# Net::SMTP.pm
#
# Copyright (c) 1995-1997 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 Net::SMTP;
require 5.001;
use strict;
use vars qw($VERSION @ISA);
use Socket 1.3;
use Carp;
use IO::Socket;
use Net::Cmd;
use Net::Config;
$VERSION = "2.24"; # $Id: //depot/libnet/Net/SMTP.pm#25 $
@ISA = qw(Net::Cmd IO::Socket::INET);
sub new
{
my $self = shift;
my $type = ref($self) || $self;
my $host = shift if @_ % 2;
my %arg = @_;
my $hosts = defined $host ? [ $host ] : $NetConfig{smtp_hosts};
my $obj;
my $h;
foreach $h (@{$hosts})
{
$obj = $type->SUPER::new(PeerAddr => ($host = $h),
PeerPort => $arg{Port} || 'smtp(25)',
LocalAddr => $arg{LocalAddr},
LocalPort => $arg{LocalPort},
Proto => 'tcp',
Timeout => defined $arg{Timeout}
? $arg{Timeout}
: 120
) and last;
}
return undef
unless defined $obj;
$obj->autoflush(1);
$obj->debug(exists $arg{Debug} ? $arg{Debug} : undef);
unless ($obj->response() == CMD_OK)
{
$obj->close();
return undef;
}
${*$obj}{'net_smtp_host'} = $host;
(${*$obj}{'net_smtp_banner'}) = $obj->message;
(${*$obj}{'net_smtp_domain'}) = $obj->message =~ /\A\s*(\S+)/;
unless($obj->hello($arg{Hello} || ""))
{
$obj->close();
return undef;
}
$obj;
}
##
## User interface methods
##
sub banner
{
my $me = shift;
return ${*$me}{'net_smtp_banner'} || undef;
}
sub domain
{
my $me = shift;
return ${*$me}{'net_smtp_domain'} || undef;
}
sub etrn {
my $self = shift;
defined($self->supports('ETRN',500,["Command unknown: 'ETRN'"])) &&
$self->_ETRN(@_);
}
sub auth {
my ($self, $username, $password) = @_;
require MIME::Base64;
require Authen::SASL;
my $mechanisms = $self->supports('AUTH',500,["Command unknown: 'AUTH'"]);
return unless defined $mechanisms;
my $sasl;
if (ref($username) and UNIVERSAL::isa($username,'Authen::SASL')) {
$sasl = $username;
$sasl->mechanism($mechanisms);
}
else {
die "auth(username, password)" if not length $username;
$sasl = Authen::SASL->new(mechanism=> $mechanisms,
callback => { user => $username,
pass => $password,
authname => $username,
});
}
# We should probably allow the user to pass the host, but I don't
# currently know and SASL mechanisms that are used by smtp that need it
my $client = $sasl->client_new('smtp',${*$self}{'net_smtp_host'},0);
my $str = $client->client_start;
