1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
|
/* SPDX-License-Identifier: LGPL-2.1-or-later */
#pragma once
#include <stdbool.h>
#include "bitfield.h"
#include "io-util.h"
#include "json.h"
#include "macro.h"
#include "openssl-util.h"
#include "ordered-set.h"
#include "sha256.h"
#include "tpm2-pcr.h"
typedef enum TPM2Flags {
TPM2_FLAGS_USE_PIN = 1 << 0,
TPM2_FLAGS_USE_PCRLOCK = 1 << 1,
} TPM2Flags;
/* As per https://trustedcomputinggroup.org/wp-content/uploads/TCG_PCClient_PFP_r1p05_v23_pub.pdf a
* TPM2 on a Client PC must have at least 24 PCRs. This hardcodes our expectation of 24. */
#define TPM2_PCRS_MAX 24U
#define TPM2_PCRS_MASK ((UINT32_C(1) << TPM2_PCRS_MAX) - 1)
/* The SRK handle is defined in the Provisioning Guidance document (see above) in the table "Reserved Handles
* for TPM Provisioning Fundamental Elements". The SRK is useful because it is "shared", meaning it has no
* authValue nor authPolicy set, and thus may be used by anyone on the system to generate derived keys or
* seal secrets. This is useful if the TPM has an auth (password) set for the 'owner hierarchy', which would
* prevent users from generating primary transient keys, unless they knew the owner hierarchy auth. See
* the Provisioning Guidance document for more details. */
#define TPM2_SRK_HANDLE UINT32_C(0x81000001)
/* The TPM specification limits sealed data to MAX_SYM_DATA. Unfortunately, tpm2-tss incorrectly
* defines this value as 256; the TPM specification Part 2 ("Structures") section
* "TPMU_SENSITIVE_CREATE" states "For interoperability, MAX_SYM_DATA should be 128." */
#define TPM2_MAX_SEALED_DATA UINT16_C(128)
static inline bool TPM2_PCR_INDEX_VALID(unsigned pcr) {
return pcr < TPM2_PCRS_MAX;
}
static inline bool TPM2_PCR_MASK_VALID(uint32_t pcr_mask) {
return pcr_mask <= TPM2_PCRS_MASK;
}
#define FOREACH_PCR_IN_MASK(pcr, mask) BIT_FOREACH(pcr, mask)
#define TPM2_N_HASH_ALGORITHMS 4U
#if HAVE_TPM2
#include <tss2/tss2_esys.h>
#include <tss2/tss2_mu.h>
#include <tss2/tss2_rc.h>
int dlopen_tpm2(void);
typedef struct {
unsigned n_ref;
void *tcti_dl;
TSS2_TCTI_CONTEXT *tcti_context;
ESYS_CONTEXT *esys_context;
/* Some selected cached capabilities of the TPM */
TPMS_ALG_PROPERTY *capability_algorithms;
size_t n_capability_algorithms;
TPMA_CC *capability_commands;
size_t n_capability_commands;
TPM2_ECC_CURVE *capability_ecc_curves;
size_t n_capability_ecc_curves;
TPML_PCR_SELECTION capability_pcrs;
} Tpm2Context;
int tpm2_context_new(const char *device, Tpm2Context **ret_context);
Tpm2Context *tpm2_context_ref(Tpm2Context *context);
Tpm2Context *tpm2_context_unref(Tpm2Context *context);
DEFINE_TRIVIAL_CLEANUP_FUNC(Tpm2Context*, tpm2_context_unref);
typedef struct {
Tpm2Context *tpm2_context;
ESYS_TR esys_handle;
bool flush;
} Tpm2Handle;
#define _tpm2_handle(c, h) { .tpm2_context = (c), .esys_handle = (h), }
static const Tpm2Handle TPM2_HANDLE_NONE = _tpm2_handle(NULL, ESYS_TR_NONE);
void Esys_Freep(void *p);
int tpm2_handle_new(Tpm2Context *context, Tpm2Handle **ret_handle);
Tpm2Handle *tpm2_handle_free(Tpm2Handle *handle);
DEFINE_TRIVIAL_CLEANUP_FUNC(Tpm2Handle*, tpm2_handle_free);
typedef struct {
unsigned index;
TPMI_ALG_HASH hash;
