PK�@�[V�y�``Pipe.pmnu�[���
# IO::Pipe.pm
#
# Copyright (c) 1996-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Pipe;

use 5.006_001;

use IO::Handle;
use strict;
our($VERSION);
use Carp;
use Symbol;

$VERSION = "1.15";

sub new {
    my $type = shift;
    my $class = ref($type) || $type || "IO::Pipe";
    @_ == 0 || @_ == 2 or croak "usage: $class->([READFH, WRITEFH])";

    my $me = bless gensym(), $class;

    my($readfh,$writefh) = @_ ? @_ : $me->handles;

    pipe($readfh, $writefh)
	or return undef;

    @{*$me} = ($readfh, $writefh);

    $me;
}

sub handles {
    @_ == 1 or croak 'usage: $pipe->handles()';
    (IO::Pipe::End->new(), IO::Pipe::End->new());
}

my $do_spawn = $^O eq 'os2' || $^O eq 'MSWin32';

sub _doit {
    my $me = shift;
    my $rw = shift;

    my $pid = $do_spawn ? 0 : fork();

    if($pid) { # Parent
        return $pid;
    }
    elsif(defined $pid) { # Child or spawn
        my $fh;
        my $io = $rw ? \*STDIN : \*STDOUT;
        my ($mode, $save) = $rw ? "r" : "w";
        if ($do_spawn) {
          require Fcntl;
          $save = IO::Handle->new_from_fd($io, $mode);
	  my $handle = shift;
          # Close in child:
	  unless ($^O eq 'MSWin32') {
            fcntl($handle, Fcntl::F_SETFD(), 1) or croak "fcntl: $!";
	  }
          $fh = $rw ? ${*$me}[0] : ${*$me}[1];
        } else {
          shift;
          $fh = $rw ? $me->reader() : $me->writer(); # close the other end
        }
        bless $io, "IO::Handle";
        $io->fdopen($fh, $mode);
	$fh->close;

        if ($do_spawn) {
          $pid = eval { system 1, @_ }; # 1 == P_NOWAIT
          my $err = $!;
    
          $io->fdopen($save, $mode);
          $save->close or croak "Cannot close $!";
          croak "IO::Pipe: Cannot spawn-NOWAIT: $err" if not $pid or $pid < 0;
          return $pid;
        } else {
          exec @_ or
            croak "IO::Pipe: Cannot exec: $!";
        }
    }
    else {
        croak "IO::Pipe: Cannot fork: $!";
    }

    # NOT Reached
}

sub reader {
    @_ >= 1 or croak 'usage: $pipe->reader( [SUB_COMMAND_ARGS] )';
    my $me = shift;

    return undef
	unless(ref($me) || ref($me = $me->new));

    my $fh  = ${*$me}[0];
    my $pid;
    $pid = $me->_doit(0, $fh, @_)
        if(@_);

    close ${*$me}[1];
    bless $me, ref($fh);
    *$me = *$fh;          # Alias self to handle
    $me->fdopen($fh->fileno,"r")
	unless defined($me->fileno);
    bless $fh;                  # Really wan't un-bless here
    ${*$me}{'io_pipe_pid'} = $pid
        if defined $pid;

    $me;
}

sub writer {
    @_ >= 1 or croak 'usage: $pipe->writer( [SUB_COMMAND_ARGS] )';
    my $me = shift;

    return undef
	unless(ref($me) || ref($me = $me->new));

    my $fh  = ${*$me}[1];
    my $pid;
    $pid = $me->_doit(1, $fh, @_)
        if(@_);

    close ${*$me}[0];
    bless $me, ref($fh);
    *$me = *$fh;          # Alias self to handle
    $me->fdopen($fh->fileno,"w")
	unless defined($me->fileno);
    bless $fh;                  # Really wan't un-bless here
    ${*$me}{'io_pipe_pid'} = $pid
        if defined $pid;

    $me;
}

package IO::Pipe::End;

our(@ISA);

@ISA = qw(IO::Handle);

sub close {
    my $fh = shift;
    my $r = $fh->SUPER::close(@_);

    waitpid(${*$fh}{'io_pipe_pid'},0)
	if(defined ${*$fh}{'io_pipe_pid'});

    $r;
}

1;

__END__

=head1 NAME

IO::Pipe - supply object methods for pipes

=head1 SYNOPSIS

	use IO::Pipe;

	$pipe = IO::Pipe->new();

	if($pid = fork()) { # Parent
	    $pipe->reader();

	    while(<$pipe>) {
		...
	    }

	}
	elsif(defined $pid) { # Child
	    $pipe->writer();

	    print $pipe ...
	}

	or

	$pipe = IO::Pipe->new();

	$pipe->reader(qw(ls -l));

	while(<$pipe>) {
	    ...
	}

=head1 DESCRIPTION

C<IO::Pipe> provides an interface to creating pipes between
processes.

=head1 CONSTRUCTOR

=over 4

=item new ( [READER, WRITER] )

Creates an C<IO::Pipe>, which is a reference to a newly created symbol
(see the C<Symbol> package). C<IO::Pipe::new> optionally takes two
arguments, which should be objects blessed into C<IO::Handle>, or a
subclass thereof. These two objects will be used for the system call
to C<pipe>. If no arguments are given then method C<handles> is called
on the new C<IO::Pipe> object.

These two handles are held in the array part of the GLOB until either
C<reader> or C<writer> is called.

=back

=head1 METHODS

=over 4

=item reader ([ARGS])

The object is re-blessed into a sub-class of C<IO::Handle>, and becomes a
handle at the reading end of the pipe. If C<ARGS> are given then C<fork>
is called and C<ARGS> are passed to exec.

=item writer ([ARGS])

The object is re-blessed into a sub-class of C<IO::Handle>, and becomes a
handle at the writing end of the pipe. If C<ARGS> are given then C<fork>
is called and C<ARGS> are passed to exec.

=item handles ()

This method is called during construction by C<IO::Pipe::new>
on the newly created C<IO::Pipe> object. It returns an array of two objects
blessed into C<IO::Pipe::End>, or a subclass thereof.

=back

=head1 SEE ALSO

L<IO::Handle>

=head1 AUTHOR

Graham Barr. Currently maintained by the Perl Porters.  Please report all
bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1996-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

=cut
PK�@�[���wwSeekable.pmnu�[���
#

package IO::Seekable;

=head1 NAME

IO::Seekable - supply seek based methods for I/O objects

=head1 SYNOPSIS

    use IO::Seekable;
    package IO::Something;
    @ISA = qw(IO::Seekable);

=head1 DESCRIPTION

C<IO::Seekable> does not have a constructor of its own as it is intended to
be inherited by other C<IO::Handle> based objects. It provides methods
which allow seeking of the file descriptors.

=over 4

=item $io->getpos

Returns an opaque value that represents the current position of the
IO::File, or C<undef> if this is not possible (eg an unseekable stream such
as a terminal, pipe or socket). If the fgetpos() function is available in
your C library it is used to implements getpos, else perl emulates getpos
using C's ftell() function.

=item $io->setpos

Uses the value of a previous getpos call to return to a previously visited
position. Returns "0 but true" on success, C<undef> on failure.

=back

See L<perlfunc> for complete descriptions of each of the following
supported C<IO::Seekable> methods, which are just front ends for the
corresponding built-in functions:

=over 4

=item $io->seek ( POS, WHENCE )

Seek the IO::File to position POS, relative to WHENCE:

=over 8

=item WHENCE=0 (SEEK_SET)

POS is absolute position. (Seek relative to the start of the file)

=item WHENCE=1 (SEEK_CUR)

POS is an offset from the current position. (Seek relative to current)

=item WHENCE=2 (SEEK_END)

POS is an offset from the end of the file. (Seek relative to end)

=back

The SEEK_* constants can be imported from the C<Fcntl> module if you
don't wish to use the numbers C<0> C<1> or C<2> in your code.

Returns C<1> upon success, C<0> otherwise.

=item $io->sysseek( POS, WHENCE )

Similar to $io->seek, but sets the IO::File's position using the system
call lseek(2) directly, so will confuse most perl IO operators except
sysread and syswrite (see L<perlfunc> for full details)

Returns the new position, or C<undef> on failure.  A position
of zero is returned as the string C<"0 but true">

=item $io->tell

Returns the IO::File's current position, or -1 on error.

=back

=head1 SEE ALSO

L<perlfunc>, 
L<perlop/"I/O Operators">,
L<IO::Handle>
L<IO::File>

=head1 HISTORY

Derived from FileHandle.pm by Graham Barr E<lt>gbarr@pobox.comE<gt>

=cut

use 5.006_001;
use Carp;
use strict;
our($VERSION, @EXPORT, @ISA);
use IO::Handle ();
# XXX we can't get these from IO::Handle or we'll get prototype
# mismatch warnings on C<use POSIX; use IO::File;> :-(
use Fcntl qw(SEEK_SET SEEK_CUR SEEK_END);
require Exporter;

@EXPORT = qw(SEEK_SET SEEK_CUR SEEK_END);
@ISA = qw(Exporter);

$VERSION = "1.10";
$VERSION = eval $VERSION;

sub seek {
    @_ == 3 or croak 'usage: $io->seek(POS, WHENCE)';
    seek($_[0], $_[1], $_[2]);
}

sub sysseek {
    @_ == 3 or croak 'usage: $io->sysseek(POS, WHENCE)';
    sysseek($_[0], $_[1], $_[2]);
}

sub tell {
    @_ == 1 or croak 'usage: $io->tell()';
    tell($_[0]);
}

1;
PK�@�[3Y�8� � 	Select.pmnu�[���
# IO::Select.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Select;

use     strict;
use warnings::register;
use     vars qw($VERSION @ISA);
require Exporter;

$VERSION = "1.22";

@ISA = qw(Exporter); # This is only so we can do version checking

sub VEC_BITS () {0}
sub FD_COUNT () {1}
sub FIRST_FD () {2}

sub new
{
 my $self = shift;
 my $type = ref($self) || $self;

 my $vec = bless [undef,0], $type;

 $vec->add(@_)
    if @_;