# We dont support sasl mechanisms that encrypt the socket traffic.
# todo that we would really need to change the ISA hierarchy
# so we dont inherit from IO::Socket, but instead hold it in an attribute
my @cmd = ("AUTH", $client->mechanism, MIME::Base64::encode_base64($str,''));
my $code;
while (($code = $self->command(@cmd)->response()) == CMD_MORE) {
@cmd = (MIME::Base64::encode_base64(
$client->client_step(
MIME::Base64::decode_base64(
($self->message)[0]
)
), ''
));
}
$code == CMD_OK;
}
sub hello
{
my $me = shift;
my $domain = shift || "localhost.localdomain";
my $ok = $me->_EHLO($domain);
my @msg = $me->message;
if($ok)
{
my $h = ${*$me}{'net_smtp_esmtp'} = {};
my $ln;
foreach $ln (@msg) {
$h->{uc $1} = $2
if $ln =~ /(\w+)\b[= \t]*([^\n]*)/;
}
}
elsif($me->status == CMD_ERROR)
{
@msg = $me->message
if $ok = $me->_HELO($domain);
}
$ok && $msg[0] =~ /\A\s*(\S+)/
? $1
: undef;
}
sub supports {
my $self = shift;
my $cmd = uc shift;
return ${*$self}{'net_smtp_esmtp'}->{$cmd}
if exists ${*$self}{'net_smtp_esmtp'}->{$cmd};
$self->set_status(@_)
if @_;
return;
}
sub _addr {
my $addr = shift;
$addr = "" unless defined $addr;
$addr =~ s/^\s*<?\s*|\s*>?\s*$//sg;
"<$addr>";
}
sub mail
{
my $me = shift;
my $addr = _addr(shift);
my $opts = "";
if(@_)
{
my %opt = @_;
my($k,$v);
if(exists ${*$me}{'net_smtp_esmtp'})
{
my $esmtp = ${*$me}{'net_smtp_esmtp'};
if(defined($v = delete $opt{Size}))
{
if(exists $esmtp->{SIZE})
{
$opts .= sprintf " SIZE=%d", $v + 0
}
else
{
carp 'Net::SMTP::mail: SIZE option not supported by host';
}
}
if(defined($v = delete $opt{Return}))
{
if(exists $esmtp->{DSN})
{
$opts .= " RET=" . uc $v
}
else
{
carp 'Net::SMTP::mail: DSN option not supported by host';
}
}
if(defined($v = delete $opt{Bits}))
{
if(exists $esmtp->{'8BITMIME'})
{
$opts .= $v == 8 ? " BODY=8BITMIME" : " BODY=7BIT"
}
else
{
carp 'Net::SMTP::mail: 8BITMIME option not supported by host';
}
}
if(defined($v = delete $opt{Transaction}))
{
if(exists $esmtp->{CHECKPOINT})
{
$opts .= " TRANSID=" . _addr($v);
}
else
{
carp 'Net::SMTP::mail: CHECKPOINT option not supported by host';
}
}
if(defined($v = delete $opt{Envelope}))
{
if(exists $esmtp->{DSN})
{
$v =~ s/([^\041-\176]|=|\+)/sprintf "+%02x", ord($1)/sge;
$opts .= " ENVID=$v"
}
else
{
carp 'Net::SMTP::mail: DSN option not supported by host';
}
}
carp 'Net::SMTP::recipient: unknown option(s) '
. join(" ", keys %opt)
. ' - ignored'
if scalar keys %opt;
}
else
{
carp 'Net::SMTP::mail: ESMTP not supported by host - options discarded :-(';
}
}
$me->_MAIL("FROM:".$addr.$opts);
}
sub send { shift->_SEND("FROM:" . _addr($_[0])) }
sub send_or_mail { shift->_SOML("FROM:" . _addr($_[0])) }
sub send_and_mail { shift->_SAML("FROM:" . _addr($_[0])) }
sub reset
{
my $me = shift;
$me->dataend()
if(exists ${*$me}{'net_smtp_lastch'});
$me->_RSET();
}
sub recipient
{
my $smtp = shift;
my $opts = "";
my $skip_bad = 0;
if(@_ && ref($_[-1]))
{
my %opt = %{pop(@_)};
my $v;
$skip_bad = delete $opt{'SkipBad'};
if(exists ${*$smtp}{'net_smtp_esmtp'})
{
my $esmtp = ${*$smtp}{'net_smtp_esmtp'};
if(defined($v = delete $opt{Notify}))
{
if(exists $esmtp->{DSN})
{
$opts .= " NOTIFY=" . join(",",map { uc $_ } @$v)
}
else
{
carp 'Net::SMTP::recipient: DSN option not supported by host';
}
}
carp 'Net::SMTP::recipient: unknown option(s) '
. join(" ", keys %opt)
. ' - ignored'
if scalar keys %opt;
}
elsif(%opt)
{
carp 'Net::SMTP::recipient: ESMTP not supported by host - options discarded :-(';
}
}
my @ok;
my $addr;
foreach $addr (@_)
{
if($smtp->_RCPT("TO:" . _addr($addr) . $opts)) {
