blob: a3455889ed9fc1c63c6cfca8c81c65b3853d84b4 [file] [log] [blame]
Simon Glass58fe7e52013-06-13 15:10:00 -07001U-Boot FIT Signature Verification
2=================================
3
4Introduction
5------------
6FIT supports hashing of images so that these hashes can be checked on
7loading. This protects against corruption of the image. However it does not
8prevent the substitution of one image for another.
9
10The signature feature allows the hash to be signed with a private key such
11that it can be verified using a public key later. Provided that the private
12key is kept secret and the public key is stored in a non-volatile place,
13any image can be verified in this way.
14
15See verified-boot.txt for more general information on verified boot.
16
17
18Concepts
19--------
20Some familiarity with public key cryptography is assumed in this section.
21
22The procedure for signing is as follows:
23
24 - hash an image in the FIT
25 - sign the hash with a private key to produce a signature
26 - store the resulting signature in the FIT
27
28The procedure for verification is:
29
30 - read the FIT
31 - obtain the public key
32 - extract the signature from the FIT
33 - hash the image from the FIT
34 - verify (with the public key) that the extracted signature matches the
35 hash
36
37The signing is generally performed by mkimage, as part of making a firmware
38image for the device. The verification is normally done in U-Boot on the
39device.
40
41
42Algorithms
43----------
44In principle any suitable algorithm can be used to sign and verify a hash.
45At present only one class of algorithms is supported: SHA1 hashing with RSA.
46This works by hashing the image to produce a 20-byte hash.
47
48While it is acceptable to bring in large cryptographic libraries such as
49openssl on the host side (e.g. mkimage), it is not desirable for U-Boot.
50For the run-time verification side, it is important to keep code and data
51size as small as possible.
52
53For this reason the RSA image verification uses pre-processed public keys
54which can be used with a very small amount of code - just some extraction
55of data from the FDT and exponentiation mod n. Code size impact is a little
56under 5KB on Tegra Seaboard, for example.
57
58It is relatively straightforward to add new algorithms if required. If
59another RSA variant is needed, then it can be added to the table in
60image-sig.c. If another algorithm is needed (such as DSA) then it can be
61placed alongside rsa.c, and its functions added to the table in image-sig.c
62also.
63
64
Andreas Dannenbergce53ceb2016-03-23 18:24:10 -050065Creating an RSA key pair and certificate
66----------------------------------------
67To create a new public/private key pair, size 2048 bits:
Simon Glass58fe7e52013-06-13 15:10:00 -070068
Michael van der Westhuizen89f4ed12014-07-02 10:17:26 +020069$ openssl genpkey -algorithm RSA -out keys/dev.key \
70 -pkeyopt rsa_keygen_bits:2048 -pkeyopt rsa_keygen_pubexp:65537
Simon Glass58fe7e52013-06-13 15:10:00 -070071
Andreas Dannenbergce53ceb2016-03-23 18:24:10 -050072To create a certificate for this containing the public key:
Simon Glass58fe7e52013-06-13 15:10:00 -070073
74$ openssl req -batch -new -x509 -key keys/dev.key -out keys/dev.crt
75
76If you like you can look at the public key also:
77
78$ openssl rsa -in keys/dev.key -pubout
79
80
81Device Tree Bindings
82--------------------
83The following properties are required in the FIT's signature node(s) to
Masahiro Yamada65aff482017-08-22 15:19:20 +090084allow the signer to operate. These should be added to the .its file.
Simon Glass58fe7e52013-06-13 15:10:00 -070085Signature nodes sit at the same level as hash nodes and are called
Andre Przywara9fdfb1f2017-12-04 02:05:07 +000086signature-1, signature-2, etc.
Simon Glass58fe7e52013-06-13 15:10:00 -070087
Masahiro Yamadae63e3862017-10-19 19:37:59 +090088- algo: Algorithm name (e.g. "sha1,rsa2048")
Simon Glass58fe7e52013-06-13 15:10:00 -070089
90- key-name-hint: Name of key to use for signing. The keys will normally be in
91a single directory (parameter -k to mkimage). For a given key <name>, its
92private key is stored in <name>.key and the certificate is stored in
93<name>.crt.