 $vec;
}

sub add
{
 shift->_update('add', @_);
}


sub remove
{
 shift->_update('remove', @_);
}


sub exists
{
 my $vec = shift;
 my $fno = $vec->_fileno(shift);
 return undef unless defined $fno;
 $vec->[$fno + FIRST_FD];
}


sub _fileno
{
 my($self, $f) = @_;
 return unless defined $f;
 $f = $f->[0] if ref($f) eq 'ARRAY';
 ($f =~ /^\d+$/) ? $f : fileno($f);
}

sub _update
{
 my $vec = shift;
 my $add = shift eq 'add';

 my $bits = $vec->[VEC_BITS];
 $bits = '' unless defined $bits;

 my $count = 0;
 my $f;
 foreach $f (@_)
  {
   my $fn = $vec->_fileno($f);
   if ($add) {
     next unless defined $fn;
     my $i = $fn + FIRST_FD;
     if (defined $vec->[$i]) {
	 $vec->[$i] = $f;  # if array rest might be different, so we update
	 next;
     }
     $vec->[FD_COUNT]++;
     vec($bits, $fn, 1) = 1;
     $vec->[$i] = $f;
   } else {      # remove
     if ( ! defined $fn ) { # remove if fileno undef'd
       $fn = 0;
       for my $fe (@{$vec}[FIRST_FD .. $#$vec]) {
         if (defined($fe) && $fe == $f) {
	   $vec->[FD_COUNT]--;
	   $fe = undef;
	   vec($bits, $fn, 1) = 0;
	   last;
	 }
	 ++$fn;
       }
     }
     else {
       my $i = $fn + FIRST_FD;
       next unless defined $vec->[$i];
       $vec->[FD_COUNT]--;
       vec($bits, $fn, 1) = 0;
       $vec->[$i] = undef;
     }
   }
   $count++;
  }
 $vec->[VEC_BITS] = $vec->[FD_COUNT] ? $bits : undef;
 $count;
}

sub can_read
{
 my $vec = shift;
 my $timeout = shift;
 my $r = $vec->[VEC_BITS];

 defined($r) && (select($r,undef,undef,$timeout) > 0)
    ? handles($vec, $r)
    : ();
}

sub can_write
{
 my $vec = shift;
 my $timeout = shift;
 my $w = $vec->[VEC_BITS];

 defined($w) && (select(undef,$w,undef,$timeout) > 0)
    ? handles($vec, $w)
    : ();
}

sub has_exception
{
 my $vec = shift;
 my $timeout = shift;
 my $e = $vec->[VEC_BITS];

 defined($e) && (select(undef,undef,$e,$timeout) > 0)
    ? handles($vec, $e)
    : ();
}

sub has_error
{
 warnings::warn("Call to deprecated method 'has_error', use 'has_exception'")
	if warnings::enabled();
 goto &has_exception;
}

sub count
{
 my $vec = shift;
 $vec->[FD_COUNT];
}

sub bits
{
 my $vec = shift;
 $vec->[VEC_BITS];
}

sub as_string  # for debugging
{
 my $vec = shift;
 my $str = ref($vec) . ": ";
 my $bits = $vec->bits;
 my $count = $vec->count;
 $str .= defined($bits) ? unpack("b*", $bits) : "undef";
 $str .= " $count";
 my @handles = @$vec;
 splice(@handles, 0, FIRST_FD);
 for (@handles) {
     $str .= " " . (defined($_) ? "$_" : "-");
 }
 $str;
}

sub _max
{
 my($a,$b,$c) = @_;
 $a > $b
    ? $a > $c
        ? $a
        : $c
    : $b > $c
        ? $b
        : $c;
}

sub select
{
 shift
   if defined $_[0] && !ref($_[0]);

 my($r,$w,$e,$t) = @_;
 my @result = ();

 my $rb = defined $r ? $r->[VEC_BITS] : undef;
 my $wb = defined $w ? $w->[VEC_BITS] : undef;
 my $eb = defined $e ? $e->[VEC_BITS] : undef;

 if(select($rb,$wb,$eb,$t) > 0)
  {
   my @r = ();
   my @w = ();
   my @e = ();
   my $i = _max(defined $r ? scalar(@$r)-1 : 0,
                defined $w ? scalar(@$w)-1 : 0,
                defined $e ? scalar(@$e)-1 : 0);

   for( ; $i >= FIRST_FD ; $i--)
    {
     my $j = $i - FIRST_FD;
     push(@r, $r->[$i])
        if defined $rb && defined $r->[$i] && vec($rb, $j, 1);
     push(@w, $w->[$i])
        if defined $wb && defined $w->[$i] && vec($wb, $j, 1);
     push(@e, $e->[$i])
        if defined $eb && defined $e->[$i] && vec($eb, $j, 1);
    }

   @result = (\@r, \@w, \@e);
  }
 @result;
}


sub handles
{
 my $vec = shift;
 my $bits = shift;
 my @h = ();
 my $i;
 my $max = scalar(@$vec) - 1;

 for ($i = FIRST_FD; $i <= $max; $i++)
  {
   next unless defined $vec->[$i];
   push(@h, $vec->[$i])
      if !defined($bits) || vec($bits, $i - FIRST_FD, 1);
  }
 
 @h;
}

1;
__END__

=head1 NAME

IO::Select - OO interface to the select system call

=head1 SYNOPSIS

    use IO::Select;

    $s = IO::Select->new();

    $s->add(\*STDIN);
    $s->add($some_handle);

    @ready = $s->can_read($timeout);

    @ready = IO::Select->new(@handles)->can_read(0);

=head1 DESCRIPTION

The C<IO::Select> package implements an object approach to the system C<select>
function call. It allows the user to see what IO handles, see L<IO::Handle>,
are ready for reading, writing or have an exception pending.

=head1 CONSTRUCTOR

=over 4

=item new ( [ HANDLES ] )

The constructor creates a new object and optionally initialises it with a set
of handles.

=back

=head1 METHODS

=over 4

=item add ( HANDLES )

Add the list of handles to the C<IO::Select> object. It is these values that
will be returned when an event occurs. C<IO::Select> keeps these values in a
cache which is indexed by the C<fileno> of the handle, so if more than one
handle with the same C<fileno> is specified then only the last one is cached.

Each handle can be an C<IO::Handle> object, an integer or an array
reference where the first element is an C<IO::Handle> or an integer.

=item remove ( HANDLES )

Remove all the given handles from the object. This method also works
by the C<fileno> of the handles. So the exact handles that were added
need not be passed, just handles that have an equivalent C<fileno>

=item exists ( HANDLE )

Returns a true value (actually the handle itself) if it is present.
Returns undef otherwise.

=item handles

Return an array of all registered handles.

=item can_read ( [ TIMEOUT ] )

Return an array of handles that are ready for reading. C<TIMEOUT> is
the maximum amount of time to wait before returning an empty list, in
seconds, possibly fractional. If C<TIMEOUT> is not given and any
handles are registered then the call will block.

=item can_write ( [ TIMEOUT ] )

Same as C<can_read> except check for handles that can be written to.

=item has_exception ( [ TIMEOUT ] )

Same as C<can_read> except check for handles that have an exception
condition, for example pending out-of-band data.

=item count ()

Returns the number of handles that the object will check for when
one of the C<can_> methods is called or the object is passed to
the C<select> static method.

=item bits()

Return the bit string suitable as argument to the core select() call.

=item select ( READ, WRITE, EXCEPTION [, TIMEOUT ] )

C<select> is a static method, that is you call it with the package name
like C<new>. C<READ>, C<WRITE> and C<EXCEPTION> are either C<undef> or
C<IO::Select> objects. C<TIMEOUT> is optional and has the same effect as
for the core select call.

The result will be an array of 3 elements, each a reference to an array
which will hold the handles that are ready for reading, writing and have
exceptions respectively. Upon error an empty list is returned.

=back

=head1 EXAMPLE

Here is a short example which shows how C<IO::Select> could be used
to write a server which communicates with several sockets while also
listening for more connections on a listen socket

    use IO::Select;
    use IO::Socket;

    $lsn = IO::Socket::INET->new(Listen => 1, LocalPort => 8080);
    $sel = IO::Select->new( $lsn );

    while(@ready = $sel->can_read) {
        foreach $fh (@ready) {
            if($fh == $lsn) {
                # Create a new socket
                $new = $lsn->accept;
                $sel->add($new);
            }
            else {
                # Process socket

                # Maybe we have finished with the socket
                $sel->remove($fh);
                $fh->close;
            }
        }
    }

=head1 AUTHOR

Graham Barr. Currently maintained by the Perl Porters.  Please report all
bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

=cut

PK�@�[	��)CC	Handle.pmnu�[���
package IO::Handle;

=head1 NAME

IO::Handle - supply object methods for I/O handles

=head1 SYNOPSIS

    use IO::Handle;

    $io = IO::Handle->new();
    if ($io->fdopen(fileno(STDIN),"r")) {
        print $io->getline;
        $io->close;
    }

    $io = IO::Handle->new();
    if ($io->fdopen(fileno(STDOUT),"w")) {
        $io->print("Some text\n");
    }

    # setvbuf is not available by default on Perls 5.8.0 and later.
    use IO::Handle '_IOLBF';
    $io->setvbuf($buffer_var, _IOLBF, 1024);

    undef $io;       # automatically closes the file if it's open

    autoflush STDOUT 1;

=head1 DESCRIPTION

C<IO::Handle> is the base class for all other IO handle classes. It is
not intended that objects of C<IO::Handle> would be created directly,
but instead C<IO::Handle> is inherited from by several other classes
in the IO hierarchy.

If you are reading this documentation, looking for a replacement for
the C<FileHandle> package, then I suggest you read the documentation
for C<IO::File> too.

=head1 CONSTRUCTOR

=over 4

=item new ()

Creates a new C<IO::Handle> object.

=item new_from_fd ( FD, MODE )

Creates an C<IO::Handle> like C<new> does.
It requires two parameters, which are passed to the method C<fdopen>;
if the fdopen fails, the object is destroyed. Otherwise, it is returned
to the caller.

=back

=head1 METHODS

See L<perlfunc> for complete descriptions of each of the following
supported C<IO::Handle> methods, which are just front ends for the
corresponding built-in functions:

    $io->close
    $io->eof
    $io->fcntl( FUNCTION, SCALAR )
    $io->fileno
    $io->format_write( [FORMAT_NAME] )
    $io->getc
    $io->ioctl( FUNCTION, SCALAR )
    $io->read ( BUF, LEN, [OFFSET] )
    $io->print ( ARGS )
    $io->printf ( FMT, [ARGS] )
    $io->say ( ARGS )
    $io->stat
    $io->sysread ( BUF, LEN, [OFFSET] )
    $io->syswrite ( BUF, [LEN, [OFFSET]] )
    $io->truncate ( LEN )

See L<perlvar> for complete descriptions of each of the following
supported C<IO::Handle> methods.  All of them return the previous
value of the attribute and takes an optional single argument that when
given will set the value.  If no argument is given the previous value
is unchanged (except for $io->autoflush will actually turn ON
autoflush by default).

    $io->autoflush ( [BOOL] )                         $|
    $io->format_page_number( [NUM] )                  $%
    $io->format_lines_per_page( [NUM] )               $=
    $io->format_lines_left( [NUM] )                   $-
    $io->format_name( [STR] )                         $~
    $io->format_top_name( [STR] )                     $^
    $io->input_line_number( [NUM])                    $.

The following methods are not supported on a per-filehandle basis.

    IO::Handle->format_line_break_characters( [STR] ) $:
    IO::Handle->format_formfeed( [STR])               $^L
    IO::Handle->output_field_separator( [STR] )       $,
    IO::Handle->output_record_separator( [STR] )      $\

    IO::Handle->input_record_separator( [STR] )       $/

Furthermore, for doing normal I/O you might need these:

=over 4

=item $io->fdopen ( FD, MODE )

C<fdopen> is like an ordinary C<open> except that its first parameter
is not a filename but rather a file handle name, an IO::Handle object,
or a file descriptor number.  (For the documentation of the C<open>
method, see L<IO::File>.)