push(@ok,$addr) if $skip_bad;
}
elsif(!$skip_bad) {
return 0;
}
}
return $skip_bad ? @ok : 1;
}
BEGIN {
*to = \&recipient;
*cc = \&recipient;
*bcc = \&recipient;
}
sub data
{
my $me = shift;
my $ok = $me->_DATA() && $me->datasend(@_);
$ok && @_ ? $me->dataend
: $ok;
}
sub datafh {
my $me = shift;
return unless $me->_DATA();
return $me->tied_fh;
}
sub expand
{
my $me = shift;
$me->_EXPN(@_) ? ($me->message)
: ();
}
sub verify { shift->_VRFY(@_) }
sub help
{
my $me = shift;
$me->_HELP(@_) ? scalar $me->message
: undef;
}
sub quit
{
my $me = shift;
$me->_QUIT;
$me->close;
}
sub DESTROY
{
# ignore
}
##
## RFC821 commands
##
sub _EHLO { shift->command("EHLO", @_)->response() == CMD_OK }
sub _HELO { shift->command("HELO", @_)->response() == CMD_OK }
sub _MAIL { shift->command("MAIL", @_)->response() == CMD_OK }
sub _RCPT { shift->command("RCPT", @_)->response() == CMD_OK }
sub _SEND { shift->command("SEND", @_)->response() == CMD_OK }
sub _SAML { shift->command("SAML", @_)->response() == CMD_OK }
sub _SOML { shift->command("SOML", @_)->response() == CMD_OK }
sub _VRFY { shift->command("VRFY", @_)->response() == CMD_OK }
sub _EXPN { shift->command("EXPN", @_)->response() == CMD_OK }
sub _HELP { shift->command("HELP", @_)->response() == CMD_OK }
sub _RSET { shift->command("RSET")->response() == CMD_OK }
sub _NOOP { shift->command("NOOP")->response() == CMD_OK }
sub _QUIT { shift->command("QUIT")->response() == CMD_OK }
sub _DATA { shift->command("DATA")->response() == CMD_MORE }
sub _TURN { shift->unsupported(@_); }
sub _ETRN { shift->command("ETRN", @_)->response() == CMD_OK }
sub _AUTH { shift->command("AUTH", @_)->response() == CMD_OK }
1;
__END__
=head1 NAME
Net::SMTP - Simple Mail Transfer Protocol Client
=head1 SYNOPSIS
use Net::SMTP;
# Constructors
$smtp = Net::SMTP->new('mailhost');
$smtp = Net::SMTP->new('mailhost', Timeout => 60);
=head1 DESCRIPTION
This module implements a client interface to the SMTP and ESMTP
protocol, enabling a perl5 application to talk to SMTP servers. This
documentation assumes that you are familiar with the concepts of the
SMTP protocol described in RFC821.
A new Net::SMTP object must be created with the I<new> method. Once
this has been done, all SMTP commands are accessed through this object.
The Net::SMTP class is a subclass of Net::Cmd and IO::Socket::INET.
=head1 EXAMPLES
This example prints the mail domain name of the SMTP server known as mailhost:
#!/usr/local/bin/perl -w
use Net::SMTP;
$smtp = Net::SMTP->new('mailhost');
print $smtp->domain,"\n";
$smtp->quit;
This example sends a small message to the postmaster at the SMTP server
known as mailhost:
#!/usr/local/bin/perl -w
use Net::SMTP;
$smtp = Net::SMTP->new('mailhost');
$smtp->mail($ENV{USER});
$smtp->to('postmaster');
$smtp->data();
$smtp->datasend("To: postmaster\n");
$smtp->datasend("\n");
$smtp->datasend("A simple test message\n");
$smtp->dataend();
$smtp->quit;
=head1 CONSTRUCTOR
=over 4
=item new Net::SMTP [ HOST, ] [ OPTIONS ]
This is the constructor for a new Net::SMTP object. C<HOST> is the
name of the remote host to which an SMTP connection is required.
If C<HOST> is not given, then the C<SMTP_Host> specified in C<Net::Config>
will be used.
C<OPTIONS> are passed in a hash like fashion, using key and value pairs.
Possible options are:
B<Hello> - SMTP requires that you identify yourself. This option
specifies a string to pass as your mail domain. If not
given a guess will be taken.
B<LocalAddr> and B<LocalPort> - These parameters are passed directly
to IO::Socket to allow binding the socket to a local port.
