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Tamas Banf6aed632022-10-13 16:42:48 +02001Runtime Security Subsystem (RSS)
2================================
3
4This document focuses on the relationship between the Runtime Security Subsystem
5(RSS) and the application processor (AP). According to the ARM reference design
6the RSS is an independent core next to the AP and the SCP on the same die. It
7provides fundamental security guarantees and runtime services for the rest of
8the system (e.g.: trusted boot, measured boot, platform attestation,
9key management, and key derivation).
10
11At power up RSS boots first from its private ROM code. It validates and loads
12its own images and the initial images of SCP and AP. When AP and SCP are
13released from reset and their initial code is loaded then they continue their
14own boot process, which is the same as on non-RSS systems. Please refer to the
15``RSS documentation`` [1]_ for more details about the RSS boot flow.
16
17The last stage of the RSS firmware is a persistent, runtime component. Much
18like AP_BL31, this is a passive entity which has no periodical task to do and
19just waits for external requests from other subsystems. RSS and other
20subsystems can communicate with each other over message exchange. RSS waits
21in idle for the incoming request, handles them, and sends a response then goes
22back to idle.
23
24RSS communication layer
25-----------------------
26
27The communication between RSS and other subsystems are primarily relying on the
28Message Handling Unit (MHU) module. The number of MHU interfaces between RSS
29and other cores is IMPDEF. Besides MHU other modules also could take part in
30the communication. RSS is capable of mapping the AP memory to its address space.
31Thereby either RSS core itself or a DMA engine if it is present, can move the
32data between memory belonging to RSS or AP. In this way, a bigger amount of data
33can be transferred in a short time.
34
35The MHU comes in pairs. There is a sender and receiver side. They are connected
36to each other. An MHU interface consists of two pairs of MHUs, one sender and
37one receiver on both sides. Bidirectional communication is possible over an
38interface. One pair provides message sending from AP to RSS and the other pair
39from RSS to AP. The sender and receiver are connected via channels. There is an
40IMPDEF number of channels (e.g: 4-16) between a sender and a receiver module.
41
42The RSS communication layer provides two ways for message exchange:
43
44- ``Embedded messaging``: The full message, including header and payload, are
45 exchanged over the MHU channels. A channel is capable of delivering a single
46 word. The sender writes the data to the channel register on its side and the
47 receiver can read the data from the channel on the other side. One dedicated
48 channel is used for signalling. It does not deliver any payload it is just
49 meant for signalling that the sender loaded the data to the channel registers
50 so the receiver can read them. The receiver uses the same channel to signal
51 that data was read. Signalling happens via IRQ. If the message is longer than
52 the data fit to the channel registers then the message is sent over in
53 multiple rounds. Both, sender and receiver allocate a local buffer for the
54 messages. Data is copied from/to these buffers to/from the channel registers.
55- ``Pointer-access messaging``: The message header and the payload are
56 separated and they are conveyed in different ways. The header is sent
57 over the channels, similar to the embedded messaging but the payload is
58 copied over by RSS core (or by DMA) between the sender and the receiver. This
59 could be useful in the case of long messages because transaction time is less
60 compared to the embedded messaging mode. Small payloads are copied by the RSS
61 core because setting up DMA would require more CPU cycles. The payload is
62 either copied into an internal buffer or directly read-written by RSS. Actual
63 behavior depends on RSS setup, whether the partition supports memory-mapped
64 ``iovec``. Therefore, the sender must handle both cases and prevent access to
65 the memory, where payload data lives, while the RSS handles the request.
66
67The RSS communication layer supports both ways of messaging in parallel. It is
68decided at runtime based on the message size which way to transfer the message.
69
70.. code-block:: bash
71
72 +----------------------------------------------+ +-------------------+
73 | | | |
74 | AP | | |
75 | | +--->| SRAM |
76 +----------------------------------------------| | | |
77 | BL1 / BL2 / BL31 | | | |
78 +----------------------------------------------+ | +-------------------+
79 | ^ | ^ ^
80 | send IRQ | receive |direct | |
81 V | |access | |
82 +--------------------+ +--------------------+ | | |
83 | MHU sender | | MHU receiver | | | Copy data |
84 +--------------------+ +--------------------+ | | |
85 | | | | | | | | | | |
86 | | channels | | | | channels | | | | |
87 | | e.g: 4-16 | | | | e.g: 4-16 | | | V |
88 +--------------------+ +--------------------+ | +-------+ |
89 | MHU receiver | | MHU sender | | +->| DMA | |
90 +--------------------+ +--------------------+ | | +-------+ |
91 | ^ | | ^ |
92 IRQ | receive | send | | | Copy data |
93 V | | | V V
94 +----------------------------------------------+ | | +-------------------+
95 | |--+-+ | |
96 | RSS | | SRAM |
97 | | | |
98 +----------------------------------------------+ +-------------------+
99
100.. Note::
101
102 The RSS communication layer is not prepared for concurrent execution. The
103 current use case only requires message exchange during the boot phase. In
104 the boot phase, only a single core is running and the rest of the cores are
105 in reset.
