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# # GnuPG.pm - Interface to the GNU Privacy Guard. # # This file is part of GnuPG.pm. # # Author: Francis J. Lacoste <francis.lacoste@Contre.COM> # # Copyright (C) 2000 iNsu Innovations Inc. # Copyright (C) 2001 Francis J. Lacoste # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # package GnuPG; use strict; use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS ); BEGIN { require Exporter; @ISA = qw(Exporter); @EXPORT = qw(); %EXPORT_TAGS = ( algo => [ qw( RSA_RSA DSA_ELGAMAL DSA RSA ) ], trust => [ qw( TRUST_UNDEFINED TRUST_NEVER TRUST_MARGINAL TRUST_FULLY TRUST_ULTIMATE ) ], ); Exporter::export_ok_tags( qw( algo trust ) ); $VERSION = '0.19'; } use constant RSA_RSA => 1; use constant DSA_ELGAMAL => 2; use constant DSA => 3; use constant RSA => 4; use constant TRUST_UNDEFINED => -1; use constant TRUST_NEVER => 0; use constant TRUST_MARGINAL => 1; use constant TRUST_FULLY => 2; use constant TRUST_ULTIMATE => 3; use Carp; use POSIX qw(); use Symbol; use Fcntl; sub parse_trust { for (shift) { /ULTIMATE/ && do { return TRUST_ULTIMATE; }; /FULLY/ && do { return TRUST_FULLY; }; /MARGINAL/ && do { return TRUST_MARGINAL; }; /NEVER/ && do { return TRUST_NEVER; }; # Default return TRUST_UNDEFINED; } } sub options($;$) { my $self = shift; $self->{cmd_options} = shift if ( $_[0] ); $self->{cmd_options}; } sub command($;$) { my $self = shift; $self->{command} = shift if ( $_[0] ); $self->{command}; } sub args($;$) { my $self = shift; $self->{args} = shift if ( $_[0] ); $self->{args}; } sub cmdline($) { my $self = shift; my $args = [ $self->{gnupg_path} ]; # Default options push @$args, "--no-tty" unless $self->{trace}; push @$args, "--no-greeting", "--yes", "--status-fd", fileno $self->{status_fd}, "--command-fd", fileno $self->{command_fd}; # Check for homedir and options file push @$args, "--homedir", $self->{homedir} if $self->{homedir}; push @$args, "--options", $self->{options} if $self->{options}; # Command options push @$args, @{ $self->options }; # Command and arguments push @$args, "--" . $self->command; push @$args, @{ $self->args }; return $args; } sub end_gnupg($) { my $self = shift; print STDERR "GnuPG: closing status fd " . fileno ($self->{status_fd}) . "\n" if $self->{trace}; close $self->{status_fd} or croak "error while closing pipe: $!\n"; print STDERR "GnuPG: closing command fd " . fileno ($self->{command_fd}) . "\n" if $self->{trace}; close $self->{command_fd} or croak "error while closing pipe: $!\n"; waitpid $self->{gnupg_pid}, 0 or croak "error while waiting for gpg: $!\n"; for ( qw(protocol gnupg_pid command options args status_fd command_fd input output next_status ) ) { delete $self->{$_}; } } sub abort_gnupg($$) { my ($self,$msg) = @_; # Signal our child that it is the end if ($self->{gnupg_pid} && kill 0 => $self->{gnupg_pid} ) { kill INT => $self->{gnupg_pid}; } $self->end_gnupg; confess ( $msg ); } # Used to push back status information sub next_status($$$) { my ($self,$cmd,$arg) = @_; $self->{next_status} = [$cmd,$arg]; } sub read_from_status($) { my $self = shift; # Check if a status was pushed back if ( $self->{next_status} ) { my $status = $self->{next_status}; $self->{next_status} = undef; return @$status; } print STDERR "GnuPG: reading from status fd " . fileno ($self->{status_fd}) . "\n" if $self->{trace}; my $fd = $self->{status_fd}; local $/ = "\n"; # Just to be sure my $line = <$fd>; unless ($line) { print STDERR "GnuPG: got from status fd: EOF" if $self->{trace}; return (); } print STDERR "GnuPG: got from status fd: $line" if $self->{trace}; my ( $cmd,$arg ) = $line =~ /\[GNUPG:\] (\w+) ?(.+)?