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728 lines
17 KiB
728 lines
17 KiB
# IO::Socket.pm
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#
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# Copyright (c) 1996 Graham Barr <[email protected]>. All rights
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# reserved. This program is free software; you can redistribute it and/or
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# modify it under the same terms as Perl itself.
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package IO::Socket;
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=head1 NAME
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IO::Socket - Object interface to socket communications
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=head1 SYNOPSIS
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use IO::Socket;
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=head1 DESCRIPTION
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C<IO::Socket> provides an object interface to creating and using sockets. It
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is built upon the L<IO::Handle> interface and inherits all the methods defined
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by L<IO::Handle>.
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C<IO::Socket> only defines methods for those operations which are common to all
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types of socket. Operations which are specified to a socket in a particular
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domain have methods defined in sub classes of C<IO::Socket>
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C<IO::Socket> will export all functions (and constants) defined by L<Socket>.
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=head1 CONSTRUCTOR
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=over 4
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=item new ( [ARGS] )
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Creates an C<IO::Socket>, which is a reference to a
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newly created symbol (see the C<Symbol> package). C<new>
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optionally takes arguments, these arguments are in key-value pairs.
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C<new> only looks for one key C<Domain> which tells new which domain
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the socket will be in. All other arguments will be passed to the
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configuration method of the package for that domain, See below.
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C<IO::Socket>s will be in autoflush mode after creation. Note that
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versions of IO::Socket prior to 1.1603 (as shipped with Perl 5.004_04)
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did not do this. So if you need backward compatibility, you should
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set autoflush explicitly.
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=back
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=head1 METHODS
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See L<perlfunc> for complete descriptions of each of the following
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supported C<IO::Socket> methods, which are just front ends for the
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corresponding built-in functions:
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socket
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socketpair
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bind
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listen
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accept
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send
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recv
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peername (getpeername)
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sockname (getsockname)
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Some methods take slightly different arguments to those defined in L<perlfunc>
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in attempt to make the interface more flexible. These are
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=over 4
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=item accept([PKG])
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perform the system call C<accept> on the socket and return a new object. The
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new object will be created in the same class as the listen socket, unless
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C<PKG> is specified. This object can be used to communicate with the client
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that was trying to connect. In a scalar context the new socket is returned,
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or undef upon failure. In an array context a two-element array is returned
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containing the new socket and the peer address, the list will
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be empty upon failure.
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Additional methods that are provided are
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=item timeout([VAL])
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Set or get the timeout value associated with this socket. If called without
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any arguments then the current setting is returned. If called with an argument
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the current setting is changed and the previous value returned.
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=item sockopt(OPT [, VAL])
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Unified method to both set and get options in the SOL_SOCKET level. If called
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with one argument then getsockopt is called, otherwise setsockopt is called.
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=item sockdomain
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Returns the numerical number for the socket domain type. For example, for
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a AF_INET socket the value of &AF_INET will be returned.
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=item socktype
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Returns the numerical number for the socket type. For example, for
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a SOCK_STREAM socket the value of &SOCK_STREAM will be returned.
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=item protocol
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Returns the numerical number for the protocol being used on the socket, if
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known. If the protocol is unknown, as with an AF_UNIX socket, zero
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is returned.
