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|
# -*- coding: utf-8 -*-
#
# This file is part of python-gnupg, a Python interface to GnuPG.
# Copyright © 2013 Isis Lovecruft, <isis@leap.se> 0xA3ADB67A2CDB8B35
# © 2013 Andrej B.
# © 2013 LEAP Encryption Access Project
# © 2008-2012 Vinay Sajip
# © 2005 Steve Traugott
# © 2004 A.M. Kuchling
#
# 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 3 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 included LICENSE file for details.
"""gnupg.py
===========
A Python interface to GnuPG.
.. moduleauthor:: Isis Lovecruft <isis@patternsinthevoid.net>
see also :attr:`gnupg.__authors__`
.. license:: see :attr:`gnupg.__license__`
.. info:: https://github.com/isislovecruft/python-gnupg
"""
from __future__ import absolute_import
from codecs import open as open
import encodings
import functools
import os
import re
import textwrap
#: see :pep:`328` http://docs.python.org/2.5/whatsnew/pep-328.html
from . import _util
from . import _trust
from ._meta import GPGBase
from ._parsers import _fix_unsafe
from ._util import _is_list_or_tuple
from ._util import _is_stream
from ._util import _make_binary_stream
from ._util import log
class GPG(GPGBase):
"""Python interface for handling interactions with GnuPG, including keyfile
generation, keyring maintainance, import and export, encryption and
decryption, sending to and recieving from keyservers, and signing and
verification.
"""
#: The number of simultaneous keyids we should list operations like
#: '--list-sigs' to:
_batch_limit = 25
def __init__(self, binary=None, homedir=None, verbose=False,
use_agent=False, keyring=None, secring=None,
ignore_homedir_permissions=False, options=None):
"""Initialize a GnuPG process wrapper.
:param str binary: Name for GnuPG binary executable. If the absolute
path is not given, the environment variable
``$PATH`` is searched for the executable and
checked that the real uid/gid of the user has
sufficient permissions.
:param str homedir: Full pathname to directory containing the public
and private keyrings. Default is whatever GnuPG
defaults to.
:type ignore_homedir_permissions: :obj:`bool`
:param ignore_homedir_permissions: If true, bypass check that homedir
be writable.
:type verbose: :obj:`str` or :obj:`int` or :obj:`bool`
:param verbose: String or numeric value to pass to GnuPG's
``--debug-level`` option. See the GnuPG man page for
the list of valid options. If False, debug output is
not generated by the GnuPG binary. If True, defaults
to ``--debug-level basic.``
:param str keyring: Name of keyring file containing public key data.
If unspecified, defaults to :file:`pubring.gpg` in
the **homedir** directory.
:param str secring: Name of alternative secret keyring file to use. If
left unspecified, this will default to using
:file:`secring.gpg` in the **homedir** directory,
and create that file if it does not exist.
:param list options: A list of additional options to pass to the GnuPG
binary.
:raises: A :exc:`~exceptions.RuntimeError` with explanation message
if there is a problem invoking GnuPG.
Example:
>>> import gnupg
GnuPG logging disabled...
>>> gpg = gnupg.GPG(homedir='doctests')
>>> gpg.keyring
'./doctests/pubring.gpg'
>>> gpg.secring
'./doctests/secring.gpg'
>>> gpg.use_agent
False
>>> gpg.binary
'/usr/bin/gpg'
"""
super(GPG, self).__init__(
binary=binary,
home=homedir,
keyring=keyring,
secring=secring,
options=options,
verbose=verbose,
use_agent=use_agent,
ignore_homedir_permissions=ignore_homedir_permissions,
)
log.info(textwrap.dedent("""
Initialised settings:
binary: %s
binary version: %s
homedir: %s
ignore_homedir_permissions: %s
keyring: %s
secring: %s
default_preference_list: %s
keyserver: %s
options: %s
verbose: %s
use_agent: %s
""" % (self.binary,
self.binary_version,
self.homedir,
self.ignore_homedir_permissions,
self.keyring,
self.secring,
self.default_preference_list,
self.keyserver, self.options,
str(self.verbose),
str(self.use_agent))))
self._batch_dir = os.path.join(self.homedir, 'batch-files')
self._key_dir = os.path.join(self.homedir, 'generated-keys')
#: The keyring used in the most recently created batch file
self.temp_keyring = None
#: The secring used in the most recently created batch file
self.temp_secring = None
# Make sure that the trustdb exists, or else GnuPG will exit with a
# fatal error (at least it does with GnuPG>=2.0.0):
self.create_trustdb()