=item $io->opened

Returns true if the object is currently a valid file descriptor, false
otherwise.

=item $io->getline

This works like <$io> described in L<perlop/"I/O Operators">
except that it's more readable and can be safely called in a
list context but still returns just one line.  If used as the conditional
within a C<while> or C-style C<for> loop, however, you will need to
emulate the functionality of <$io> with C<< defined($_ = $io->getline) >>.

=item $io->getlines

This works like <$io> when called in a list context to read all
the remaining lines in a file, except that it's more readable.
It will also croak() if accidentally called in a scalar context.

=item $io->ungetc ( ORD )

Pushes a character with the given ordinal value back onto the given
handle's input stream.  Only one character of pushback per handle is
guaranteed.

=item $io->write ( BUF, LEN [, OFFSET ] )

This C<write> is somewhat like C<write> found in C, in that it is the
opposite of read. The wrapper for the perl C<write> function is
called C<format_write>. However, whilst the C C<write> function returns
the number of bytes written, this C<write> function simply returns true
if successful (like C<print>). A more C-like C<write> is C<syswrite>
(see above).

=item $io->error

Returns a true value if the given handle has experienced any errors
since it was opened or since the last call to C<clearerr>, or if the
handle is invalid. It only returns false for a valid handle with no
outstanding errors.

=item $io->clearerr

Clear the given handle's error indicator. Returns -1 if the handle is
invalid, 0 otherwise.

=item $io->sync

C<sync> synchronizes a file's in-memory state  with  that  on the
physical medium. C<sync> does not operate at the perlio api level, but
operates on the file descriptor (similar to sysread, sysseek and
systell). This means that any data held at the perlio api level will not
be synchronized. To synchronize data that is buffered at the perlio api
level you must use the flush method. C<sync> is not implemented on all
platforms. Returns "0 but true" on success, C<undef> on error, C<undef>
for an invalid handle. See L<fsync(3c)>.

=item $io->flush

C<flush> causes perl to flush any buffered data at the perlio api level.
Any unread data in the buffer will be discarded, and any unwritten data
will be written to the underlying file descriptor. Returns "0 but true"
on success, C<undef> on error.

=item $io->printflush ( ARGS )

Turns on autoflush, print ARGS and then restores the autoflush status of the
C<IO::Handle> object. Returns the return value from print.

=item $io->blocking ( [ BOOL ] )

If called with an argument C<blocking> will turn on non-blocking IO if
C<BOOL> is false, and turn it off if C<BOOL> is true.

C<blocking> will return the value of the previous setting, or the
current setting if C<BOOL> is not given. 

If an error occurs C<blocking> will return undef and C<$!> will be set.

=back


If the C functions setbuf() and/or setvbuf() are available, then
C<IO::Handle::setbuf> and C<IO::Handle::setvbuf> set the buffering
policy for an IO::Handle.  The calling sequences for the Perl functions
are the same as their C counterparts--including the constants C<_IOFBF>,
C<_IOLBF>, and C<_IONBF> for setvbuf()--except that the buffer parameter
specifies a scalar variable to use as a buffer. You should only
change the buffer before any I/O, or immediately after calling flush.

WARNING: The IO::Handle::setvbuf() is not available by default on
Perls 5.8.0 and later because setvbuf() is rather specific to using
the stdio library, while Perl prefers the new perlio subsystem instead.

WARNING: A variable used as a buffer by C<setbuf> or C<setvbuf> B<must not
be modified> in any way until the IO::Handle is closed or C<setbuf> or
C<setvbuf> is called again, or memory corruption may result! Remember that
the order of global destruction is undefined, so even if your buffer
variable remains in scope until program termination, it may be undefined
before the file IO::Handle is closed. Note that you need to import the
constants C<_IOFBF>, C<_IOLBF>, and C<_IONBF> explicitly. Like C, setbuf
returns nothing. setvbuf returns "0 but true", on success, C<undef> on
failure.

Lastly, there is a special method for working under B<-T> and setuid/gid
scripts:

=over 4

=item $io->untaint

Marks the object as taint-clean, and as such data read from it will also
be considered taint-clean. Note that this is a very trusting action to
take, and appropriate consideration for the data source and potential
vulnerability should be kept in mind. Returns 0 on success, -1 if setting
the taint-clean flag failed. (eg invalid handle)

=back

=head1 NOTE

An C<IO::Handle> object is a reference to a symbol/GLOB reference (see
the C<Symbol> package).  Some modules that
inherit from C<IO::Handle> may want to keep object related variables
in the hash table part of the GLOB. In an attempt to prevent modules
trampling on each other I propose the that any such module should prefix
its variables with its own name separated by _'s. For example the IO::Socket
module keeps a C<timeout> variable in 'io_socket_timeout'.

=head1 SEE ALSO

L<perlfunc>, 
L<perlop/"I/O Operators">,
L<IO::File>

=head1 BUGS

Due to backwards compatibility, all filehandles resemble objects
of class C<IO::Handle>, or actually classes derived from that class.
They actually aren't.  Which means you can't derive your own 
class from C<IO::Handle> and inherit those methods.

=head1 HISTORY

Derived from FileHandle.pm by Graham Barr E<lt>F<gbarr@pobox.com>E<gt>

=cut

use 5.006_001;
use strict;
our($VERSION, @EXPORT_OK, @ISA);
use Carp;
use Symbol;
use SelectSaver;
use IO ();	# Load the XS module

require Exporter;
@ISA = qw(Exporter);

$VERSION = "1.36";
$VERSION = eval $VERSION;

@EXPORT_OK = qw(
    autoflush
    output_field_separator
    output_record_separator
    input_record_separator
    input_line_number
    format_page_number
    format_lines_per_page
    format_lines_left
    format_name
    format_top_name
    format_line_break_characters
    format_formfeed
    format_write

    print
    printf
    say
    getline
    getlines

    printflush
    flush

    SEEK_SET
    SEEK_CUR
    SEEK_END
    _IOFBF
    _IOLBF
    _IONBF
);

################################################
## Constructors, destructors.
##

sub new {
    my $class = ref($_[0]) || $_[0] || "IO::Handle";
    if (@_ != 1) {
	# Since perl will automatically require IO::File if needed, but
	# also initialises IO::File's @ISA as part of the core we must
	# ensure IO::File is loaded if IO::Handle is. This avoids effect-
	# ively "half-loading" IO::File.
	if ($] > 5.013 && $class eq 'IO::File' && !$INC{"IO/File.pm"}) {
	    require IO::File;
	    shift;
	    return IO::File::->new(@_);
	}
	croak "usage: $class->new()";
    }
    my $io = gensym;
    bless $io, $class;
}

sub new_from_fd {
    my $class = ref($_[0]) || $_[0] || "IO::Handle";
    @_ == 3 or croak "usage: $class->new_from_fd(FD, MODE)";
    my $io = gensym;
    shift;
    IO::Handle::fdopen($io, @_)
	or return undef;
    bless $io, $class;
}

#
# There is no need for DESTROY to do anything, because when the
# last reference to an IO object is gone, Perl automatically
# closes its associated files (if any).  However, to avoid any
# attempts to autoload DESTROY, we here define it to do nothing.
#
sub DESTROY {}


################################################
## Open and close.
##

sub _open_mode_string {
    my ($mode) = @_;
    $mode =~ /^\+?(<|>>?)$/
      or $mode =~ s/^r(\+?)$/$1</
      or $mode =~ s/^w(\+?)$/$1>/
      or $mode =~ s/^a(\+?)$/$1>>/
      or croak "IO::Handle: bad open mode: $mode";
    $mode;
}

sub fdopen {
    @_ == 3 or croak 'usage: $io->fdopen(FD, MODE)';
    my ($io, $fd, $mode) = @_;
    local(*GLOB);

    if (ref($fd) && "".$fd =~ /GLOB\(/o) {
	# It's a glob reference; Alias it as we cannot get name of anon GLOBs
	my $n = qualify(*GLOB);
	*GLOB = *{*$fd};
	$fd =  $n;
    } elsif ($fd =~ m#^\d+$#) {
	# It's an FD number; prefix with "=".
	$fd = "=$fd";
    }

    open($io, _open_mode_string($mode) . '&' . $fd)
	? $io : undef;
}

sub close {
    @_ == 1 or croak 'usage: $io->close()';
    my($io) = @_;

    close($io);
}

################################################
## Normal I/O functions.
##

# flock
# select

sub opened {
    @_ == 1 or croak 'usage: $io->opened()';
    defined fileno($_[0]);
}

sub fileno {
    @_ == 1 or croak 'usage: $io->fileno()';
    fileno($_[0]);
}

sub getc {
    @_ == 1 or croak 'usage: $io->getc()';
    getc($_[0]);
}

sub eof {
    @_ == 1 or croak 'usage: $io->eof()';
    eof($_[0]);
}

sub print {
    @_ or croak 'usage: $io->print(ARGS)';
    my $this = shift;
    print $this @_;
}

sub printf {
    @_ >= 2 or croak 'usage: $io->printf(FMT,[ARGS])';
    my $this = shift;
    printf $this @_;
}

sub say {
    @_ or croak 'usage: $io->say(ARGS)';
    my $this = shift;
    local $\ = "\n";
    print $this @_;
}

# Special XS wrapper to make them inherit lexical hints from the caller.
_create_getline_subs( <<'END' ) or die $@;
sub getline {
    @_ == 1 or croak 'usage: $io->getline()';
    my $this = shift;
    return scalar <$this>;
} 

sub getlines {
    @_ == 1 or croak 'usage: $io->getlines()';
    wantarray or
	croak 'Can\'t call $io->getlines in a scalar context, use $io->getline';
    my $this = shift;
    return <$this>;
}
1; # return true for error checking
END