94
95When the image is signed, the following properties are added (mandatory):
96
97- value: The signature data (e.g. 256 bytes for 2048-bit RSA)
98
99When the image is signed, the following properties are optional:
100
101- timestamp: Time when image was signed (standard Unix time_t format)
102
103- signer-name: Name of the signer (e.g. "mkimage")
104
105- signer-version: Version string of the signer (e.g. "2013.01")
106
107- comment: Additional information about the signer or image
108
Philippe Reynesa89345e2018-11-14 13:51:02 +0100109- padding: The padding algorithm, it may be pkcs-1.5 or pss,
110 if no value is provided we assume pkcs-1.5
111
Simon Glass56ab8d62013-06-13 15:10:09 -0700112For config bindings (see Signed Configurations below), the following
113additional properties are optional:
Simon Glass58fe7e52013-06-13 15:10:00 -0700114
Simon Glass56ab8d62013-06-13 15:10:09 -0700115- sign-images: A list of images to sign, each being a property of the conf
116node that contains then. The default is "kernel,fdt" which means that these
117two images will be looked up in the config and signed if present.
Simon Glass58fe7e52013-06-13 15:10:00 -0700118
Simon Glass56ab8d62013-06-13 15:10:09 -0700119For config bindings, these properties are added by the signer:
120
121- hashed-nodes: A list of nodes which were hashed by the signer. Each is
122 a string - the full path to node. A typical value might be:
123
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000124 hashed-nodes = "/", "/configurations/conf-1", "/images/kernel",
125 "/images/kernel/hash-1", "/images/fdt-1",
126 "/images/fdt-1/hash-1";
Simon Glass56ab8d62013-06-13 15:10:09 -0700127
128- hashed-strings: The start and size of the string region of the FIT that
129 was hashed
130
131Example: See sign-images.its for an example image tree source file and
132sign-configs.its for config signing.
133
Simon Glass58fe7e52013-06-13 15:10:00 -0700134
135Public Key Storage
136------------------
137In order to verify an image that has been signed with a public key we need to
138have a trusted public key. This cannot be stored in the signed image, since
139it would be easy to alter. For this implementation we choose to store the
140public key in U-Boot's control FDT (using CONFIG_OF_CONTROL).
141
142Public keys should be stored as sub-nodes in a /signature node. Required
143properties are:
144
Masahiro Yamadae63e3862017-10-19 19:37:59 +0900145- algo: Algorithm name (e.g. "sha1,rsa2048")
Simon Glass58fe7e52013-06-13 15:10:00 -0700146
147Optional properties are:
148
149- key-name-hint: Name of key used for signing. This is only a hint since it
150is possible for the name to be changed. Verification can proceed by checking
151all available signing keys until one matches.
152
153- required: If present this indicates that the key must be verified for the
154image / configuration to be considered valid. Only required keys are
155normally verified by the FIT image booting algorithm. Valid values are
Masahiro Yamada65aff482017-08-22 15:19:20 +0900156"image" to force verification of all images, and "conf" to force verification
Simon Glass58fe7e52013-06-13 15:10:00 -0700157of the selected configuration (which then relies on hashes in the images to