# The --no-use-agent and --use-agent options were deprecated in GnuPG
# 2.x, so we should set use_agent to None here to avoid having
# GPGBase._make_args() add either one.
if self.is_gpg2():
self.use_agent = None
@functools.wraps(_trust._create_trustdb)
def create_trustdb(self):
if self.is_gpg2():
_trust._create_trustdb(self)
else:
log.info("Creating the trustdb is only available with GnuPG>=2.x")
# For backward compatibility with python-gnupg<=1.3.1:
_create_trustdb = create_trustdb
@functools.wraps(_trust.fix_trustdb)
def fix_trustdb(self, trustdb=None):
if self.is_gpg2():
_trust.fix_trustdb(self)
else:
log.info("Fixing the trustdb is only available with GnuPG>=2.x")
# For backward compatibility with python-gnupg<=1.3.1:
_fix_trustdb = fix_trustdb
@functools.wraps(_trust.import_ownertrust)
def import_ownertrust(self, trustdb=None):
if self.is_gpg2():
_trust.import_ownertrust(self)
else:
log.info("Importing ownertrust is only available with GnuPG>=2.x")
# For backward compatibility with python-gnupg<=1.3.1:
_import_ownertrust = import_ownertrust
@functools.wraps(_trust.export_ownertrust)
def export_ownertrust(self, trustdb=None):
if self.is_gpg2():
_trust.export_ownertrust(self)
else:
log.info("Exporting ownertrust is only available with GnuPG>=2.x")
# For backward compatibility with python-gnupg<=1.3.1:
_export_ownertrust = export_ownertrust
def is_gpg1(self):
"""Returns true if using GnuPG <= 1.x."""
return _util._is_gpg1(self.binary_version)
def is_gpg2(self):
"""Returns true if using GnuPG >= 2.x."""
return _util._is_gpg2(self.binary_version)
def sign(self, data, **kwargs):
"""Create a signature for a message string or file.
Note that this method is not for signing other keys. (In GnuPG's
terms, what we all usually call 'keysigning' is actually termed
'certification'...) Even though they are cryptographically the same
operation, GnuPG differentiates between them, presumedly because these
operations are also the same as the decryption operation. If the
``key_usage``s ``C (certification)``, ``S (sign)``, and ``E
(encrypt)``, were all the same key, the key would "wear down" through
frequent signing usage -- since signing data is usually done often --
meaning that the secret portion of the keypair, also used for
decryption in this scenario, would have a statistically higher
probability of an adversary obtaining an oracle for it (or for a
portion of the rounds in the cipher algorithm, depending on the family
of cryptanalytic attack used).
In simpler terms: this function isn't for signing your friends' keys,
it's for something like signing an email.
:type data: :obj:`str` or :obj:`file`
:param data: A string or file stream to sign.
:param str default_key: The key to sign with.
:param str passphrase: The passphrase to pipe to stdin.
:param bool clearsign: If True, create a cleartext signature.
:param bool detach: If True, create a detached signature.
:param bool binary: If True, do not ascii armour the output.
:param str digest_algo: The hash digest to use. Again, to see which
hashes your GnuPG is capable of using, do:
:command:`$ gpg --with-colons --list-config digestname`.
The default, if unspecified, is ``'SHA512'``.
"""
if 'default_key' in kwargs:
log.info("Signing message '%r' with keyid: %s"
% (data, kwargs['default_key']))
else:
log.warn("No 'default_key' given! Using first key on secring.")
if hasattr(data, 'read'):
result = self._sign_file(data, **kwargs)
elif not _is_stream(data):
stream = _make_binary_stream(data, self._encoding)
result = self._sign_file(stream, **kwargs)
stream.close()
else:
log.warn("Unable to sign message '%s' with type %s"
% (data, type(data)))
result = None
return result
def verify(self, data):
"""Verify the signature on the contents of the string ``data``.
>>> gpg = GPG(homedir="doctests")
>>> input = gpg.gen_key_input(Passphrase='foo')
>>> key = gpg.gen_key(input)
>>> assert key
>>> sig = gpg.sign('hello',keyid=key.fingerprint,passphrase='bar')
>>> assert not sig
>>> sig = gpg.sign('hello',keyid=key.fingerprint,passphrase='foo')
>>> assert sig
>>> verify = gpg.verify(sig.data)
>>> assert verify
"""
f = _make_binary_stream(data, self._encoding)
result = self.verify_file(f)
f.close()
return result
def verify_file(self, file, sig_file=None):
"""Verify the signature on the contents of a file or file-like
object. Can handle embedded signatures as well as detached
signatures. If using detached signatures, the file containing the
detached signature should be specified as the ``sig_file``.
:param file file: A file descriptor object.
:param str sig_file: A file containing the GPG signature data for
``file``. If given, ``file`` is verified via this detached
signature. Its type will be checked with :func:`_util._is_file`.