$/; $self->abort_gnupg( "error communicating with gnupg: bad status line: $line\n" ) unless $cmd; print STDERR "GnuPG: Parsed as " . $cmd . " - " . $arg . "\n" if $self->{trace}; return wantarray ? ( $cmd, $arg ) : $cmd; } sub run_gnupg($) { my $self = shift; my $fd = gensym; my $wfd = gensym; my $crfd = gensym; # command read and write file descriptors my $cwfd = gensym; pipe $fd, $wfd or croak ( "error creating status pipe: $!\n" ); my $old = select $wfd; $| = 1; # Unbuffer select $old; pipe $crfd, $cwfd or croak ( "error creating command pipe: $!\n" ); $old = select $cwfd; $| = 1; # Unbuffer select $old; # Keep pipe open after close fcntl( $fd, F_SETFD, 0 ) or croak "error removing close on exec flag: $!\n" ; fcntl( $wfd, F_SETFD, 0 ) or croak "error removing close on exec flag: $!\n" ; fcntl( $crfd, F_SETFD, 0 ) or croak "error removing close on exec flag: $!\n" ; fcntl( $cwfd, F_SETFD, 0 ) or croak "error removing close on exec flag: $!\n" ; my $pid = fork; croak( "error forking: $!" ) unless defined $pid; if ( $pid ) { # Parent close $wfd; $self->{status_fd} = $fd; $self->{gnupg_pid} = $pid; $self->{command_fd} = $cwfd; } else { # Child $self->{status_fd} = $wfd; $self->{command_fd} = $crfd; my $cmdline = $self->cmdline; unless ( $self->{trace} ) { open (STDERR, "> /dev/null" ) or die "can't redirect stderr to /dev/null: $!\n"; } # This is where we grab the data if ( ref $self->{input} && defined fileno $self->{input} ) { open ( STDIN, "<&" . fileno $self->{input} ) or die "error setting up data input: $!\n"; } elsif ( $self->{input} && -t STDIN) { open ( STDIN, $self->{input} ) or die "error setting up data input: $!\n"; } elsif ( $self->{input} ) { push(@{$cmdline}, $self->{input}); }# Defaults to stdin # This is where the output goes if ( ref $self->{output} && defined fileno $self->{output} ) { open ( STDOUT, ">&" . fileno $self->{output} ) or die "can't redirect stdout to proper output fd: $!\n"; } elsif ( $self->{output} && -t STDOUT ) { open ( STDOUT, ">".$self->{output} ) or die "can't open $self->{output} for output: $!\n"; } elsif ( $self->{output} ) { my $gpg = shift(@{$cmdline}); unshift(@{$cmdline}, '--output', $self->{output}); unshift(@{$cmdline}, $gpg); } # Defaults to stdout # Close all open file descriptors except STDIN, STDOUT, STDERR # and the status filedescriptor. # # This is needed for the tie interface which opens pipes which # some ends must be closed in the child. # # Besides this is just plain good hygiene my $max_fd = POSIX::sysconf( &POSIX::_SC_OPEN_MAX ) || 256; foreach my $f ( 3 .. $max_fd ) { next if $f == fileno $self->{status_fd}; next if $f == fileno $self->{command_fd}; POSIX::close( $f ); } print STDERR 'GnuPG: executing `' . join( ' ', @{$cmdline} ) . '`' if $self->{trace}; exec ( @$cmdline ) or CORE::die "can't exec gnupg: $!\n"; } } sub cpr_maybe_send($$$) { ($_[0])->cpr_send( @_[1, $#_], 1); } sub cpr_send($$$;$) { my ($self,$key,$value, $optional) = @_; my $fd = $self->{command_fd}; my ( $cmd, $arg ) = $self->read_from_status; unless ( defined $cmd && $cmd =~ /^GET_/) { $self->abort_gnupg( "protocol error: expected GET_XXX got $cmd\n" ) unless $optional; $self->next_status( $cmd, $arg ); return; } unless ( $arg eq $key ) { $self->abort_gnupg ( "protocol error: expected key $key got $arg\n" ) unless $optional; return; } print STDERR "GnuPG: writing to command fd " . fileno ($fd) . ": $value\n" if $self->{trace}; print $fd $value . "\n"; ( $cmd, $arg ) = $self->read_from_status; unless ( defined $cmd && $cmd =~ /^GOT_IT/) { $self->next_status( $cmd, $arg ); } } sub send_passphrase($$) { my ($self,$passwd) = @_; # GnuPG should now tell us that it needs a passphrase my $cmd = $self->read_from_status; # Skip UserID hint $cmd = $self->read_from_status if ( $cmd =~ /USERID_HINT/ ); if ($cmd =~ /GOOD_PASSPHRASE/) { # This means we didnt need a passphrase $self->next_status($cmd); # We push this back on for read_from_status return; } $self->abort_gnupg( "Protocol error: expected NEED_PASSPHRASE.