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=back
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=cut
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require 5.000;
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use Config;
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use IO::Handle;
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use Socket 1.3;
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use Carp;
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use strict;
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use vars qw(@ISA $VERSION);
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use Exporter;
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@ISA = qw(IO::Handle);
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$VERSION = "1.1603";
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sub import {
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my $pkg = shift;
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my $callpkg = caller;
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Exporter::export 'Socket', $callpkg, @_;
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}
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sub new {
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my($class,%arg) = @_;
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my $fh = $class->SUPER::new();
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$fh->autoflush;
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${*$fh}{'io_socket_timeout'} = delete $arg{Timeout};
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return scalar(%arg) ? $fh->configure(\%arg)
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: $fh;
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}
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my @domain2pkg = ();
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sub register_domain {
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my($p,$d) = @_;
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$domain2pkg[$d] = $p;
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}
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sub configure {
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my($fh,$arg) = @_;
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my $domain = delete $arg->{Domain};
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croak 'IO::Socket: Cannot configure a generic socket'
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unless defined $domain;
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croak "IO::Socket: Unsupported socket domain"
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unless defined $domain2pkg[$domain];
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croak "IO::Socket: Cannot configure socket in domain '$domain'"
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unless ref($fh) eq "IO::Socket";
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bless($fh, $domain2pkg[$domain]);
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$fh->configure($arg);
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}
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sub socket {
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@_ == 4 or croak 'usage: $fh->socket(DOMAIN, TYPE, PROTOCOL)';
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my($fh,$domain,$type,$protocol) = @_;
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socket($fh,$domain,$type,$protocol) or
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return undef;
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${*$fh}{'io_socket_domain'} = $domain;
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${*$fh}{'io_socket_type'} = $type;
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${*$fh}{'io_socket_proto'} = $protocol;
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$fh;
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}
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sub socketpair {
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@_ == 4 || croak 'usage: IO::Socket->pair(DOMAIN, TYPE, PROTOCOL)';
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my($class,$domain,$type,$protocol) = @_;
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my $fh1 = $class->new();
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my $fh2 = $class->new();
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socketpair($fh1,$fh2,$domain,$type,$protocol) or
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return ();
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${*$fh1}{'io_socket_type'} = ${*$fh2}{'io_socket_type'} = $type;
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${*$fh1}{'io_socket_proto'} = ${*$fh2}{'io_socket_proto'} = $protocol;
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($fh1,$fh2);
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}
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sub connect {
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@_ == 2 || @_ == 3 or croak 'usage: $fh->connect(NAME) or $fh->connect(PORT, ADDR)';
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my $fh = shift;
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my $addr = @_ == 1 ? shift : sockaddr_in(@_);
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my $timeout = ${*$fh}{'io_socket_timeout'};
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local($SIG{ALRM}) = $timeout ? sub { undef $fh; }
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: $SIG{ALRM} || 'DEFAULT';
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eval {
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croak 'connect: Bad address'
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if(@_ == 2 && !defined $_[1]);
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if($timeout) {
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defined $Config{d_alarm} && defined alarm($timeout) or
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$timeout = 0;
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}
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my $ok = connect($fh, $addr);
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alarm(0)
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if($timeout);
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croak "connect: timeout"
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unless defined $fh;
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undef $fh unless $ok;
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};
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$fh;
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}
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sub bind {
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@_ == 2 || @_ == 3 or croak 'usage: $fh->bind(NAME) or $fh->bind(PORT, ADDR)';
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my $fh = shift;
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my $addr = @_ == 1 ? shift : sockaddr_in(@_);
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return bind($fh, $addr) ? $fh
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: undef;
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}
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sub listen {
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@_ >= 1 && @_ <= 2 or croak 'usage: $fh->listen([QUEUE])';
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my($fh,$queue) = @_;
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$queue = 5
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unless $queue && $queue > 0;
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return listen($fh, $queue) ? $fh
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: undef;
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}
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sub accept {
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@_ == 1 || @_ == 2 or croak 'usage $fh->accept([PKG])';
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my $fh = shift;
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my $pkg = shift || $fh;
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my $timeout = ${*$fh}{'io_socket_timeout'};
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my $new = $pkg->new(Timeout => $timeout);
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my $peer = undef;
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eval {
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if($timeout) {
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my $fdset = "";
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vec($fdset, $fh->fileno,1) = 1;
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croak "accept: timeout"
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unless select($fdset,undef,undef,$timeout);
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}
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$peer = accept($new,$fh);
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};
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return wantarray ? defined $peer ? ($new, $peer)
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: ()
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: defined $peer ? $new
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: undef;
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}
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sub sockname {
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@_ == 1 or croak 'usage: $fh->sockname()';
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getsockname($_[0]);