"""
result = self._result_map['verify'](self)
if sig_file is None:
log.debug("verify_file(): Handling embedded signature")
args = ["--verify"]
proc = self._open_subprocess(args)
writer = _util._threaded_copy_data(file, proc.stdin)
self._collect_output(proc, result, writer, stdin=proc.stdin)
else:
if not _util._is_file(sig_file):
log.debug("verify_file(): '%r' is not a file" % sig_file)
return result
log.debug('verify_file(): Handling detached verification')
sig_fh = None
try:
sig_fh = open(sig_file, 'rb')
args = ["--verify %s -" % sig_fh.name]
proc = self._open_subprocess(args)
writer = _util._threaded_copy_data(file, proc.stdin)
self._collect_output(proc, result, writer, stdin=proc.stdin)
finally:
if sig_fh and not sig_fh.closed:
sig_fh.close()
return result
def import_keys(self, key_data):
"""
Import the key_data into our keyring.
>>> import shutil
>>> shutil.rmtree("doctests")
>>> gpg = gnupg.GPG(homedir="doctests")
>>> inpt = gpg.gen_key_input()
>>> key1 = gpg.gen_key(inpt)
>>> print1 = str(key1.fingerprint)
>>> pubkey1 = gpg.export_keys(print1)
>>> seckey1 = gpg.export_keys(print1,secret=True)
>>> key2 = gpg.gen_key(inpt)
>>> print2 = key2.fingerprint
>>> seckeys = gpg.list_keys(secret=True)
>>> pubkeys = gpg.list_keys()
>>> assert print1 in seckeys.fingerprints
>>> assert print1 in pubkeys.fingerprints
>>> str(gpg.delete_keys(print1))
'Must delete secret key first'
>>> str(gpg.delete_keys(print1,secret=True))
'ok'
>>> str(gpg.delete_keys(print1))
'ok'
>>> pubkeys = gpg.list_keys()
>>> assert not print1 in pubkeys.fingerprints
>>> result = gpg.import_keys(pubkey1)
>>> pubkeys = gpg.list_keys()
>>> seckeys = gpg.list_keys(secret=True)
>>> assert not print1 in seckeys.fingerprints
>>> assert print1 in pubkeys.fingerprints
>>> result = gpg.import_keys(seckey1)
>>> assert result
>>> seckeys = gpg.list_keys(secret=True)
>>> assert print1 in seckeys.fingerprints
"""
## xxx need way to validate that key_data is actually a valid GPG key
## it might be possible to use --list-packets and parse the output
result = self._result_map['import'](self)
log.info('Importing: %r', key_data[:256])
data = _make_binary_stream(key_data, self._encoding)
self._handle_io(['--import'], data, result, binary=True)
data.close()
return result
def recv_keys(self, *keyids, **kwargs):
"""Import keys from a keyserver.
>>> gpg = gnupg.GPG(homedir="doctests")
>>> key = gpg.recv_keys('hkp://pgp.mit.edu', '3FF0DB166A7476EA')
>>> assert key
:param str keyids: Each ``keyids`` argument should be a string
containing a keyid to request.
:param str keyserver: The keyserver to request the ``keyids`` from;
defaults to `gnupg.GPG.keyserver`.
"""
if keyids:
keys = ' '.join([key for key in keyids])
return self._recv_keys(keys, **kwargs)
else:
log.error("No keyids requested for --recv-keys!")
def delete_keys(self, fingerprints, secret=False, subkeys=False):
"""Delete a key, or list of keys, from the current keyring.
The keys must be referred to by their full fingerprints for GnuPG to
delete them. If ``secret=True``, the corresponding secret keyring will
be deleted from :obj:`.secring`.
:type fingerprints: :obj:`str` or :obj:`list` or :obj:`tuple`
:param fingerprints: A string, or a list/tuple of strings,
representing the fingerprint(s) for the key(s)
to delete.
:param bool secret: If True, delete the corresponding secret key(s)
also. (default: False)
:param bool subkeys: If True, delete the secret subkey first, then the
public key. (default: False) Same as:
:command:`$gpg --delete-secret-and-public-key 0x12345678`.
"""
which = 'keys'
if secret:
which = 'secret-keys'
if subkeys:
which = 'secret-and-public-keys'
if _is_list_or_tuple(fingerprints):
fingerprints = ' '.join(fingerprints)
args = ['--batch']
args.append("--delete-{0} {1}".format(which, fingerprints))
result = self._result_map['delete'](self)
p = self._open_subprocess(args)
self._collect_output(p, result, stdin=p.stdin)
return result
def export_keys(self, keyids, secret=False, subkeys=False):
"""Export the indicated ``keyids``.
:param str keyids: A keyid or fingerprint in any format that GnuPG will
accept.
:param bool secret: If True, export only the secret key.
:param bool subkeys: If True, export the secret subkeys.