TPM2B_DIGEST value;
} Tpm2PCRValue;
#define TPM2_PCR_VALUE_MAKE(i, h, v) \
(Tpm2PCRValue) { \
.index = (i), \
.hash = (h), \
.value = ((TPM2B_DIGEST) v), \
}
bool tpm2_pcr_value_valid(const Tpm2PCRValue *pcr_value);
bool tpm2_pcr_values_has_any_values(const Tpm2PCRValue *pcr_values, size_t n_pcr_values);
bool tpm2_pcr_values_has_all_values(const Tpm2PCRValue *pcr_values, size_t n_pcr_values);
int tpm2_pcr_value_from_string(const char *arg, Tpm2PCRValue *ret_pcr_value);
char *tpm2_pcr_value_to_string(const Tpm2PCRValue *pcr_value);
bool tpm2_pcr_values_valid(const Tpm2PCRValue *pcr_values, size_t n_pcr_values);
void tpm2_sort_pcr_values(Tpm2PCRValue *pcr_values, size_t n_pcr_values);
int tpm2_pcr_values_from_mask(uint32_t mask, TPMI_ALG_HASH hash, Tpm2PCRValue **ret_pcr_values, size_t *ret_n_pcr_values);
int tpm2_pcr_values_to_mask(const Tpm2PCRValue *pcr_values, size_t n_pcr_values, TPMI_ALG_HASH hash, uint32_t *ret_mask);
int tpm2_pcr_values_from_string(const char *arg, Tpm2PCRValue **ret_pcr_values, size_t *ret_n_pcr_values);
char *tpm2_pcr_values_to_string(const Tpm2PCRValue *pcr_values, size_t n_pcr_values);
int tpm2_pcr_values_hash_count(const Tpm2PCRValue *pcr_values, size_t n_pcr_values, size_t *ret_count);
int tpm2_tpml_pcr_selection_from_pcr_values(const Tpm2PCRValue *pcr_values, size_t n_pcr_values, TPML_PCR_SELECTION *ret_selection, TPM2B_DIGEST **ret_values, size_t *ret_n_values);
int tpm2_make_encryption_session(Tpm2Context *c, const Tpm2Handle *primary, const Tpm2Handle *bind_key, Tpm2Handle **ret_session);
int tpm2_create_primary(Tpm2Context *c, const Tpm2Handle *session, const TPM2B_PUBLIC *template, const TPM2B_SENSITIVE_CREATE *sensitive, TPM2B_PUBLIC **ret_public, Tpm2Handle **ret_handle);
int tpm2_create(Tpm2Context *c, const Tpm2Handle *parent, const Tpm2Handle *session, const TPMT_PUBLIC *template, const TPMS_SENSITIVE_CREATE *sensitive, TPM2B_PUBLIC **ret_public, TPM2B_PRIVATE **ret_private);
int tpm2_create_loaded(Tpm2Context *c, const Tpm2Handle *parent, const Tpm2Handle *session, const TPMT_PUBLIC *template, const TPMS_SENSITIVE_CREATE *sensitive, TPM2B_PUBLIC **ret_public, TPM2B_PRIVATE **ret_private, Tpm2Handle **ret_handle);
int tpm2_load(Tpm2Context *c, const Tpm2Handle *parent, const Tpm2Handle *session, const TPM2B_PUBLIC *public, const TPM2B_PRIVATE *private, Tpm2Handle **ret_handle);
int tpm2_marshal_public(const TPM2B_PUBLIC *public, void **ret, size_t *ret_size);
int tpm2_marshal_nv_public(const TPM2B_NV_PUBLIC *nv_public, void **ret, size_t *ret_size);
int tpm2_unmarshal_nv_public(const void *data, size_t size, TPM2B_NV_PUBLIC *ret_nv_public);
int tpm2_marshal_blob(const TPM2B_PUBLIC *public, const TPM2B_PRIVATE *private, const TPM2B_ENCRYPTED_SECRET *seed, void **ret_blob, size_t *ret_blob_size);
int tpm2_unmarshal_blob(const void *blob, size_t blob_size, TPM2B_PUBLIC *ret_public, TPM2B_PRIVATE *ret_private, TPM2B_ENCRYPTED_SECRET *ret_seed);
int tpm2_get_name(Tpm2Context *c, const Tpm2Handle *handle, TPM2B_NAME **ret_name);
bool tpm2_supports_alg(Tpm2Context *c, TPM2_ALG_ID alg);
bool tpm2_supports_command(Tpm2Context *c, TPM2_CC command);
bool tpm2_supports_ecc_curve(Tpm2Context *c, TPM2_ECC_CURVE ecc_curve);
