gpgme/lang/python/tests/t-quick-subkey-creation.py

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#!/usr/bin/env python
# Copyright (C) 2017 g10 Code GmbH
#
# This file is part of GPGME.
#
# GPGME 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.
#
# GPGME 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 Lesser General
# Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this program; if not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, unicode_literals
del absolute_import, print_function, unicode_literals
import gpg
import itertools
import time
import support
alpha = "Alpha <alpha@invalid.example.net>"
bravo = "Bravo <bravo@invalid.example.net>"
with support.EphemeralContext() as ctx:
res = ctx.create_key(alpha, certify=True)
keys = list(ctx.keylist())
assert len(keys) == 1, "Weird number of keys created"
key = keys[0]
assert key.fpr == res.fpr
assert len(key.subkeys) == 1, "Expected one primary key and no subkeys"
def get_subkey(fpr):
k = ctx.get_key(fpr)
for sk in k.subkeys:
if sk.fpr == fpr:
return sk
return None
# Check gpg.constants.create.NOEXPIRE...
res = ctx.create_subkey(key, expires=False)
subkey = get_subkey(res.fpr)
assert subkey.expires == 0, "Expected subkey not to expire"
assert subkey.can_encrypt, \
"Default subkey capabilities do not include encryption"
t = 2 * 24 * 60 * 60
slack = 5 * 60
res = ctx.create_subkey(key, expires_in=t)
subkey = get_subkey(res.fpr)
assert abs(time.time() + t - subkey.expires) < slack, \
"subkeys expiration time is off"
# Check capabilities
for sign, encrypt, authenticate in itertools.product([False, True],
[False, True],
[False, True]):
# Filter some out
if not (sign or encrypt or authenticate):
# This triggers the default capabilities tested before.
continue
res = ctx.create_subkey(key, sign=sign, encrypt=encrypt,
authenticate=authenticate)
subkey = get_subkey(res.fpr)
assert sign == subkey.can_sign
assert encrypt == subkey.can_encrypt
assert authenticate == subkey.can_authenticate
# Check algorithm
res = ctx.create_subkey(key, algorithm="rsa")
subkey = get_subkey(res.fpr)
assert subkey.pubkey_algo == 1
# Check algorithm with size
res = ctx.create_subkey(key, algorithm="rsa1024")
subkey = get_subkey(res.fpr)
assert subkey.pubkey_algo == 1
assert subkey.length == 1024
# Check algorithm future-default
ctx.create_subkey(key, algorithm="future-default")
# Check passphrase protection. For this we create a new key
# so that we have a key with just one encryption subkey.
bravo_res = ctx.create_key(bravo, certify=True)
bravo_key = ctx.get_key(bravo_res.fpr)
assert len(bravo_key.subkeys) == 1, "Expected one primary key and no subkeys"
passphrase = "streng geheim"
res = ctx.create_subkey(bravo_key, passphrase=passphrase)
ciphertext, _, _ = ctx.encrypt(b"hello there",
recipients=[ctx.get_key(bravo_res.fpr)])
cb_called = False
def cb(*args):
global cb_called
cb_called = True
return passphrase
ctx.pinentry_mode = gpg.constants.PINENTRY_MODE_LOOPBACK
ctx.set_passphrase_cb(cb)
plaintext, _, _ = ctx.decrypt(ciphertext)
assert plaintext == b"hello there"
assert cb_called