xref: /openbmc/qemu/tests/qemu-iotests/295 (revision a68694cd)
1#!/usr/bin/env python3
2#
3# Test case QMP's encrypted key management
4#
5# Copyright (C) 2019 Red Hat, Inc.
6#
7# This program is free software; you can redistribute it and/or modify
8# it under the terms of the GNU General Public License as published by
9# the Free Software Foundation; either version 2 of the License, or
10# (at your option) any later version.
11#
12# This program is distributed in the hope that it will be useful,
13# but WITHOUT ANY WARRANTY; without even the implied warranty of
14# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15# GNU General Public License for more details.
16#
17# You should have received a copy of the GNU General Public License
18# along with this program.  If not, see <http://www.gnu.org/licenses/>.
19#
20
21import iotests
22import os
23import time
24import json
25
26test_img = os.path.join(iotests.test_dir, 'test.img')
27
28class Secret:
29    def __init__(self, index):
30        self._id = "keysec" + str(index)
31        # you are not supposed to see the password...
32        self._secret = "hunter" + str(index)
33
34    def id(self):
35        return self._id
36
37    def secret(self):
38        return self._secret
39
40    def to_cmdline_object(self):
41        return  [ "secret,id=" + self._id + ",data=" + self._secret]
42
43    def to_qmp_object(self):
44        return { "qom_type" : "secret", "id": self.id(),
45                 "props": { "data": self.secret() } }
46
47################################################################################
48class EncryptionSetupTestCase(iotests.QMPTestCase):
49
50    # test case startup
51    def setUp(self):
52        # start the VM
53        self.vm = iotests.VM()
54        self.vm.launch()
55
56        # create the secrets and load 'em into the VM
57        self.secrets = [ Secret(i) for i in range(0, 6) ]
58        for secret in self.secrets:
59            result = self.vm.qmp("object-add", **secret.to_qmp_object())
60            self.assert_qmp(result, 'return', {})
61
62        if iotests.imgfmt == "qcow2":
63            self.pfx = "encrypt."
64            self.img_opts = [ '-o', "encrypt.format=luks" ]
65        else:
66            self.pfx = ""
67            self.img_opts = []
68
69    # test case shutdown
70    def tearDown(self):
71        # stop the VM
72        self.vm.shutdown()
73
74    ###########################################################################
75    # create the encrypted block device
76    def createImg(self, file, secret):
77
78        iotests.qemu_img(
79            'create',
80            '--object', *secret.to_cmdline_object(),
81            '-f', iotests.imgfmt,
82            '-o', self.pfx + 'key-secret=' + secret.id(),
83            '-o', self.pfx + 'iter-time=10',
84            *self.img_opts,
85            file,
86            '1M')
87
88    ###########################################################################
89    # open an encrypted block device
90    def openImageQmp(self, id, file, secret, read_only = False):
91
92        encrypt_options = {
93            'key-secret' : secret.id()
94        }
95
96        if iotests.imgfmt == "qcow2":
97            encrypt_options = {
98                'encrypt': {
99                    'format':'luks',
100                    **encrypt_options
101                }
102            }
103
104        result = self.vm.qmp('blockdev-add', **
105            {
106                'driver': iotests.imgfmt,
107                'node-name': id,
108                'read-only': read_only,
109
110                **encrypt_options,
111
112                'file': {
113                    'driver': 'file',
114                    'filename': test_img,
115                }
116            }
117        )
118        self.assert_qmp(result, 'return', {})
119
120    # close the encrypted block device
121    def closeImageQmp(self, id):
122        result = self.vm.qmp('blockdev-del', **{ 'node-name': id })
123        self.assert_qmp(result, 'return', {})
124
125    ###########################################################################
126    # add a key to an encrypted block device
127    def addKeyQmp(self, id, new_secret, secret = None,
128                  slot = None, force = False):
129
130        crypt_options = {
131            'state'      : 'active',
132            'new-secret' : new_secret.id(),
133            'iter-time' : 10
134        }
135
136        if slot != None:
137            crypt_options['keyslot'] = slot
138
139
140        if secret != None:
141            crypt_options['secret'] = secret.id()
142
143        if iotests.imgfmt == "qcow2":
144            crypt_options['format'] = 'luks'
145            crypt_options = {