158verify those).
159
160Each signing algorithm has its own additional properties.
161
162For RSA the following are mandatory:
163
164- rsa,num-bits: Number of key bits (e.g. 2048)
165- rsa,modulus: Modulus (N) as a big-endian multi-word integer
Michael van der Westhuizen89f4ed12014-07-02 10:17:26 +0200166- rsa,exponent: Public exponent (E) as a 64 bit unsigned integer
Simon Glass58fe7e52013-06-13 15:10:00 -0700167- rsa,r-squared: (2^num-bits)^2 as a big-endian multi-word integer
168- rsa,n0-inverse: -1 / modulus[0] mod 2^32
169
Heinrich Schuchardt9cd84d22019-12-11 10:45:50 +0100170These parameters can be added to a binary device tree using parameter -K of the
171mkimage command::
172
173 tools/mkimage -f fit.its -K control.dtb -k keys -r image.fit
174
175Here is an example of a generated device tree node::
176
177 signature {
178 key-dev {
179 required = "conf";
180 algo = "sha256,rsa2048";
181 rsa,r-squared = <0xb76d1acf 0xa1763ca5 0xeb2f126
182 0x742edc80 0xd3f42177 0x9741d9d9
183 0x35bb476e 0xff41c718 0xd3801430
184 0xf22537cb 0xa7e79960 0xae32a043
185 0x7da1427a 0x341d6492 0x3c2762f5
186 0xaac04726 0x5b262d96 0xf984e86d
187 0xb99443c7 0x17080c33 0x940f6892
188 0xd57a95d1 0x6ea7b691 0xc5038fa8
189 0x6bb48a6e 0x73f1b1ea 0x37160841
190 0xe05715ce 0xa7c45bbd 0x690d82d5
191 0x99c2454c 0x6ff117b3 0xd830683b
192 0x3f81c9cf 0x1ca38a91 0x0c3392e4
193 0xd817c625 0x7b8e9a24 0x175b89ea
194 0xad79f3dc 0x4d50d7b4 0x9d4e90f8
195 0xad9e2939 0xc165d6a4 0x0ada7e1b
196 0xfb1bf495 0xfc3131c2 0xb8c6e604
197 0xc2761124 0xf63de4a6 0x0e9565f9
198 0xc8e53761 0x7e7a37a5 0xe99dcdae
199 0x9aff7e1e 0xbd44b13d 0x6b0e6aa4
200 0x038907e4 0x8e0d6850 0xef51bc20
201 0xf73c94af 0x88bea7b1 0xcbbb1b30
202 0xd024b7f3>;
203 rsa,modulus = <0xc0711d6cb 0x9e86db7f 0x45986dbe
204 0x023f1e8c9 0xe1a4c4d0 0x8a0dfdc9
205 0x023ba0c48 0x06815f6a 0x5caa0654
206 0x07078c4b7 0x3d154853 0x40729023
207 0x0b007c8fe 0x5a3647e5 0x23b41e20
208 0x024720591 0x66915305 0x0e0b29b0
209 0x0de2ad30d 0x8589430f 0xb1590325
210 0x0fb9f5d5e 0x9eba752a 0xd88e6de9
211 0x056b3dcc6 0x9a6b8e61 0x6784f61f
212 0x000f39c21 0x5eec6b33 0xd78e4f78
213 0x0921a305f 0xaa2cc27e 0x1ca917af
214 0x06e1134f4 0xd48cac77 0x4e914d07
215 0x0f707aa5a 0x0d141f41 0x84677f1d
216 0x0ad47a049 0x028aedb6 0xd5536fcf
217 0x03fef1e4f 0x133a03d2 0xfd7a750a
218 0x0f9159732 0xd207812e 0x6a807375
219 0x06434230d 0xc8e22dad 0x9f29b3d6
220 0x07c44ac2b 0xfa2aad88 0xe2429504
221 0x041febd41 0x85d0d142 0x7b194d65
222 0x06e5d55ea 0x41116961 0xf3181dde
223 0x068bf5fbc 0x3dd82047 0x00ee647e
224 0x0d7a44ab3>;
225 rsa,exponent = <0x00 0x10001>;
226 rsa,n0-inverse = <0xb3928b85>;
227 rsa,num-bits = <0x800>;
228 key-name-hint = "dev";
229 };
230 };
231
Simon Glass58fe7e52013-06-13 15:10:00 -0700232
Simon Glass56ab8d62013-06-13 15:10:09 -0700233Signed Configurations
234---------------------
235While signing images is useful, it does not provide complete protection
236against several types of attack. For example, it it possible to create a
237FIT with the same signed images, but with the configuration changed such
238that a different one is selected (mix and match attack). It is also possible
239to substitute a signed image from an older FIT version into a newer FIT
240(roll-back attack).
