GnuPG::Interface(3) User Contributed Perl Documentation GnuPG::Interface(3)
N�NA�AM�ME�E
GnuPG::Interface − Perl interface to GnuPG
S�SY�YN�NO�OP�PS�SI�IS�S
# A simple example
use IO::Handle;
use GnuPG::Interface;
# settting up the situation
my $gnupg = GnuPG::Interface‐>new();
$gnupg‐>options‐>hash_init( armor => 1,
homedir => ’/home/foobar’ );
# Note you can set the recipients even if you aren’t encrypting!
$gnupg‐>options‐>push_recipients( ’ftobin@cpan.org’ );
$gnupg‐>options‐>meta_interactive( 0 );
# how we create some handles to interact with GnuPG
my $input = IO::Handle‐>new();
my $output = IO::Handle‐>new();
my $handles = GnuPG::Handles‐>new( stdin => $input,
stdout => $output );
# Now we’ll go about encrypting with the options already set
my @plaintext = ( ’foobar’ );
my $pid = $gnupg‐>encrypt( handles => $handles );
# Now we write to the input of GnuPG
print $input @plaintext;
close $input;
# now we read the output
my @ciphertext = <$output>;
close $output;
waitpid $pid, 0;
D�DE�ES�SC�CR�RI�IP�PT�TI�IO�ON�N
GnuPG::Interface and its associated modules are designed to provide an
object‐oriented method for interacting with GnuPG, being able to per‐
form functions such as but not limited to encrypting, signing, decryp‐
tion, verification, and key‐listing parsing.
H�Ho�ow�w D�Da�at�ta�a M�Me�em�mb�be�er�r A�Ac�cc�ce�es�ss�so�or�r M�Me�et�th�ho�od�ds�s a�ar�re�e C�Cr�re�ea�at�te�ed�d
Each module in the GnuPG::Interface bundle relies on Class::MethodMaker
to generate the get/set methods used to set the object’s data members.
_�T_�h_�i_�s _�i_�s _�v_�e_�r_�y _�i_�m_�p_�o_�r_�t_�a_�n_�t _�t_�o _�r_�e_�a_�l_�i_�z_�e_�. This means that any data member
which is a list has special methods assigned to it for pushing, pop‐
ping, and clearing the list.
U�Un�nd�de�er�rs�st�ta�an�nd�di�in�ng�g B�Bi�id�di�ir�re�ec�ct�ti�io�on�na�al�l C�Co�om�mm�mu�un�ni�ic�ca�at�ti�io�on�n
It is also imperative to realize that this package uses interprocess
communication methods similar to those used in IPC::Open3 and "Bidirec‐
tional Communication with Another Process" in perlipc, and that users
of this package need to understand how to use this method because this
package does not abstract these methods for the user greatly. This
package is not designed to abstract this away entirely (partly for
security purposes), but rather to simply help create ’proper’, clean
calls to GnuPG, and to implement key‐listing parsing. Please see
"Bidirectional Communication with Another Process" in perlipc to learn
how to deal with these methods.
Using this package to do message processing generally invovlves creat‐
ing a GnuPG::Interface object, creating a GnuPG::Handles object, set‐
ting some options in its o�op�pt�ti�io�on�ns�s data member, and then calling a method
which invokes GnuPG, such as c�cl�le�ea�ar�rs�si�ig�gn�n. One then interacts with with
the handles appropriately, as described in "Bidirectional Communication
with Another Process" in perlipc.
O�OB�BJ�JE�EC�CT�T M�ME�ET�TH�HO�OD�DS�S
I�In�ni�it�ti�ia�al�li�iz�za�at�ti�io�on�n M�Me�et�th�ho�od�ds�s
new( _�%_�i_�n_�i_�t_�i_�a_�l_�i_�z_�a_�t_�i_�o_�n_�__�a_�r_�g_�s )
This methods creates a new object. The optional arguments are ini‐
tialization of data members; the initialization is done in a manner
according to the method created as described in "new_hash_init" in
Class::MethodMaker.
hash_init( _�%_�a_�r_�g_�s ).
This methods work as described in "new_hash_init" in Class::Method‐
Maker.
