# Copyright (c) 2002 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. package Authen::SASL::Perl; use strict; use vars qw($VERSION); use Carp; $VERSION = "2.14"; my %secflags = ( noplaintext => 1, noanonymous => 1, nodictionary => 1, ); my %have; sub server_new { my ($pkg, $parent, $service, $host, $options) = @_; my $self = { callback => { %{$parent->callback} }, service => $service || '', host => $host || '', debug => $parent->{debug} || 0, need_step => 1, }; my $mechanism = $parent->mechanism or croak "No server mechanism specified"; $mechanism =~ s/^\s*\b(.*)\b\s*$/$1/g; $mechanism =~ s/-/_/g; $mechanism = uc $mechanism; my $mpkg = __PACKAGE__ . "::$mechanism"; eval "require $mpkg;" or croak "Cannot use $mpkg for " . $parent->mechanism; my $server = $mpkg->_init($self); $server->_init_server($options); return $server; } sub client_new { my ($pkg, $parent, $service, $host, $secflags) = @_; my @sec = grep { $secflags{$_} } split /\W+/, lc($secflags || ''); my $self = { callback => { %{$parent->callback} }, service => $service || '', host => $host || '', debug => $parent->{debug} || 0, need_step => 1, }; my @mpkg = sort { $b->_order <=> $a->_order } grep { my $have = $have{$_} ||= (eval "require $_;" and $_->can('_secflags')) ? 1 : -1; $have > 0 and $_->_secflags(@sec) == @sec } map { (my $mpkg = __PACKAGE__ . "::$_") =~ s/-/_/g; $mpkg; } split /[^-\w]+/, $parent->mechanism or croak "No SASL mechanism found\n"; $mpkg[0]->_init($self); } sub _init_server {} sub _order { 0 } sub code { defined(shift->{error}) || 0 } sub error { shift->{error} } sub service { shift->{service} } sub host { shift->{host} } sub need_step { my $self = shift; return 0 if $self->{error}; return $self->{need_step}; } ## I think I need to rename that to end()? ## It doesn't mean that SASL is successful, but that ## that the negotiation is over, no more step necessary ## at least for the client sub set_success { my $self = shift; $self->{need_step} = 0; } sub is_success { my $self = shift; return !$self->code && !$self->need_step; } sub set_error { my $self = shift; $self->{error} = shift; return; } # set/get property sub property { my $self = shift; my $prop = $self->{property} ||= {}; return $prop->{ $_[0] } if @_ == 1; my %new = @_; @{$prop}{keys %new} = values %new; 1; } sub callback { my $self = shift; return $self->{callback}{$_[0]} if @_ == 1; my %new = @_; @{$self->{callback}}{keys %new} = values %new; $self->{callback}; } # Should be defined in the mechanism sub-class sub mechanism { undef } sub client_step { undef } sub client_start { undef } sub server_step { undef } sub server_start { undef } # Private methods used by Authen::SASL::Perl that # may be overridden in mechanism sub-calsses sub _init { my ($pkg, $href) = @_; bless $href, $pkg; } sub _call { my ($self, $name) = splice(@_,0,2); my $cb = $self->{callback}{$name}; return undef unless defined $cb; my $value; if (ref($cb) eq 'ARRAY') { my @args = @$cb; $cb = shift @args; $value = $cb->($self, @args); } elsif (ref($cb) eq 'CODE') { $value = $cb->($self, @_); } else { $value = $cb; } $self->{answer}{$name} = $value unless $name eq 'pass'; # Do not store password return $value; } # TODO: Need a better name than this sub answer { my ($self, $name) = @_; $self->{answer}{$name}; } sub _secflags { 0 } sub securesocket { my $self = shift; return $_[0] unless (defined($self->property('ssf')) && $self->property('ssf') > 0); local *GLOB; # avoid used only once warning my $glob = \do { local *GLOB; }; tie(*$glob, 'Authen::SASL::Perl::Layer', $_[0], $self); $glob; } { # # Add SASL encoding/decoding to a filehandle # package Authen::SASL::Perl::Layer; use bytes; require Tie::Handle; our @ISA = qw(Tie::Handle); sub TIEHANDLE { my ($class, $fh, $conn) = @_; my $self; warn __PACKAGE__ . ': non-blocking handle may not work' if ($fh->can('blocking') and not $fh->blocking()); $self->{fh} = $fh; $self->{conn} = $conn; $self->{readbuflen} = 0; $self->{sndbufsz} = $conn->property('maxout'); $self->{rcvbufsz} = $conn->property('maxbuf'); return bless($self, $class); } sub CLOSE { my ($self) = @_; # forward close to the inner handle close($self->{fh}); delete $self->{fh}; } sub DESTROY { my ($self) = @_; delete $self->{fh}; undef $self; } sub FETCH { my ($self) = @_; return $self->{fh}; } sub FILENO { my ($self) = @_; return fileno($self->{fh}); } sub READ { my ($self, $buf, $len, $offset) = @_; my $debug = $self->{conn}->{debug}; $buf = \$_[1]; my $avail = $self->{readbuflen}; print STDERR " [READ(len=$len,offset=$offset)] avail=$avail;\n" if ($debug & 4); # Check if there's leftovers from a previous READ if ($avail <= 0) { $avail = $self->_getbuf(); return undef unless ($avail > 0); } # if there's more than we need right now, leave the rest for later if ($avail >= $len) { print STDERR " GOT ALL: avail=$avail; need=$len\n" if ($debug & 4); substr($$buf, $offset, $len) = substr($self->{readbuf}, 0, $len, ''); $self->{readbuflen} -= $len; return ($len); } # there's not enough; take all we have, read more on next call print STDERR " GOT PARTIAL: avail=$avail; need=$len\n" if ($debug & 4); substr($$buf, $offset || 0, $avail) = $self->{readbuf}; $self->{readbuf} = ''; $self->{readbuflen} = 0; return ($avail); } # retrieve and decode a buffer of cipher text in SASL format sub _getbuf { my ($self) = @_; my $debug = $self->{conn}->{debug}; my $fh = $self->{fh}; my $buf = ''; # first, read 4-octet buffer size my $n = 0; while ($n < 4) { my $rv = sysread($fh, $buf, 4 - $n, $n); print STDERR " [getbuf: sysread($fh,$buf,4-$n,$n)=$rv: $!\n" if ($debug & 4); return $rv unless $rv > 0; $n += $rv; } # size is encoded in network byte order my ($bsz) = unpack('N', $buf); print STDERR " [getbuf: cipher buffer sz=$bsz]\n" if ($debug & 4); return undef unless ($bsz <= $self->{rcvbufsz}); # next, read actual cipher text $buf = ''; $n = 0; while ($n < $bsz) { my $rv = sysread($fh, $buf, $bsz - $n, $n); print STDERR " [getbuf: got o=$n,n=", $bsz - $n, ",rv=$rv,bl=" . length($buf) . "]\n" if ($debug & 4); return $rv unless $rv > 0; $n += $rv; } # call mechanism specific decoding routine $self->{readbuf} = $self->{conn}->decode($buf, $bsz); $n = length($self->{readbuf}); print STDERR " [getbuf: clear text buffer sz=$n]\n" if ($debug & 4); $self->{readbuflen} = $n; } # Encrypting a write() to a filehandle is much easier than reading, because # all the data to be encrypted is immediately available sub WRITE { my ($self, undef, $len, $offset) = @_; my $debug = $self->{conn}->{debug}; my $fh = $self->{fh}; # put on wire in peer-sized chunks my $bsz = $self->{sndbufsz}; while ($len > 0) { print STDERR " [WRITE: chunk $bsz/$len]\n" if ($debug & 8); # call mechanism specific encoding routine my $x = $self->{conn}->encode(substr($_[1], $offset || 0, $bsz)); print $fh pack('N', length($x)), $x; $len -= $bsz; $offset += $bsz; } return $_[2]; } } 1;