106
107Message structure
108^^^^^^^^^^^^^^^^^
109A description of the message format can be found in the ``RSS communication
110design`` [2]_ document.
111
112Source files
113^^^^^^^^^^^^
114- RSS comms: ``drivers/arm/rss``
115- MHU driver: ``drivers/arm/mhu``
116
117
118API for communication over MHU
119^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
120The API is defined in these header files:
121
122- ``include/drivers/arm/rss_comms.h``
123- ``include/drivers/arm/mhu.h``
124
125RSS provided runtime services
126-----------------------------
127
128RSS provides the following runtime services:
129
130- ``Measured boot``: Securely store the firmware measurements which were
131 computed during the boot process and the associated metadata (image
132 description, measurement algorithm, etc.). More info on measured boot service
133 in RSS can be found in the ``measured_boot_integration_guide`` [3]_ .
134- ``Delegated attestation``: Query the platform attestation token and derive a
135 delegated attestation key. More info on the delegated attestation service
136 in RSS can be found in the ``delegated_attestation_integration_guide`` [4]_ .
laurenw-armdae35882023-06-30 17:03:03 -0500137- ``OTP assets management``: Public keys used by AP during the trusted boot
138 process can be requested from RSS. Furthermore, AP can request RSS to
139 increase a non-volatile counter. Please refer to the
140 ``RSS key management`` [5]_ document for more details.
Tamas Banf6aed632022-10-13 16:42:48 +0200141
142Runtime service API
143^^^^^^^^^^^^^^^^^^^
144The RSS provided runtime services implement a PSA aligned API. The parameter
145encoding follows the PSA client protocol described in the
146``Firmware Framework for M`` [6]_ document in chapter 4.4. The implementation is
147restricted to the static handle use case therefore only the ``psa_call`` API is
148implemented.
149
150
151Software and API layers
152^^^^^^^^^^^^^^^^^^^^^^^
153
154.. code-block:: bash
155
156 +----------------+ +---------------------+
157 | BL1 / BL2 | | BL31 |
158 +----------------+ +---------------------+
159 | |
160 | extend_measurement() | get_delegated_key()
161 | | get_platform_token()
162 V V
163 +----------------+ +---------------------+
164 | PSA protocol | | PSA protocol |
165 +----------------+ +---------------------+
166 | |
167 | psa_call() | psa_call()
168 | |
169 V V
170 +------------------------------------------------+
171 | RSS communication protocol |
172 +------------------------------------------------+
173 | ^
174 | mhu_send_data() | mhu_receive_data()
175 | |
176 V |
177 +------------------------------------------------+
178 | MHU driver |
179 +------------------------------------------------+
180 | ^
181 | Register access | IRQ
182 V |
183 +------------------------------------------------+
184 | MHU HW on AP side |
185 +------------------------------------------------+
186 ^
187 | Physical wires
188 |
189 V
190 +------------------------------------------------+
191 | MHU HW on RSS side |
192 +------------------------------------------------+
193 | ^
194 | IRQ | Register access
195 V |
196 +------------------------------------------------+
197 | MHU driver |
198 +------------------------------------------------+
199 | |
200 V V
201 +---------------+ +------------------------+
202 | Measured boot | | Delegated attestation |
203 | service | | service |
204 +---------------+ +------------------------+
205
206
207RSS based Measured Boot
208-----------------------
209
210Measured Boot is the process of cryptographically measuring (computing the hash
211value of a binary) the code and critical data used at boot time. The
212measurement must be stored in a tamper-resistant way, so the security state
213of the device can be attested later to an external party. RSS provides a runtime
214service which is meant to store measurements and associated metadata alongside.
215
216Data is stored in internal SRAM which is only accessible by the secure runtime
217firmware of RSS. Data is stored in so-called measurement slots. A platform has
218IMPDEF number of measurement slots. The measurement storage follows extend
219semantics. This means that measurements are not stored directly (as it was
220taken) instead they contribute to the current value of the measurement slot.