"""
which = ''
if subkeys:
which = '-secret-subkeys'
elif secret:
which = '-secret-keys'
if _is_list_or_tuple(keyids):
keyids = ' '.join(['%s' % k for k in keyids])
args = ["--armor"]
args.append("--export{0} {1}".format(which, keyids))
p = self._open_subprocess(args)
## gpg --export produces no status-fd output; stdout will be empty in
## case of failure
#stdout, stderr = p.communicate()
result = self._result_map['delete'](self) # any result will do
self._collect_output(p, result, stdin=p.stdin)
log.debug('Exported:%s%r' % (os.linesep, result.data))
return result.data.decode(self._encoding, self._decode_errors)
def list_keys(self, secret=False):
"""List the keys currently in the keyring.
The GnuPG option '--show-photos', according to the GnuPG manual, "does
not work with --with-colons", but since we can't rely on all versions
of GnuPG to explicitly handle this correctly, we should probably
include it in the args.
>>> import shutil
>>> shutil.rmtree("doctests")
>>> gpg = GPG(homedir="doctests")
>>> input = gpg.gen_key_input()
>>> result = gpg.gen_key(input)
>>> print1 = result.fingerprint
>>> result = gpg.gen_key(input)
>>> print2 = result.fingerprint
>>> pubkeys = gpg.list_keys()
>>> assert print1 in pubkeys.fingerprints
>>> assert print2 in pubkeys.fingerprints
"""
which = 'public-keys'
if secret:
which = 'secret-keys'
args = "--list-%s --fixed-list-mode --fingerprint " % (which,)
args += "--with-colons --list-options no-show-photos"
args = [args]
p = self._open_subprocess(args)
# there might be some status thingumy here I should handle... (amk)
# ...nope, unless you care about expired sigs or keys (stevegt)
# Get the response information
result = self._result_map['list'](self)
self._collect_output(p, result, stdin=p.stdin)
lines = result.data.decode(self._encoding,
self._decode_errors).splitlines()
self._parse_keys(result)
return result
def list_packets(self, raw_data):
"""List the packet contents of a file."""
args = ["--list-packets"]
result = self._result_map['packets'](self)
self._handle_io(args, _make_binary_stream(raw_data, self._encoding),
result)
return result
def list_sigs(self, *keyids):
"""Get the signatures for each of the ``keyids``.
>>> import gnupg
>>> gpg = gnupg.GPG(homedir="doctests")
>>> key_input = gpg.gen_key_input()
>>> key = gpg.gen_key(key_input)
>>> assert key.fingerprint
:rtype: dict
:returns: res.sigs is a dictionary whose keys are the uids and whose
values are a set of signature keyids.
"""
if len(keyids) > self._batch_limit:
raise ValueError(
"List signatures is limited to %d keyids simultaneously"
% self._batch_limit)
args = ["--with-colons", "--fixed-list-mode", "--list-sigs"]
for key in keyids:
args.append(key)
proc = self._open_subprocess(args)
result = self._result_map['list'](self)
self._collect_output(proc, result, stdin=proc.stdin)
self._parse_keys(result)
return result
def _parse_keys(self, result):
lines = result.data.decode(self._encoding,
self._decode_errors).splitlines()
valid_keywords = 'pub uid sec fpr sub sig'.split()
for line in lines:
if self.verbose:
print(line)
log.debug("%r", line.rstrip())
if not line:
break
L = line.strip().split(':')
if not L:
continue
keyword = L[0]
if keyword in valid_keywords:
getattr(result, keyword)(L)
def gen_key(self, input):
"""Generate a GnuPG key through batch file key generation. See
:meth:`GPG.gen_key_input()` for creating the control input.
>>> import gnupg
>>> gpg = gnupg.GPG(homedir="doctests")
>>> key_input = gpg.gen_key_input()
>>> key = gpg.gen_key(key_input)
>>> assert key.fingerprint
:param dict input: A dictionary of parameters and values for the new
key.
:returns: The result mapping with details of the new key, which is a
:class:`GenKey <gnupg._parsers.GenKey>` object.
"""
args = ["--gen-key --batch"]
key = self._result_map['generate'](self)
f = _make_binary_stream(input, self._encoding)
self._handle_io(args, f, key, binary=True)
f.close()
fpr = str(key.fingerprint)
if len(fpr) == 20:
for d in map(lambda x: os.path.dirname(x),
[self.temp_keyring, self.temp_secring]):
if not os.path.exists(d):
os.makedirs(d)
if self.temp_keyring:
if os.path.isfile(self.temp_keyring):
prefix = os.path.join(self.temp_keyring, fpr)
try: os.rename(self.temp_keyring, prefix+".pubring")
except OSError as ose: log.error(str(ose))
if self.temp_secring:
if os.path.isfile(self.temp_secring):
prefix = os.path.join(self.temp_secring, fpr)
try: os.rename(self.temp_secring, prefix+".secring")
except OSError as ose: log.error(str(ose))
log.info("Key created. Fingerprint: %s" % fpr)
key.keyring = self.temp_keyring
key.secring = self.temp_secring
self.temp_keyring = None
self.temp_secring = None
return key
def gen_key_input(self, separate_keyring=False, save_batchfile=False,
testing=False, **kwargs):
"""Generate a batch file for input to :meth:`~gnupg.GPG.gen_key`.