146                'encrypt': crypt_options
147            }
148
149        args = {
150            'node-name': id,
151            'job-id' : 'job_add_key',
152            'options' : {
153                    'driver' : iotests.imgfmt,
154                    **crypt_options
155                },
156        }
157
158        if force == True:
159            args['force'] = True
160
161        #TODO: check what jobs return
162        result = self.vm.qmp('x-blockdev-amend', **args)
163        assert result['return'] == {}
164        self.vm.run_job('job_add_key')
165
166    # erase a key from an encrypted block device
167    def eraseKeyQmp(self, id, old_secret = None, slot = None, force = False):
168
169        crypt_options = {
170            'state'      : 'inactive',
171        }
172
173        if slot != None:
174            crypt_options['keyslot'] = slot
175        if old_secret != None:
176            crypt_options['old-secret'] = old_secret.id()
177
178        if iotests.imgfmt == "qcow2":
179            crypt_options['format'] = 'luks'
180            crypt_options = {
181                'encrypt': crypt_options
182            }
183
184        args = {
185            'node-name': id,
186            'job-id' : 'job_erase_key',
187            'options' : {
188                    'driver' : iotests.imgfmt,
189                    **crypt_options
190                },
191        }
192
193        if force == True:
194            args['force'] = True
195
196        result = self.vm.qmp('x-blockdev-amend', **args)
197        assert result['return'] == {}
198        self.vm.run_job('job_erase_key')
199
200    ###########################################################################
201    # create image, and change its key
202    def testChangeKey(self):
203
204        # create the image with secret0 and open it
205        self.createImg(test_img, self.secrets[0]);
206        self.openImageQmp("testdev", test_img, self.secrets[0])
207
208        # add key to slot 1
209        self.addKeyQmp("testdev", new_secret = self.secrets[1])
210
211        # add key to slot 5
212        self.addKeyQmp("testdev", new_secret = self.secrets[2], slot=5)
213
214        # erase key from slot 0
215        self.eraseKeyQmp("testdev", old_secret = self.secrets[0])
216
217        #reopen the image with secret1
218        self.closeImageQmp("testdev")
219        self.openImageQmp("testdev", test_img, self.secrets[1])
220
221        # close and erase the image for good
222        self.closeImageQmp("testdev")
223        os.remove(test_img)
224
225    # test that if we erase the old password,
226    # we can still change the encryption keys using 'old-secret'
227    def testOldPassword(self):
228
229        # create the image with secret0 and open it
230        self.createImg(test_img, self.secrets[0]);
231        self.openImageQmp("testdev", test_img, self.secrets[0])
232
233        # add key to slot 1
234        self.addKeyQmp("testdev", new_secret = self.secrets[1])
235
236        # erase key from slot 0
237        self.eraseKeyQmp("testdev", old_secret = self.secrets[0])
238
239        # this will fail as the old password is no longer valid
240        self.addKeyQmp("testdev", new_secret = self.secrets[2])
241
242        # this will work
243        self.addKeyQmp("testdev", new_secret = self.secrets[2], secret = self.secrets[1])
244
245        # close and erase the image for good
246        self.closeImageQmp("testdev")
247        os.remove(test_img)
248
249    def testUseForceLuke(self):
250
251        self.createImg(test_img, self.secrets[0]);
252        self.openImageQmp("testdev", test_img, self.secrets[0])
253
254        # Add bunch of secrets
255        self.addKeyQmp("testdev", new_secret = self.secrets[1], slot=4)
256        self.addKeyQmp("testdev", new_secret = self.secrets[4], slot=2)
257
258        # overwrite an active secret
259        self.addKeyQmp("testdev", new_secret = self.secrets[5], slot=2)
260        self.addKeyQmp("testdev", new_secret = self.secrets[5], slot=2, force=True)
261
262        self.addKeyQmp("testdev", new_secret = self.secrets[0])
263
264        # Now erase all the secrets
265        self.eraseKeyQmp("testdev", old_secret = self.secrets[5])
266        self.eraseKeyQmp("testdev", slot=4)
267
268        # erase last keyslot
269        self.eraseKeyQmp("testdev", old_secret = self.secrets[0])
270        self.eraseKeyQmp("testdev", old_secret = self.secrets[0], force=True)
271
272        self.closeImageQmp("testdev")
273        os.remove(test_img)
274
275
276if __name__ == '__main__':
277    iotests.verify_working_luks()
278    # Encrypted formats support
279    iotests.activate_logging()
280    iotests.main(supported_fmts = ['qcow2', 'luks'])
281