221The extension implements this logic, where ``||`` stands for concatenation:
222
223.. code-block:: bash
224
225 new_value_of_measurement_slot = Hash(old_value_of_measurement_slot || measurement)
226
227Supported hash algorithms: sha-256, sha-512
228
229Measured Boot API
230^^^^^^^^^^^^^^^^^
231
232Defined here:
233
234- ``include/lib/psa/measured_boot.h``
235
236.. code-block:: c
237
238 psa_status_t
239 rss_measured_boot_extend_measurement(uint8_t index,
240 const uint8_t *signer_id,
241 size_t signer_id_size,
242 const uint8_t *version,
243 size_t version_size,
244 uint32_t measurement_algo,
245 const uint8_t *sw_type,
246 size_t sw_type_size,
247 const uint8_t *measurement_value,
248 size_t measurement_value_size,
249 bool lock_measurement);
250
251Measured Boot Metadata
252^^^^^^^^^^^^^^^^^^^^^^
253
254The following metadata can be stored alongside the measurement:
255
256- ``Signer-id``: Mandatory. The hash of the firmware image signing public key.
257- ``Measurement algorithm``: Optional. The hash algorithm which was used to
258 compute the measurement (e.g.: sha-256, etc.).
259- ``Version info``: Optional. The firmware version info (e.g.: 2.7).
260- ``SW type``: Optional. Short text description (e.g.: BL1, BL2, BL31, etc.)
261
262.. Note::
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100263 Version info is not implemented in TF-A yet.
264
Tamas Banf6aed632022-10-13 16:42:48 +0200265
266The caller must specify in which measurement slot to extend a certain
267measurement and metadata. A measurement slot can be extended by multiple
268measurements. The default value is IMPDEF. All measurement slot is cleared at
269reset, there is no other way to clear them. In the reference implementation,
270the measurement slots are initialized to 0. At the first call to extend the
271measurement in a slot, the extend operation uses the default value of the
272measurement slot. All upcoming extend operation on the same slot contributes
273to the previous value of that measurement slot.
274
275The following rules are kept when a slot is extended multiple times:
276
277- ``Signer-id`` must be the same as the previous call(s), otherwise a
278 PSA_ERROR_NOT_PERMITTED error code is returned.
279
280- ``Measurement algorithm``: must be the same as the previous call(s),
281 otherwise, a PSA_ERROR_NOT_PERMITTED error code is returned.
282
283In case of error no further action is taken (slot is not locked). If there is
284a valid data in a sub-sequent call then measurement slot will be extended. The
285rest of the metadata is handled as follows when a measurement slot is extended
286multiple times:
287
288- ``SW type``: Cleared.
289- ``Version info``: Cleared.
290
291.. Note::
292
293 Extending multiple measurements in the same slot leads to some metadata
294 information loss. Since RSS is not constrained on special HW resources to
295 store the measurements and metadata, therefore it is worth considering to
296 store all of them one by one in distinct slots. However, they are one-by-one
297 included in the platform attestation token. So, the number of distinct
298 firmware image measurements has an impact on the size of the attestation
299 token.
300
301The allocation of the measurement slot among RSS, Root and Realm worlds is
302platform dependent. The platform must provide an allocation of the measurement
303slot at build time. An example can be found in
304``tf-a/plat/arm/board/tc/tc_bl1_measured_boot.c``
305Furthermore, the memory, which holds the metadata is also statically allocated
306in RSS memory. Some of the fields have a static value (measurement algorithm),
307and some of the values have a dynamic value (measurement value) which is updated
308by the bootloaders when the firmware image is loaded and measured. The metadata
309structure is defined in
310``include/drivers/measured_boot/rss/rss_measured_boot.h``.
311
312.. code-block:: c
313
314 struct rss_mboot_metadata {
315 unsigned int id;
316 uint8_t slot;
317 uint8_t signer_id[SIGNER_ID_MAX_SIZE];
318 size_t signer_id_size;
319 uint8_t version[VERSION_MAX_SIZE];
320 size_t version_size;
321 uint8_t sw_type[SW_TYPE_MAX_SIZE];
322 size_t sw_type_size;
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100323 void *pk_oid;
Tamas Banf6aed632022-10-13 16:42:48 +0200324 bool lock_measurement;
325 };
326
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100327Signer-ID API
328^^^^^^^^^^^^^
329
330This function calculates the hash of a public key (signer-ID) using the
331``Measurement algorithm`` and stores it in the ``rss_mboot_metadata`` field
332named ``signer_id``.
333Prior to calling this function, the caller must ensure that the ``signer_id``
334field points to the zero-filled buffer.
335
336Defined here:
337
338- ``include/drivers/measured_boot/rss/rss_measured_boot.h``
339
340.. code-block:: c
341
342 int rss_mboot_set_signer_id(struct rss_mboot_metadata *metadata_ptr,
343 const void *pk_oid,
344 const void *pk_ptr,
345 size_t pk_len)
346
347
348- First parameter is the pointer to the ``rss_mboot_metadata`` structure.