The GnuPG batch file key generation feature allows unattended key
generation by creating a file with special syntax and then providing it
to: :command:`gpg --gen-key --batch`. Batch files look like this:
| Name-Real: Alice
| Name-Email: alice@inter.net
| Expire-Date: 2014-04-01
| Key-Type: RSA
| Key-Length: 4096
| Key-Usage: cert
| Subkey-Type: RSA
| Subkey-Length: 4096
| Subkey-Usage: encrypt,sign,auth
| Passphrase: sekrit
| %pubring foo.gpg
| %secring sec.gpg
| %commit
which is what this function creates for you. All of the available,
non-control parameters are detailed below (control parameters are the
ones which begin with a '%'). For example, to generate the batch file
example above, use like this:
>>> import gnupg
GnuPG logging disabled...
>>> from __future__ import print_function
>>> gpg = gnupg.GPG(homedir='doctests')
>>> alice = { 'name_real': 'Alice',
... 'name_email': 'alice@inter.net',
... 'expire_date': '2014-04-01',
... 'key_type': 'RSA',
... 'key_length': 4096,
... 'key_usage': '',
... 'subkey_type': 'RSA',
... 'subkey_length': 4096,
... 'subkey_usage': 'encrypt,sign,auth',
... 'passphrase': 'sekrit'}
>>> alice_input = gpg.gen_key_input(**alice)
>>> print(alice_input)
Key-Type: RSA
Subkey-Type: RSA
Subkey-Usage: encrypt,sign,auth
Expire-Date: 2014-04-01
Passphrase: sekrit
Name-Real: Alice
Name-Email: alice@inter.net
Key-Length: 4096
Subkey-Length: 4096
%pubring ./doctests/alice.pubring.gpg
%secring ./doctests/alice.secring.gpg
%commit
<BLANKLINE>
>>> alice_key = gpg.gen_key(alice_input)
>>> assert alice_key is not None
>>> assert alice_key.fingerprint is not None
>>> message = "no one else can read my sekrit message"
>>> encrypted = gpg.encrypt(message, alice_key.fingerprint)
>>> assert isinstance(encrypted.data, str)
:param bool separate_keyring: Specify for the new key to be written to
a separate pubring.gpg and secring.gpg. If True,
:meth:`~gnupg.GPG.gen_key` will automatically rename the separate
keyring and secring to whatever the fingerprint of the generated
key ends up being, suffixed with '.pubring' and '.secring'
respectively.
:param bool save_batchfile: Save a copy of the generated batch file to
disk in a file named <name_real>.batch, where <name_real> is the
``name_real`` parameter stripped of punctuation, spaces, and
non-ascii characters.
:param bool testing: Uses a faster, albeit insecure random number
generator to create keys. This should only be used for testing
purposes, for keys which are going to be created and then soon
after destroyed, and never for the generation of actual use keys.
:param str name_real: The name field of the UID in the generated key.
:param str name_comment: The comment in the UID of the generated key.
:param str name_email: The email in the UID of the generated key.
(default: ``$USER`` @ :command:`hostname` ) Remember to use UTF-8
encoding for the entirety of the UID. At least one of
``name_real``, ``name_comment``, or ``name_email`` must be
provided, or else no user ID is created.
:param str key_type: One of 'RSA', 'DSA', 'ELG-E', or 'default'.
(default: 'RSA', if using GnuPG v1.x, otherwise 'default') Starts
a new parameter block by giving the type of the primary key. The
algorithm must be capable of signing. This is a required
parameter. The algorithm may either be an OpenPGP algorithm number
or a string with the algorithm name. The special value ‘default’
may be used for algo to create the default key type; in this case
a ``key_usage`` should not be given and 'default' must also be
used for ``subkey_type``.
:param int key_length: The requested length of the generated key in
bits. (Default: 4096)
:param str key_grip: hexstring This is an optional hexidecimal string
which is used to generate a CSR or certificate for an already
existing key. ``key_length`` will be ignored if this parameter
is given.