* got $cmd\n") unless $cmd =~ /NEED_PASSPHRASE/; $self->cpr_send( "passphrase.enter", $passwd ); unless ( $passwd ) { my $cmd = $self->read_from_status; $self->abort_gnupg( "Protocol error: expected MISSING_PASSPHRASE got $cmd\n" ) unless $cmd eq "MISSING_PASSPHRASE"; } } sub new($%) { my $proto = shift; my $class = ref $proto || $proto; my %args = @_; my $self = {}; if ($args{homedir}) { croak ( "Invalid home directory: $args{homedir}\n") unless -d $args{homedir} && -x _; $self->{homedir} = $args{homedir}; } if ($args{options}) { croak ( "Invalid options file: $args{options}\n") unless -r $args{options}; $self->{options} = $args{options}; } if ( $args{gnupg_path} ) { croak ( "Invalid gpg path: $args{gnupg_path}\n") unless -x $args{gnupg_path}; $self->{gnupg_path} = $args{gnupg_path}; } else { my ($path) = grep { -x "$_/gpg" } split /:/, $ENV{PATH}; croak ( "Couldn't find gpg in PATH ($ENV{PATH})\n" ) unless $path; $self->{gnupg_path} = "$path/gpg"; } $self->{trace} = $args{trace} ? 1 : 0; bless $self, $class; } sub DESTROY { my $self = shift; # Signal our child that it is the end if ($self->{gnupg_pid} && kill 0 => $self->{gnupg_pid} ) { kill INT => $self->{gnupg_pid}; } } sub gen_key($%) { my ($self,%args) = @_; my $cmd; my $arg; my $algo = $args{algo}; $algo ||= RSA_RSA; my $size = $args{size}; $size ||= 1024; croak ( "Keysize is too small: $size" ) if $size < 768; croak ( "Keysize is too big: $size" ) if $size > 2048; my $expire = $args{valid}; $expire ||= 0; my $passphrase = $args{passphrase} || ""; my $name = $args{name}; croak "Missing key name\n" unless $name; croak "Invalid name: $name\n" unless $name =~ /^\s*[^0-9\<\(\[\]\)\>][^\<\(\[\]\)\>]+$/; my $email = $args{email}; if ( $email ) { croak "Invalid email address: $email" unless $email =~ /^\s* # Whitespace are okay [a-zA-Z0-9_-] # Doesn't start with a dot [a-zA-Z0-9_.-]* \@ # Contains at most one at [a-zA-Z0-9_.-]+ [a-zA-Z0-9_-] # Doesn't end in a dot /x && $email !~ /\.\./; } else { $email = ""; } my $comment = $args{comment}; if ( $comment ) { croak "Invalid characters in comment" if $comment =~ /[()]/; } else { $comment = ""; } $self->command( "gen-key" ); $self->options( [] ); $self->args( [] ); $self->run_gnupg; $self->cpr_send("keygen.algo", $algo ); # if ( $algo == ELGAMAL ) { # # Shitty interactive program, yes I'm sure. # # I'm a program, I can't change my mind now. # $self->cpr_send( "keygen.algo.elg_se", 1 ) # } $self->cpr_send( "keygen.size", $size ); $self->cpr_send( "keygen.valid", $expire ); $self->cpr_send( "keygen.name", $name ); $self->cpr_send( "keygen.email", $email ); $self->cpr_send( "keygen.comment", $comment ); $self->send_passphrase( $passphrase ); $self->end_gnupg; # Woof. We should now have a generated key ! } sub import_keys($%) { my ($self,%args) = @_; $self->command( "import" ); $self->options( [] ); my $count; if ( ref $args{keys} ) { $self->args( $args{keys} ); } else { # Only one file to import $self->{input} = $args{keys}; $self->args( [] ); } $self->run_gnupg; FILE: my $num_files = ref $args{keys} ? @{$args{keys}} : 1; my ($cmd,$arg); # We will see one IMPORTED for each key that is imported KEY: while ( 1 ) { ($cmd,$arg) = $self->read_from_status; last KEY unless $cmd =~ /IMPORTED/; $count++ } # We will see one IMPORT_RES for all files processed $self->abort_gnupg ( "protocol error expected IMPORT_OK got $cmd\n" ) unless $cmd =~ /IMPORT_OK/; $self->end_gnupg; # We return the number of imported keys return $count; } sub export_keys($%) { my ($self,%args) = @_; my $options = []; push @$options, "--armor" if $args{armor}; $self->{output} = $args{output}; my $keys = []; if ( $args{keys}) { push @$keys, ref $args{keys} ? @{$args{keys}} : $args{keys}; } if ( $args{secret} ) { $self->command( "export-secret-keys" ); } elsif ( $args{all} ){ $self->command( "export-all" ); } else { $self->command( "export" ); } $self->options( $options ); $self->args( $keys ); $self->run_gnupg; $self->end_gnupg; } sub encrypt($%) { my ($self,%args) = @_; my $options = []; croak ( "no recipient specified\n" ) unless $args{recipient} or $args{symmetric}; for my $recipient ( ref $args{recipient} eq 'ARRAY' ? @{ $args{recipient} } : $args{recipient} ) { $recipient =~ s/ /\ /g; # Escape spaces in the recipient. This fills some strange edge case push @$options, "--recipient" => $recipient; } push @$options, "--sign" if $args{sign}; croak ( "can't sign an symmetric encrypted message\n" ) if $args{sign} and $args{symmetric}; my $passphrase = $args{passphrase} || ""; push @$options, "--armor" if $args{armor}; push @$options, "--local-user", $args{"local-user"} if defined $args{"local-user"}; $self->{input} = $args{plaintext} || $args{input}; $self->{output} = $args{output}; if ( $args{symmetric} ) { $self->command( "symmetric" ); } else { $self->command( "encrypt" ); } $self->options( $options ); $self->args( [] ); $self->run_gnupg; # Unless we decided to sign or are using symmetric cipher, we are done if ( $args{sign} or $args{symmetric} ) { $self->send_passphrase( $passphrase ); if ( $args{sign} ) { my ($cmd,$line) = $self->read_from_status; $self->abort_gnupg( "invalid passphrase - $cmd\n" ) unless $cmd =~ /GOOD_PASSPHRASE/; } } # It is possible that this key has no assigned trust value. # Assume the caller knows what he is doing. $self->cpr_maybe_send( "untrusted_key.override", 'y' ); $self->end_gnupg unless $args{tie_mode}; } sub sign($%) { my ($self,%args) = @_; my $options = []; my $passphrase = $args{passphrase} || ""; push @$options, "--armor" if $args{armor}; push @$options, "--local-user", $args{"local-user"} if defined $args{"local-user"}; $self->{input} = $args{plaintext} || $args{input}; $self->{output} = $args{output}; if ( $args{clearsign} ) { $self->command( "clearsign" ); } elsif ( $args{"detach-sign"}) { $self->command( "detach-sign" ); } else { $self->command( "sign" ); } $self->options( $options ); $self->args( [] ); $self->run_gnupg; # We need to unlock the private key $self->send_passphrase( $passphrase ); my ($cmd,$line) = $self->read_from_status; $self->abort_gnupg( "invalid passphrase - $cmd\n" ) unless $cmd =~ /GOOD_PASSPHRASE/; $self->end_gnupg unless $args{tie_mode}; } sub clearsign($%) { my $self = shift; $self->sign( @_, clearsign => 1 ); } sub check_sig($;$$) { my ( $self, $cmd, $arg) = @_; # Our caller may already have grabbed the first line of # signature reporting. ($cmd,$arg) = $self->read_from_status unless ( $cmd ); # Ignore patent warnings. ( $cmd, $arg ) = $self->read_from_status() if ( $cmd =~ /RSA_OR_IDEA/ ); # Ignore automatic key imports ( $cmd, $arg ) = $self->read_from_status() if ( $cmd =~ /IMPORTED/ ); ( $cmd, $arg ) = $self->read_from_status() if ( $cmd =~ /IMPORT_OK/ ); ( $cmd, $arg ) = $self->read_from_status() if ( $cmd =~ /IMPORT_RES/ ); $self->abort_gnupg( "invalid signature from ", $arg =~ /[^ ](.