349- Second parameter is the pointer to the key-OID of the public key.
350- Third parameter is the pointer to the public key buffer.
351- Fourth parameter is the size of public key buffer.
352- This function returns 0 on success, a signed integer error code
353 otherwise.
354
Tamas Banf6aed632022-10-13 16:42:48 +0200355Build time config options
356^^^^^^^^^^^^^^^^^^^^^^^^^
357
358- ``MEASURED_BOOT``: Enable measured boot. It depends on the platform
359 implementation whether RSS or TPM (or both) backend based measured boot is
360 enabled.
361- ``MBOOT_RSS_HASH_ALG``: Determine the hash algorithm to measure the images.
362 The default value is sha-256.
363
364Measured boot flow
365^^^^^^^^^^^^^^^^^^
366
367.. figure:: ../resources/diagrams/rss_measured_boot_flow.svg
368 :align: center
369
370Sample console log
371^^^^^^^^^^^^^^^^^^
372
373.. code-block:: bash
374
375 INFO: Measured boot extend measurement:
376 INFO: - slot : 6
377 INFO: - signer_id : 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
378 INFO: : 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
379 INFO: - version :
380 INFO: - version_size: 0
381 INFO: - sw_type : FW_CONFIG
382 INFO: - sw_type_size: 10
383 INFO: - algorithm : 2000009
384 INFO: - measurement : aa ea d3 a7 a8 e2 ab 7d 13 a6 cb 34 99 10 b9 a1
385 INFO: : 1b 9f a0 52 c5 a8 b1 d7 76 f2 c1 c1 ef ca 1a df
386 INFO: - locking : true
387 INFO: FCONF: Config file with image ID:31 loaded at address = 0x4001010
388 INFO: Loading image id=24 at address 0x4001300
389 INFO: Image id=24 loaded: 0x4001300 - 0x400153a
390 INFO: Measured boot extend measurement:
391 INFO: - slot : 7
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100392 INFO: - signer_id : b0 f3 82 09 12 97 d8 3a 37 7a 72 47 1b ec 32 73
393 INFO: : e9 92 32 e2 49 59 f6 5e 8b 4a 4a 46 d8 22 9a da
Tamas Banf6aed632022-10-13 16:42:48 +0200394 INFO: - version :
395 INFO: - version_size: 0
396 INFO: - sw_type : TB_FW_CONFIG
397 INFO: - sw_type_size: 13
398 INFO: - algorithm : 2000009
399 INFO: - measurement : 05 b9 dc 98 62 26 a7 1c 2d e5 bb af f0 90 52 28
400 INFO: : f2 24 15 8a 3a 56 60 95 d6 51 3a 7a 1a 50 9b b7
401 INFO: - locking : true
402 INFO: FCONF: Config file with image ID:24 loaded at address = 0x4001300
403 INFO: BL1: Loading BL2
404 INFO: Loading image id=1 at address 0x404d000
405 INFO: Image id=1 loaded: 0x404d000 - 0x406412a
406 INFO: Measured boot extend measurement:
407 INFO: - slot : 8
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100408 INFO: - signer_id : b0 f3 82 09 12 97 d8 3a 37 7a 72 47 1b ec 32 73
409 INFO: : e9 92 32 e2 49 59 f6 5e 8b 4a 4a 46 d8 22 9a da
Tamas Banf6aed632022-10-13 16:42:48 +0200410 INFO: - version :
411 INFO: - version_size: 0
412 INFO: - sw_type : BL_2
413 INFO: - sw_type_size: 5
414 INFO: - algorithm : 2000009
415 INFO: - measurement : 53 a1 51 75 25 90 fb a1 d9 b8 c8 34 32 3a 01 16
416 INFO: : c9 9e 74 91 7d 28 02 56 3f 5c 40 94 37 58 50 68
417 INFO: - locking : true
418
419Delegated Attestation
420---------------------
421
422Delegated Attestation Service was mainly developed to support the attestation
423flow on the ``ARM Confidential Compute Architecture`` (ARM CCA) [7]_.
424The detailed description of the delegated attestation service can be found in
425the ``Delegated Attestation Service Integration Guide`` [4]_ document.
426
427In the CCA use case, the Realm Management Monitor (RMM) relies on the delegated
428attestation service of the RSS to get a realm attestation key and the CCA
429platform token. BL31 does not use the service for its own purpose, only calls
430it on behalf of RMM. The access to MHU interface and thereby to RSS is
431restricted to BL31 only. Therefore, RMM does not have direct access, all calls
432need to go through BL31. The RMM dispatcher module of the BL31 is responsible
433for delivering the calls between the two parties.