O�Ob�bj�je�ec�ct�t M�Me�et�th�ho�od�ds�s w�wh�hi�ic�ch�h u�us�se�e a�a G�Gn�nu�uP�PG�G:�::�:H�Ha�an�nd�dl�le�es�s O�Ob�bj�je�ec�ct�t
list_public_keys( % )
list_sigs( % )
list_secret_keys( % )
encrypt( % )
encrypt_symmetrically( % )
sign( % )
clearsign( % )
detach_sign( % )
sign_and_encrypt( % )
decrypt( % )
verify( % )
import_keys( % )
export_keys( % )
recv_keys( % )
send_keys( % )
These methods each correspond directly to or are very similar to a
GnuPG command described in gpg. Each of these methods takes a
hash, which currently must contain a key of h�ha�an�nd�dl�le�es�s which has the
value of a GnuPG::Handles object. Another optional key is c�co�om�m‐�‐
m�ma�an�nd�d_�_a�ar�rg�gs�s which should have the value of an array reference; these
arguments will be passed to GnuPG as command arguments. These com‐
mand arguments are used for such things as determining the keys to
list in the e�ex�xp�po�or�rt�t_�_k�ke�ey�ys�s method. _�P_�l_�e_�a_�s_�e _�n_�o_�t_�e _�t_�h_�a_�t _�G_�n_�u_�P_�G _�c_�o_�m_�m_�a_�n_�d
_�a_�r_�g_�u_�m_�e_�n_�t_�s _�a_�r_�e _�n_�o_�t _�t_�h_�e _�s_�a_�m_�e _�a_�s _�G_�n_�u_�P_�G _�o_�p_�t_�i_�o_�n_�s. To understand what
are options and what are command arguments please read "COMMANDS"
in gpg and "OPTIONS" in gpg.
Each of these calls returns the PID for the resulting GnuPG
process. One can use this PID in a "waitpid" call instead of a
"wait" call if more precise process reaping is needed.
These methods will attach the handles specified in the h�ha�an�nd�dl�le�es�s
object to the running GnuPG object, so that bidirectional communi‐
cation can be established. That is, the optionally‐defined s�st�td�di�in�n,
s�st�td�do�ou�ut�t, s�st�td�de�er�rr�r, s�st�ta�at�tu�us�s, l�lo�og�gg�ge�er�r, and p�pa�as�ss�sp�ph�hr�ra�as�se�e handles will be
attached to GnuPG’s input, output, standard error, the handle cre‐
ated by setting s�st�ta�at�tu�us�s‐�‐f�fd�d, the handle created by setting l�lo�og�gg�ge�er�r‐�‐f�fd�d,
and the handle created by setting p�pa�as�ss�sp�ph�hr�ra�as�se�e‐�‐f�fd�d respectively. This
tying of handles of similar to the process done in _�I_�P_�C_�:_�:_�O_�p_�e_�n_�3.
If you want the GnuPG process to read or write directly to an
already‐opened filehandle, you cannot do this via the normal
_�I_�P_�C_�:_�:_�O_�p_�e_�n_�3 mechanisms. In order to accomplish this, set the appro‐
priate h�ha�an�nd�dl�le�es�s data member to the already‐opened filehandle, and
then set the option d�di�ir�re�ec�ct�t to be true for that handle, as described
in "options" in GnuPG::Handles. For example, to have GnuPG read
from the file _�i_�n_�p_�u_�t_�._�t_�x_�t and write to _�o_�u_�t_�p_�u_�t_�._�t_�x_�t, the following
snippet may do:
my $infile = IO::File‐>new( ’input.txt’ );
my $outfile = IO::File‐>new( ’>output.txt’ );
my $handles = GnuPG::Handles‐>new( stdin => $infile,
stdout => $outfile,
);
$handles‐>options( ’stdin’ )‐>{direct} = 1;
$handles‐>options( ’stdout’ )‐>{direct} = 1;
If any handle in the h�ha�an�nd�dl�le�es�s object is not defined, GnuPG’s input,
output, and standard error will be tied to the running program’s
standard error, standard output, or standard error. If the s�st�ta�at�tu�us�s
or l�lo�og�gg�ge�er�r handle is not defined, this channel of communication is
never established with GnuPG, and so this information is not gener‐
ated and does not come into play. If the p�pa�as�ss�sp�ph�hr�ra�as�se�e data member
handle of the h�ha�an�nd�dl�le�es�s object is not defined, but the the p�pa�as�ss�sp�ph�hr�ra�as�se�e
data member handle of GnuPG::Interface object is, GnuPG::Interface
will handle passing this information into GnuPG for the user as a
convience. Note that this will result in GnuPG::Interface storing
the passphrase in memory, instead of having it simply
’pass−through’ to GnuPG via a handle.
O�Ot�th�he�er�r M�Me�et�th�ho�od�ds�s
get_public_keys( @search_strings )
get_secret_keys( @search_strings )
get_public_keys_with_sigs( @search_strings )
These methods create and return objects of the type GnuPG::Pub‐
licKey or GnuPG::SecretKey respectively. This is done by parsing
the output of GnuPG with the option w�wi�it�th�h‐�‐c�co�ol�lo�on�ns�s enabled. The
objects created do or do not have signature information stored in
them, depending if the method ends in _�__�s_�i_�g_�s; this separation of
functionality is there because of performance hits when listing
information with signatures.