+)/, "\n" ) if ( $cmd =~ /BADSIG/); if ( $cmd =~ /ERRSIG/) { my ($keyid, $key_algo, $digest_algo, $sig_class, $timestamp, $rc) = split ' ', $arg; if ($rc == 9) { ($cmd, $arg) = $self->read_from_status(); $self->abort_gnupg( "no public key $keyid" ); } $self->abort_gnupg( "error verifying signature from $keyid" ) } $self->abort_gnupg ( "protocol error: expected SIG_ID" ) unless $cmd =~ /SIG_ID/; my ( $sigid, $date, $time ) = split /\s+/, $arg; ( $cmd, $arg ) = $self->read_from_status; $self->abort_gnupg ( "protocol error: expected GOODSIG" ) unless $cmd =~ /GOODSIG/; my ( $keyid, $name ) = split /\s+/, $arg, 2; ( $cmd, $arg ) = $self->read_from_status; my $policy_url = undef; if ( $cmd =~ /POLICY_URL/ ) { $policy_url = $arg; ( $cmd, $arg ) = $self->read_from_status; } $self->abort_gnupg ( "protocol error: expected VALIDSIG" ) unless $cmd =~ /VALIDSIG/; my ( $fingerprint ) = split /\s+/, $arg, 2; ( $cmd, $arg ) = $self->read_from_status; $self->abort_gnupg ( "protocol error: expected TRUST*" ) unless $cmd =~ /TRUST/; my ($trust) = parse_trust( $cmd ); return { sigid => $sigid, date => $date, timestamp => $time, keyid => $keyid, user => $name, fingerprint => $fingerprint, trust => $trust, policy_url => $policy_url, }; } sub verify($%) { my ($self,%args) = @_; croak ( "missing signature argument\n" ) unless $args{signature}; my $files = []; if ( $args{file} ) { croak ( "detached signature must be in a file\n" ) unless -f $args{signature}; push @$files, $args{signature}, ref $args{file} ? @{$args{file}} : $args{file}; } else { $self->{input} = $args{signature}; } $self->command( "verify" ); $self->options( [] ); $self->args( $files ); $self->run_gnupg; my $sig = $self->check_sig; $self->end_gnupg; return $sig; } sub decrypt($%) { my $self = shift; my %args = @_; $self->{input} = $args{ciphertext} || $args{input}; $self->{output} = $args{output}; $self->command( "decrypt" ); $self->options( [] ); $self->args( [] ); $self->run_gnupg; return $self->decrypt_postwrite( @_ ) unless $args{tie_mode}; } sub decrypt_postwrite($%) { my ($self,%args) = @_; my $passphrase = $args{passphrase} || ""; my ( $cmd, $arg ); unless ( $args{symmetric} ) { ( $cmd, $arg ) = $self->read_from_status; $self->abort_gnupg ( "protocol error: expected ENC_TO got $cmd: \n" ) unless $cmd =~ /ENC_TO/; } $self->send_passphrase( $passphrase ); ($cmd,$arg) = $self->read_from_status; $self->abort_gnupg ( "invalid passphrase - $cmd\n" ) if $cmd =~ /BAD_PASSPHRASE/; my $sig = undef; if ( ! $args{symmetric} ) { $self->abort_gnupg ( "protocol error: expected GOOD_PASSPHRASE got $cmd: \n" ) unless $cmd =~ /GOOD_PASSPHRASE/; $sig = $self->decrypt_postread() unless $args{tie_mode}; } else { # gnupg 1.0.2 adds this status message ( $cmd, $arg ) = $self->read_from_status() if $cmd =~ /BEGIN_DECRYPTION/; # gnupg 1.4.12 adds this status message ( $cmd, $arg ) = $self->read_from_status() if $cmd =~ /DECRYPTION_INFO/; $self->abort_gnupg( "invalid passphrase - $cmd" ) unless $cmd =~ /PLAINTEXT/; } $self->end_gnupg() unless $args{tie_mode}; return $sig ? $sig : 1; } sub decrypt_postread($) { my $self = shift; my @cmds; # gnupg 1.0.2 adds this status message my ( $cmd, $arg ) = $self->read_from_status; push @cmds, $cmd; if ($cmd =~ /BEGIN_DECRYPTION/) { ( $cmd, $arg ) = $self->read_from_status(); push @cmds, $cmd; }; my $sig = undef; while (defined $cmd && !