434
435.. Note::
436 Currently the connection between the RMM dispatcher and the PSA/RSS layer
437 is not yet implemented. RMM dispatcher just returns hard coded data.
438
439Delegated Attestation API
440^^^^^^^^^^^^^^^^^^^^^^^^^
441Defined here:
442
443- ``include/lib/psa/delegated_attestation.h``
444
445.. code-block:: c
446
447 psa_status_t
448 rss_delegated_attest_get_delegated_key(uint8_t ecc_curve,
449 uint32_t key_bits,
450 uint8_t *key_buf,
451 size_t key_buf_size,
452 size_t *key_size,
453 uint32_t hash_algo);
454
455 psa_status_t
456 rss_delegated_attest_get_token(const uint8_t *dak_pub_hash,
457 size_t dak_pub_hash_size,
458 uint8_t *token_buf,
459 size_t token_buf_size,
460 size_t *token_size);
461
462Attestation flow
463^^^^^^^^^^^^^^^^
464
465.. figure:: ../resources/diagrams/rss_attestation_flow.svg
466 :align: center
467
468Sample attestation token
469^^^^^^^^^^^^^^^^^^^^^^^^
470
471Binary format:
472
473.. code-block:: bash
474
475 INFO: DELEGATED ATTEST TEST START
476 INFO: Get delegated attestation key start
477 INFO: Get delegated attest key succeeds, len: 48
478 INFO: Delegated attest key:
479 INFO: 0d 2a 66 61 d4 89 17 e1 70 c6 73 56 df f4 11 fd
480 INFO: 7d 1f 3b 8a a3 30 3d 70 4c d9 06 c3 c7 ef 29 43
481 INFO: 0f ee b5 e7 56 e0 71 74 1b c4 39 39 fd 85 f6 7b
482 INFO: Get platform token start
483 INFO: Get platform token succeeds, len: 1086
484 INFO: Platform attestation token:
485 INFO: d2 84 44 a1 01 38 22 a0 59 03 d1 a9 0a 58 20 00
486 INFO: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
487 INFO: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 19
488 INFO: 01 00 58 21 01 cb 8c 79 f7 a0 0a 6c ce 12 66 f8
489 INFO: 64 45 48 42 0e c5 10 bf 84 ee 22 18 b9 8f 11 04
490 INFO: c7 22 31 9d fb 19 09 5c 58 20 aa aa aa aa aa aa
491 INFO: aa aa bb bb bb bb bb bb bb bb cc cc cc cc cc cc
492 INFO: cc cc dd dd dd dd dd dd dd dd 19 09 5b 19 30 00
493 INFO: 19 09 5f 89 a4 05 58 20 bf e6 d8 6f 88 26 f4 ff
494 INFO: 97 fb 96 c4 e6 fb c4 99 3e 46 19 fc 56 5d a2 6a
495 INFO: df 34 c3 29 48 9a dc 38 04 67 31 2e 36 2e 30 2b
496 INFO: 30 01 64 52 54 5f 30 02 58 20 90 27 f2 46 ab 31
497 INFO: 85 36 46 c4 d7 c6 60 ed 31 0d 3c f0 14 de f0 6c
498 INFO: 24 0b de b6 7a 84 fc 3f 5b b7 a4 05 58 20 b3 60
499 INFO: ca f5 c9 8c 6b 94 2a 48 82 fa 9d 48 23 ef b1 66
500 INFO: a9 ef 6a 6e 4a a3 7c 19 19 ed 1f cc c0 49 04 67
501 INFO: 30 2e 30 2e 30 2b 30 01 64 52 54 5f 31 02 58 20
502 INFO: 52 13 15 d4 9d b2 cf 54 e4 99 37 44 40 68 f0 70
503 INFO: 7d 73 64 ae f7 08 14 b0 f7 82 ad c6 17 db a3 91
504 INFO: a4 05 58 20 bf e6 d8 6f 88 26 f4 ff 97 fb 96 c4
505 INFO: e6 fb c4 99 3e 46 19 fc 56 5d a2 6a df 34 c3 29
506 INFO: 48 9a dc 38 04 67 31 2e 35 2e 30 2b 30 01 64 52
507 INFO: 54 5f 32 02 58 20 8e 5d 64 7e 6f 6c c6 6f d4 4f
508 INFO: 54 b6 06 e5 47 9a cc 1b f3 7f ce 87 38 49 c5 92
509 INFO: d8 2f 85 2e 85 42 a4 05 58 20 bf e6 d8 6f 88 26
510 INFO: f4 ff 97 fb 96 c4 e6 fb c4 99 3e 46 19 fc 56 5d
511 INFO: a2 6a df 34 c3 29 48 9a dc 38 04 67 31 2e 35 2e
