <http://www.gnu.org/licenses/>.
-*/
-
-/**
- * @file pstream.h
- * @brief Declares all PStreams classes.
- * @author Jonathan Wakely
- *
- * Defines classes redi::ipstream, redi::opstream, redi::pstream
- * and redi::rpstream.
- */
-
-#ifndef REDI_PSTREAM_H_SEEN
-#define REDI_PSTREAM_H_SEEN
-
-#include <ios>
-#include <streambuf>
-#include <istream>
-#include <ostream>
-#include <string>
-#include <vector>
-#include <algorithm> // for min()
-#include <cerrno> // for errno
-#include <cstddef> // for size_t
-#include <cstdlib> // for exit()
-#include <sys/types.h> // for pid_t
-#include <sys/wait.h> // for waitpid()
-#include <sys/ioctl.h> // for ioctl() and FIONREAD
-#if defined(__sun)
-# include <sys/filio.h> // for FIONREAD on Solaris 2.5
-#endif
-#include <unistd.h> // for pipe() fork() exec() and filedes functions
-#include <signal.h> // for kill()
-#include <fcntl.h> // for fcntl()
-#if REDI_EVISCERATE_PSTREAMS
-# include <stdio.h> // for FILE, fdopen()
-#endif
-
-
-/// The library version.
-#define PSTREAMS_VERSION 0x0070 // 0.7.0
-
-/**
- * @namespace redi
- * @brief All PStreams classes are declared in namespace redi.
- *
- * Like the standard iostreams, PStreams is a set of class templates,
- * taking a character type and traits type. As with the standard streams
- * they are most likely to be used with @c char and the default
- * traits type, so typedefs for this most common case are provided.
- *
- * The @c pstream_common class template is not intended to be used directly,
- * it is used internally to provide the common functionality for the
- * other stream classes.
- */
-namespace redi
-{
- /// Common base class providing constants and typenames.
- struct pstreams
- {
- /// Type used to specify how to connect to the process.
- typedef std::ios_base::openmode pmode;
-
- /// Type used to hold the arguments for a command.
- typedef std::vector<std::string> argv_type;
-
- /// Type used for file descriptors.
- typedef int fd_type;
-
- static const pmode pstdin = std::ios_base::out; ///< Write to stdin
- static const pmode pstdout = std::ios_base::in; ///< Read from stdout
- static const pmode pstderr = std::ios_base::app; ///< Read from stderr
-
- protected:
- enum { bufsz = 32 }; ///< Size of pstreambuf buffers.
- enum { pbsz = 2 }; ///< Number of putback characters kept.
- };
-
- /// Class template for stream buffer.
- template <typename CharT, typename Traits = std::char_traits<CharT> >
- class basic_pstreambuf
- : public std::basic_streambuf<CharT, Traits>
- , public pstreams
- {
- public:
- // Type definitions for dependent types
- typedef CharT char_type;
- typedef Traits traits_type;
- typedef typename traits_type::int_type int_type;
- typedef typename traits_type::off_type off_type;
- typedef typename traits_type::pos_type pos_type;
- /** @deprecated use pstreams::fd_type instead. */
- typedef fd_type fd_t;
-
- /// Default constructor.
- basic_pstreambuf();
-
- /// Constructor that initialises the buffer with @a command.
- basic_pstreambuf(const std::string& command, pmode mode);
-
- /// Constructor that initialises the buffer with @a file and @a argv.
- basic_pstreambuf( const std::string& file,
- const argv_type& argv,
- pmode mode );
-
- /// Destructor.
- ~basic_pstreambuf();
-
- /// Initialise the stream buffer with @a command.
- basic_pstreambuf*
- open(const std::string& command, pmode mode);
-
- /// Initialise the stream buffer with @a file and @a argv.
- basic_pstreambuf*
- open(const std::string& file, const argv_type& argv, pmode mode);
-
- /// Close the stream buffer and wait for the process to exit.
- basic_pstreambuf*
- close();
-
- /// Send a signal to the process.
- basic_pstreambuf*
- kill(int signal = SIGTERM);
-
- /// Close the pipe connected to the process' stdin.
- void
- peof();
-
- /// Change active input source.
- bool
- read_err(bool readerr = true);
-
- /// Report whether the stream buffer has been initialised.
- bool
- is_open() const;
-
- /// Report whether the process has exited.
- bool
- exited();
-
-#if REDI_EVISCERATE_PSTREAMS
- /// Obtain FILE pointers for each of the process' standard streams.
- std::size_t
- fopen(FILE*& in, FILE*& out, FILE*& err);
-#endif
-
- /// Return the exit status of the process.
- int
- status() const;
-
- /// Return the error number (errno) for the most recent failed operation.
- int
- error() const;
-
- protected:
- /// Transfer characters to the pipe when character buffer overflows.
- int_type
- overflow(int_type c);
-
- /// Transfer characters from the pipe when the character buffer is empty.
- int_type
- underflow();
-
- /// Make a character available to be returned by the next extraction.
- int_type
- pbackfail(int_type c = traits_type::eof());
-
- /// Write any buffered characters to the stream.
- int
- sync();
-
- /// Insert multiple characters into the pipe.
- std::streamsize
- xsputn(const char_type* s, std::streamsize n);
-
- /// Insert a sequence of characters into the pipe.
- std::streamsize
- write(const char_type* s, std::streamsize n);
-
- /// Extract a sequence of characters from the pipe.
- std::streamsize
- read(char_type* s, std::streamsize n);
-
- /// Report how many characters can be read from active input without blocking.
- std::streamsize
- showmanyc();
-
- protected:
- /// Enumerated type to indicate whether stdout or stderr is to be read.
- enum buf_read_src { rsrc_out = 0, rsrc_err = 1 };
-
- /// Initialise pipes and fork process.
- pid_t
- fork(pmode mode);
-
- /// Wait for the child process to exit.
- int
- wait(bool nohang = false);
-
- /// Return the file descriptor for the output pipe.
- fd_type&
- wpipe();
-
- /// Return the file descriptor for the active input pipe.
- fd_type&
- rpipe();
-
- /// Return the file descriptor for the specified input pipe.
- fd_type&
- rpipe(buf_read_src which);
-
- void
- create_buffers(pmode mode);
-
- void
- destroy_buffers(pmode mode);
-
- /// Writes buffered characters to the process' stdin pipe.
- bool
- empty_buffer();
-
- bool
- fill_buffer(bool non_blocking = false);
-
- /// Return the active input buffer.
- char_type*
- rbuffer();
-
- buf_read_src
- switch_read_buffer(buf_read_src);
-
- private:
- basic_pstreambuf(const basic_pstreambuf&);
- basic_pstreambuf& operator=(const basic_pstreambuf&);
-
- void
- init_rbuffers();
-
- pid_t ppid_; // pid of process
- fd_type wpipe_; // pipe used to write to process' stdin
- fd_type rpipe_[2]; // two pipes to read from, stdout and stderr
- char_type* wbuffer_;
- char_type* rbuffer_[2];
- char_type* rbufstate_[3];
- /// Index into rpipe_[] to indicate active source for read operations.