241
242As an example, consider this FIT:
243
244/ {
245 images {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000246 kernel-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700247 data = <data for kernel1>
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000248 signature-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700249 algo = "sha1,rsa2048";
250 value = <...kernel signature 1...>
251 };
252 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000253 kernel-2 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700254 data = <data for kernel2>
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000255 signature-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700256 algo = "sha1,rsa2048";
257 value = <...kernel signature 2...>
258 };
259 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000260 fdt-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700261 data = <data for fdt1>;
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000262 signature-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700263 algo = "sha1,rsa2048";
264 vaue = <...fdt signature 1...>
265 };
266 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000267 fdt-2 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700268 data = <data for fdt2>;
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000269 signature-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700270 algo = "sha1,rsa2048";
271 vaue = <...fdt signature 2...>
272 };
273 };
274 };
275 configurations {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000276 default = "conf-1";
277 conf-1 {
278 kernel = "kernel-1";
279 fdt = "fdt-1";
Simon Glass56ab8d62013-06-13 15:10:09 -0700280 };
Mickaël Tansorierb3c15b02019-07-17 17:57:16 +0200281 conf-2 {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000282 kernel = "kernel-2";
283 fdt = "fdt-2";
Simon Glass56ab8d62013-06-13 15:10:09 -0700284 };
285 };
286};
287
288Since both kernels are signed it is easy for an attacker to add a new
289configuration 3 with kernel 1 and fdt 2:
290
291 configurations {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000292 default = "conf-1";
293 conf-1 {
294 kernel = "kernel-1";
295 fdt = "fdt-1";
Simon Glass56ab8d62013-06-13 15:10:09 -0700296 };
Mickaël Tansorierb3c15b02019-07-17 17:57:16 +0200297 conf-2 {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000298 kernel = "kernel-2";
299 fdt = "fdt-2";
Simon Glass56ab8d62013-06-13 15:10:09 -0700300 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000301 conf-3 {
302 kernel = "kernel-1";
303 fdt = "fdt-2";
Simon Glass56ab8d62013-06-13 15:10:09 -0700304 };
305 };
306
307With signed images, nothing protects against this. Whether it gains an
308advantage for the attacker is debatable, but it is not secure.
309
Masahiro Yamada65aff482017-08-22 15:19:20 +0900310To solve this problem, we support signed configurations. In this case it
Simon Glass56ab8d62013-06-13 15:10:09 -0700311is the configurations that are signed, not the image. Each image has its
312own hash, and we include the hash in the configuration signature.
313
314So the above example is adjusted to look like this:
315
316/ {
317 images {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000318 kernel-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700319 data = <data for kernel1>
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000320 hash-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700321 algo = "sha1";
322 value = <...kernel hash 1...>
323 };
324 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000325 kernel-2 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700326 data = <data for kernel2>
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000327 hash-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700328 algo = "sha1";
329 value = <...kernel hash 2...>
330 };
331 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000332 fdt-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700333 data = <data for fdt1>;
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000334 hash-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700335 algo = "sha1";
336 value = <...fdt hash 1...>
337 };
338 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000339 fdt-2 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700340 data = <data for fdt2>;
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000341 hash-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700342 algo = "sha1";
343 value = <...fdt hash 2...>
344 };
345 };
346 };
347 configurations {
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000348 default = "conf-1";
349 conf-1 {
350 kernel = "kernel-1";
351 fdt = "fdt-1";
352 signature-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700353 algo = "sha1,rsa2048";
354 value = <...conf 1 signature...>;
355 };
356 };
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000357 conf-2 {
358 kernel = "kernel-2";
359 fdt = "fdt-2";
360 signature-1 {
Simon Glass56ab8d62013-06-13 15:10:09 -0700361 algo = "sha1,rsa2048";
362 value = <...conf 1 signature...>;
363 };
364 };
365 };
366};
367
368
369You can see that we have added hashes for all images (since they are no
370longer signed), and a signature to each configuration. In the above example,
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000371mkimage will sign configurations/conf-1, the kernel and fdt that are
372pointed to by the configuration (/images/kernel-1, /images/kernel-1/hash-1,
373/images/fdt-1, /images/fdt-1/hash-1) and the root structure of the image
Simon Glass56ab8d62013-06-13 15:10:09 -0700374(so that it isn't possible to add or remove root nodes). The signature is
Andre Przywara9fdfb1f2017-12-04 02:05:07 +0000375written into /configurations/conf-1/signature-1/value. It can easily be
Simon Glass56ab8d62013-06-13 15:10:09 -0700376verified later even if the FIT has been signed with other keys in the
377meantime.
378
379
Simon Glass58fe7e52013-06-13 15:10:00 -0700380Verification
381------------
382FITs are verified when loaded. After the configuration is selected a list
383of required images is produced. If there are 'required' public keys, then
384each image must be verified against those keys. This means that every image
385that might be used by the target needs to be signed with 'required' keys.
386
387This happens automatically as part of a bootm command when FITs are used.
388
Thirupathaiah Annapureddya49efb32020-08-16 23:01:11 -0700389For Signed Configurations, the default verification behavior can be changed by
390the following optional property in /signature node in U-Boot's control FDT.
391
392- required-mode: Valid values are "any" to allow verified boot to succeed if
393the selected configuration is signed by any of the 'required' keys, and "all"
394to allow verified boot to succeed if the selected configuration is signed by
395all of the 'required' keys.