512 INFO: 30 2b 30 01 60 02 58 20 b8 01 65 a7 78 8b c6 59
513 INFO: 42 8d 33 10 85 d1 49 0a dc 9e c3 ee df 85 1b d2
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100514 INFO: f0 73 73 6a 0c 07 11 b8 a4 05 58 20 b0 f3 82 09
515 INFO: 12 97 d8 3a 37 7a 72 47 1b ec 32 73 e9 92 32 e2
516 INFO: 49 59 f6 5e 8b 4a 4a 46 d8 22 9a da 04 60 01 6a
Tamas Banf6aed632022-10-13 16:42:48 +0200517 INFO: 46 57 5f 43 4f 4e 46 49 47 00 02 58 20 21 9e a0
518 INFO: 13 82 e6 d7 97 5a 11 13 a3 5f 45 39 68 b1 d9 a3
519 INFO: ea 6a ab 84 23 3b 8c 06 16 98 20 ba b9 a4 05 58
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100520 INFO: 20 b0 f3 82 09 12 97 d8 3a 37 7a 72 47 1b ec 32
521 INFO: 73 e9 92 32 e2 49 59 f6 5e 8b 4a 4a 46 d8 22 9a
522 INFO: da 04 60 01 6d 54 42 5f 46 57 5f 43 4f 4e 46 49
Tamas Banf6aed632022-10-13 16:42:48 +0200523 INFO: 47 00 02 58 20 41 39 f6 c2 10 84 53 c5 17 ae 9a
524 INFO: e5 be c1 20 7b cc 24 24 f3 9d 20 a8 fb c7 b3 10
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100525 INFO: e3 ee af 1b 05 a4 05 58 20 b0 f3 82 09 12 97 d8
526 INFO: 3a 37 7a 72 47 1b ec 32 73 e9 92 32 e2 49 59 f6
527 INFO: 5e 8b 4a 4a 46 d8 22 9a da 04 60 01 65 42 4c 5f
Tamas Banf6aed632022-10-13 16:42:48 +0200528 INFO: 32 00 02 58 20 5c 96 20 e1 e3 3b 0f 2c eb c1 8e
529 INFO: 1a 02 a6 65 86 dd 34 97 a7 4c 98 13 bf 74 14 45
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100530 INFO: 2d 30 28 05 c3 a4 05 58 20 b0 f3 82 09 12 97 d8
531 INFO: 3a 37 7a 72 47 1b ec 32 73 e9 92 32 e2 49 59 f6
532 INFO: 5e 8b 4a 4a 46 d8 22 9a da 04 60 01 6e 53 45 43
Tamas Banf6aed632022-10-13 16:42:48 +0200533 INFO: 55 52 45 5f 52 54 5f 45 4c 33 00 02 58 20 f6 fb
534 INFO: 62 99 a5 0c df db 02 0b 72 5b 1c 0b 63 6e 94 ee
535 INFO: 66 50 56 3a 29 9c cb 38 f0 ec 59 99 d4 2e a4 05
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100536 INFO: 58 20 b0 f3 82 09 12 97 d8 3a 37 7a 72 47 1b ec
537 INFO: 32 73 e9 92 32 e2 49 59 f6 5e 8b 4a 4a 46 d8 22
538 INFO: 9a da 04 60 01 6a 48 57 5f 43 4f 4e 46 49 47 00
Tamas Banf6aed632022-10-13 16:42:48 +0200539 INFO: 02 58 20 98 5d 87 21 84 06 33 9d c3 1f 91 f5 68
540 INFO: 8d a0 5a f0 d7 7e 20 51 ce 3b f2 a5 c3 05 2e 3c
541 INFO: 8b 52 31 19 01 09 78 1c 68 74 74 70 3a 2f 2f 61
542 INFO: 72 6d 2e 63 6f 6d 2f 43 43 41 2d 53 53 44 2f 31
543 INFO: 2e 30 2e 30 19 09 62 71 6e 6f 74 2d 68 61 73 68
544 INFO: 2d 65 78 74 65 6e 64 65 64 19 09 61 44 ef be ad
545 INFO: de 19 09 60 77 77 77 77 2e 74 72 75 73 74 65 64
546 INFO: 66 69 72 6d 77 61 72 65 2e 6f 72 67 58 60 29 4e
547 INFO: 4a d3 98 1e 3b 70 9f b6 66 ed 47 33 0e 99 f0 b1
548 INFO: c3 f2 bc b2 1d b0 ae 90 0c c4 82 ff a2 6f ae 45
549 INFO: f6 87 09 4a 09 21 77 ec 36 1c 53 b8 a7 9b 8e f7
550 INFO: 27 eb 7a 09 da 6f fb bf cb fd b3 e5 e9 36 91 b1
551 INFO: 92 13 c1 30 16 b4 5c 49 5e c0 c1 b9 01 5c 88 2c
552 INFO: f8 2f 3e a4 a2 6d e4 9d 31 6a 06 f7 a7 73
553 INFO: DELEGATED ATTEST TEST END
554
555JSON format:
556
557.. code-block:: JSON
558
559 {
560 "CCA_PLATFORM_CHALLENGE": "b'0000000000000000000000000000000000000000000000000000000000000000'",