*gets = \&getline;  # deprecated

sub truncate {
    @_ == 2 or croak 'usage: $io->truncate(LEN)';
    truncate($_[0], $_[1]);
}

sub read {
    @_ == 3 || @_ == 4 or croak 'usage: $io->read(BUF, LEN [, OFFSET])';
    read($_[0], $_[1], $_[2], $_[3] || 0);
}

sub sysread {
    @_ == 3 || @_ == 4 or croak 'usage: $io->sysread(BUF, LEN [, OFFSET])';
    sysread($_[0], $_[1], $_[2], $_[3] || 0);
}

sub write {
    @_ >= 2 && @_ <= 4 or croak 'usage: $io->write(BUF [, LEN [, OFFSET]])';
    local($\) = "";
    $_[2] = length($_[1]) unless defined $_[2];
    print { $_[0] } substr($_[1], $_[3] || 0, $_[2]);
}

sub syswrite {
    @_ >= 2 && @_ <= 4 or croak 'usage: $io->syswrite(BUF [, LEN [, OFFSET]])';
    if (defined($_[2])) {
	syswrite($_[0], $_[1], $_[2], $_[3] || 0);
    } else {
	syswrite($_[0], $_[1]);
    }
}

sub stat {
    @_ == 1 or croak 'usage: $io->stat()';
    stat($_[0]);
}

################################################
## State modification functions.
##

sub autoflush {
    my $old = new SelectSaver qualify($_[0], caller);
    my $prev = $|;
    $| = @_ > 1 ? $_[1] : 1;
    $prev;
}

sub output_field_separator {
    carp "output_field_separator is not supported on a per-handle basis"
	if ref($_[0]);
    my $prev = $,;
    $, = $_[1] if @_ > 1;
    $prev;
}

sub output_record_separator {
    carp "output_record_separator is not supported on a per-handle basis"
	if ref($_[0]);
    my $prev = $\;
    $\ = $_[1] if @_ > 1;
    $prev;
}

sub input_record_separator {
    carp "input_record_separator is not supported on a per-handle basis"
	if ref($_[0]);
    my $prev = $/;
    $/ = $_[1] if @_ > 1;
    $prev;
}

sub input_line_number {
    local $.;
    () = tell qualify($_[0], caller) if ref($_[0]);
    my $prev = $.;
    $. = $_[1] if @_ > 1;
    $prev;
}

sub format_page_number {
    my $old;
    $old = new SelectSaver qualify($_[0], caller) if ref($_[0]);
    my $prev = $%;
    $% = $_[1] if @_ > 1;
    $prev;
}

sub format_lines_per_page {
    my $old;
    $old = new SelectSaver qualify($_[0], caller) if ref($_[0]);
    my $prev = $=;
    $= = $_[1] if @_ > 1;
    $prev;
}

sub format_lines_left {
    my $old;
    $old = new SelectSaver qualify($_[0], caller) if ref($_[0]);
    my $prev = $-;
    $- = $_[1] if @_ > 1;
    $prev;
}

sub format_name {
    my $old;
    $old = new SelectSaver qualify($_[0], caller) if ref($_[0]);
    my $prev = $~;
    $~ = qualify($_[1], caller) if @_ > 1;
    $prev;
}

sub format_top_name {
    my $old;
    $old = new SelectSaver qualify($_[0], caller) if ref($_[0]);
    my $prev = $^;
    $^ = qualify($_[1], caller) if @_ > 1;
    $prev;
}

sub format_line_break_characters {
    carp "format_line_break_characters is not supported on a per-handle basis"
	if ref($_[0]);
    my $prev = $:;
    $: = $_[1] if @_ > 1;
    $prev;
}

sub format_formfeed {
    carp "format_formfeed is not supported on a per-handle basis"
	if ref($_[0]);
    my $prev = $^L;
    $^L = $_[1] if @_ > 1;
    $prev;
}

sub formline {
    my $io = shift;
    my $picture = shift;
    local($^A) = $^A;
    local($\) = "";
    formline($picture, @_);
    print $io $^A;
}

sub format_write {
    @_ < 3 || croak 'usage: $io->write( [FORMAT_NAME] )';
    if (@_ == 2) {
	my ($io, $fmt) = @_;
	my $oldfmt = $io->format_name(qualify($fmt,caller));
	CORE::write($io);
	$io->format_name($oldfmt);
    } else {
	CORE::write($_[0]);
    }
}

sub fcntl {
    @_ == 3 || croak 'usage: $io->fcntl( OP, VALUE );';
    my ($io, $op) = @_;
    return fcntl($io, $op, $_[2]);
}

sub ioctl {
    @_ == 3 || croak 'usage: $io->ioctl( OP, VALUE );';
    my ($io, $op) = @_;
    return ioctl($io, $op, $_[2]);
}

# this sub is for compatibility with older releases of IO that used
# a sub called constant to determine if a constant existed -- GMB
#
# The SEEK_* and _IO?BF constants were the only constants at that time
# any new code should just check defined(&CONSTANT_NAME)

sub constant {
    no strict 'refs';
    my $name = shift;
    (($name =~ /^(SEEK_(SET|CUR|END)|_IO[FLN]BF)$/) && defined &{$name})
	? &{$name}() : undef;
}


# so that flush.pl can be deprecated

sub printflush {
    my $io = shift;
    my $old;
    $old = new SelectSaver qualify($io, caller) if ref($io);
    local $| = 1;
    if(ref($io)) {
        print $io @_;
    }
    else {
	print @_;
    }
}

1;
PK�@�[l�ǻ�Poll.pmnu�[���

# IO::Poll.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Poll;

use strict;
use IO::Handle;
use Exporter ();
our(@ISA, @EXPORT_OK, @EXPORT, $VERSION);

@ISA = qw(Exporter);
$VERSION = "0.10";

@EXPORT = qw( POLLIN
	      POLLOUT
	      POLLERR
	      POLLHUP
	      POLLNVAL
	    );

@EXPORT_OK = qw(
 POLLPRI   
 POLLRDNORM
 POLLWRNORM
 POLLRDBAND
 POLLWRBAND
 POLLNORM  
	       );

# [0] maps fd's to requested masks
# [1] maps fd's to returned  masks
# [2] maps fd's to handles
sub new {
    my $class = shift;

    my $self = bless [{},{},{}], $class;

    $self;
}

sub mask {
    my $self = shift;
    my $io = shift;
    my $fd = fileno($io);
    return unless defined $fd;
    if (@_) {
	my $mask = shift;
	if($mask) {
	  $self->[0]{$fd}{$io} = $mask; # the error events are always returned
	  $self->[1]{$fd}      = 0;     # output mask
	  $self->[2]{$io}      = $io;   # remember handle
	} else {
          delete $self->[0]{$fd}{$io};
          unless(%{$self->[0]{$fd}}) {
            # We no longer have any handles for this FD
            delete $self->[1]{$fd};
            delete $self->[0]{$fd};
          }
          delete $self->[2]{$io};
	}
    }
    
    return unless exists $self->[0]{$fd} and exists $self->[0]{$fd}{$io};
	return $self->[0]{$fd}{$io};
}


sub poll {
    my($self,$timeout) = @_;

    $self->[1] = {};

    my($fd,$mask,$iom);
    my @poll = ();

    while(($fd,$iom) = each %{$self->[0]}) {
	$mask   = 0;
	$mask  |= $_ for values(%$iom);
	push(@poll,$fd => $mask);
    }

    my $ret = _poll(defined($timeout) ? $timeout * 1000 : -1,@poll);

    return $ret
	unless $ret > 0;

    while(@poll) {
	my($fd,$got) = splice(@poll,0,2);
	$self->[1]{$fd} = $got if $got;
    }

    return $ret;  
}

sub events {
    my $self = shift;
    my $io = shift;
    my $fd = fileno($io);
    exists $self->[1]{$fd} and exists $self->[0]{$fd}{$io} 
                ? $self->[1]{$fd} & ($self->[0]{$fd}{$io}|POLLHUP|POLLERR|POLLNVAL)
	: 0;
}

sub remove {
    my $self = shift;
    my $io = shift;
    $self->mask($io,0);
}

sub handles {
    my $self = shift;
    return values %{$self->[2]} unless @_;

    my $events = shift || 0;
    my($fd,$ev,$io,$mask);
    my @handles = ();

    while(($fd,$ev) = each %{$self->[1]}) {
	while (($io,$mask) = each %{$self->[0]{$fd}}) {
	    $mask |= POLLHUP|POLLERR|POLLNVAL;  # must allow these
	    push @handles,$self->[2]{$io} if ($ev & $mask) & $events;
	}
    }
    return @handles;
}

1;

__END__

=head1 NAME

IO::Poll - Object interface to system poll call

=head1 SYNOPSIS

    use IO::Poll qw(POLLRDNORM POLLWRNORM POLLIN POLLHUP);

    $poll = IO::Poll->new();

    $poll->mask($input_handle => POLLIN);
    $poll->mask($output_handle => POLLOUT);

    $poll->poll($timeout);

    $ev = $poll->events($input);

=head1 DESCRIPTION

C<IO::Poll> is a simple interface to the system level poll routine.

=head1 METHODS

=over 4

=item mask ( IO [, EVENT_MASK ] )

If EVENT_MASK is given, then, if EVENT_MASK is non-zero, IO is added to the
list of file descriptors and the next call to poll will check for
any event specified in EVENT_MASK. If EVENT_MASK is zero then IO will be
removed from the list of file descriptors.

If EVENT_MASK is not given then the return value will be the current
event mask value for IO.

=item poll ( [ TIMEOUT ] )

Call the system level poll routine. If TIMEOUT is not specified then the
call will block. Returns the number of handles which had events
happen, or -1 on error.

=item events ( IO )

Returns the event mask which represents the events that happened on IO
during the last call to C<poll>.

=item remove ( IO )

Remove IO from the list of file descriptors for the next poll.

=item handles( [ EVENT_MASK ] )

Returns a list of handles. If EVENT_MASK is not given then a list of all
handles known will be returned. If EVENT_MASK is given then a list
of handles will be returned which had one of the events specified by
EVENT_MASK happen during the last call ti C<poll>

=back

=head1 SEE ALSO

L<poll(2)>, L<IO::Handle>, L<IO::Select>

=head1 AUTHOR

Graham Barr. Currently maintained by the Perl Porters.  Please report all
bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

=cut
PK�@�[�[f��Dir.pmnu�[���
# IO::Dir.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Dir;

use 5.006;

use strict;
use Carp;
use Symbol;
use Exporter;
use IO::File;
our(@ISA, $VERSION, @EXPORT_OK);
use Tie::Hash;
use File::stat;
use File::Spec;

@ISA = qw(Tie::Hash Exporter);
$VERSION = "1.10";
$VERSION = eval $VERSION;
@EXPORT_OK = qw(DIR_UNLINK);

sub DIR_UNLINK () { 1 }

sub new {
    @_ >= 1 && @_ <= 2 or croak 'usage: IO::Dir->new([DIRNAME])';
    my $class = shift;
    my $dh = gensym;
    if (@_) {
	IO::Dir::open($dh, $_[0])
	    or return undef;
    }
    bless $dh, $class;
}

sub DESTROY {
    my ($dh) = @_;
    local($., $@, $!, $^E, $?);
    no warnings 'io';
    closedir($dh);
}

sub open {
    @_ == 2 or croak 'usage: $dh->open(DIRNAME)';
    my ($dh, $dirname) = @_;
    return undef
	unless opendir($dh, $dirname);
    # a dir name should always have a ":" in it; assume dirname is
    # in current directory
    $dirname = ':' .  $dirname if ( ($^O eq 'MacOS') && ($dirname !~ /:/) );
    ${*$dh}{io_dir_path} = $dirname;
    1;
}

sub close {
    @_ == 1 or croak 'usage: $dh->close()';
    my ($dh) = @_;
    closedir($dh);
}

sub read {
    @_ == 1 or croak 'usage: $dh->read()';
    my ($dh) = @_;
    readdir($dh);
}

sub seek {
    @_ == 2 or croak 'usage: $dh->seek(POS)';
    my ($dh,$pos) = @_;
    seekdir($dh,$pos);
}

sub tell {
    @_ == 1 or croak 'usage: $dh->tell()';
    my ($dh) = @_;
    telldir($dh);
}

sub rewind {
    @_ == 1 or croak 'usage: $dh->rewind()';
    my ($dh) = @_;
    rewinddir($dh);
}

sub TIEHASH {
    my($class,$dir,$options) = @_;

    my $dh = $class->new($dir)
	or return undef;