- buf_read_src rsrc_;
- int status_; // hold exit status of child process
- int error_; // hold errno if fork() or exec() fails
- };
-
- /// Class template for common base class.
- template <typename CharT, typename Traits = std::char_traits<CharT> >
- class pstream_common
- : virtual public std::basic_ios<CharT, Traits>
- , virtual public pstreams
- {
- protected:
- typedef basic_pstreambuf<CharT, Traits> streambuf_type;
-
- typedef pstreams::pmode pmode;
- typedef pstreams::argv_type argv_type;
-
- /// Default constructor.
- pstream_common();
-
- /// Constructor that initialises the stream by starting a process.
- pstream_common(const std::string& command, pmode mode);
-
- /// Constructor that initialises the stream by starting a process.
- pstream_common(const std::string& file, const argv_type& argv, pmode mode);
-
- /// Pure virtual destructor.
- virtual
- ~pstream_common() = 0;
-
- /// Start a process.
- void
- do_open(const std::string& command, pmode mode);
-
- /// Start a process.
- void
- do_open(const std::string& file, const argv_type& argv, pmode mode);
-
- public:
- /// Close the pipe.
- void
- close();
-
- /// Report whether the stream's buffer has been initialised.
- bool
- is_open() const;
-
- /// Return the command used to initialise the stream.
- const std::string&
- command() const;
-
- /// Return a pointer to the stream buffer.
- streambuf_type*
- rdbuf() const;
-
-#if REDI_EVISCERATE_PSTREAMS
- /// Obtain FILE pointers for each of the process' standard streams.
- std::size_t
- fopen(FILE*& in, FILE*& out, FILE*& err);
-#endif
-
- protected:
- std::string command_; ///< The command used to start the process.
- streambuf_type buf_; ///< The stream buffer.
- };
-
-
- /**
- * @class basic_ipstream
- * @brief Class template for Input PStreams.
- *
- * Reading from an ipstream reads the command's standard output and/or
- * standard error (depending on how the ipstream is opened)
- * and the command's standard input is the same as that of the process
- * that created the object, unless altered by the command itself.
- */
-
- template <typename CharT, typename Traits = std::char_traits<CharT> >
- class basic_ipstream
- : public std::basic_istream<CharT, Traits>
- , public pstream_common<CharT, Traits>
- , virtual public pstreams
- {
- typedef std::basic_istream<CharT, Traits> istream_type;
- typedef pstream_common<CharT, Traits> pbase_type;
-
- using pbase_type::buf_; // declare name in this scope
-
- pmode readable(pmode mode)
- {
- if (!(mode & (pstdout|pstderr)))
- mode |= pstdout;
- return mode;
- }
-
- public:
- /// Type used to specify how to connect to the process.
- typedef typename pbase_type::pmode pmode;
-
- /// Type used to hold the arguments for a command.
- typedef typename pbase_type::argv_type argv_type;
-
- /// Default constructor, creates an uninitialised stream.
- basic_ipstream()
- : istream_type(NULL), pbase_type()
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- basic_ipstream(const std::string& command, pmode mode = pstdout)
- : istream_type(NULL), pbase_type(command, readable(mode))
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- basic_ipstream( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdout )
- : istream_type(NULL), pbase_type(file, argv, readable(mode))
- { }
-
- /**
- * @brief Destructor.
- *
- * Closes the stream and waits for the child to exit.
- */
- ~basic_ipstream()
- { }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a %command , @a mode|pstdout ).
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- void
- open(const std::string& command, pmode mode = pstdout)
- {
- this->do_open(command, readable(mode));
- }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a file , @a argv , @a mode|pstdout ).
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- void
- open( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdout )
- {
- this->do_open(file, argv, readable(mode));
- }
-
- /**
- * @brief Set streambuf to read from process' @c stdout.
- * @return @c *this
- */
- basic_ipstream&
- out()
- {
- this->buf_.read_err(false);
- return *this;
- }
-
- /**
- * @brief Set streambuf to read from process' @c stderr.
- * @return @c *this
- */
- basic_ipstream&
- err()
- {
- this->buf_.read_err(true);
- return *this;
- }
- };
-
-
- /**
- * @class basic_opstream
- * @brief Class template for Output PStreams.
- *
- * Writing to an open opstream writes to the standard input of the command;
- * the command's standard output is the same as that of the process that
- * created the pstream object, unless altered by the command itself.
- */
-
- template <typename CharT, typename Traits = std::char_traits<CharT> >
- class basic_opstream
- : public std::basic_ostream<CharT, Traits>
- , public pstream_common<CharT, Traits>
- , virtual public pstreams
- {
- typedef std::basic_ostream<CharT, Traits> ostream_type;
- typedef pstream_common<CharT, Traits> pbase_type;
-
- using pbase_type::buf_; // declare name in this scope
-
- public:
- /// Type used to specify how to connect to the process.
- typedef typename pbase_type::pmode pmode;
-
- /// Type used to hold the arguments for a command.
- typedef typename pbase_type::argv_type argv_type;
-
- /// Default constructor, creates an uninitialised stream.
- basic_opstream()
- : ostream_type(NULL), pbase_type()
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- basic_opstream(const std::string& command, pmode mode = pstdin)
- : ostream_type(NULL), pbase_type(command, mode|pstdin)
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- basic_opstream( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdin )
- : ostream_type(NULL), pbase_type(file, argv, mode|pstdin)
- { }
-
- /**
- * @brief Destructor
- *
- * Closes the stream and waits for the child to exit.
- */
- ~basic_opstream() { }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a %command , @a mode|pstdin ).
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- void
- open(const std::string& command, pmode mode = pstdin)
- {
- this->do_open(command, mode|pstdin);
- }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a file , @a argv , @a mode|pstdin ).
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- void
- open( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdin)
- {
- this->do_open(file, argv, mode|pstdin);
- }
- };
-
-
- /**
- * @class basic_pstream
- * @brief Class template for Bidirectional PStreams.
- *
- * Writing to a pstream opened with @c pmode @c pstdin writes to the
- * standard input of the command.
- * Reading from a pstream opened with @c pmode @c pstdout and/or @c pstderr
- * reads the command's standard output and/or standard error.
- * Any of the process' @c stdin, @c stdout or @c stderr that is not
- * connected to the pstream (as specified by the @c pmode)
- * will be the same as the process that created the pstream object,
- * unless altered by the command itself.
- */
- template <typename CharT, typename Traits = std::char_traits<CharT> >
- class basic_pstream
- : public std::basic_iostream<CharT, Traits>
- , public pstream_common<CharT, Traits>
- , virtual public pstreams
- {
- typedef std::basic_iostream<CharT, Traits> iostream_type;
- typedef pstream_common<CharT, Traits> pbase_type;
-
- using pbase_type::buf_; // declare name in this scope
-
- public:
- /// Type used to specify how to connect to the process.