($cmd =~ /DECRYPTION_OKAY/)) { if ( $cmd =~ /SIG_ID/ ) { $sig = $self->check_sig( $cmd, $arg ); } ( $cmd, $arg ) = $self->read_from_status(); push @cmds, $cmd if defined $cmd; }; my $cmds = join ', ', @cmds; $self->abort_gnupg( "protocol error: expected DECRYPTION_OKAY but never got it (all I saw was: $cmds): \n" ) unless $cmd =~ /DECRYPTION_OKAY/; return $sig ? $sig : 1; } 1; __END__ =pod =head1 NAME GnuPG - Perl module interface to the GNU Privacy Guard (v1.x.x series) =head1 SYNOPSIS use GnuPG qw( :algo ); my $gpg = new GnuPG(); $gpg->encrypt( plaintext => "file.txt", output => "file.gpg", armor => 1, sign => 1, passphrase => $secret ); $gpg->decrypt( ciphertext => "file.gpg", output => "file.txt" ); $gpg->clearsign( plaintext => "file.txt", output => "file.txt.asc", passphrase => $secret, armor => 1, ); $gpg->verify( signature => "file.txt.asc", file => "file.txt" ); $gpg->gen_key( name => "Joe Blow", comment => "My GnuPG key", passphrase => $secret, ); =head1 DESCRIPTION GnuPG is a perl interface to the GNU Privacy Guard. It uses the shared memory coprocess interface that gpg provides for its wrappers. It tries its best to map the interactive interface of the gpg to a more programmatic model. =head1 API OVERVIEW The API is accessed through methods on a GnuPG object which is a wrapper around the B<gpg> program. All methods takes their argument using named parameters, and errors are returned by throwing an exception (using croak). If you wan't to catch errors you will have to use eval. When handed in a file handle for input or output parameters on many of the functions, the API attempts to tie that handle to STDIN and STDOUT. In certain persistent environments (particularly a web environment), this will not work. This problem can be avoided by passing in file names to all relevant parameters rather than a Perl file handle. There is also a tied file handle interface which you may find more convenient for encryption and decryption. See GnuPG::Tie(3) for details. =head1 CONSTRUCTOR =head2 new ( [params] ) You create a new GnuPG wrapper object by invoking its new method. (How original !). The module will try to finds the B<gpg> program in your path and will croak if it can't find it. Here are the parameters that it accepts : =over =item gnupg_path Path to the B<gpg> program. =item options Path to the options file for B<gpg>. If not specified, it will use the default one (usually F<~/.gnupg/options>). =item homedir Path to the B<gpg> home directory. This is the directory that contains the default F<options> file, the public and private key rings as well as the trust database. =item trace If this variable is set to true, B<gpg> debugging output will be sent to stderr. =back Example: my $gpg = new GnuPG(); =head1 METHODS =head2 gen_key( [params] ) This methods is used to create a new gpg key pair. The methods croaks if there is an error. It is a good idea to press random keys on the keyboard while running this methods because it consumes a lot of entropy from the computer. Here are the parameters it accepts : =over =item algo This is the algorithm use to create the key. Can be I<DSA_ELGAMAL>, I<DSA>, I<RSA_RSA> or I<RSA>. It defaults to I<DSA_ELGAMAL>. To import those constant in your name space, use the I<:algo> tag. =item size The size of the public key. Defaults to 1024. Cannot be less than 768 bits, and keys longer than 2048 are also discouraged. (You *DO* know that your monitor may be leaking sensitive information ;-). =item valid How long the key is valid. Defaults to 0 or never expire. =item name This is the only mandatory argument. This is the name that will used to construct the user id. =item email Optional email portion of the user id. =item comment Optional comment portion of the user id. =item passphrase The passphrase that will be used to encrypt the private key. Optional but strongly recommended. =back Example: $gpg->gen_key( algo => DSA_ELGAMAL, size => 1024, name => "My name" ); =head2 import_keys( [params] ) Import keys into the GnuPG private or public keyring. The method croaks if it encounters