:param str key_usage: Space or comma delimited string of key
usages. Allowed values are ‘encrypt’, ‘sign’, and ‘auth’. This is
used to generate the key flags. Please make sure that the
algorithm is capable of this usage. Note that OpenPGP requires
that all primary keys are capable of certification, so no matter
what usage is given here, the ‘cert’ flag will be on. If no
‘Key-Usage’ is specified and the ‘Key-Type’ is not ‘default’, all
allowed usages for that particular algorithm are used; if it is
not given but ‘default’ is used the usage will be ‘sign’.
:param str subkey_type: This generates a secondary key
(subkey). Currently only one subkey can be handled. See also
``key_type`` above.
:param int subkey_length: The length of the secondary subkey in bits.
:param str subkey_usage: Key usage for a subkey; similar to
``key_usage``.
:type expire_date: :obj:`int` or :obj:`str`
:param expire_date: Can be specified as an iso-date or as
<int>[d|w|m|y] Set the expiration date for the key (and the
subkey). It may either be entered in ISO date format (2000-08-15)
or as number of days, weeks, month or years. The special notation
"seconds=N" is also allowed to directly give an Epoch
value. Without a letter days are assumed. Note that there is no
check done on the overflow of the type used by OpenPGP for
timestamps. Thus you better make sure that the given value make
sense. Although OpenPGP works with time intervals, GnuPG uses an
absolute value internally and thus the last year we can represent
is 2105.
:param str creation_date: Set the creation date of the key as stored
in the key information and which is also part of the fingerprint
calculation. Either a date like "1986-04-26" or a full timestamp
like "19860426T042640" may be used. The time is considered to be
UTC. If it is not given the current time is used.
:param str passphrase: The passphrase for the new key. The default is
to not use any passphrase. Note that GnuPG>=2.1.x will not allow
you to specify a passphrase for batch key generation -- GnuPG will
ignore the **passphrase** parameter, stop, and ask the user for
the new passphrase. However, we can put the command
``%no-protection`` into the batch key generation file to allow a
passwordless key to be created, which can then have its passphrase
set later with ``--edit-key``.
:param str preferences: Set the cipher, hash, and compression
preference values for this key. This expects the same type of
string as the sub-command ‘setpref’ in the --edit-key menu.
:param str revoker: Should be given as 'algo:fpr' (case sensitive).
Add a designated revoker to the generated key. Algo is the public
key algorithm of the designated revoker (i.e. RSA=1, DSA=17, etc.)
fpr is the fingerprint of the designated revoker. The optional
‘sensitive’ flag marks the designated revoker as sensitive
information. Only v4 keys may be designated revokers.
:param str keyserver: This is an optional parameter that specifies the
preferred keyserver URL for the key.
:param str handle: This is an optional parameter only used with the
status lines ``KEY_CREATED`` and ``KEY_NOT_CREATED``. string may
be up to 100 characters and should not contain spaces. It is
useful for batch key generation to associate a key parameter block
with a status line.
:rtype: str
:returns: A suitable input string for the :meth:`GPG.gen_key` method,
the latter of which will create the new keypair.
See `this GnuPG Manual section`__ for more details.
__ http://www.gnupg.org/documentation/manuals/gnupg-devel/Unattended-GPG-key-generation.html
"""
#: A boolean for determining whether to set subkey_type to 'default'
default_type = False
parms = {}
## if using GnuPG version 1.x, then set the default 'Key-Type' to
## 'RSA' because it doesn't understand 'default'
parms.setdefault('Key-Type', 'default')
if _util._is_gpg1(self.binary_version):
parms.setdefault('Key-Type', 'RSA')
log.debug("GnuPG v%s detected: setting default key type to %s."
% (self.binary_version, parms['Key-Type']))
parms.setdefault('Key-Length', 4096)
parms.setdefault('Name-Real', "Autogenerated Key")
parms.setdefault('Expire-Date', _util._next_year())
name_email = kwargs.get('name_email')
uidemail = _util.create_uid_email(name_email)
parms.setdefault('Name-Email', uidemail)
if testing:
## This specific comment string is required by (some? all?)
## versions of GnuPG to use the insecure PRNG:
parms.setdefault('Name-Comment', 'insecure!')