- typedef typename pbase_type::pmode pmode;
-
- /// Type used to hold the arguments for a command.
- typedef typename pbase_type::argv_type argv_type;
-
- /// Default constructor, creates an uninitialised stream.
- basic_pstream()
- : iostream_type(NULL), pbase_type()
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- basic_pstream(const std::string& command, pmode mode = pstdout|pstdin)
- : iostream_type(NULL), pbase_type(command, mode)
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- basic_pstream( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdout|pstdin )
- : iostream_type(NULL), pbase_type(file, argv, mode)
- { }
-
- /**
- * @brief Destructor
- *
- * Closes the stream and waits for the child to exit.
- */
- ~basic_pstream() { }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a %command , @a mode ).
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- void
- open(const std::string& command, pmode mode = pstdout|pstdin)
- {
- this->do_open(command, mode);
- }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a file , @a argv , @a mode ).
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- void
- open( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdout|pstdin )
- {
- this->do_open(file, argv, mode);
- }
-
- /**
- * @brief Set streambuf to read from process' @c stdout.
- * @return @c *this
- */
- basic_pstream&
- out()
- {
- this->buf_.read_err(false);
- return *this;
- }
-
- /**
- * @brief Set streambuf to read from process' @c stderr.
- * @return @c *this
- */
- basic_pstream&
- err()
- {
- this->buf_.read_err(true);
- return *this;
- }
- };
-
-
- /**
- * @class basic_rpstream
- * @brief template for Restricted PStreams.
- *
- * Writing to an rpstream opened with @c pmode @c pstdin writes to the
- * standard input of the command.
- * It is not possible to read directly from an rpstream object, to use
- * an rpstream as in istream you must call either basic_rpstream::out()
- * or basic_rpstream::err(). This is to prevent accidental reads from
- * the wrong input source. If the rpstream was not opened with @c pmode
- * @c pstderr then the class cannot read the process' @c stderr, and
- * basic_rpstream::err() will return an istream that reads from the
- * process' @c stdout, and vice versa.
- * Reading from an rpstream opened with @c pmode @c pstdout and/or
- * @c pstderr reads the command's standard output and/or standard error.
- * Any of the process' @c stdin, @c stdout or @c stderr that is not
- * connected to the pstream (as specified by the @c pmode)
- * will be the same as the process that created the pstream object,
- * unless altered by the command itself.
- */
-
- template <typename CharT, typename Traits = std::char_traits<CharT> >
- class basic_rpstream
- : public std::basic_ostream<CharT, Traits>
- , private std::basic_istream<CharT, Traits>
- , private pstream_common<CharT, Traits>
- , virtual public pstreams
- {
- typedef std::basic_ostream<CharT, Traits> ostream_type;
- typedef std::basic_istream<CharT, Traits> istream_type;
- typedef pstream_common<CharT, Traits> pbase_type;
-
- using pbase_type::buf_; // declare name in this scope
-
- public:
- /// Type used to specify how to connect to the process.
- typedef typename pbase_type::pmode pmode;
-
- /// Type used to hold the arguments for a command.
- typedef typename pbase_type::argv_type argv_type;
-
- /// Default constructor, creates an uninitialised stream.
- basic_rpstream()
- : ostream_type(NULL), istream_type(NULL), pbase_type()
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- basic_rpstream(const std::string& command, pmode mode = pstdout|pstdin)
- : ostream_type(NULL) , istream_type(NULL) , pbase_type(command, mode)
- { }
-
- /**
- * @brief Constructor that initialises the stream by starting a process.
- *
- * Initialises the stream buffer by calling do_open() with the supplied
- * arguments.
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- basic_rpstream( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdout|pstdin )
- : ostream_type(NULL), istream_type(NULL), pbase_type(file, argv, mode)
- { }
-
- /// Destructor
- ~basic_rpstream() { }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a %command , @a mode ).
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- void
- open(const std::string& command, pmode mode = pstdout|pstdin)
- {
- this->do_open(command, mode);
- }
-
- /**
- * @brief Start a process.
- *
- * Calls do_open( @a file , @a argv , @a mode ).
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- void
- open( const std::string& file,
- const argv_type& argv,
- pmode mode = pstdout|pstdin )
- {
- this->do_open(file, argv, mode);
- }
-
- /**
- * @brief Obtain a reference to the istream that reads
- * the process' @c stdout.
- * @return @c *this
- */
- istream_type&
- out()
- {
- this->buf_.read_err(false);
- return *this;
- }
-
- /**
- * @brief Obtain a reference to the istream that reads
- * the process' @c stderr.
- * @return @c *this
- */
- istream_type&
- err()
- {
- this->buf_.read_err(true);
- return *this;
- }
- };
-
-
- /// Type definition for common template specialisation.
- typedef basic_pstreambuf<char> pstreambuf;
- /// Type definition for common template specialisation.
- typedef basic_ipstream<char> ipstream;
- /// Type definition for common template specialisation.
- typedef basic_opstream<char> opstream;
- /// Type definition for common template specialisation.
- typedef basic_pstream<char> pstream;
- /// Type definition for common template specialisation.
- typedef basic_rpstream<char> rpstream;
-
-
- /**
- * When inserted into an output pstream the manipulator calls
- * basic_pstreambuf<C,T>::peof() to close the output pipe,
- * causing the child process to receive the end-of-file indicator
- * on subsequent reads from its @c stdin stream.
- *
- * @brief Manipulator to close the pipe connected to the process' stdin.
- * @param s An output PStream class.
- * @return The stream object the manipulator was invoked on.
- * @see basic_pstreambuf<C,T>::peof()
- * @relates basic_opstream basic_pstream basic_rpstream
- */
- template <typename C, typename T>
- inline std::basic_ostream<C,T>&
- peof(std::basic_ostream<C,T>& s)
- {
- typedef basic_pstreambuf<C,T> pstreambuf;
- if (pstreambuf* p = dynamic_cast<pstreambuf*>(s.rdbuf()))
- p->peof();
- return s;
- }
-
-
- /*
- * member definitions for pstreambuf
- */
-
-
- /**
- * @class basic_pstreambuf
- * Provides underlying streambuf functionality for the PStreams classes.
- */
-
- /** Creates an uninitialised stream buffer. */
- template <typename C, typename T>
- inline
- basic_pstreambuf<C,T>::basic_pstreambuf()
- : ppid_(-1) // initialise to -1 to indicate no process run yet.
- , wpipe_(-1)
- , wbuffer_(NULL)
- , rsrc_(rsrc_out)
- , status_(-1)
- , error_(0)
- {
- init_rbuffers();
- }
-
- /**
- * Initialises the stream buffer by calling open() with the supplied
- * arguments.