396
397This property can be added to a binary device tree using fdtput as shown in
398below examples::
399
400 fdtput -t s control.dtb /signature required-mode any
401 fdtput -t s control.dtb /signature required-mode all
402
Simon Glass58fe7e52013-06-13 15:10:00 -0700403
404Enabling FIT Verification
405-------------------------
406In addition to the options to enable FIT itself, the following CONFIGs must
407be enabled:
408
Masahiro Yamada65aff482017-08-22 15:19:20 +0900409CONFIG_FIT_SIGNATURE - enable signing and verification in FITs
Simon Glass58fe7e52013-06-13 15:10:00 -0700410CONFIG_RSA - enable RSA algorithm for signing
411
Heiko Schocher515eb122014-05-28 11:33:33 +0200412WARNING: When relying on signed FIT images with required signature check
413the legacy image format is default disabled by not defining
Tom Rinic220bd92019-05-23 07:14:07 -0400414CONFIG_LEGACY_IMAGE_FORMAT
Simon Glass58fe7e52013-06-13 15:10:00 -0700415
Mickaël Tansorier6afbde42019-07-17 17:57:29 +0200416
Simon Glass58fe7e52013-06-13 15:10:00 -0700417Testing
418-------
Masahiro Yamada65aff482017-08-22 15:19:20 +0900419An easy way to test signing and verification is to use the test script
Simon Glass58fe7e52013-06-13 15:10:00 -0700420provided in test/vboot/vboot_test.sh. This uses sandbox (a special version
421of U-Boot which runs under Linux) to show the operation of a 'bootm'
422command loading and verifying images.
423
424A sample run is show below:
425
426$ make O=sandbox sandbox_config
427$ make O=sandbox
428$ O=sandbox ./test/vboot/vboot_test.sh
Mickaël Tansorier6afbde42019-07-17 17:57:29 +0200429
430
Simon Glass58fe7e52013-06-13 15:10:00 -0700431Simple Verified Boot Test
432=========================
433
434Please see doc/uImage.FIT/verified-boot.txt for more information
435
Heiko Schocheredaf9b12014-03-03 12:19:26 +0100436/home/hs/ids/u-boot/sandbox/tools/mkimage -D -I dts -O dtb -p 2000
Simon Glass58fe7e52013-06-13 15:10:00 -0700437Build keys
Heiko Schocheredaf9b12014-03-03 12:19:26 +0100438do sha1 test
Simon Glass58fe7e52013-06-13 15:10:00 -0700439Build FIT with signed images
440Test Verified Boot Run: unsigned signatures:: OK
441Sign images
442Test Verified Boot Run: signed images: OK
443Build FIT with signed configuration
444Test Verified Boot Run: unsigned config: OK
445Sign images
446Test Verified Boot Run: signed config: OK
Heiko Schocherd7b42322014-03-03 12:19:30 +0100447check signed config on the host
Simon Glassa51991d2014-06-12 07:24:53 -0600448Signature check OK
Heiko Schocherd7b42322014-03-03 12:19:30 +0100449OK
450Test Verified Boot Run: signed config: OK
Heiko Schocheredaf9b12014-03-03 12:19:26 +0100451Test Verified Boot Run: signed config with bad hash: OK
452do sha256 test
453Build FIT with signed images
454Test Verified Boot Run: unsigned signatures:: OK
455Sign images
456Test Verified Boot Run: signed images: OK
457Build FIT with signed configuration
458Test Verified Boot Run: unsigned config: OK
459Sign images
460Test Verified Boot Run: signed config: OK
Heiko Schocherd7b42322014-03-03 12:19:30 +0100461check signed config on the host
Simon Glassa51991d2014-06-12 07:24:53 -0600462Signature check OK
Heiko Schocherd7b42322014-03-03 12:19:30 +0100463OK
464Test Verified Boot Run: signed config: OK
Heiko Schocheredaf9b12014-03-03 12:19:26 +0100465Test Verified Boot Run: signed config with bad hash: OK
Simon Glass58fe7e52013-06-13 15:10:00 -0700466
467Test passed
468
Simon Glassa51991d2014-06-12 07:24:53 -0600469
Vesa Jääskeläinenabf8eb22019-06-16 20:53:38 +0300470Hardware Signing with PKCS#11 or with HSM
471-----------------------------------------
George McCollister23d14892017-01-06 13:14:17 -0600472
473Securely managing private signing keys can challenging, especially when the
474keys are stored on the file system of a computer that is connected to the
475Internet. If an attacker is able to steal the key, they can sign malicious FIT
476images which will appear genuine to your devices.