561 "CCA_PLATFORM_INSTANCE_ID": "b'01CB8C79F7A00A6CCE1266F8644548420EC510BF84EE2218B98F1104C722319DFB'",
562 "CCA_PLATFORM_IMPLEMENTATION_ID": "b'AAAAAAAAAAAAAAAABBBBBBBBBBBBBBBBCCCCCCCCCCCCCCCCDDDDDDDDDDDDDDDD'",
563 "CCA_PLATFORM_LIFECYCLE": "secured_3000",
564 "CCA_PLATFORM_SW_COMPONENTS": [
565 {
566 "SIGNER_ID": "b'BFE6D86F8826F4FF97FB96C4E6FBC4993E4619FC565DA26ADF34C329489ADC38'",
567 "SW_COMPONENT_VERSION": "1.6.0+0",
568 "SW_COMPONENT_TYPE": "RT_0",
569 "MEASUREMENT_VALUE": "b'9027F246AB31853646C4D7C660ED310D3CF014DEF06C240BDEB67A84FC3F5BB7'"
570 },
571 {
572 "SIGNER_ID": "b'B360CAF5C98C6B942A4882FA9D4823EFB166A9EF6A6E4AA37C1919ED1FCCC049'",
573 "SW_COMPONENT_VERSION": "0.0.0+0",
574 "SW_COMPONENT_TYPE": "RT_1",
575 "MEASUREMENT_VALUE": "b'521315D49DB2CF54E49937444068F0707D7364AEF70814B0F782ADC617DBA391'"
576 },
577 {
578 "SIGNER_ID": "b'BFE6D86F8826F4FF97FB96C4E6FBC4993E4619FC565DA26ADF34C329489ADC38'",
579 "SW_COMPONENT_VERSION": "1.5.0+0",
580 "SW_COMPONENT_TYPE": "RT_2",
581 "MEASUREMENT_VALUE": "b'8E5D647E6F6CC66FD44F54B606E5479ACC1BF37FCE873849C592D82F852E8542'"
582 },
583 {
584 "SIGNER_ID": "b'BFE6D86F8826F4FF97FB96C4E6FBC4993E4619FC565DA26ADF34C329489ADC38'",
585 "SW_COMPONENT_VERSION": "1.5.0+0",
586 "SW_COMPONENT_TYPE": "",
587 "MEASUREMENT_VALUE": "b'B80165A7788BC659428D331085D1490ADC9EC3EEDF851BD2F073736A0C0711B8'"
588 },
589 {
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100590 "SIGNER_ID": "b'b0f382091297d83a377a72471bec3273e99232e24959f65e8b4a4a46d8229ada'",
Tamas Banf6aed632022-10-13 16:42:48 +0200591 "SW_COMPONENT_VERSION": "",
592 "SW_COMPONENT_TYPE": "FW_CONFIG\u0000",
593 "MEASUREMENT_VALUE": "b'219EA01382E6D7975A1113A35F453968B1D9A3EA6AAB84233B8C06169820BAB9'"
594 },
595 {
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100596 "SIGNER_ID": "b'b0f382091297d83a377a72471bec3273e99232e24959f65e8b4a4a46d8229ada'",
Tamas Banf6aed632022-10-13 16:42:48 +0200597 "SW_COMPONENT_VERSION": "",
598 "SW_COMPONENT_TYPE": "TB_FW_CONFIG\u0000",
599 "MEASUREMENT_VALUE": "b'4139F6C2108453C517AE9AE5BEC1207BCC2424F39D20A8FBC7B310E3EEAF1B05'"
600 },
601 {
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100602 "SIGNER_ID": "b'b0f382091297d83a377a72471bec3273e99232e24959f65e8b4a4a46d8229ada'",
Tamas Banf6aed632022-10-13 16:42:48 +0200603 "SW_COMPONENT_VERSION": "",
604 "SW_COMPONENT_TYPE": "BL_2\u0000",
605 "MEASUREMENT_VALUE": "b'5C9620E1E33B0F2CEBC18E1A02A66586DD3497A74C9813BF7414452D302805C3'"
606 },
607 {
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100608 "SIGNER_ID": "b'b0f382091297d83a377a72471bec3273e99232e24959f65e8b4a4a46d8229ada'",
Tamas Banf6aed632022-10-13 16:42:48 +0200609 "SW_COMPONENT_VERSION": "",
610 "SW_COMPONENT_TYPE": "SECURE_RT_EL3\u0000",
611 "MEASUREMENT_VALUE": "b'F6FB6299A50CDFDB020B725B1C0B636E94EE6650563A299CCB38F0EC5999D42E'"
612 },
613 {
Manish V Badarkhe506cdcf2023-07-17 09:56:13 +0100614 "SIGNER_ID": "b'b0f382091297d83a377a72471bec3273e99232e24959f65e8b4a4a46d8229ada'",