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see open()
- */
- template <typename C, typename T>
- inline
- basic_pstreambuf<C,T>::basic_pstreambuf(const std::string& command, pmode mode)
- : ppid_(-1) // initialise to -1 to indicate no process run yet.
- , wpipe_(-1)
- , wbuffer_(NULL)
- , rsrc_(rsrc_out)
- , status_(-1)
- , error_(0)
- {
- init_rbuffers();
- open(command, mode);
- }
-
- /**
- * Initialises the stream buffer by calling open() with the supplied
- * arguments.
- *
- * @param file a string containing the name of a program to execute.
- * @param argv a vector of argument strings passsed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see open()
- */
- template <typename C, typename T>
- inline
- basic_pstreambuf<C,T>::basic_pstreambuf( const std::string& file,
- const argv_type& argv,
- pmode mode )
- : ppid_(-1) // initialise to -1 to indicate no process run yet.
- , wpipe_(-1)
- , wbuffer_(NULL)
- , rsrc_(rsrc_out)
- , status_(-1)
- , error_(0)
- {
- init_rbuffers();
- open(file, argv, mode);
- }
-
- /**
- * Closes the stream by calling close().
- * @see close()
- */
- template <typename C, typename T>
- inline
- basic_pstreambuf<C,T>::~basic_pstreambuf()
- {
- close();
- }
-
- /**
- * Starts a new process by passing @a command to the shell (/bin/sh)
- * and opens pipes to the process with the specified @a mode.
- *
- * If @a mode contains @c pstdout the initial read source will be
- * the child process' stdout, otherwise if @a mode contains @c pstderr
- * the initial read source will be the child's stderr.
- *
- * Will duplicate the actions of the shell in searching for an
- * executable file if the specified file name does not contain a slash (/)
- * character.
- *
- * @warning
- * There is no way to tell whether the shell command succeeded, this
- * function will always succeed unless resource limits (such as
- * memory usage, or number of processes or open files) are exceeded.
- * This means is_open() will return true even if @a command cannot
- * be executed.
- * Use pstreambuf::open(const std::string&, const argv_type&, pmode)
- * if you need to know whether the command failed to execute.
- *
- * @param command a string containing a shell command.
- * @param mode a bitwise OR of one or more of @c out, @c in, @c err.
- * @return NULL if the shell could not be started or the
- * pipes could not be opened, @c this otherwise.
- * @see <b>execl</b>(3)
- */
- template <typename C, typename T>
- basic_pstreambuf<C,T>*
- basic_pstreambuf<C,T>::open(const std::string& command, pmode mode)
- {
- const char * shell_path = "/bin/sh";
-#if 0
- const std::string argv[] = { "sh", "-c", command };
- return this->open(shell_path, argv_type(argv, argv+3), mode);
-#else
- basic_pstreambuf<C,T>* ret = NULL;
-
- if (!is_open())
- {
- switch(fork(mode))
- {
- case 0 :
- // this is the new process, exec command
- ::execl(shell_path, "sh", "-c", command.c_str(), (char*)NULL);
-
- // can only reach this point if exec() failed
-
- // parent can get exit code from waitpid()
- ::_exit(errno);
- // using std::exit() would make static dtors run twice
-
- case -1 :
- // couldn't fork, error already handled in pstreambuf::fork()
- break;
-
- default :
- // this is the parent process
- // activate buffers
- create_buffers(mode);
- ret = this;
- }
- }
- return ret;
-#endif
- }
-
- /**
- * @brief Helper function to close a file descriptor.
- *
- * Inspects @a fd and calls <b>close</b>(3) if it has a non-negative value.
- *
- * @param fd a file descriptor.
- * @relates basic_pstreambuf
- */
- inline void
- close_fd(pstreams::fd_type& fd)
- {
- if (fd >= 0 && ::close(fd) == 0)
- fd = -1;
- }
-
- /**
- * @brief Helper function to close an array of file descriptors.
- *
- * Calls @c close_fd() on each member of the array.
- * The length of the array is determined automatically by
- * template argument deduction to avoid errors.
- *
- * @param fds an array of file descriptors.
- * @relates basic_pstreambuf
- */
- template <int N>
- inline void
- close_fd_array(pstreams::fd_type (&fds)[N])
- {
- for (std::size_t i = 0; i < N; ++i)
- close_fd(fds[i]);
- }
-
- /**
- * Starts a new process by executing @a file with the arguments in
- * @a argv and opens pipes to the process with the specified @a mode.
- *
- * By convention @c argv[0] should be the file name of the file being
- * executed.
- *
- * If @a mode contains @c pstdout the initial read source will be
- * the child process' stdout, otherwise if @a mode contains @c pstderr
- * the initial read source will be the child's stderr.
- *
- * Will duplicate the actions of the shell in searching for an
- * executable file if the specified file name does not contain a slash (/)
- * character.
- *
- * Iff @a file is successfully executed then is_open() will return true.
- * Otherwise, pstreambuf::error() can be used to obtain the value of
- * @c errno that was set by <b>execvp</b>(3) in the child process.
- *
- * The exit status of the new process will be returned by
- * pstreambuf::status() after pstreambuf::exited() returns true.
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode a bitwise OR of one or more of @c out, @c in and @c err.
- * @return NULL if a pipe could not be opened or if the program could
- * not be executed, @c this otherwise.
- * @see <b>execvp</b>(3)
- */
- template <typename C, typename T>
- basic_pstreambuf<C,T>*
- basic_pstreambuf<C,T>::open( const std::string& file,
- const argv_type& argv,
- pmode mode )
- {
- basic_pstreambuf<C,T>* ret = NULL;
-
- if (!is_open())
- {
- // constants for read/write ends of pipe
- enum { RD, WR };
-
- // open another pipe and set close-on-exec
- fd_type ck_exec[] = { -1, -1 };
- if (-1 == ::pipe(ck_exec)
- || -1 == ::fcntl(ck_exec[RD], F_SETFD, FD_CLOEXEC)
- || -1 == ::fcntl(ck_exec[WR], F_SETFD, FD_CLOEXEC))
- {
- error_ = errno;
- close_fd_array(ck_exec);
- }
- else
- {
- switch(fork(mode))
- {
- case 0 :
- // this is the new process, exec command
- {
- char** arg_v = new char*[argv.size()+1];
- for (std::size_t i = 0; i < argv.size(); ++i)
- {
- const std::string& src = argv[i];
- char*& dest = arg_v[i];
- dest = new char[src.size()+1];
- dest[ src.copy(dest, src.size()) ] = '\0';
- }
- arg_v[argv.size()] = NULL;
-
- ::execvp(file.c_str(), arg_v);
-
- // can only reach this point if exec() failed
-
- // parent can get error code from ck_exec pipe
- error_ = errno;
-
- ::write(ck_exec[WR], &error_, sizeof(error_));
- ::close(ck_exec[WR]);
- ::close(ck_exec[RD]);
-
- ::_exit(error_);
- // using std::exit() would make static dtors run twice
- }
-
- case -1 :
- // couldn't fork, error already handled in pstreambuf::fork()
- close_fd_array(ck_exec);
- break;
-
- default :
- // this is the parent process
-
- // check child called exec() successfully
- ::close(ck_exec[WR]);
- switch (::read(ck_exec[RD], &error_, sizeof(error_)))
- {
- case 0:
- // activate buffers
- create_buffers(mode);
- ret = this;
- break;
- case -1:
- error_ = errno;
- break;
- default:
- // error_ contains error code from child
- // call wait() to clean up and set ppid_ to 0
- this->wait();
- break;
- }
- ::close(ck_exec[RD]);
- }
- }
- }
- return ret;
- }
-
- /**
- * Creates pipes as specified by @a mode and calls @c fork() to create
- * a new process. If the fork is successful the parent process stores
- * the child's PID and the opened pipes and the child process replaces
- * its standard streams with the opened pipes.