477
478An alternative solution is to keep your signing key securely stored on hardware
479device like a smartcard, USB token or Hardware Security Module (HSM) and have
480them perform the signing. PKCS#11 is standard for interfacing with these crypto
481device.
482
483Requirements:
Vesa Jääskeläinenabf8eb22019-06-16 20:53:38 +0300484Smartcard/USB token/HSM which can work with some openssl engine
George McCollister23d14892017-01-06 13:14:17 -0600485openssl
Vesa Jääskeläinenabf8eb22019-06-16 20:53:38 +0300486
487For pkcs11 engine usage:
George McCollister23d14892017-01-06 13:14:17 -0600488libp11 (provides pkcs11 engine)
489p11-kit (recommended to simplify setup)
490opensc (for smartcards and smartcard like USB devices)
491gnutls (recommended for key generation, p11tool)
492
Vesa Jääskeläinenabf8eb22019-06-16 20:53:38 +0300493For generic HSMs respective openssl engine must be installed and locateable by
494openssl. This may require setting up LD_LIBRARY_PATH if engine is not installed
495to openssl's default search paths.
496
497PKCS11 engine support forms "key id" based on "keydir" and with
Jan Luebbecd4eafb2020-05-13 12:26:24 +0200498"key-name-hint". "key-name-hint" is used as "object" name (if not defined in
499keydir). "keydir" (if defined) is used to define (prefix for) which PKCS11 source
500is being used for lookup up for the key.
Vesa Jääskeläinenabf8eb22019-06-16 20:53:38 +0300501
502PKCS11 engine key ids:
503 "pkcs11:<keydir>;object=<key-name-hint>;type=<public|private>"
Jan Luebbecd4eafb2020-05-13 12:26:24 +0200504or, if keydir contains "object="
505 "pkcs11:<keydir>;type=<public|private>"
Vesa Jääskeläinenabf8eb22019-06-16 20:53:38 +0300506or
507 "pkcs11:object=<key-name-hint>;type=<public|private>",
508
509Generic HSM engine support forms "key id" based on "keydir" and with
510"key-name-hint". If "keydir" is specified for mkimage it is used as a prefix in
511"key id" and is appended with "key-name-hint".
512
513Generic engine key ids:
514 "<keydir><key-name-hint>"
515or
516 "<key-name-hint>"
517
518As mkimage does not at this time support prompting for passwords HSM may need
519key preloading wrapper to be used when invoking mkimage.
520
521The following examples use the Nitrokey Pro using pkcs11 engine. Instructions
522for other devices may vary.
George McCollister23d14892017-01-06 13:14:17 -0600523
524Notes on pkcs11 engine setup:
525
526Make sure p11-kit, opensc are installed and that p11-kit is setup to use opensc.
527/usr/share/p11-kit/modules/opensc.module should be present on your system.
528
529
530Generating Keys On the Nitrokey:
531
532$ gpg --card-edit
533
534Reader ...........: Nitrokey Nitrokey Pro (xxxxxxxx0000000000000000) 00 00
535Application ID ...: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
536Version ..........: 2.1
537Manufacturer .....: ZeitControl
538Serial number ....: xxxxxxxx
539Name of cardholder: [not set]
540Language prefs ...: de
541Sex ..............: unspecified
542URL of public key : [not set]
543Login data .......: [not set]
544Signature PIN ....: forced
545Key attributes ...: rsa2048 rsa2048 rsa2048
546Max. PIN lengths .: 32 32 32
547PIN retry counter : 3 0 3
548Signature counter : 0
549Signature key ....: [none]
550Encryption key....: [none]
551Authentication key: [none]
552General key info..: [none]
553
554gpg/card> generate
555Make off-card backup of encryption key? (Y/n) n
556
557Please note that the factory settings of the PINs are
558 PIN = '123456' Admin PIN = '12345678'
559You should change them using the command --change-pin
560
561What keysize do you want for the Signature key? (2048) 4096
562The card will now be re-configured to generate a key of 4096 bits
563Note: There is no guarantee that the card supports the requested size.
564 If the key generation does not succeed, please check the
565 documentation of your card to see what sizes are allowed.