B<Timeout> - Maximum time, in seconds, to wait for a response from the
SMTP server (default: 120)
B<Debug> - Enable debugging information
Example:
$smtp = Net::SMTP->new('mailhost',
Hello => 'my.mail.domain'
Timeout => 30,
Debug => 1,
);
=back
=head1 METHODS
Unless otherwise stated all methods return either a I<true> or I<false>
value, with I<true> meaning that the operation was a success. When a method
states that it returns a value, failure will be returned as I<undef> or an
empty list.
=over 4
=item banner ()
Returns the banner message which the server replied with when the
initial connection was made.
=item domain ()
Returns the domain that the remote SMTP server identified itself as during
connection.
=item hello ( DOMAIN )
Tell the remote server the mail domain which you are in using the EHLO
command (or HELO if EHLO fails). Since this method is invoked
automatically when the Net::SMTP object is constructed the user should
normally not have to call it manually.
=item etrn ( DOMAIN )
Request a queue run for the DOMAIN given.
=item auth ( USERNAME, PASSWORD )
Attempt SASL authentication.
=item mail ( ADDRESS [, OPTIONS] )
=item send ( ADDRESS )
=item send_or_mail ( ADDRESS )
=item send_and_mail ( ADDRESS )
Send the appropriate command to the server MAIL, SEND, SOML or SAML. C<ADDRESS>
is the address of the sender. This initiates the sending of a message. The
method C<recipient> should be called for each address that the message is to
be sent to.
The C<mail> method can some additional ESMTP OPTIONS which is passed
in hash like fashion, using key and value pairs. Possible options are:
Size => <bytes>
Return => <???>
Bits => "7" | "8"
Transaction => <ADDRESS>
Envelope => <ENVID>
=item reset ()
Reset the status of the server. This may be called after a message has been
initiated, but before any data has been sent, to cancel the sending of the
message.
=item recipient ( ADDRESS [, ADDRESS [ ...]] [, OPTIONS ] )
Notify the server that the current message should be sent to all of the
addresses given. Each address is sent as a separate command to the server.
Should the sending of any address result in a failure then the
process is aborted and a I<false> value is returned. It is up to the
user to call C<reset> if they so desire.
The C<recipient> method can some additional OPTIONS which is passed
in hash like fashion, using key and value pairs. Possible options are:
Notify =>
SkipBad => ignore bad addresses
If C<SkipBad> is true the C<recipient> will not return an error when a
bad address is encountered and it will return an array of addresses
that did succeed.
$smtp->recipient($recipient1,$recipient2); # Good
$smtp->recipient($recipient1,$recipient2, { SkipBad => 1 }); # Good
$smtp->recipient("$recipient,$recipient2"); # BAD
=item to ( ADDRESS [, ADDRESS [...]] )
=item cc ( ADDRESS [, ADDRESS [...]] )
=item bcc ( ADDRESS [, ADDRESS [...]] )
Synonyms for C<recipient>.
=item data ( [ DATA ] )
Initiate the sending of the data from the current message.
C<DATA> may be a reference to a list or a list. If specified the contents
of C<DATA> and a termination string C<".\r\n"> is sent to the server. And the
result will be true if the data was accepted.
If C<DATA> is not specified then the result will indicate that the server
wishes the data to be sent. The data must then be sent using the C<datasend>
and C<dataend> methods described in L<Net::Cmd>.
=item expand ( ADDRESS )
Request the server to expand the given address Returns an array
which contains the text read from the server.
=item verify ( ADDRESS )
Verify that C<ADDRESS> is a legitimate mailing address.
=item help ( [ $subject ] )
Request help text from the server. Returns the text or undef upon failure
=item quit ()
Send the QUIT command to the remote SMTP server and close the socket connection.
=back
=head1 ADDRESSES
All methods that accept addresses expect the address to be a valid rfc2821-quoted address, although
Net::SMTP will accept accept the address surrounded by angle brackets.
funny user@domain WRONG
"funny user"@domain RIGHT, recommended
<"funny user"@domain> OK
=head1 SEE ALSO
L<Net::Cmd>
=head1 AUTHOR
Graham Barr <gbarr@pobox.com>
=head1 COPYRIGHT
Copyright (c) 1995-1997 Graham Barr. All rights reserved.
This program is free software; you can redistribute it and/or modify
it under the same terms as Perl itself.
=for html <hr>
I<$Id: //depot/libnet/Net/SMTP.pm#25 $>
=cut
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