- *
- * If an error occurs the error code will be set to one of the possible
- * errors for @c pipe() or @c fork().
- * See your system's documentation for these error codes.
- *
- * @param mode an OR of pmodes specifying which of the child's
- * standard streams to connect to.
- * @return On success the PID of the child is returned in the parent's
- * context and zero is returned in the child's context.
- * On error -1 is returned and the error code is set appropriately.
- */
- template <typename C, typename T>
- pid_t
- basic_pstreambuf<C,T>::fork(pmode mode)
- {
- pid_t pid = -1;
-
- // Three pairs of file descriptors, for pipes connected to the
- // process' stdin, stdout and stderr
- // (stored in a single array so close_fd_array() can close all at once)
- fd_type fd[] = { -1, -1, -1, -1, -1, -1 };
- fd_type* const pin = fd;
- fd_type* const pout = fd+2;
- fd_type* const perr = fd+4;
-
- // constants for read/write ends of pipe
- enum { RD, WR };
-
- // N.B.
- // For the pstreambuf pin is an output stream and
- // pout and perr are input streams.
-
- if (!error_ && mode&pstdin && ::pipe(pin))
- error_ = errno;
-
- if (!error_ && mode&pstdout && ::pipe(pout))
- error_ = errno;
-
- if (!error_ && mode&pstderr && ::pipe(perr))
- error_ = errno;
-
- if (!error_)
- {
- pid = ::fork();
- switch (pid)
- {
- case 0 :
- {
- // this is the new process
-
- // for each open pipe close one end and redirect the
- // respective standard stream to the other end
-
- if (*pin >= 0)
- {
- ::close(pin[WR]);
- ::dup2(pin[RD], STDIN_FILENO);
- ::close(pin[RD]);
- }
- if (*pout >= 0)
- {
- ::close(pout[RD]);
- ::dup2(pout[WR], STDOUT_FILENO);
- ::close(pout[WR]);
- }
- if (*perr >= 0)
- {
- ::close(perr[RD]);
- ::dup2(perr[WR], STDERR_FILENO);
- ::close(perr[WR]);
- }
- break;
- }
- case -1 :
- {
- // couldn't fork for some reason
- error_ = errno;
- // close any open pipes
- close_fd_array(fd);
- break;
- }
- default :
- {
- // this is the parent process, store process' pid
- ppid_ = pid;
-
- // store one end of open pipes and close other end
- if (*pin >= 0)
- {
- wpipe_ = pin[WR];
- ::close(pin[RD]);
- }
- if (*pout >= 0)
- {
- rpipe_[rsrc_out] = pout[RD];
- ::close(pout[WR]);
- }
- if (*perr >= 0)
- {
- rpipe_[rsrc_err] = perr[RD];
- ::close(perr[WR]);
- }
- }
- }
- }
- else
- {
- // close any pipes we opened before failure
- close_fd_array(fd);
- }
- return pid;
- }
-
- /**
- * Closes all pipes and calls wait() to wait for the process to finish.
- * If an error occurs the error code will be set to one of the possible
- * errors for @c waitpid().
- * See your system's documentation for these errors.
- *
- * @return @c this on successful close or @c NULL if there is no
- * process to close or if an error occurs.
- */
- template <typename C, typename T>
- basic_pstreambuf<C,T>*
- basic_pstreambuf<C,T>::close()
- {
- const bool running = is_open();
-
- sync(); // this might call wait() and reap the child process
-
- // rather than trying to work out whether or not we need to clean up
- // just do it anyway, all cleanup functions are safe to call twice.
-
- destroy_buffers(pstdin|pstdout|pstderr);
-
- // close pipes before wait() so child gets EOF/SIGPIPE
- close_fd(wpipe_);
- close_fd_array(rpipe_);
-
- do
- {
- error_ = 0;
- } while (wait() == -1 && error() == EINTR);
-
- return running ? this : NULL;
- }
-
- /**
- * Called on construction to initialise the arrays used for reading.
- */
- template <typename C, typename T>
- inline void
- basic_pstreambuf<C,T>::init_rbuffers()
- {
- rpipe_[rsrc_out] = rpipe_[rsrc_err] = -1;
- rbuffer_[rsrc_out] = rbuffer_[rsrc_err] = NULL;
- rbufstate_[0] = rbufstate_[1] = rbufstate_[2] = NULL;
- }
-
- template <typename C, typename T>
- void
- basic_pstreambuf<C,T>::create_buffers(pmode mode)
- {
- if (mode & pstdin)
- {
- delete[] wbuffer_;
- wbuffer_ = new char_type[bufsz];
- this->setp(wbuffer_, wbuffer_ + bufsz);
- }
- if (mode & pstdout)
- {
- delete[] rbuffer_[rsrc_out];
- rbuffer_[rsrc_out] = new char_type[bufsz];
- rsrc_ = rsrc_out;
- this->setg(rbuffer_[rsrc_out] + pbsz, rbuffer_[rsrc_out] + pbsz,
- rbuffer_[rsrc_out] + pbsz);
- }
- if (mode & pstderr)
- {
- delete[] rbuffer_[rsrc_err];
- rbuffer_[rsrc_err] = new char_type[bufsz];
- if (!(mode & pstdout))
- {
- rsrc_ = rsrc_err;
- this->setg(rbuffer_[rsrc_err] + pbsz, rbuffer_[rsrc_err] + pbsz,
- rbuffer_[rsrc_err] + pbsz);
- }
- }
- }
-
- template <typename C, typename T>
- void
- basic_pstreambuf<C,T>::destroy_buffers(pmode mode)
- {
- if (mode & pstdin)
- {
- this->setp(NULL, NULL);
- delete[] wbuffer_;
- wbuffer_ = NULL;
- }
- if (mode & pstdout)
- {
- if (rsrc_ == rsrc_out)
- this->setg(NULL, NULL, NULL);
- delete[] rbuffer_[rsrc_out];
- rbuffer_[rsrc_out] = NULL;
- }
- if (mode & pstderr)
- {
- if (rsrc_ == rsrc_err)
- this->setg(NULL, NULL, NULL);
- delete[] rbuffer_[rsrc_err];
- rbuffer_[rsrc_err] = NULL;
- }
- }
-
- template <typename C, typename T>
- typename basic_pstreambuf<C,T>::buf_read_src
- basic_pstreambuf<C,T>::switch_read_buffer(buf_read_src src)
- {
- if (rsrc_ != src)
- {
- char_type* tmpbufstate[] = {this->eback(), this->gptr(), this->egptr()};
- this->setg(rbufstate_[0], rbufstate_[1], rbufstate_[2]);
- for (std::size_t i = 0; i < 3; ++i)
- rbufstate_[i] = tmpbufstate[i];
- rsrc_ = src;
- }
- return rsrc_;
- }
-
- /**
- * Suspends execution and waits for the associated process to exit, or
- * until a signal is delivered whose action is to terminate the current
- * process or to call a signal handling function. If the process has
- * already exited (i.e. it is a "zombie" process) then wait() returns
- * immediately. Waiting for the child process causes all its system
- * resources to be freed.