    $options ||= 0;

    ${*$dh}{io_dir_unlink} = $options & DIR_UNLINK;
    $dh;
}

sub FIRSTKEY {
    my($dh) = @_;
    $dh->rewind;
    scalar $dh->read;
}

sub NEXTKEY {
    my($dh) = @_;
    scalar $dh->read;
}

sub EXISTS {
    my($dh,$key) = @_;
    -e File::Spec->catfile(${*$dh}{io_dir_path}, $key);
}

sub FETCH {
    my($dh,$key) = @_;
    &lstat(File::Spec->catfile(${*$dh}{io_dir_path}, $key));
}

sub STORE {
    my($dh,$key,$data) = @_;
    my($atime,$mtime) = ref($data) ? @$data : ($data,$data);
    my $file = File::Spec->catfile(${*$dh}{io_dir_path}, $key);
    unless(-e $file) {
	my $io = IO::File->new($file,O_CREAT | O_RDWR);
	$io->close if $io;
    }
    utime($atime,$mtime, $file);
}

sub DELETE {
    my($dh,$key) = @_;

    # Only unlink if unlink-ing is enabled
    return 0
	unless ${*$dh}{io_dir_unlink};

    my $file = File::Spec->catfile(${*$dh}{io_dir_path}, $key);

    -d $file
	? rmdir($file)
	: unlink($file);
}

1;

__END__

=head1 NAME 

IO::Dir - supply object methods for directory handles

=head1 SYNOPSIS

    use IO::Dir;
    $d = IO::Dir->new(".");
    if (defined $d) {
        while (defined($_ = $d->read)) { something($_); }
        $d->rewind;
        while (defined($_ = $d->read)) { something_else($_); }
        undef $d;
    }

    tie %dir, 'IO::Dir', ".";
    foreach (keys %dir) {
	print $_, " " , $dir{$_}->size,"\n";
    }

=head1 DESCRIPTION

The C<IO::Dir> package provides two interfaces to perl's directory reading
routines.

The first interface is an object approach. C<IO::Dir> provides an object
constructor and methods, which are just wrappers around perl's built in
directory reading routines.

=over 4

=item new ( [ DIRNAME ] )

C<new> is the constructor for C<IO::Dir> objects. It accepts one optional
argument which,  if given, C<new> will pass to C<open>

=back

The following methods are wrappers for the directory related functions built
into perl (the trailing 'dir' has been removed from the names). See L<perlfunc>
for details of these functions.

=over 4

=item open ( DIRNAME )

=item read ()

=item seek ( POS )

=item tell ()

=item rewind ()

=item close ()

=back

C<IO::Dir> also provides an interface to reading directories via a tied
hash. The tied hash extends the interface beyond just the directory
reading routines by the use of C<lstat>, from the C<File::stat> package,
C<unlink>, C<rmdir> and C<utime>.

=over 4

=item tie %hash, 'IO::Dir', DIRNAME [, OPTIONS ]

=back

The keys of the hash will be the names of the entries in the directory. 
Reading a value from the hash will be the result of calling
C<File::stat::lstat>.  Deleting an element from the hash will 
delete the corresponding file or subdirectory,
provided that C<DIR_UNLINK> is included in the C<OPTIONS>.

Assigning to an entry in the hash will cause the time stamps of the file
to be modified. If the file does not exist then it will be created. Assigning
a single integer to a hash element will cause both the access and 
modification times to be changed to that value. Alternatively a reference to
an array of two values can be passed. The first array element will be used to
set the access time and the second element will be used to set the modification
time.

=head1 SEE ALSO

L<File::stat>

=head1 AUTHOR

Graham Barr. Currently maintained by the Perl Porters.  Please report all
bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1997-2003 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

=cut
PK�@�[�&&File.pmnu�[���
#

package IO::File;

=head1 NAME

IO::File - supply object methods for filehandles

=head1 SYNOPSIS

    use IO::File;

    $fh = IO::File->new();
    if ($fh->open("< file")) {
        print <$fh>;
        $fh->close;
    }

    $fh = IO::File->new("> file");
    if (defined $fh) {
        print $fh "bar\n";
        $fh->close;
    }

    $fh = IO::File->new("file", "r");
    if (defined $fh) {
        print <$fh>;
        undef $fh;       # automatically closes the file
    }

    $fh = IO::File->new("file", O_WRONLY|O_APPEND);
    if (defined $fh) {
        print $fh "corge\n";

        $pos = $fh->getpos;
        $fh->setpos($pos);

        undef $fh;       # automatically closes the file
    }

    autoflush STDOUT 1;

=head1 DESCRIPTION

C<IO::File> inherits from C<IO::Handle> and C<IO::Seekable>. It extends
these classes with methods that are specific to file handles.

=head1 CONSTRUCTOR

=over 4

=item new ( FILENAME [,MODE [,PERMS]] )

Creates an C<IO::File>.  If it receives any parameters, they are passed to
the method C<open>; if the open fails, the object is destroyed.  Otherwise,
it is returned to the caller.

=item new_tmpfile

Creates an C<IO::File> opened for read/write on a newly created temporary
file.  On systems where this is possible, the temporary file is anonymous
(i.e. it is unlinked after creation, but held open).  If the temporary
file cannot be created or opened, the C<IO::File> object is destroyed.
Otherwise, it is returned to the caller.

=back

=head1 METHODS

=over 4

=item open( FILENAME [,MODE [,PERMS]] )

=item open( FILENAME, IOLAYERS )

C<open> accepts one, two or three parameters.  With one parameter,
it is just a front end for the built-in C<open> function.  With two or three
parameters, the first parameter is a filename that may include
whitespace or other special characters, and the second parameter is
the open mode, optionally followed by a file permission value.

If C<IO::File::open> receives a Perl mode string ("E<gt>", "+E<lt>", etc.)
or an ANSI C fopen() mode string ("w", "r+", etc.), it uses the basic
Perl C<open> operator (but protects any special characters).

If C<IO::File::open> is given a numeric mode, it passes that mode
and the optional permissions value to the Perl C<sysopen> operator.
The permissions default to 0666.

If C<IO::File::open> is given a mode that includes the C<:> character,
it passes all the three arguments to the three-argument C<open> operator.

For convenience, C<IO::File> exports the O_XXX constants from the
Fcntl module, if this module is available.

=item binmode( [LAYER] )

C<binmode> sets C<binmode> on the underlying C<IO> object, as documented
in C<perldoc -f binmode>.

C<binmode> accepts one optional parameter, which is the layer to be
passed on to the C<binmode> call.

=back

=head1 NOTE

Some operating systems may perform  C<IO::File::new()> or C<IO::File::open()>
on a directory without errors.  This behavior is not portable and not
suggested for use.  Using C<opendir()> and C<readdir()> or C<IO::Dir> are
suggested instead.

=head1 SEE ALSO

L<perlfunc>, 
L<perlop/"I/O Operators">,
L<IO::Handle>,
L<IO::Seekable>,
L<IO::Dir>

=head1 HISTORY

Derived from FileHandle.pm by Graham Barr E<lt>F<gbarr@pobox.com>E<gt>.

=cut

use 5.006_001;
use strict;
our($VERSION, @EXPORT, @EXPORT_OK, @ISA);
use Carp;
use Symbol;
use SelectSaver;
use IO::Seekable;

require Exporter;

@ISA = qw(IO::Handle IO::Seekable Exporter);

$VERSION = "1.16";

@EXPORT = @IO::Seekable::EXPORT;

eval {
    # Make all Fcntl O_XXX constants available for importing
    require Fcntl;
    my @O = grep /^O_/, @Fcntl::EXPORT;
    Fcntl->import(@O);  # first we import what we want to export
    push(@EXPORT, @O);
};

################################################
## Constructor
##

sub new {
    my $type = shift;
    my $class = ref($type) || $type || "IO::File";
    @_ >= 0 && @_ <= 3
	or croak "usage: $class->new([FILENAME [,MODE [,PERMS]]])";
    my $fh = $class->SUPER::new();
    if (@_) {
	$fh->open(@_)
	    or return undef;
    }
    $fh;
}

################################################
## Open
##

sub open {
    @_ >= 2 && @_ <= 4 or croak 'usage: $fh->open(FILENAME [,MODE [,PERMS]])';
    my ($fh, $file) = @_;
    if (@_ > 2) {
	my ($mode, $perms) = @_[2, 3];
	if ($mode =~ /^\d+$/) {
	    defined $perms or $perms = 0666;
	    return sysopen($fh, $file, $mode, $perms);
	} elsif ($mode =~ /:/) {
	    return open($fh, $mode, $file) if @_ == 3;
	    croak 'usage: $fh->open(FILENAME, IOLAYERS)';
	} else {
            return open($fh, IO::Handle::_open_mode_string($mode), $file);
        }
    }
    open($fh, $file);
}

################################################
## Binmode
##

sub binmode {
    ( @_ == 1 or @_ == 2 ) or croak 'usage $fh->binmode([LAYER])';

    my($fh, $layer) = @_;

    return binmode $$fh unless $layer;
    return binmode $$fh, $layer;
}

1;
PK�@�[Xp�J_
_
Socket/UNIX.pmnu�[���
# IO::Socket::UNIX.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Socket::UNIX;

use strict;
our(@ISA, $VERSION);
use IO::Socket;
use Carp;

@ISA = qw(IO::Socket);
$VERSION = "1.26";
$VERSION = eval $VERSION;

IO::Socket::UNIX->register_domain( AF_UNIX );

sub new {
    my $class = shift;
    unshift(@_, "Peer") if @_ == 1;
    return $class->SUPER::new(@_);
}

sub configure {
    my($sock,$arg) = @_;
    my($bport,$cport);

    my $type = $arg->{Type} || SOCK_STREAM;

    $sock->socket(AF_UNIX, $type, 0) or
	return undef;

    if(exists $arg->{Local}) {
	my $addr = sockaddr_un($arg->{Local});
	$sock->bind($addr) or
	    return undef;
    }
    if(exists $arg->{Listen} && $type != SOCK_DGRAM) {
	$sock->listen($arg->{Listen} || 5) or
	    return undef;
    }
    elsif(exists $arg->{Peer}) {
	my $addr = sockaddr_un($arg->{Peer});
	$sock->connect($addr) or
	    return undef;
    }

    $sock;
}

sub hostpath {
    @_ == 1 or croak 'usage: $sock->hostpath()';
    my $n = $_[0]->sockname || return undef;
    (sockaddr_un($n))[0];
}

sub peerpath {
    @_ == 1 or croak 'usage: $sock->peerpath()';
    my $n = $_[0]->peername || return undef;
    (sockaddr_un($n))[0];
}

1; # Keep require happy

__END__

=head1 NAME

IO::Socket::UNIX - Object interface for AF_UNIX domain sockets

=head1 SYNOPSIS

    use IO::Socket::UNIX;

    my $SOCK_PATH = "$ENV{HOME}/unix-domain-socket-test.sock";

    # Server:
    my $server = IO::Socket::UNIX->new(
        Type => SOCK_STREAM(),
        Local => $SOCK_PATH,
        Listen => 1,
    );

    my $count = 1;
    while (my $conn = $server->accept()) {
        $conn->print("Hello " . ($count++) . "\n");
    }

    # Client:
    my $client = IO::Socket::UNIX->new(
        Type => SOCK_STREAM(),
        Peer => $SOCK_PATH,
    );

    # Now read and write from $client

=head1 DESCRIPTION

C<IO::Socket::UNIX> provides an object interface to creating and using sockets
in the AF_UNIX domain. It is built upon the L<IO::Socket> interface and
inherits all the methods defined by L<IO::Socket>.