566What keysize do you want for the Encryption key? (2048) 4096
567The card will now be re-configured to generate a key of 4096 bits
568What keysize do you want for the Authentication key? (2048) 4096
569The card will now be re-configured to generate a key of 4096 bits
570Please specify how long the key should be valid.
571 0 = key does not expire
572 <n> = key expires in n days
573 <n>w = key expires in n weeks
574 <n>m = key expires in n months
575 <n>y = key expires in n years
576Key is valid for? (0)
577Key does not expire at all
578Is this correct? (y/N) y
579
580GnuPG needs to construct a user ID to identify your key.
581
582Real name: John Doe
583Email address: john.doe@email.com
584Comment:
585You selected this USER-ID:
586 "John Doe <john.doe@email.com>"
587
588Change (N)ame, (C)omment, (E)mail or (O)kay/(Q)uit? o
589
590
591Using p11tool to get the token URL:
592
593Depending on system configuration, gpg-agent may need to be killed first.
594
595$ p11tool --provider /usr/lib/opensc-pkcs11.so --list-tokens
596Token 0:
597URL: pkcs11:model=PKCS%2315%20emulated;manufacturer=ZeitControl;serial=000xxxxxxxxx;token=OpenPGP%20card%20%28User%20PIN%20%28sig%29%29
598Label: OpenPGP card (User PIN (sig))
599Type: Hardware token
600Manufacturer: ZeitControl
601Model: PKCS#15 emulated
602Serial: 000xxxxxxxxx
603Module: (null)
604
605
606Token 1:
607URL: pkcs11:model=PKCS%2315%20emulated;manufacturer=ZeitControl;serial=000xxxxxxxxx;token=OpenPGP%20card%20%28User%20PIN%29
608Label: OpenPGP card (User PIN)
609Type: Hardware token
610Manufacturer: ZeitControl
611Model: PKCS#15 emulated
612Serial: 000xxxxxxxxx
613Module: (null)
614
615Use the portion of the signature token URL after "pkcs11:" as the keydir argument (-k) to mkimage below.
616
617
618Use the URL of the token to list the private keys:
619
620$ p11tool --login --provider /usr/lib/opensc-pkcs11.so --list-privkeys \
621"pkcs11:model=PKCS%2315%20emulated;manufacturer=ZeitControl;serial=000xxxxxxxxx;token=OpenPGP%20card%20%28User%20PIN%20%28sig%29%29"
622Token 'OpenPGP card (User PIN (sig))' with URL 'pkcs11:model=PKCS%2315%20emulated;manufacturer=ZeitControl;serial=000xxxxxxxxx;token=OpenPGP%20card%20%28User%20PIN%20%28sig%29%29' requires user PIN
623Enter PIN:
624Object 0:
625URL: pkcs11:model=PKCS%2315%20emulated;manufacturer=ZeitControl;serial=000xxxxxxxxx;token=OpenPGP%20card%20%28User%20PIN%20%28sig%29%29;id=%01;object=Signature%20key;type=private
626Type: Private key
627Label: Signature key
628Flags: CKA_PRIVATE; CKA_NEVER_EXTRACTABLE; CKA_SENSITIVE;
629ID: 01
630
631Use the label, in this case "Signature key" as the key-name-hint in your FIT.
632
633Create the fitImage:
634$ ./tools/mkimage -f fit-image.its fitImage
635
636
637Sign the fitImage with the hardware key:
638
639$ ./tools/mkimage -F -k \
640"model=PKCS%2315%20emulated;manufacturer=ZeitControl;serial=000xxxxxxxxx;token=OpenPGP%20card%20%28User%20PIN%20%28sig%29%29" \
641-K u-boot.dtb -N pkcs11 -r fitImage
642
643
Simon Glass58fe7e52013-06-13 15:10:00 -0700644Future Work
645-----------
646- Roll-back protection using a TPM is done using the tpm command. This can
647be scripted, but we might consider a default way of doing this, built into
648bootm.
649
650
651Possible Future Work
652--------------------
653- Add support for other RSA/SHA variants, such as rsa4096,sha512.
654- Other algorithms besides RSA
655- More sandbox tests for failure modes
656- Passwords for keys/certificates
657- Perhaps implement OAEP
658- Enhance bootm to permit scripted signature verification (so that a script
659can verify an image but not actually boot it)
660
661
662Simon Glass
663sjg@chromium.org
6641-1-13