- *
- * error() will return EINTR if wait() is interrupted by a signal.
- *
- * @param nohang true to return immediately if the process has not exited.
- * @return 1 if the process has exited and wait() has not yet been called.
- * 0 if @a nohang is true and the process has not exited yet.
- * -1 if no process has been started or if an error occurs,
- * in which case the error can be found using error().
- */
- template <typename C, typename T>
- int
- basic_pstreambuf<C,T>::wait(bool nohang)
- {
- int exited = -1;
- if (is_open())
- {
- int status;
- switch(::waitpid(ppid_, &status, nohang ? WNOHANG : 0))
- {
- case 0 :
- // nohang was true and process has not exited
- exited = 0;
- break;
- case -1 :
- error_ = errno;
- break;
- default :
- // process has exited
- ppid_ = 0;
- status_ = status;
- exited = 1;
- // Close wpipe, would get SIGPIPE if we used it.
- destroy_buffers(pstdin);
- close_fd(wpipe_);
- // Must free read buffers and pipes on destruction
- // or next call to open()/close()
- break;
- }
- }
- return exited;
- }
-
- /**
- * Sends the specified signal to the process. A signal can be used to
- * terminate a child process that would not exit otherwise.
- *
- * If an error occurs the error code will be set to one of the possible
- * errors for @c kill(). See your system's documentation for these errors.
- *
- * @param signal A signal to send to the child process.
- * @return @c this or @c NULL if @c kill() fails.
- */
- template <typename C, typename T>
- inline basic_pstreambuf<C,T>*
- basic_pstreambuf<C,T>::kill(int signal)
- {
- basic_pstreambuf<C,T>* ret = NULL;
- if (is_open())
- {
- if (::kill(ppid_, signal))
- error_ = errno;
- else
- {
-#if 0
- // TODO call exited() to check for exit and clean up? leave to user?
- if (signal==SIGTERM || signal==SIGKILL)
- this->exited();
-#endif
- ret = this;
- }
- }
- return ret;
- }
-
- /**
- * This function can call pstreambuf::wait() and so may change the
- * object's state if the child process has already exited.
- *
- * @return True if the associated process has exited, false otherwise.
- * @see basic_pstreambuf<C,T>::wait()
- */
- template <typename C, typename T>
- inline bool
- basic_pstreambuf<C,T>::exited()
- {
- return ppid_ == 0 || wait(true)==1;
- }
-
-
- /**
- * @return The exit status of the child process, or -1 if wait()
- * has not yet been called to wait for the child to exit.
- * @see basic_pstreambuf<C,T>::wait()
- */
- template <typename C, typename T>
- inline int
- basic_pstreambuf<C,T>::status() const
- {
- return status_;
- }
-
- /**
- * @return The error code of the most recently failed operation, or zero.
- */
- template <typename C, typename T>
- inline int
- basic_pstreambuf<C,T>::error() const
- {
- return error_;
- }
-
- /**
- * Closes the output pipe, causing the child process to receive the
- * end-of-file indicator on subsequent reads from its @c stdin stream.
- */
- template <typename C, typename T>
- inline void
- basic_pstreambuf<C,T>::peof()
- {
- sync();
- destroy_buffers(pstdin);
- close_fd(wpipe_);
- }
-
- /**
- * Unlike pstreambuf::exited(), this function will not call wait() and
- * so will not change the object's state. This means that once a child
- * process is executed successfully this function will continue to
- * return true even after the process exits (until wait() is called.)
- *
- * @return true if a previous call to open() succeeded and wait() has
- * not been called and determined that the process has exited,
- * false otherwise.
- */
- template <typename C, typename T>
- inline bool
- basic_pstreambuf<C,T>::is_open() const
- {
- return ppid_ > 0;
- }
-
- /**
- * Toggle the stream used for reading. If @a readerr is @c true then the
- * process' @c stderr output will be used for subsequent extractions, if
- * @a readerr is false the the process' stdout will be used.
- * @param readerr @c true to read @c stderr, @c false to read @c stdout.
- * @return @c true if the requested stream is open and will be used for
- * subsequent extractions, @c false otherwise.
- */
- template <typename C, typename T>
- inline bool
- basic_pstreambuf<C,T>::read_err(bool readerr)
- {
- buf_read_src src = readerr ? rsrc_err : rsrc_out;
- if (rpipe_[src]>=0)
- {
- switch_read_buffer(src);
- return true;
- }
- return false;
- }
-
- /**
- * Called when the internal character buffer is not present or is full,
- * to transfer the buffer contents to the pipe.
- *
- * @param c a character to be written to the pipe.
- * @return @c traits_type::eof() if an error occurs, otherwise if @a c
- * is not equal to @c traits_type::eof() it will be buffered and
- * a value other than @c traits_type::eof() returned to indicate
- * success.
- */
- template <typename C, typename T>
- typename basic_pstreambuf<C,T>::int_type
- basic_pstreambuf<C,T>::overflow(int_type c)
- {
- if (!empty_buffer())
- return traits_type::eof();
- else if (!traits_type::eq_int_type(c, traits_type::eof()))
- return this->sputc(c);
- else
- return traits_type::not_eof(c);
- }
-
-
- template <typename C, typename T>
- int
- basic_pstreambuf<C,T>::sync()
- {
- return !exited() && empty_buffer() ? 0 : -1;
- }
-
- /**
- * @param s character buffer.
- * @param n buffer length.
- * @return the number of characters written.