_�t_�e_�s_�t_�__�d_�e_�f_�a_�u_�l_�t_�__�k_�e_�y_�__�p_�a_�s_�s_�p_�h_�r_�a_�s_�e_�(_�)
This method will return a true or false value, depending on whether
GnuPG reports a good passphrase was entered while signing a short
message using the values of the p�pa�as�ss�sp�ph�hr�ra�as�se�e data member, and the
default key specified in the o�op�pt�ti�io�on�ns�s data member.
I�In�nv�vo�ok�ki�in�ng�g G�Gn�nu�uP�PG�G w�wi�it�th�h a�a c�cu�us�st�to�om�m c�ca�al�ll�l
GnuPG::Interface attempts to cover a lot of the commands of GnuPG that
one would want to perform; however, there may be a lot more calls that
GnuPG is and will be capable of, so a generic command interface is pro‐
vided, "wrap_call".
wrap_call( %args )
Call GnuPG with a custom command. The %args hash must contain at
least the following keys:
commands
The value of this key in the hash must be a reference to a a
list of commands for GnuPG, such as "[ qw( −−encrypt −−sign )
]".
handles
As with most other GnuPG::Interface methods, h�ha�an�nd�dl�le�es�s must be a
GnuPG::Handles object.
The following keys are optional.
command_args
As with other GnuPG::Interface methods, the value in hash for
this key must be a reference to a list of arguments to be
passed to the GnuPG command, such as which keys to list in a
key−listing.
O�OB�BJ�JE�EC�CT�T D�DA�AT�TA�A M�ME�EM�MB�BE�ER�RS�S
Note that these data members are interacted with via object methods
created using the methods described in "get_set" in Class::MethodMaker,
or "object" in Class::MethodMaker. Please read there for more informa‐
tion.
call
This defines the call made to invoke GnuPG. Defaults to ’gpg’;
this should be changed if ’gpg’ is not in your path, or there is a
different name for the binary on your system.
passphrase
In order to lessen the burden of using handles by the user of this
package, setting this option to one’s passphrase for a secret key
will allow the package to enter the passphrase via a handle to
GnuPG by itself instead of leaving this to the user. See also
"passphrase" in GnuPG::Handles.
options
This data member, of the type GnuPG::Options; the setting stored in
this data member are used to determine the options used when call‐
ing GnuPG via _�a_�n_�y of the object methods described in this package.
See GnuPG::Options for more information.
E�EX�XA�AM�MP�PL�LE�ES�S
The following setup can be done before any of the following examples:
use IO::Handle;
use GnuPG::Interface;
my @original_plaintext = ( "How do you doo?" );
my $passphrase = "Three Little Pigs";
my $gnupg = GnuPG::Interface‐>new();
$gnupg‐>options‐>hash_init( armor => 1,
recipients => [ ’ftobin@uiuc.edu’,
’0xABCD1234’ ],
meta_interactive( 0 ),
);
E�En�nc�cr�ry�yp�pt�ti�in�ng�g
# We’ll let the standard error of GnuPG pass through
# to our own standard error, by not creating
# a stderr‐part of the $handles object.
my ( $input, $output ) = ( IO::Handle‐>new(),
IO::Handle‐>new() );
my $handles = GnuPG::Handles‐>new( stdin => $input,
stdout => $output );
# this sets up the communication
# Note that the recipients were specified earlier
# in the ’options’ data member of the $gnupg object.
my $pid = $gnupg‐>encrypt( handles => $handles );
# this passes in the plaintext
print $input @original_plaintext;
# this closes the communication channel,
# indicating we are done
close $input;
my @ciphertext = <$output>; # reading the output
waitpid $pid, 0; # clean up the finished GnuPG process
S�Si�ig�gn�ni�in�ng�g
# This time we’ll catch the standard error for our perusing
my ( $input, $output, $error ) = ( IO::Handle‐>new(),
IO::Handle‐>new(),
IO::Handle‐>new(),
);
my $handles = GnuPG::Handles‐>new( stdin => $input,
stdout => $output,
stderr => $error,
);
# indicate our pasphrase through the
# convience method
$gnupg‐>passphrase( $passphrase );
# this sets up the communication
my $pid = $gnupg‐>sign( handles => $handles );
# this passes in the plaintext
print $input @original_plaintext;
# this closes the communication channel,
# indicating we are done
close $input;
my @ciphertext = <$output>; # reading the output
my @error_output = <$error>; # reading the error
close $output;
close $error;
waitpid $pid, 0; # clean up the finished GnuPG process
D�De�ec�cr�ry�yp�pt�ti�io�on�n
# This time we’ll catch the standard error for our perusing
# as well as passing in the passphrase manually
# as well as the status information given by GnuPG
my ( $input, $output, $error, $passphrase_fh, $status_fh )
= ( IO::Handle‐>new(),
IO::Handle‐>new(),
IO::Handle‐>new(),
IO::Handle‐>new(),
IO::Handle‐>new(),
);
my $handles = GnuPG::Handles‐>new( stdin => $input,
stdout => $output,
stderr => $error,
passphrase => $passphrase_fh,
status => $status_fh,
);