an error. It returns the number of keys imported. Parameters : =over =item keys Only parameter and mandatory. It can either be a filename or a reference to an array containing a list of files that will be imported. =back Example: $gpg->import_keys( keys => [ qw( key.pub key.sec ) ] ); =head2 export_keys( [params] ) Exports keys from the GnuPG keyrings. The method croaks if it encounters an error. Parameters : =over =item keys Optional argument that restricts the keys that will be exported. Can either be a user id or a reference to an array of userid that specifies the keys to be exported. If left unspecified, all keys will be exported. =item secret If this argument is to true, the secret keys rather than the public ones will be exported. =item all If this argument is set to true, all keys (even those that aren't OpenPGP compliant) will be exported. =item output This argument specifies where the keys will be exported. Can be either a file name or a reference to a file handle. If not specified, the keys will be exported to stdout. =item armor Set this parameter to true, if you want the exported keys to be ASCII armored. =back Example: $gpg->export_keys( armor => 1, output => "keyring.pub" ); =head2 encrypt( [params] ) This method is used to encrypt a message, either using assymetric or symmetric cryptography. The methods croaks if an error is encountered. Parameters: =over =item plaintext This argument specifies what to encrypt. It can be either a filename or a reference to a file handle. If left unspecified, STDIN will be encrypted. =item output This optional argument specifies where the ciphertext will be output. It can be either a file name or a reference to a file handle. If left unspecified, the ciphertext will be sent to STDOUT. =item armor If this parameter is set to true, the ciphertext will be ASCII armored. =item symmetric If this parameter is set to true, symmetric cryptography will be used to encrypt the message. You will need to provide a I<passphrase> parameter. =item recipient If not using symmetric cryptography, you will have to provide this parameter. It should contains the userid of the intended recipient of the message. It will be used to look up the key to use to encrypt the message. The parameter can also take an array ref, if you want to encrypt the message for a group of recipients. =item sign If this parameter is set to true, the message will also be signed. You will probably have to use the I<passphrase> parameter to unlock the private key used to sign message. This option is incompatible with the I<symmetric> one. =item local-user This parameter is used to specified the private key that will be used to sign the message. If left unspecified, the default user will be used. This option only makes sense when using the I<sign> option. =item passphrase This parameter contains either the secret passphrase for the symmetric algorithm or the passphrase that should be used to decrypt the private key. =back Example: $gpg->encrypt( plaintext => file.txt, output => "file.gpg", sign => 1, passphrase => $secret ); =head2 sign( [params] ) This method is used create a signature for a file or stream of data. This method croaks on errors. Parameters : =over =item plaintext This argument specifies what to sign. It can be either a filename or a reference to a file handle. If left unspecified, the data read on STDIN will be signed. =item output This optional argument specifies where the signature will be output. It can be either a file name or a reference to a file handle. If left unspecified, the signature will be sent to STDOUT. =item armor If this parameter is set to true, the signature