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}
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sub peername {
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@_ == 1 or croak 'usage: $fh->peername()';
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my($fh) = @_;
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getpeername($fh)
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|| ${*$fh}{'io_socket_peername'}
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|| undef;
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}
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sub send {
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@_ >= 2 && @_ <= 4 or croak 'usage: $fh->send(BUF, [FLAGS, [TO]])';
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my $fh = $_[0];
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my $flags = $_[2] || 0;
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my $peer = $_[3] || $fh->peername;
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croak 'send: Cannot determine peer address'
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unless($peer);
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my $r = defined(getpeername($fh))
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? send($fh, $_[1], $flags)
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: send($fh, $_[1], $flags, $peer);
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# remember who we send to, if it was sucessful
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${*$fh}{'io_socket_peername'} = $peer
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if(@_ == 4 && defined $r);
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$r;
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}
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sub recv {
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@_ == 3 || @_ == 4 or croak 'usage: $fh->recv(BUF, LEN [, FLAGS])';
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my $sock = $_[0];
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my $len = $_[2];
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my $flags = $_[3] || 0;
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# remember who we recv'd from
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${*$sock}{'io_socket_peername'} = recv($sock, $_[1]='', $len, $flags);
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}
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sub setsockopt {
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@_ == 4 or croak '$fh->setsockopt(LEVEL, OPTNAME)';
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setsockopt($_[0],$_[1],$_[2],$_[3]);
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}
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my $intsize = length(pack("i",0));
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sub getsockopt {
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@_ == 3 or croak '$fh->getsockopt(LEVEL, OPTNAME)';
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my $r = getsockopt($_[0],$_[1],$_[2]);
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# Just a guess
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$r = unpack("i", $r)
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if(defined $r && length($r) == $intsize);
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$r;
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}
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sub sockopt {
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my $fh = shift;
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@_ == 1 ? $fh->getsockopt(SOL_SOCKET,@_)
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: $fh->setsockopt(SOL_SOCKET,@_);
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}
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sub timeout {
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@_ == 1 || @_ == 2 or croak 'usage: $fh->timeout([VALUE])';
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my($fh,$val) = @_;
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my $r = ${*$fh}{'io_socket_timeout'} || undef;
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${*$fh}{'io_socket_timeout'} = 0 + $val
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if(@_ == 2);
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$r;
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}
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sub sockdomain {
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@_ == 1 or croak 'usage: $fh->sockdomain()';
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my $fh = shift;
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${*$fh}{'io_socket_domain'};
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}
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sub socktype {
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@_ == 1 or croak 'usage: $fh->socktype()';
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my $fh = shift;
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${*$fh}{'io_socket_type'}
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}
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sub protocol {
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@_ == 1 or croak 'usage: $fh->protocol()';
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my($fh) = @_;
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${*$fh}{'io_socket_protocol'};
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}
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=head1 SUB-CLASSES
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=cut
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##
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## AF_INET
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##
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package IO::Socket::INET;
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use strict;
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use vars qw(@ISA);
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use Socket;
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use Carp;
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use Exporter;
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@ISA = qw(IO::Socket);
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IO::Socket::INET->register_domain( AF_INET );
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my %socket_type = ( tcp => SOCK_STREAM,
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udp => SOCK_DGRAM,
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icmp => SOCK_RAW,
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);
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=head2 IO::Socket::INET
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C<IO::Socket::INET> provides a constructor to create an AF_INET domain socket
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and some related methods. The constructor can take the following options
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PeerAddr Remote host address <hostname>[:<port>]
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PeerPort Remote port or service <service>[(<no>)] | <no>
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LocalAddr Local host bind address hostname[:port]
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LocalPort Local host bind port <service>[(<no>)] | <no>
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Proto Protocol name (or number) "tcp" | "udp" | ...
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Type Socket type SOCK_STREAM | SOCK_DGRAM | ...
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Listen Queue size for listen
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Reuse Set SO_REUSEADDR before binding
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Timeout Timeout value for various operations
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If C<Listen> is defined then a listen socket is created, else if the
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socket type, which is derived from the protocol, is SOCK_STREAM then
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connect() is called.
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The C<PeerAddr> can be a hostname or the IP-address on the
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"xx.xx.xx.xx" form. The C<PeerPort> can be a number or a symbolic
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service name. The service name might be followed by a number in
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parenthesis which is used if the service is not known by the system.
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The C<PeerPort> specification can also be embedded in the C<PeerAddr>
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by preceding it with a ":".
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If C<Proto> is not given and you specify a symbolic C<PeerPort> port,
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then the constructor will try to derive C<Proto> from the service
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name. As a last resort C<Proto> "tcp" is assumed. The C<Type>
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parameter will be deduced from C<Proto> if not specified.
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If the constructor is only passed a single argument, it is assumed to
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be a C<PeerAddr> specification.