for key, val in list(kwargs.items()):
key = key.replace('_','-').title()
## to set 'cert', 'Key-Usage' must be blank string
if not key in ('Key-Usage', 'Subkey-Usage'):
if type('')(val).strip():
parms[key] = val
## if Key-Type is 'default', make Subkey-Type also be 'default'
if parms['Key-Type'] == 'default':
default_type = True
for field in ('Key-Usage', 'Subkey-Usage',):
try: parms.pop(field) ## toss these out, handle manually
except KeyError: pass
## Key-Type must come first, followed by length
out = "Key-Type: %s\n" % parms.pop('Key-Type')
out += "Key-Length: %d\n" % parms.pop('Key-Length')
if 'Subkey-Type' in parms.keys():
out += "Subkey-Type: %s\n" % parms.pop('Subkey-Type')
else:
if default_type:
out += "Subkey-Type: default\n"
if 'Subkey-Length' in parms.keys():
out += "Subkey-Length: %s\n" % parms.pop('Subkey-Length')
for key, val in list(parms.items()):
out += "%s: %s\n" % (key, val)
## There is a problem where, in the batch files, if the '%%pubring'
## and '%%secring' are given as any static string, i.e. 'pubring.gpg',
## that file will always get rewritten without confirmation, killing
## off any keys we had before. So in the case where we wish to
## generate a bunch of keys and then do stuff with them, we should not
## give 'pubring.gpg' as our keyring file, otherwise we will lose any
## keys we had previously.
if separate_keyring:
ring = str(uidemail + '_' + str(_util._utc_epoch()))
self.temp_keyring = os.path.join(self.homedir, ring+'.pubring')
self.temp_secring = os.path.join(self.homedir, ring+'.secring')
out += "%%pubring %s\n" % self.temp_keyring
out += "%%secring %s\n" % self.temp_secring
if testing:
## see TODO file, tag :compatibility:gen_key_input:
##
## Add version detection before the '%no-protection' flag.
out += "%no-protection\n"
out += "%transient-key\n"
out += "%commit\n"
## if we've been asked to save a copy of the batch file:
if save_batchfile and parms['Name-Email'] != uidemail:
asc_uid = encodings.normalize_encoding(parms['Name-Email'])
filename = _fix_unsafe(asc_uid) + _util._now() + '.batch'
save_as = os.path.join(self._batch_dir, filename)
readme = os.path.join(self._batch_dir, 'README')
if not os.path.exists(self._batch_dir):
os.makedirs(self._batch_dir)
## the following pulls the link to GnuPG's online batchfile
## documentation from this function's docstring and sticks it
## in a README file in the batch directory:
if getattr(self.gen_key_input, '__doc__', None) is not None:
docs = self.gen_key_input.__doc__
else:
docs = str() ## docstring=None if run with "python -OO"
links = '\n'.join(x.strip() for x in docs.splitlines()[-2:])
explain = """
This directory was created by python-gnupg, on {}, and
it contains saved batch files, which can be given to GnuPG to automatically
generate keys. Please see
{}""".format(_util.now(), links) ## sometimes python is awesome.
with open(readme, 'a+') as fh:
[fh.write(line) for line in explain]
with open(save_as, 'a+') as batch_file:
[batch_file.write(line) for line in out]
return out
def encrypt(self, data, *recipients, **kwargs):
"""Encrypt the message contained in ``data`` to ``recipients``.
:param str data: The file or bytestream to encrypt.
:param str recipients: The recipients to encrypt to. Recipients must
be specified keyID/fingerprint. Care should be taken in Python2.x
to make sure that the given fingerprint is in fact a string and
not a unicode object.
:param str default_key: The keyID/fingerprint of the key to use for
signing. If given, ``data`` will be encrypted and signed.
:param str passphrase: If given, and ``default_key`` is also given,
use this passphrase to unlock the secret portion of the
``default_key`` to sign the encrypted ``data``. Otherwise, if
``default_key`` is not given, but ``symmetric=True``, then use
this passphrase as the passphrase for symmetric
encryption. Signing and symmetric encryption should *not* be
combined when sending the ``data`` to other recipients, else the
passphrase to the secret key would be shared with them.
:param bool armor: If True, ascii armor the output; otherwise, the
output will be in binary format. (Default: True)
:param bool encrypt: If True, encrypt the ``data`` using the
``recipients`` public keys. (Default: True)
:param bool symmetric: If True, encrypt the ``data`` to ``recipients``
using a symmetric key. See the ``passphrase`` parameter. Symmetric
encryption and public key encryption can be used simultaneously,
and will result in a ciphertext which is decryptable with either
the symmetric ``passphrase`` or one of the corresponding private
keys.
:param bool always_trust: If True, ignore trust warnings on recipient
keys. If False, display trust warnings. (default: True)
:param str output: The output file to write to. If not specified, the
encrypted output is returned, and thus should be stored as an
object in Python. For example:
>>> import shutil
>>> import gnupg
>>> if os.path.exists("doctests"):
... shutil.rmtree("doctests")
>>> gpg = gnupg.GPG(homedir="doctests")
>>> key_settings = gpg.gen_key_input(key_type='RSA',
... key_length=1024,
... key_usage='ESCA',
... passphrase='foo')
>>> key = gpg.gen_key(key_settings)
>>> message = "The crow flies at midnight."