=head1 CONSTRUCTOR

=over 4

=item new ( [ARGS] )

Creates an C<IO::Socket::UNIX> object, which is a reference to a
newly created symbol (see the C<Symbol> package). C<new>
optionally takes arguments, these arguments are in key-value pairs.

In addition to the key-value pairs accepted by L<IO::Socket>,
C<IO::Socket::UNIX> provides.

    Type    	Type of socket (eg SOCK_STREAM or SOCK_DGRAM)
    Local   	Path to local fifo
    Peer    	Path to peer fifo
    Listen  	Queue size for listen

If the constructor is only passed a single argument, it is assumed to
be a C<Peer> specification.

If the C<Listen> argument is given, but false, the queue size will be set to 5.

=back

=head1 METHODS

=over 4

=item hostpath()

Returns the pathname to the fifo at the local end

=item peerpath()

Returns the pathanme to the fifo at the peer end

=back

=head1 SEE ALSO

L<Socket>, L<IO::Socket>

=head1 AUTHOR

Graham Barr. Currently maintained by the Perl Porters.  Please report all
bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1996-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

=cut
PK�@�[��"�0�0Socket/INET.pmnu�[���
# IO::Socket::INET.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Socket::INET;

use strict;
our(@ISA, $VERSION);
use IO::Socket;
use Socket;
use Carp;
use Exporter;
use Errno;

@ISA = qw(IO::Socket);
$VERSION = "1.35";

my $EINVAL = exists(&Errno::EINVAL) ? Errno::EINVAL() : 1;

IO::Socket::INET->register_domain( AF_INET );

my %socket_type = ( tcp  => SOCK_STREAM,
		    udp  => SOCK_DGRAM,
		    icmp => SOCK_RAW
		  );
my %proto_number;
$proto_number{tcp}  = Socket::IPPROTO_TCP()  if defined &Socket::IPPROTO_TCP;
$proto_number{udp}  = Socket::IPPROTO_UDP()  if defined &Socket::IPPROTO_UDP;
$proto_number{icmp} = Socket::IPPROTO_ICMP() if defined &Socket::IPPROTO_ICMP;
my %proto_name = reverse %proto_number;

sub new {
    my $class = shift;
    unshift(@_, "PeerAddr") if @_ == 1;
    return $class->SUPER::new(@_);
}

sub _cache_proto {
    my @proto = @_;
    for (map lc($_), $proto[0], split(' ', $proto[1])) {
	$proto_number{$_} = $proto[2];
    }
    $proto_name{$proto[2]} = $proto[0];
}

sub _get_proto_number {
    my $name = lc(shift);
    return undef unless defined $name;
    return $proto_number{$name} if exists $proto_number{$name};

    my @proto = eval { getprotobyname($name) };
    return undef unless @proto;
    _cache_proto(@proto);

    return $proto[2];
}

sub _get_proto_name {
    my $num = shift;
    return undef unless defined $num;
    return $proto_name{$num} if exists $proto_name{$num};

    my @proto = eval { getprotobynumber($num) };
    return undef unless @proto;
    _cache_proto(@proto);

    return $proto[0];
}

sub _sock_info {
  my($addr,$port,$proto) = @_;
  my $origport = $port;
  my @serv = ();

  $port = $1
	if(defined $addr && $addr =~ s,:([\w\(\)/]+)$,,);

  if(defined $proto  && $proto =~ /\D/) {
    my $num = _get_proto_number($proto);
    unless (defined $num) {
      $@ = "Bad protocol '$proto'";
      return;
    }
    $proto = $num;
  }

  if(defined $port) {
    my $defport = ($port =~ s,\((\d+)\)$,,) ? $1 : undef;
    my $pnum = ($port =~ m,^(\d+)$,)[0];

    @serv = getservbyname($port, _get_proto_name($proto) || "")
	if ($port =~ m,\D,);

    $port = $serv[2] || $defport || $pnum;
    unless (defined $port) {
	$@ = "Bad service '$origport'";
	return;
    }

    $proto = _get_proto_number($serv[3]) if @serv && !$proto;
  }

 return ($addr || undef,
	 $port || undef,
	 $proto || undef
	);
}

sub _error {
    my $sock = shift;
    my $err = shift;
    {
      local($!);
      my $title = ref($sock).": ";
      $@ = join("", $_[0] =~ /^$title/ ? "" : $title, @_);
      $sock->close()
	if(defined fileno($sock));
    }
    $! = $err;
    return undef;
}

sub _get_addr {
    my($sock,$addr_str, $multi) = @_;
    my @addr;
    if ($multi && $addr_str !~ /^\d+(?:\.\d+){3}$/) {
	(undef, undef, undef, undef, @addr) = gethostbyname($addr_str);
    } else {
	my $h = inet_aton($addr_str);
	push(@addr, $h) if defined $h;
    }
    @addr;
}

sub configure {
    my($sock,$arg) = @_;
    my($lport,$rport,$laddr,$raddr,$proto,$type);


    $arg->{LocalAddr} = $arg->{LocalHost}
	if exists $arg->{LocalHost} && !exists $arg->{LocalAddr};

    ($laddr,$lport,$proto) = _sock_info($arg->{LocalAddr},
					$arg->{LocalPort},
					$arg->{Proto})
			or return _error($sock, $!, $@);

    $laddr = defined $laddr ? inet_aton($laddr)
			    : INADDR_ANY;

    return _error($sock, $EINVAL, "Bad hostname '",$arg->{LocalAddr},"'")
	unless(defined $laddr);

    $arg->{PeerAddr} = $arg->{PeerHost}
	if exists $arg->{PeerHost} && !exists $arg->{PeerAddr};

    unless(exists $arg->{Listen}) {
	($raddr,$rport,$proto) = _sock_info($arg->{PeerAddr},
					    $arg->{PeerPort},
					    $proto)
			or return _error($sock, $!, $@);
    }

    $proto ||= _get_proto_number('tcp');

    $type = $arg->{Type} || $socket_type{lc _get_proto_name($proto)};

    my @raddr = ();

    if(defined $raddr) {
	@raddr = $sock->_get_addr($raddr, $arg->{MultiHomed});
	return _error($sock, $EINVAL, "Bad hostname '",$arg->{PeerAddr},"'")
	    unless @raddr;
    }

    while(1) {

	$sock->socket(AF_INET, $type, $proto) or
	    return _error($sock, $!, "$!");

        if (defined $arg->{Blocking}) {
	    defined $sock->blocking($arg->{Blocking})
		or return _error($sock, $!, "$!");
	}

	if ($arg->{Reuse} || $arg->{ReuseAddr}) {
	    $sock->sockopt(SO_REUSEADDR,1) or
		    return _error($sock, $!, "$!");
	}

	if ($arg->{ReusePort}) {
	    $sock->sockopt(SO_REUSEPORT,1) or
		    return _error($sock, $!, "$!");
	}

	if ($arg->{Broadcast}) {
		$sock->sockopt(SO_BROADCAST,1) or
		    return _error($sock, $!, "$!");
	}

	if($lport || ($laddr ne INADDR_ANY) || exists $arg->{Listen}) {
	    $sock->bind($lport || 0, $laddr) or
		    return _error($sock, $!, "$!");
	}

	if(exists $arg->{Listen}) {
	    $sock->listen($arg->{Listen} || 5) or
		return _error($sock, $!, "$!");
	    last;
	}

 	# don't try to connect unless we're given a PeerAddr
 	last unless exists($arg->{PeerAddr});
 
        $raddr = shift @raddr;

	return _error($sock, $EINVAL, 'Cannot determine remote port')
		unless($rport || $type == SOCK_DGRAM || $type == SOCK_RAW);

	last
	    unless($type == SOCK_STREAM || defined $raddr);

	return _error($sock, $EINVAL, "Bad hostname '",$arg->{PeerAddr},"'")
	    unless defined $raddr;

#        my $timeout = ${*$sock}{'io_socket_timeout'};
#        my $before = time() if $timeout;

	undef $@;
        if ($sock->connect(pack_sockaddr_in($rport, $raddr))) {
#            ${*$sock}{'io_socket_timeout'} = $timeout;
            return $sock;
        }

	return _error($sock, $!, $@ || "Timeout")
	    unless @raddr;

#	if ($timeout) {
#	    my $new_timeout = $timeout - (time() - $before);
#	    return _error($sock,
#                         (exists(&Errno::ETIMEDOUT) ? Errno::ETIMEDOUT() : $EINVAL),
#                         "Timeout") if $new_timeout <= 0;
#	    ${*$sock}{'io_socket_timeout'} = $new_timeout;
#        }

    }

    $sock;
}

sub connect {
    @_ == 2 || @_ == 3 or
       croak 'usage: $sock->connect(NAME) or $sock->connect(PORT, ADDR)';
    my $sock = shift;
    return $sock->SUPER::connect(@_ == 1 ? shift : pack_sockaddr_in(@_));
}

sub bind {
    @_ == 2 || @_ == 3 or
       croak 'usage: $sock->bind(NAME) or $sock->bind(PORT, ADDR)';
    my $sock = shift;
    return $sock->SUPER::bind(@_ == 1 ? shift : pack_sockaddr_in(@_))
}

sub sockaddr {
    @_ == 1 or croak 'usage: $sock->sockaddr()';
    my($sock) = @_;
    my $name = $sock->sockname;
    $name ? (sockaddr_in($name))[1] : undef;
}

sub sockport {
    @_ == 1 or croak 'usage: $sock->sockport()';
    my($sock) = @_;
    my $name = $sock->sockname;
    $name ? (sockaddr_in($name))[0] : undef;
}

sub sockhost {
    @_ == 1 or croak 'usage: $sock->sockhost()';
    my($sock) = @_;
    my $addr = $sock->sockaddr;
    $addr ? inet_ntoa($addr) : undef;
}

sub peeraddr {
    @_ == 1 or croak 'usage: $sock->peeraddr()';
    my($sock) = @_;
    my $name = $sock->peername;
    $name ? (sockaddr_in($name))[1] : undef;
}

sub peerport {
    @_ == 1 or croak 'usage: $sock->peerport()';
    my($sock) = @_;
    my $name = $sock->peername;
    $name ? (sockaddr_in($name))[0] : undef;
}

sub peerhost {
    @_ == 1 or croak 'usage: $sock->peerhost()';
    my($sock) = @_;
    my $addr = $sock->peeraddr;
    $addr ? inet_ntoa($addr) : undef;
}

1;

__END__

=head1 NAME

IO::Socket::INET - Object interface for AF_INET domain sockets

=head1 SYNOPSIS

    use IO::Socket::INET;

=head1 DESCRIPTION

C<IO::Socket::INET> provides an object interface to creating and using sockets
in the AF_INET domain. It is built upon the L<IO::Socket> interface and
inherits all the methods defined by L<IO::Socket>.