- */
- template <typename C, typename T>
- std::streamsize
- basic_pstreambuf<C,T>::xsputn(const char_type* s, std::streamsize n)
- {
- if (n < this->epptr() - this->pptr())
- {
- traits_type::copy(this->pptr(), s, n);
- this->pbump(n);
- return n;
- }
- else
- {
- for (std::streamsize i = 0; i < n; ++i)
- {
- if (traits_type::eq_int_type(this->sputc(s[i]), traits_type::eof()))
- return i;
- }
- return n;
- }
- }
-
- /**
- * @return true if the buffer was emptied, false otherwise.
- */
- template <typename C, typename T>
- bool
- basic_pstreambuf<C,T>::empty_buffer()
- {
- const std::streamsize count = this->pptr() - this->pbase();
- if (count > 0)
- {
- const std::streamsize written = this->write(this->wbuffer_, count);
- if (written > 0)
- {
- if (const std::streamsize unwritten = count - written)
- traits_type::move(this->pbase(), this->pbase()+written, unwritten);
- this->pbump(-written);
- return true;
- }
- }
- return false;
- }
-
- /**
- * Called when the internal character buffer is is empty, to re-fill it
- * from the pipe.
- *
- * @return The first available character in the buffer,
- * or @c traits_type::eof() in case of failure.
- */
- template <typename C, typename T>
- typename basic_pstreambuf<C,T>::int_type
- basic_pstreambuf<C,T>::underflow()
- {
- if (this->gptr() < this->egptr() || fill_buffer())
- return traits_type::to_int_type(*this->gptr());
- else
- return traits_type::eof();
- }
-
- /**
- * Attempts to make @a c available as the next character to be read by
- * @c sgetc().
- *
- * @param c a character to make available for extraction.
- * @return @a c if the character can be made available,
- * @c traits_type::eof() otherwise.
- */
- template <typename C, typename T>
- typename basic_pstreambuf<C,T>::int_type
- basic_pstreambuf<C,T>::pbackfail(int_type c)
- {
- if (this->gptr() != this->eback())
- {
- this->gbump(-1);
- if (!traits_type::eq_int_type(c, traits_type::eof()))
- *this->gptr() = traits_type::to_char_type(c);
- return traits_type::not_eof(c);
- }
- else
- return traits_type::eof();
- }
-
- template <typename C, typename T>
- std::streamsize
- basic_pstreambuf<C,T>::showmanyc()
- {
- int avail = 0;
- if (sizeof(char_type) == 1)
- avail = fill_buffer(true) ? this->egptr() - this->gptr() : -1;
-#ifdef FIONREAD
- else
- {
- if (::ioctl(rpipe(), FIONREAD, &avail) == -1)
- avail = -1;
- else if (avail)
- avail /= sizeof(char_type);
- }
-#endif
- return std::streamsize(avail);
- }
-
- /**
- * @return true if the buffer was filled, false otherwise.
- */
- template <typename C, typename T>
- bool
- basic_pstreambuf<C,T>::fill_buffer(bool non_blocking)
- {
- const std::streamsize pb1 = this->gptr() - this->eback();
- const std::streamsize pb2 = pbsz;
- const std::streamsize npb = std::min(pb1, pb2);
-
- char_type* const rbuf = rbuffer();
-
- traits_type::move(rbuf + pbsz - npb, this->gptr() - npb, npb);
-
- std::streamsize rc = -1;
-
- if (non_blocking)
- {
- const int flags = ::fcntl(rpipe(), F_GETFL);
- if (flags != -1)
- {
- const bool blocking = !(flags & O_NONBLOCK);
- if (blocking)
- ::fcntl(rpipe(), F_SETFL, flags | O_NONBLOCK); // set non-blocking
-
- error_ = 0;
- rc = read(rbuf + pbsz, bufsz - pbsz);
-
- if (rc == -1 && error_ == EAGAIN) // nothing available
- rc = 0;
- else if (rc == 0) // EOF
- rc = -1;
-
- if (blocking)
- ::fcntl(rpipe(), F_SETFL, flags); // restore
- }
- }
- else
- rc = read(rbuf + pbsz, bufsz - pbsz);
-
- if (rc > 0 || (rc == 0 && non_blocking))
- {
- this->setg( rbuf + pbsz - npb,
- rbuf + pbsz,
- rbuf + pbsz + rc );
- return true;
- }
- else
- {
- this->setg(NULL, NULL, NULL);
- return false;
- }
- }
-
- /**
- * Writes up to @a n characters to the pipe from the buffer @a s.
- *
- * @param s character buffer.
- * @param n buffer length.
- * @return the number of characters written.
- */
- template <typename C, typename T>
- inline std::streamsize
- basic_pstreambuf<C,T>::write(const char_type* s, std::streamsize n)
- {
- std::streamsize nwritten = 0;
- if (wpipe() >= 0)
- {
- nwritten = ::write(wpipe(), s, n * sizeof(char_type));
- if (nwritten == -1)
- error_ = errno;
- else
- nwritten /= sizeof(char_type);
- }
- return nwritten;
- }
-
- /**
- * Reads up to @a n characters from the pipe to the buffer @a s.
- *
- * @param s character buffer.
- * @param n buffer length.
- * @return the number of characters read.
- */
- template <typename C, typename T>
- inline std::streamsize
- basic_pstreambuf<C,T>::read(char_type* s, std::streamsize n)
- {
- std::streamsize nread = 0;
- if (rpipe() >= 0)
- {
- nread = ::read(rpipe(), s, n * sizeof(char_type));
- if (nread == -1)
- error_ = errno;
- else
- nread /= sizeof(char_type);
- }
- return nread;
- }
-
- /** @return a reference to the output file descriptor */
- template <typename C, typename T>
- inline typename basic_pstreambuf<C,T>::fd_type&
- basic_pstreambuf<C,T>::wpipe()
- {
- return wpipe_;
- }
-
- /** @return a reference to the active input file descriptor */
- template <typename C, typename T>
- inline typename basic_pstreambuf<C,T>::fd_type&
- basic_pstreambuf<C,T>::rpipe()
- {
- return rpipe_[rsrc_];
- }
-
- /** @return a reference to the specified input file descriptor */
- template <typename C, typename T>
- inline typename basic_pstreambuf<C,T>::fd_type&
- basic_pstreambuf<C,T>::rpipe(buf_read_src which)
- {
- return rpipe_[which];
- }
-
- /** @return a pointer to the start of the active input buffer area. */
- template <typename C, typename T>
- inline typename basic_pstreambuf<C,T>::char_type*
- basic_pstreambuf<C,T>::rbuffer()
- {
- return rbuffer_[rsrc_];
- }
-
-
- /*
- * member definitions for pstream_common
- */
-
- /**
- * @class pstream_common
- * Abstract Base Class providing common functionality for basic_ipstream,
- * basic_opstream and basic_pstream.
- * pstream_common manages the basic_pstreambuf stream buffer that is used
- * by the derived classes to initialise an iostream class.