Tamas Banf6aed632022-10-13 16:42:48 +0200615 "SW_COMPONENT_VERSION": "",
616 "SW_COMPONENT_TYPE": "HW_CONFIG\u0000",
617 "MEASUREMENT_VALUE": "b'985D87218406339DC31F91F5688DA05AF0D77E2051CE3BF2A5C3052E3C8B5231'"
618 }
619 ],
620 "CCA_ATTESTATION_PROFILE": "http://arm.com/CCA-SSD/1.0.0",
621 "CCA_PLATFORM_HASH_ALGO_ID": "not-hash-extended",
622 "CCA_PLATFORM_CONFIG": "b'EFBEADDE'",
623 "CCA_PLATFORM_VERIFICATION_SERVICE": "www.trustedfirmware.org"
624 }
625
laurenw-armdae35882023-06-30 17:03:03 -0500626RSS OTP Assets Management
627-------------------------
628
629RSS provides access for AP to assets in OTP, which include keys for image
630signature verification and non-volatile counters for anti-rollback protection.
631
632Non-Volatile Counter API
633^^^^^^^^^^^^^^^^^^^^^^^^
634
635AP/RSS interface for retrieving and incrementing non-volatile counters API is
636as follows.
637
638Defined here:
639
640- ``include/lib/psa/rss_platform_api.h``
641
642.. code-block:: c
643
644 psa_status_t rss_platform_nv_counter_increment(uint32_t counter_id)
645
646 psa_status_t rss_platform_nv_counter_read(uint32_t counter_id,
647 uint32_t size, uint8_t *val)
648
649Through this service, we can read/increment any of the 3 non-volatile
650counters used on an Arm CCA platform:
651
652- ``Non-volatile counter for CCA firmware (BL2, BL31, RMM).``
653- ``Non-volatile counter for secure firmware.``
654- ``Non-volatile counter for non-secure firmware.``
655
656Public Key API
657^^^^^^^^^^^^^^
658
659AP/RSS interface for reading the ROTPK is as follows.
660
661Defined here:
662
663- ``include/lib/psa/rss_platform_api.h``
664
665.. code-block:: c
666
667 psa_status_t rss_platform_key_read(enum rss_key_id_builtin_t key,
668 uint8_t *data, size_t data_size, size_t *data_length)
669
670Through this service, we can read any of the 3 ROTPKs used on an
671Arm CCA platform:
672
673- ``ROTPK for CCA firmware (BL2, BL31, RMM).``
674- ``ROTPK for secure firmware.``
675- ``ROTPK for non-secure firmware.``
676
Tamas Banf6aed632022-10-13 16:42:48 +0200677References
678----------
679
680.. [1] https://tf-m-user-guide.trustedfirmware.org/platform/arm/rss/readme.html
681.. [2] https://tf-m-user-guide.trustedfirmware.org/platform/arm/rss/rss_comms.html
682.. [3] https://git.trustedfirmware.org/TF-M/tf-m-extras.git/tree/partitions/measured_boot/measured_boot_integration_guide.rst
683.. [4] https://git.trustedfirmware.org/TF-M/tf-m-extras.git/tree/partitions/delegated_attestation/delegated_attest_integration_guide.rst
684.. [5] https://tf-m-user-guide.trustedfirmware.org/platform/arm/rss/rss_key_management.html
685.. [6] https://developer.arm.com/-/media/Files/pdf/PlatformSecurityArchitecture/Architect/DEN0063-PSA_Firmware_Framework-1.0.0-2.pdf?revision=2d1429fa-4b5b-461a-a60e-4ef3d8f7f4b4&hash=3BFD6F3E687F324672F18E5BE9F08EDC48087C93
686.. [7] https://developer.arm.com/documentation/DEN0096/A_a/?lang=en
687
688--------------
689
690*Copyright (c) 2023, Arm Limited. All rights reserved.*