>>> encrypted = str(gpg.encrypt(message, key.printprint))
>>> assert encrypted != message
>>> assert not encrypted.isspace()
>>> decrypted = str(gpg.decrypt(encrypted))
>>> assert not decrypted.isspace()
>>> decrypted
'The crow flies at midnight.'
:param bool throw_keyids: If True, make all **recipients** keyids be
zero'd out in packet information. This is the same as using
**hidden_recipients** for all **recipients**. (Default: False).
:param list hidden_recipients: A list of recipients that should have
their keyids zero'd out in packet information.
:param str cipher_algo: The cipher algorithm to use. To see available
algorithms with your version of GnuPG, do:
:command:`$ gpg --with-colons --list-config ciphername`.
The default ``cipher_algo``, if unspecified, is ``'AES256'``.
:param str digest_algo: The hash digest to use. Again, to see which
hashes your GnuPG is capable of using, do:
:command:`$ gpg --with-colons --list-config digestname`.
The default, if unspecified, is ``'SHA512'``.
:param str compress_algo: The compression algorithm to use. Can be one
of ``'ZLIB'``, ``'BZIP2'``, ``'ZIP'``, or ``'Uncompressed'``.
.. seealso:: :meth:`._encrypt`
"""
if _is_stream(data):
stream = data
else:
stream = _make_binary_stream(data, self._encoding)
result = self._encrypt(stream, recipients, **kwargs)
stream.close()
return result
def decrypt(self, message, **kwargs):
"""Decrypt the contents of a string or file-like object ``message``.
:type message: file or str or :class:`io.BytesIO`
:param message: A string or file-like object to decrypt.
:param bool always_trust: Instruct GnuPG to ignore trust checks.
:param str passphrase: The passphrase for the secret key used for decryption.
:param str output: A filename to write the decrypted output to.
"""
stream = _make_binary_stream(message, self._encoding)
result = self.decrypt_file(stream, **kwargs)
stream.close()
return result
def decrypt_file(self, filename, always_trust=False, passphrase=None,
output=None):
"""Decrypt the contents of a file-like object ``filename`` .
:param str filename: A file-like object to decrypt.
:param bool always_trust: Instruct GnuPG to ignore trust checks.
:param str passphrase: The passphrase for the secret key used for decryption.
:param str output: A filename to write the decrypted output to.
"""
args = ["--decrypt"]
if output: # write the output to a file with the specified name
if os.path.exists(output):
os.remove(output) # to avoid overwrite confirmation message
args.append('--output %s' % output)
if always_trust:
args.append("--always-trust")
result = self._result_map['crypt'](self)
self._handle_io(args, filename, result, passphrase, binary=True)
log.debug('decrypt result: %r', result.data)
return result
class GPGUtilities(object):
"""Extra tools for working with GnuPG."""
def __init__(self, gpg):
"""Initialise extra utility functions."""
self._gpg = gpg
def find_key_by_email(self, email, secret=False):
"""Find user's key based on their email address.
:param str email: The email address to search for.
:param bool secret: If True, search through secret keyring.
"""
for key in self.list_keys(secret=secret):
for uid in key['uids']:
if re.search(email, uid):
return key
raise LookupError("GnuPG public key for email %s not found!" % email)
def find_key_by_subkey(self, subkey):
"""Find a key by a fingerprint of one of its subkeys.
:param str subkey: The fingerprint of the subkey to search for.
"""
for key in self.list_keys():
for sub in key['subkeys']:
if sub[0] == subkey:
return key
raise LookupError(
"GnuPG public key for subkey %s not found!" % subkey)
def send_keys(self, keyserver, *keyids):
"""Send keys to a keyserver."""
result = self._result_map['list'](self)
log.debug('send_keys: %r', keyids)
data = _util._make_binary_stream("", self._encoding)
args = ['--keyserver', keyserver, '--send-keys']
args.extend(keyids)
self._handle_io(args, data, result, binary=True)
log.debug('send_keys result: %r', result.__dict__)
data.close()
return result
def encrypted_to(self, raw_data):
"""Return the key to which raw_data is encrypted to."""
# TODO: make this support multiple keys.
result = self._gpg.list_packets(raw_data)
if not result.key:
raise LookupError(
"Content is not encrypted to a GnuPG key!")
try:
return self.find_key_by_keyid(result.key)
except:
return self.find_key_by_subkey(result.key)
def is_encrypted_sym(self, raw_data):
result = self._gpg.list_packets(raw_data)
return bool(result.need_passphrase_sym)
def is_encrypted_asym(self, raw_data):
result = self._gpg.list_packets(raw_data)
return bool(result.key)
def is_encrypted(self, raw_data):
return self.is_encrypted_asym(raw_data) or self.is_encrypted_sym(raw_data)
if __name__ == "__main__":
from .test import test_gnupg
test_gnupg.main()
|