- */
-
- /** Creates an uninitialised stream. */
- template <typename C, typename T>
- inline
- pstream_common<C,T>::pstream_common()
- : std::basic_ios<C,T>(NULL)
- , command_()
- , buf_()
- {
- this->init(&buf_);
- }
-
- /**
- * Initialises the stream buffer by calling
- * do_open( @a command , @a mode )
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, pmode)
- */
- template <typename C, typename T>
- inline
- pstream_common<C,T>::pstream_common(const std::string& command, pmode mode)
- : std::basic_ios<C,T>(NULL)
- , command_(command)
- , buf_()
- {
- this->init(&buf_);
- do_open(command, mode);
- }
-
- /**
- * Initialises the stream buffer by calling
- * do_open( @a file , @a argv , @a mode )
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see do_open(const std::string&, const argv_type&, pmode)
- */
- template <typename C, typename T>
- inline
- pstream_common<C,T>::pstream_common( const std::string& file,
- const argv_type& argv,
- pmode mode )
- : std::basic_ios<C,T>(NULL)
- , command_(file)
- , buf_()
- {
- this->init(&buf_);
- do_open(file, argv, mode);
- }
-
- /**
- * This is a pure virtual function to make @c pstream_common abstract.
- * Because it is the destructor it will be called by derived classes
- * and so must be defined. It is also protected, to discourage use of
- * the PStreams classes through pointers or references to the base class.
- *
- * @sa If defining a pure virtual seems odd you should read
- * http://www.gotw.ca/gotw/031.htm (and the rest of the site as well!)
- */
- template <typename C, typename T>
- inline
- pstream_common<C,T>::~pstream_common()
- {
- }
-
- /**
- * Calls rdbuf()->open( @a command , @a mode )
- * and sets @c failbit on error.
- *
- * @param command a string containing a shell command.
- * @param mode the I/O mode to use when opening the pipe.
- * @see basic_pstreambuf::open(const std::string&, pmode)
- */
- template <typename C, typename T>
- inline void
- pstream_common<C,T>::do_open(const std::string& command, pmode mode)
- {
- if (!buf_.open((command_=command), mode))
- this->setstate(std::ios_base::failbit);
- }
-
- /**
- * Calls rdbuf()->open( @a file, @a argv, @a mode )
- * and sets @c failbit on error.
- *
- * @param file a string containing the pathname of a program to execute.
- * @param argv a vector of argument strings passed to the new program.
- * @param mode the I/O mode to use when opening the pipe.
- * @see basic_pstreambuf::open(const std::string&, const argv_type&, pmode)
- */
- template <typename C, typename T>
- inline void
- pstream_common<C,T>::do_open( const std::string& file,
- const argv_type& argv,
- pmode mode )
- {
- if (!buf_.open((command_=file), argv, mode))
- this->setstate(std::ios_base::failbit);
- }
-
- /** Calls rdbuf->close() and sets @c failbit on error. */
- template <typename C, typename T>
- inline void
- pstream_common<C,T>::close()
- {
- if (!buf_.close())
- this->setstate(std::ios_base::failbit);
- }
-
- /**
- * @return rdbuf()->is_open().
- * @see basic_pstreambuf::is_open()
- */
- template <typename C, typename T>
- inline bool
- pstream_common<C,T>::is_open() const
- {
- return buf_.is_open();
- }
-
- /** @return a string containing the command used to initialise the stream. */
- template <typename C, typename T>
- inline const std::string&
- pstream_common<C,T>::command() const
- {
- return command_;
- }
-
- /** @return a pointer to the private stream buffer member. */
- // TODO document behaviour if buffer replaced.
- template <typename C, typename T>
- inline typename pstream_common<C,T>::streambuf_type*
- pstream_common<C,T>::rdbuf() const
- {
- return const_cast<streambuf_type*>(&buf_);
- }
-
-
-#if REDI_EVISCERATE_PSTREAMS
- /**
- * @def REDI_EVISCERATE_PSTREAMS
- * If this macro has a non-zero value then certain internals of the
- * @c basic_pstreambuf template class are exposed. In general this is
- * a Bad Thing, as the internal implementation is largely undocumented
- * and may be subject to change at any time, so this feature is only
- * provided because it might make PStreams useful in situations where
- * it is necessary to do Bad Things.
- */
-
- /**
- * @warning This function exposes the internals of the stream buffer and
- * should be used with caution. It is the caller's responsibility
- * to flush streams etc. in order to clear any buffered data.
- * The POSIX.1 function <b>fdopen</b>(3) is used to obtain the
- * @c FILE pointers from the streambuf's private file descriptor
- * members so consult your system's documentation for
- * <b>fdopen</b>(3).
- *
- * @param in A FILE* that will refer to the process' stdin.
- * @param out A FILE* that will refer to the process' stdout.
- * @param err A FILE* that will refer to the process' stderr.
- * @return An OR of zero or more of @c pstdin, @c pstdout, @c pstderr.
- *
- * For each open stream shared with the child process a @c FILE* is
- * obtained and assigned to the corresponding parameter. For closed
- * streams @c NULL is assigned to the parameter.
- * The return value can be tested to see which parameters should be
- * @c !NULL by masking with the corresponding @c pmode value.
- *
- * @see <b>fdopen</b>(3)
- */
- template <typename C, typename T>
- std::size_t
- basic_pstreambuf<C,T>::fopen(FILE*& in, FILE*& out, FILE*& err)
- {
- in = out = err = NULL;
- std::size_t open_files = 0;
- if (wpipe() > -1)
- {
- if ((in = ::fdopen(wpipe(), "w")))
- {
- open_files |= pstdin;
- }
- }
- if (rpipe(rsrc_out) > -1)
- {
- if ((out = ::fdopen(rpipe(rsrc_out), "r")))
- {
- open_files |= pstdout;
- }
- }
- if (rpipe(rsrc_err) > -1)
- {
- if ((err = ::fdopen(rpipe(rsrc_err), "r")))
- {
- open_files |= pstderr;
- }
- }
- return open_files;
- }
-
- /**
- * @warning This function exposes the internals of the stream buffer and
- * should be used with caution.
- *
- * @param in A FILE* that will refer to the process' stdin.
- * @param out A FILE* that will refer to the process' stdout.
- * @param err A FILE* that will refer to the process' stderr.
- * @return A bitwise-or of zero or more of @c pstdin, @c pstdout, @c pstderr.
- * @see basic_pstreambuf::fopen()
- */
- template <typename C, typename T>
- inline std::size_t
- pstream_common<C,T>::fopen(FILE*& fin, FILE*& fout, FILE*& ferr)
- {
- return buf_.fopen(fin, fout, ferr);
- }
-
-#endif // REDI_EVISCERATE_PSTREAMS
-
-
-} // namespace redi
-
-/**
- * @mainpage PStreams Reference
- * @htmlinclude mainpage.html
- */
-
-#endif // REDI_PSTREAM_H_SEEN
-
-// vim: ts=2 sw=2 expandtab
-