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Examples:
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$sock = IO::Socket::INET->new(PeerAddr => 'www.perl.org',
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PeerPort => 'http(80)',
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Proto => 'tcp');
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$sock = IO::Socket::INET->new(PeerAddr => 'localhost:smtp(25)');
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$sock = IO::Socket::INET->new(Listen => 5,
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LocalAddr => 'localhost',
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LocalPort => 9000,
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Proto => 'tcp');
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$sock = IO::Socket::INET->new('127.0.0.1:25');
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=head2 METHODS
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=over 4
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=item sockaddr ()
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Return the address part of the sockaddr structure for the socket
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=item sockport ()
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Return the port number that the socket is using on the local host
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=item sockhost ()
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Return the address part of the sockaddr structure for the socket in a
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text form xx.xx.xx.xx
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=item peeraddr ()
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Return the address part of the sockaddr structure for the socket on
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the peer host
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=item peerport ()
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Return the port number for the socket on the peer host.
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=item peerhost ()
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Return the address part of the sockaddr structure for the socket on the
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peer host in a text form xx.xx.xx.xx
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=back
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=cut
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sub new
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{
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my $class = shift;
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unshift(@_, "PeerAddr") if @_ == 1;
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return $class->SUPER::new(@_);
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}
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sub _sock_info {
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my($addr,$port,$proto) = @_;
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my @proto = ();
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my @serv = ();
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$port = $1
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if(defined $addr && $addr =~ s,:([\w\(\)/]+)$,,);
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if(defined $proto) {
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@proto = $proto =~ m,\D, ? getprotobyname($proto)
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: getprotobynumber($proto);
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$proto = $proto[2] || undef;
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}
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if(defined $port) {
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$port =~ s,\((\d+)\)$,,;
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my $defport = $1 || undef;
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my $pnum = ($port =~ m,^(\d+)$,)[0];
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@serv= getservbyname($port, $proto[0] || "")
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if($port =~ m,\D,);
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$port = $pnum || $serv[2] || $defport || undef;
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$proto = (getprotobyname($serv[3]))[2] || undef
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if @serv && !$proto;
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}
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return ($addr || undef,
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$port || undef,
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$proto || undef
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);
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}
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sub _error {
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my $fh = shift;
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$@ = join("",ref($fh),": ",@_);
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carp $@ if $^W;
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close($fh)
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if(defined fileno($fh));
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return undef;
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}
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sub configure {
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my($fh,$arg) = @_;