# this time we’ll also demonstrate decrypting
# a file written to disk
# Make sure you "use IO::File" if you use this module!
my $cipher_file = IO::File‐>new( ’encrypted.gpg’ );
# this sets up the communication
my $pid = $gnupg‐>decrypt( handles => $handles );
# This passes in the passphrase
print $passphrase_fd $passphrase;
close $passphrase_fd;
# this passes in the plaintext
print $input $_ while <$cipher_file>
# this closes the communication channel,
# indicating we are done
close $input;
close $cipher_file;
my @plaintext = <$output>; # reading the output
my @error_output = <$error>; # reading the error
my @status_info = <$status_fh> # read the status info
# clean up...
close $output;
close $error;
close $status_fh;
waitpid $pid, 0; # clean up the finished GnuPG process
P�Pr�ri�in�nt�ti�in�ng�g K�Ke�ey�ys�s
# This time we’ll just let GnuPG print to our own output
# and read from our input, because no input is needed!
my $handles = GnuPG::Handles‐>new();
my @ids = [ ’ftobin’, ’0xABCD1234’ ];
# this time we need to specify something for
# command_args because ‐‐list‐public‐keys takes
# search ids as arguments
my $pid = $gnupg‐>list_public_keys( handles => $handles,
command_args => [ @ids ] );
waitpid $pid, 0;
C�Cr�re�ea�at�ti�in�ng�g G�Gn�nu�uP�PG�G:�::�:P�Pu�ub�bl�li�ic�cK�Ke�ey�y O�Ob�bj�je�ec�ct�ts�s
my @ids = [ ’ftobin’, ’0xABCD1234’ ];
my @keys = $gnupg‐>get_public_keys( @ids );
# no wait is required this time; it’s handled internally
# since the entire call is encapsulated
C�Cu�us�st�to�om�m G�Gn�nu�uP�PG�G c�ca�al�ll�l
# assuming $handles is a GnuPG::Handles object
my $pid = $gnupg‐>wrap_call
( commands => [ qw( ‐‐list‐packets ) ],
command_args => [ qw( test/key.1.asc ) ],
handles => $handles,
);
my @out = <$handles‐>stdout()>;
waitpid $pid, 0;
F�FA�AQ�Q
How do I get GnuPG::Interface to read/write directly from a filehandle?
You need to set GnuPG::Handles d�di�ir�re�ec�ct�t option to be true for the
filehandles in concern. See "options" in GnuPG::Handles and
"Object Methods which use a GnuPG::Handles Object" for more infor‐
mation.
Why do you make it so difficult to get GnuPG to write/read from a file‐
handle? In the shell, I can just call GnuPG with the −−outfile option!
There are lots of issues when trying to tell GnuPG to read/write
directly from a file, such as if the file isn’t there, or there is
a file, and you want to write over it! What do you want to happen
then? Having the user of this module handle these questions
beforehand by opening up filehandles to GnuPG lets the user know
fully what is going to happen in these circumstances, and makes the
module less error−prone.
When having GnuPG process a large message, sometimes it just hanges
there.
Your problem may be due to buffering issues; when GnuPG
reads/writes to n�no�on�n‐�‐d�di�ir�re�ec�ct�t filehandles (those that are sent to
filehandles which you read to from into memory, not that those
access the disk), buffering issues can mess things up. I recommend
looking into "options" in GnuPG::Handles.
N�NO�OT�TE�ES�S
This package is the successor to PGP::GPG::MessageProcessor, which I
found to be too inextensible to carry on further. A total redesign was
needed, and this is the resulting work.
After any call to a GnuPG‐command method of GnuPG::Interface in which
one passes in the handles, one should all w�wa�ai�it�t to clean up GnuPG from
the process table.
B�BU�UG�GS�S
Currently there are problems when transmitting large quantities of
information over handles; I’m guessing this is due to buffering issues.
This bug does not seem specific to this package; IPC::Open3 also
appears affected.
I don’t know yet how well this modules handles parsing OpenPGP v3 keys.
S�SE�EE�E A�AL�LS�SO�O
GnuPG::Options, GnuPG::Handles, GnuPG::PublicKey, GnuPG::SecretKey,
gpg, Class::MethodMaker, "Bidirectional Communication with Another
Process" in perlipc
A�AU�UT�TH�HO�OR�R
GnuPg::Interface is currently maintained by Jesse Vincent
<jesse@cpan.org>.
Frank J. Tobin, ftobin@cpan.org was the original author of the package.
perl v5.8.8 2007‐04‐24 GnuPG::Interface(3)