=head1 CONSTRUCTOR

=over 4

=item new ( [ARGS] )

Creates an C<IO::Socket::INET> object, which is a reference to a
newly created symbol (see the C<Symbol> package). C<new>
optionally takes arguments, these arguments are in key-value pairs.

In addition to the key-value pairs accepted by L<IO::Socket>,
C<IO::Socket::INET> provides.


 PeerAddr    Remote host address          <hostname>[:<port>]
 PeerHost    Synonym for PeerAddr
 PeerPort    Remote port or service       <service>[(<no>)] | <no>
 LocalAddr   Local host bind address      hostname[:port]
 LocalHost   Synonym for LocalAddr
 LocalPort   Local host bind port         <service>[(<no>)] | <no>
 Proto       Protocol name (or number)    "tcp" | "udp" | ...
 Type        Socket type              SOCK_STREAM | SOCK_DGRAM | ...
 Listen      Queue size for listen
 ReuseAddr   Set SO_REUSEADDR before binding
 Reuse       Set SO_REUSEADDR before binding (deprecated,
                                              prefer ReuseAddr)
 ReusePort   Set SO_REUSEPORT before binding
 Broadcast   Set SO_BROADCAST before binding
 Timeout     Timeout value for various operations
 MultiHomed  Try all addresses for multi-homed hosts
 Blocking    Determine if connection will be blocking mode

If C<Listen> is defined then a listen socket is created, else if the
socket type, which is derived from the protocol, is SOCK_STREAM then
connect() is called.  If the C<Listen> argument is given, but false,
the queue size will be set to 5.

Although it is not illegal, the use of C<MultiHomed> on a socket
which is in non-blocking mode is of little use. This is because the
first connect will never fail with a timeout as the connect call
will not block.

The C<PeerAddr> can be a hostname or the IP-address on the
"xx.xx.xx.xx" form.  The C<PeerPort> can be a number or a symbolic
service name.  The service name might be followed by a number in
parenthesis which is used if the service is not known by the system.
The C<PeerPort> specification can also be embedded in the C<PeerAddr>
by preceding it with a ":".

If C<Proto> is not given and you specify a symbolic C<PeerPort> port,
then the constructor will try to derive C<Proto> from the service
name.  As a last resort C<Proto> "tcp" is assumed.  The C<Type>
parameter will be deduced from C<Proto> if not specified.

If the constructor is only passed a single argument, it is assumed to
be a C<PeerAddr> specification.

If C<Blocking> is set to 0, the connection will be in nonblocking mode.
If not specified it defaults to 1 (blocking mode).

Examples:

   $sock = IO::Socket::INET->new(PeerAddr => 'www.perl.org',
                                 PeerPort => 'http(80)',
                                 Proto    => 'tcp');

   $sock = IO::Socket::INET->new(PeerAddr => 'localhost:smtp(25)');

   $sock = IO::Socket::INET->new(Listen    => 5,
                                 LocalAddr => 'localhost',
                                 LocalPort => 9000,
                                 Proto     => 'tcp');

   $sock = IO::Socket::INET->new('127.0.0.1:25');

   $sock = IO::Socket::INET->new(
                           PeerPort  => 9999,
                           PeerAddr  => inet_ntoa(INADDR_BROADCAST),
                           Proto     => udp,    
                           LocalAddr => 'localhost',
                           Broadcast => 1 ) 
                       or die "Can't bind : $@\n";

 NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE

As of VERSION 1.18 all IO::Socket objects have autoflush turned on
by default. This was not the case with earlier releases.

 NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE

=back

=head2 METHODS

=over 4

=item sockaddr ()

Return the address part of the sockaddr structure for the socket

=item sockport ()

Return the port number that the socket is using on the local host

=item sockhost ()

Return the address part of the sockaddr structure for the socket in a
text form xx.xx.xx.xx

=item peeraddr ()

Return the address part of the sockaddr structure for the socket on
the peer host

=item peerport ()

Return the port number for the socket on the peer host.

=item peerhost ()

Return the address part of the sockaddr structure for the socket on the
peer host in a text form xx.xx.xx.xx

=back

=head1 SEE ALSO

L<Socket>, L<IO::Socket>

=head1 AUTHOR

Graham Barr. Currently maintained by the Perl Porters.  Please report all
bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1996-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

=cut
PK�@�[�D���>�>	Socket.pmnu�[���

# IO::Socket.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.

package IO::Socket;

require 5.006;

use IO::Handle;
use Socket 1.3;
use Carp;
use strict;
our(@ISA, $VERSION, @EXPORT_OK);
use Exporter;
use Errno;

# legacy

require IO::Socket::INET;
require IO::Socket::UNIX if ($^O ne 'epoc' && $^O ne 'symbian');

@ISA = qw(IO::Handle);

$VERSION = "1.38";

@EXPORT_OK = qw(sockatmark);

sub import {
    my $pkg = shift;
    if (@_ && $_[0] eq 'sockatmark') { # not very extensible but for now, fast
	Exporter::export_to_level('IO::Socket', 1, $pkg, 'sockatmark');
    } else {
	my $callpkg = caller;
	Exporter::export 'Socket', $callpkg, @_;
    }
}

sub new {
    my($class,%arg) = @_;
    my $sock = $class->SUPER::new();

    $sock->autoflush(1);

    ${*$sock}{'io_socket_timeout'} = delete $arg{Timeout};

    return scalar(%arg) ? $sock->configure(\%arg)
			: $sock;
}

my @domain2pkg;

sub register_domain {
    my($p,$d) = @_;
    $domain2pkg[$d] = $p;
}

sub configure {
    my($sock,$arg) = @_;
    my $domain = delete $arg->{Domain};

    croak 'IO::Socket: Cannot configure a generic socket'
	unless defined $domain;

    croak "IO::Socket: Unsupported socket domain"
	unless defined $domain2pkg[$domain];

    croak "IO::Socket: Cannot configure socket in domain '$domain'"
	unless ref($sock) eq "IO::Socket";

    bless($sock, $domain2pkg[$domain]);
    $sock->configure($arg);
}

sub socket {
    @_ == 4 or croak 'usage: $sock->socket(DOMAIN, TYPE, PROTOCOL)';
    my($sock,$domain,$type,$protocol) = @_;

    socket($sock,$domain,$type,$protocol) or
    	return undef;

    ${*$sock}{'io_socket_domain'} = $domain;
    ${*$sock}{'io_socket_type'}   = $type;
    ${*$sock}{'io_socket_proto'}  = $protocol;

    $sock;
}

sub socketpair {
    @_ == 4 || croak 'usage: IO::Socket->socketpair(DOMAIN, TYPE, PROTOCOL)';
    my($class,$domain,$type,$protocol) = @_;
    my $sock1 = $class->new();
    my $sock2 = $class->new();

    socketpair($sock1,$sock2,$domain,$type,$protocol) or
    	return ();

    ${*$sock1}{'io_socket_type'}  = ${*$sock2}{'io_socket_type'}  = $type;
    ${*$sock1}{'io_socket_proto'} = ${*$sock2}{'io_socket_proto'} = $protocol;

    ($sock1,$sock2);
}

sub connect {
    @_ == 2 or croak 'usage: $sock->connect(NAME)';
    my $sock = shift;
    my $addr = shift;
    my $timeout = ${*$sock}{'io_socket_timeout'};
    my $err;
    my $blocking;

    $blocking = $sock->blocking(0) if $timeout;
    if (!connect($sock, $addr)) {
	if (defined $timeout && ($!{EINPROGRESS} || $!{EWOULDBLOCK})) {
	    require IO::Select;

	    my $sel = new IO::Select $sock;

	    undef $!;
	    my($r,$w,$e) = IO::Select::select(undef,$sel,$sel,$timeout);
	    if(@$e[0]) {
		# Windows return from select after the timeout in case of
		# WSAECONNREFUSED(10061) if exception set is not used.
		# This behavior is different from Linux.
		# Using the exception
		# set we now emulate the behavior in Linux
		#    - Karthik Rajagopalan
		$err = $sock->getsockopt(SOL_SOCKET,SO_ERROR);
		$@ = "connect: $err";
	    }
	    elsif(!@$w[0]) {
		$err = $! || (exists &Errno::ETIMEDOUT ? &Errno::ETIMEDOUT : 1);
		$@ = "connect: timeout";
	    }
	    elsif (!connect($sock,$addr) &&
                not ($!{EISCONN} || ($^O eq 'MSWin32' &&
                ($! == (($] < 5.019004) ? 10022 : Errno::EINVAL))))
            ) {
		# Some systems refuse to re-connect() to
		# an already open socket and set errno to EISCONN.
		# Windows sets errno to WSAEINVAL (10022) (pre-5.19.4) or
		# EINVAL (22) (5.19.4 onwards).
		$err = $!;
		$@ = "connect: $!";
	    }
	}
        elsif ($blocking || !($!{EINPROGRESS} || $!{EWOULDBLOCK}))  {
	    $err = $!;
	    $@ = "connect: $!";
	}
    }

    $sock->blocking(1) if $blocking;

    $! = $err if $err;

    $err ? undef : $sock;
}

# Enable/disable blocking IO on sockets.
# Without args return the current status of blocking,
# with args change the mode as appropriate, returning the
# old setting, or in case of error during the mode change
# undef.

sub blocking {
    my $sock = shift;

    return $sock->SUPER::blocking(@_)
        if $^O ne 'MSWin32' && $^O ne 'VMS';

    # Windows handles blocking differently
    #
    # http://groups.google.co.uk/group/perl.perl5.porters/browse_thread/thread/b4e2b1d88280ddff/630b667a66e3509f?#630b667a66e3509f
    # http://msdn.microsoft.com/library/default.asp?url=/library/en-us/winsock/winsock/ioctlsocket_2.asp
    #
    # 0x8004667e is FIONBIO
    #
    # which is used to set blocking behaviour.