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my($lport,$rport,$laddr,$raddr,$proto,$type);
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($laddr,$lport,$proto) = _sock_info($arg->{LocalAddr},
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$arg->{LocalPort},
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$arg->{Proto});
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$laddr = defined $laddr ? inet_aton($laddr)
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: INADDR_ANY;
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return _error($fh,"Bad hostname '",$arg->{LocalAddr},"'")
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unless(defined $laddr);
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unless(exists $arg->{Listen}) {
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($raddr,$rport,$proto) = _sock_info($arg->{PeerAddr},
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$arg->{PeerPort},
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$proto);
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}
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if(defined $raddr) {
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$raddr = inet_aton($raddr);
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return _error($fh,"Bad hostname '",$arg->{PeerAddr},"'")
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unless(defined $raddr);
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}
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$proto ||= (getprotobyname "tcp")[2];
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return _error($fh,'Cannot determine protocol')
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unless($proto);
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my $pname = (getprotobynumber($proto))[0];
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$type = $arg->{Type} || $socket_type{$pname};
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|
$fh->socket(AF_INET, $type, $proto) or
|
|
return _error($fh,"$!");
|
|
|
|
if ($arg->{Reuse}) {
|
|
$fh->sockopt(SO_REUSEADDR,1) or
|
|
return _error($fh);
|
|
}
|
|
|
|
$fh->bind($lport || 0, $laddr) or
|
|
return _error($fh,"$!");
|
|
|
|
if(exists $arg->{Listen}) {
|
|
$fh->listen($arg->{Listen} || 5) or
|
|
return _error($fh,"$!");
|
|
}
|
|
else {
|
|
return _error($fh,'Cannot determine remote port')
|
|
unless($rport || $type == SOCK_DGRAM || $type == SOCK_RAW);
|
|
|
|
if($type == SOCK_STREAM || defined $raddr) {
|
|
return _error($fh,'Bad peer address')
|
|
unless(defined $raddr);
|
|
|
|
$fh->connect($rport,$raddr) or
|
|
return _error($fh,"$!");
|
|
}
|
|
}
|
|
|
|
$fh;
|
|
}
|
|
|
|
sub sockaddr {
|
|
@_ == 1 or croak 'usage: $fh->sockaddr()';
|
|
my($fh) = @_;
|
|
(sockaddr_in($fh->sockname))[1];
|
|
}
|
|
|
|
sub sockport {
|
|
@_ == 1 or croak 'usage: $fh->sockport()';
|
|
my($fh) = @_;
|
|
(sockaddr_in($fh->sockname))[0];
|
|
}
|
|
|
|
sub sockhost {
|
|
@_ == 1 or croak 'usage: $fh->sockhost()';
|
|
my($fh) = @_;
|
|
inet_ntoa($fh->sockaddr);
|
|
}
|
|
|
|
sub peeraddr {
|
|
@_ == 1 or croak 'usage: $fh->peeraddr()';
|
|
my($fh) = @_;
|
|
(sockaddr_in($fh->peername))[1];
|
|
}
|
|
|
|
sub peerport {
|
|
@_ == 1 or croak 'usage: $fh->peerport()';
|
|
my($fh) = @_;
|
|
(sockaddr_in($fh->peername))[0];
|
|
}
|
|
|
|
sub peerhost {
|
|
@_ == 1 or croak 'usage: $fh->peerhost()';
|
|
my($fh) = @_;
|
|
inet_ntoa($fh->peeraddr);
|
|
}
|
|
|
|
##
|
|
## AF_UNIX
|
|
##
|
|
|
|
package IO::Socket::UNIX;
|
|
|
|
use strict;
|
|
use vars qw(@ISA $VERSION);
|
|
use Socket;
|
|
use Carp;
|
|
use Exporter;
|
|
|
|
@ISA = qw(IO::Socket);
|
|
|
|
IO::Socket::UNIX->register_domain( AF_UNIX );
|
|
|
|
=head2 IO::Socket::UNIX
|
|
|
|
C<IO::Socket::UNIX> provides a constructor to create an AF_UNIX domain socket
|
|
and some related methods. The constructor can take the following options
|
|
|
|
Type Type of socket (eg SOCK_STREAM or SOCK_DGRAM)
|
|
Local Path to local fifo
|
|
Peer Path to peer fifo
|
|
Listen Create a listen socket
|
|
|
|
=head2 METHODS
|
|
|
|
=over 4
|
|
|
|
=item hostpath()
|
|
|
|
Returns the pathname to the fifo at the local end
|
|
|
|
=item peerpath()
|
|
|
|
Returns the pathanme to the fifo at the peer end
|
|
|
|
=back
|
|
|
|
=cut
|
|
|
|
sub configure {
|
|
my($fh,$arg) = @_;
|
|
my($bport,$cport);
|
|
|
|
my $type = $arg->{Type} || SOCK_STREAM;
|
|
|
|
$fh->socket(AF_UNIX, $type, 0) or
|
|
return undef;
|
|
|
|
if(exists $arg->{Local}) {
|
|
my $addr = sockaddr_un($arg->{Local});
|
|
$fh->bind($addr) or
|
|
return undef;
|
|
}
|
|
if(exists $arg->{Listen}) {
|
|
$fh->listen($arg->{Listen} || 5) or
|
|
return undef;
|
|
}
|
|
elsif(exists $arg->{Peer}) {
|
|
my $addr = sockaddr_un($arg->{Peer});
|
|
$fh->connect($addr) or
|
|
return undef;
|
|
}
|
|
|
|
$fh;
|
|
}
|
|
|
|
sub hostpath {
|
|
@_ == 1 or croak 'usage: $fh->hostpath()';
|
|
my $n = $_[0]->sockname || return undef;
|
|
(sockaddr_un($n))[0];
|
|
}
|
|
|
|
sub peerpath {
|
|
@_ == 1 or croak 'usage: $fh->peerpath()';
|
|
my $n = $_[0]->peername || return undef;
|
|
(sockaddr_un($n))[0];
|
|
}
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<Socket>, L<IO::Handle>
|
|
|
|
=head1 AUTHOR
|
|
|
|
Graham Barr E<lt>F<[email protected]>E<gt>
|
|
|
|
=head1 COPYRIGHT
|
|
|
|
Copyright (c) 1996 Graham Barr. All rights reserved. This program is free
|
|
software; you can redistribute it and/or modify it under the same terms
|
|
as Perl itself.
|
|
|
|
=cut
|
|
|
|
1; # Keep require happy
|