will be ASCII armored. =item passphrase This parameter contains the secret that should be used to decrypt the private key. =item local-user This parameter is used to specified the private key that will be used to make the signature . If left unspecified, the default user will be used. =item detach-sign If set to true, a digest of the data will be signed rather than the whole file. =back Example: $gpg->sign( plaintext => "file.txt", output => "file.txt.asc", armor => 1, ); =head2 clearsign( [params] ) This methods clearsign a message. The output will contains the original message with a signature appended. It takes the same parameters as the B<sign> method. =head2 verify( [params] ) This method verifies a signature against the signed message. The methods croaks if the signature is invalid or an error is encountered. If the signature is valid, it returns an hash with the signature parameters. Here are the method's parameters : =over =item signature If the message and the signature are in the same file (i.e. a clearsigned message), this parameter can be either a file name or a reference to a file handle. If the signature doesn't follows the message, than it must be the name of the file that contains the signature. =item file This is a file name or a reference to an array of file names that contains the signed data. =back When the signature is valid, here are the elements of the hash that is returned by the method : =over =item sigid The signature id. This can be used to protect against replay attack. =item date The data at which the signature has been made. =item timestamp The epoch timestamp of the signature. =item keyid The key id used to make the signature. =item user The userid of the signer. =item fingerprint The fingerprint of the signature. =item trust The trust value of the public key of the signer. Those are values that can be imported in your namespace with the :trust tag. They are (TRUST_UNDEFINED, TRUST_NEVER, TRUST_MARGINAL, TRUST_FULLY, TRUST_ULTIMATE). =back Example : my $sig = $gpg->verify( signature => "file.txt.asc", file => "file.txt" ); =head2 decrypt( [params] ) This method decrypts an encrypted message. It croaks, if there is an error while decrypting the message. If the message was signed, this method also verifies the signature. If decryption is sucessful, the method either returns the valid signature parameters if present, or true. Method parameters : =over =item ciphertext This optional parameter contains either the name of the file containing the ciphertext or a reference to a file handle containing the ciphertext. If not present, STDIN will be decrypted. =item output This optional parameter determines where the plaintext will be stored. It can be either a file name or a reference to a file handle. If left unspecified, the plaintext will be sent to STDOUT. =item symmetric This should be set to true, if the message is encrypted using symmetric cryptography. =item passphrase The passphrase that should be used to decrypt the message (in the case of a message encrypted using a symmetric cipher) or the secret that will unlock the private key that should be used to decrypt the message. =back Example: $gpg->decrypt( ciphertext => "file.gpg", output => "file.txt" passphrase => $secret ); =head1 BUGS AND LIMITATIONS This module doesn't work (yet) with the v2 branch of GnuPG. =head1 AUTHOR Francis J. Lacoste <francis.lacoste@Contre.COM> =head1 COPYRIGHT Copyright (c) 1999,2000 iNsu Innovations. Inc. Copyright (c) 2001 Francis J. Lacoste This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. =head1 SEE ALSO L<GnuPG::Tie> Alternative module: L<GnuPG::Interface> gpg(1) =cut