    # NOTE: 
    # This is a little confusing, the perl keyword for this is
    # 'blocking' but the OS level behaviour is 'non-blocking', probably
    # because sockets are blocking by default.
    # Therefore internally we have to reverse the semantics.

    my $orig= !${*$sock}{io_sock_nonblocking};
        
    return $orig unless @_;

    my $block = shift;
    
    if ( !$block != !$orig ) {
        ${*$sock}{io_sock_nonblocking} = $block ? 0 : 1;
        ioctl($sock, 0x8004667e, pack("L!",${*$sock}{io_sock_nonblocking}))
            or return undef;
    }
    
    return $orig;        
}


sub close {
    @_ == 1 or croak 'usage: $sock->close()';
    my $sock = shift;
    ${*$sock}{'io_socket_peername'} = undef;
    $sock->SUPER::close();
}

sub bind {
    @_ == 2 or croak 'usage: $sock->bind(NAME)';
    my $sock = shift;
    my $addr = shift;

    return bind($sock, $addr) ? $sock
			      : undef;
}

sub listen {
    @_ >= 1 && @_ <= 2 or croak 'usage: $sock->listen([QUEUE])';
    my($sock,$queue) = @_;
    $queue = 5
	unless $queue && $queue > 0;

    return listen($sock, $queue) ? $sock
				 : undef;
}

sub accept {
    @_ == 1 || @_ == 2 or croak 'usage $sock->accept([PKG])';
    my $sock = shift;
    my $pkg = shift || $sock;
    my $timeout = ${*$sock}{'io_socket_timeout'};
    my $new = $pkg->new(Timeout => $timeout);
    my $peer = undef;

    if(defined $timeout) {
	require IO::Select;

	my $sel = new IO::Select $sock;

	unless ($sel->can_read($timeout)) {
	    $@ = 'accept: timeout';
	    $! = (exists &Errno::ETIMEDOUT ? &Errno::ETIMEDOUT : 1);
	    return;
	}
    }

    $peer = accept($new,$sock)
	or return;

    ${*$new}{$_} = ${*$sock}{$_} for qw( io_socket_domain io_socket_type io_socket_proto );

    return wantarray ? ($new, $peer)
    	      	     : $new;
}

sub sockname {
    @_ == 1 or croak 'usage: $sock->sockname()';
    getsockname($_[0]);
}

sub peername {
    @_ == 1 or croak 'usage: $sock->peername()';
    my($sock) = @_;
    ${*$sock}{'io_socket_peername'} ||= getpeername($sock);
}

sub connected {
    @_ == 1 or croak 'usage: $sock->connected()';
    my($sock) = @_;
    getpeername($sock);
}

sub send {
    @_ >= 2 && @_ <= 4 or croak 'usage: $sock->send(BUF, [FLAGS, [TO]])';
    my $sock  = $_[0];
    my $flags = $_[2] || 0;
    my $peer  = $_[3] || $sock->peername;

    croak 'send: Cannot determine peer address'
	 unless(defined $peer);

    my $r = defined(getpeername($sock))
	? send($sock, $_[1], $flags)
	: send($sock, $_[1], $flags, $peer);

    # remember who we send to, if it was successful
    ${*$sock}{'io_socket_peername'} = $peer
	if(@_ == 4 && defined $r);

    $r;
}

sub recv {
    @_ == 3 || @_ == 4 or croak 'usage: $sock->recv(BUF, LEN [, FLAGS])';
    my $sock  = $_[0];
    my $len   = $_[2];
    my $flags = $_[3] || 0;

    # remember who we recv'd from
    ${*$sock}{'io_socket_peername'} = recv($sock, $_[1]='', $len, $flags);
}

sub shutdown {
    @_ == 2 or croak 'usage: $sock->shutdown(HOW)';
    my($sock, $how) = @_;
    ${*$sock}{'io_socket_peername'} = undef;
    shutdown($sock, $how);
}

sub setsockopt {
    @_ == 4 or croak '$sock->setsockopt(LEVEL, OPTNAME, OPTVAL)';
    setsockopt($_[0],$_[1],$_[2],$_[3]);
}

my $intsize = length(pack("i",0));

sub getsockopt {
    @_ == 3 or croak '$sock->getsockopt(LEVEL, OPTNAME)';
    my $r = getsockopt($_[0],$_[1],$_[2]);
    # Just a guess
    $r = unpack("i", $r)
	if(defined $r && length($r) == $intsize);
    $r;
}

sub sockopt {
    my $sock = shift;
    @_ == 1 ? $sock->getsockopt(SOL_SOCKET,@_)
	    : $sock->setsockopt(SOL_SOCKET,@_);
}

sub atmark {
    @_ == 1 or croak 'usage: $sock->atmark()';
    my($sock) = @_;
    sockatmark($sock);
}

sub timeout {
    @_ == 1 || @_ == 2 or croak 'usage: $sock->timeout([VALUE])';
    my($sock,$val) = @_;
    my $r = ${*$sock}{'io_socket_timeout'};

    ${*$sock}{'io_socket_timeout'} = defined $val ? 0 + $val : $val
	if(@_ == 2);

    $r;
}

sub sockdomain {
    @_ == 1 or croak 'usage: $sock->sockdomain()';
    my $sock = shift;
    if (!defined(${*$sock}{'io_socket_domain'})) {
	my $addr = $sock->sockname();
	${*$sock}{'io_socket_domain'} = sockaddr_family($addr)
	    if (defined($addr));
    }
    ${*$sock}{'io_socket_domain'};
}

sub socktype {
    @_ == 1 or croak 'usage: $sock->socktype()';
    my $sock = shift;
    ${*$sock}{'io_socket_type'} = $sock->sockopt(Socket::SO_TYPE)
	if (!defined(${*$sock}{'io_socket_type'}) && defined(eval{Socket::SO_TYPE}));
    ${*$sock}{'io_socket_type'}
}

sub protocol {
    @_ == 1 or croak 'usage: $sock->protocol()';
    my($sock) = @_;
    ${*$sock}{'io_socket_proto'} = $sock->sockopt(Socket::SO_PROTOCOL)
	if (!defined(${*$sock}{'io_socket_proto'}) && defined(eval{Socket::SO_PROTOCOL}));
    ${*$sock}{'io_socket_proto'};
}

1;

__END__

=head1 NAME

IO::Socket - Object interface to socket communications

=head1 SYNOPSIS

    use IO::Socket;

=head1 DESCRIPTION

C<IO::Socket> provides an object interface to creating and using sockets. It
is built upon the L<IO::Handle> interface and inherits all the methods defined
by L<IO::Handle>.

C<IO::Socket> only defines methods for those operations which are common to all
types of socket. Operations which are specified to a socket in a particular 
domain have methods defined in sub classes of C<IO::Socket>

C<IO::Socket> will export all functions (and constants) defined by L<Socket>.

=head1 CONSTRUCTOR

=over 4

=item new ( [ARGS] )

Creates an C<IO::Socket>, which is a reference to a
newly created symbol (see the C<Symbol> package). C<new>
optionally takes arguments, these arguments are in key-value pairs.
C<new> only looks for one key C<Domain> which tells new which domain
the socket will be in. All other arguments will be passed to the
configuration method of the package for that domain, See below.

 NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE

As of VERSION 1.18 all IO::Socket objects have autoflush turned on
by default. This was not the case with earlier releases.

 NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE

=back

=head1 METHODS

See L<perlfunc> for complete descriptions of each of the following
supported C<IO::Socket> methods, which are just front ends for the
corresponding built-in functions:

    socket
    socketpair
    bind
    listen
    accept
    send
    recv
    peername (getpeername)
    sockname (getsockname)
    shutdown

Some methods take slightly different arguments to those defined in L<perlfunc>
in attempt to make the interface more flexible. These are

=over 4

=item accept([PKG])

perform the system call C<accept> on the socket and return a new
object. The new object will be created in the same class as the listen
socket, unless C<PKG> is specified. This object can be used to
communicate with the client that was trying to connect.

In a scalar context the new socket is returned, or undef upon
failure. In a list context a two-element array is returned containing
the new socket and the peer address; the list will be empty upon
failure.

The timeout in the [PKG] can be specified as zero to effect a "poll",
but you shouldn't do that because a new IO::Select object will be
created behind the scenes just to do the single poll.  This is
horrendously inefficient.  Use rather true select() with a zero
timeout on the handle, or non-blocking IO.

=item socketpair(DOMAIN, TYPE, PROTOCOL)

Call C<socketpair> and return a list of two sockets created, or an
empty list on failure.

=back

Additional methods that are provided are:

=over 4

=item atmark

True if the socket is currently positioned at the urgent data mark,
false otherwise.

    use IO::Socket;

    my $sock = IO::Socket::INET->new('some_server');
    $sock->read($data, 1024) until $sock->atmark;

Note: this is a reasonably new addition to the family of socket
functions, so all systems may not support this yet.  If it is
unsupported by the system, an attempt to use this method will
abort the program.

The atmark() functionality is also exportable as sockatmark() function:

	use IO::Socket 'sockatmark';

This allows for a more traditional use of sockatmark() as a procedural
socket function.  If your system does not support sockatmark(), the
C<use> declaration will fail at compile time.

=item connected

If the socket is in a connected state, the peer address is returned. If the
socket is not in a connected state, undef is returned.

Note that connected() considers a half-open TCP socket to be "in a connected
state".  Specifically, connected() does not distinguish between the
B<ESTABLISHED> and B<CLOSE-WAIT> TCP states; it returns the peer address,
rather than undef, in either case.  Thus, in general, connected() cannot
be used to reliably learn whether the peer has initiated a graceful shutdown
because in most cases (see below) the local TCP state machine remains in
B<CLOSE-WAIT> until the local application calls shutdown() or close();
only at that point does connected() return undef.

The "in most cases" hedge is because local TCP state machine behavior may
depend on the peer's socket options. In particular, if the peer socket has
SO_LINGER enabled with a zero timeout, then the peer's close() will generate
a RST segment, upon receipt of which the local TCP transitions immediately to
B<CLOSED>, and in that state, connected() I<will> return undef.

=item protocol

Returns the numerical number for the protocol being used on the socket, if
known. If the protocol is unknown, as with an AF_UNIX socket, zero
is returned.

=item sockdomain

Returns the numerical number for the socket domain type. For example, for
an AF_INET socket the value of &AF_INET will be returned.

=item sockopt(OPT [, VAL])

Unified method to both set and get options in the SOL_SOCKET level. If called
with one argument then getsockopt is called, otherwise setsockopt is called.

=item getsockopt(LEVEL, OPT)

Get option associated with the socket. Other levels than SOL_SOCKET
may be specified here.

=item setsockopt(LEVEL, OPT, VAL)

Set option associated with the socket. Other levels than SOL_SOCKET
may be specified here.

=item socktype

Returns the numerical number for the socket type. For example, for
a SOCK_STREAM socket the value of &SOCK_STREAM will be returned.

=item timeout([VAL])

Set or get the timeout value (in seconds) associated with this socket.
If called without any arguments then the current setting is returned. If
called with an argument the current setting is changed and the previous
value returned.

=back

=head1 LIMITATIONS

On some systems, for an IO::Socket object created with new_from_fd(),
or created with accept() from such an object, the protocol(),
sockdomain() and socktype() methods may return undef.

=head1 SEE ALSO

L<Socket>, L<IO::Handle>, L<IO::Socket::INET>, L<IO::Socket::UNIX>

=head1 AUTHOR

Graham Barr.  atmark() by Lincoln Stein.  Currently maintained by the
Perl Porters.  Please report all bugs to <perlbug@perl.org>.

=head1 COPYRIGHT

Copyright (c) 1997-8 Graham Barr <gbarr@pobox.com>. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.

The atmark() implementation: Copyright 2001, Lincoln Stein <lstein@cshl.org>.
This module is distributed under the same terms as Perl itself.
Feel free to use, modify and redistribute it as long as you retain
the correct attribution.

=cut
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