bool tpm2_test_parms(Tpm2Context *c, TPMI_ALG_PUBLIC alg, const TPMU_PUBLIC_PARMS *parms);
int tpm2_get_good_pcr_banks(Tpm2Context *c, uint32_t pcr_mask, TPMI_ALG_HASH **ret_banks);
int tpm2_get_good_pcr_banks_strv(Tpm2Context *c, uint32_t pcr_mask, char ***ret);
int tpm2_get_best_pcr_bank(Tpm2Context *c, uint32_t pcr_mask, TPMI_ALG_HASH *ret);
const char *tpm2_userspace_log_path(void);
const char *tpm2_firmware_log_path(void);
typedef enum Tpm2UserspaceEventType {
TPM2_EVENT_PHASE,
TPM2_EVENT_FILESYSTEM,
TPM2_EVENT_VOLUME_KEY,
TPM2_EVENT_MACHINE_ID,
_TPM2_USERSPACE_EVENT_TYPE_MAX,
_TPM2_USERSPACE_EVENT_TYPE_INVALID = -EINVAL,
} Tpm2UserspaceEventType;
const char* tpm2_userspace_event_type_to_string(Tpm2UserspaceEventType type) _const_;
Tpm2UserspaceEventType tpm2_userspace_event_type_from_string(const char *s) _pure_;
int tpm2_extend_bytes(Tpm2Context *c, char **banks, unsigned pcr_index, const void *data, size_t data_size, const void *secret, size_t secret_size, Tpm2UserspaceEventType event, const char *description);
uint32_t tpm2_tpms_pcr_selection_to_mask(const TPMS_PCR_SELECTION *s);
void tpm2_tpms_pcr_selection_from_mask(uint32_t mask, TPMI_ALG_HASH hash, TPMS_PCR_SELECTION *ret);
bool tpm2_tpms_pcr_selection_has_mask(const TPMS_PCR_SELECTION *s, uint32_t mask);
void tpm2_tpms_pcr_selection_add_mask(TPMS_PCR_SELECTION *s, uint32_t mask);
void tpm2_tpms_pcr_selection_sub_mask(TPMS_PCR_SELECTION *s, uint32_t mask);
void tpm2_tpms_pcr_selection_add(TPMS_PCR_SELECTION *a, const TPMS_PCR_SELECTION *b);
void tpm2_tpms_pcr_selection_sub(TPMS_PCR_SELECTION *a, const TPMS_PCR_SELECTION *b);
void tpm2_tpms_pcr_selection_move(TPMS_PCR_SELECTION *a, TPMS_PCR_SELECTION *b);
char *tpm2_tpms_pcr_selection_to_string(const TPMS_PCR_SELECTION *s);
size_t tpm2_tpms_pcr_selection_weight(const TPMS_PCR_SELECTION *s);
#define tpm2_tpms_pcr_selection_is_empty(s) (tpm2_tpms_pcr_selection_weight(s) == 0)
uint32_t tpm2_tpml_pcr_selection_to_mask(const TPML_PCR_SELECTION *l, TPMI_ALG_HASH hash);
void tpm2_tpml_pcr_selection_from_mask(uint32_t mask, TPMI_ALG_HASH hash, TPML_PCR_SELECTION *ret);
bool tpm2_tpml_pcr_selection_has_mask(const TPML_PCR_SELECTION *l, TPMI_ALG_HASH hash, uint32_t mask);
void tpm2_tpml_pcr_selection_add_mask(TPML_PCR_SELECTION *l, TPMI_ALG_HASH hash, uint32_t mask);
void tpm2_tpml_pcr_selection_sub_mask(TPML_PCR_SELECTION *l, TPMI_ALG_HASH hash, uint32_t mask);
void tpm2_tpml_pcr_selection_add_tpms_pcr_selection(TPML_PCR_SELECTION *l, const TPMS_PCR_SELECTION *s);
void tpm2_tpml_pcr_selection_sub_tpms_pcr_selection(TPML_PCR_SELECTION *l, const TPMS_PCR_SELECTION *s);
void tpm2_tpml_pcr_selection_add(TPML_PCR_SELECTION *a, const TPML_PCR_SELECTION *b);
void tpm2_tpml_pcr_selection_sub(TPML_PCR_SELECTION *a, const TPML_PCR_SELECTION *b);
char *tpm2_tpml_pcr_selection_to_string(const TPML_PCR_SELECTION *l);
size_t tpm2_tpml_pcr_selection_weight(const TPML_PCR_SELECTION *l);
#define tpm2_tpml_pcr_selection_is_empty(l) (tpm2_tpml_pcr_selection_weight(l) == 0)
int tpm2_digest_many(TPMI_ALG_HASH alg, TPM2B_DIGEST *digest, const struct iovec data[], size_t count, bool extend);
static inline int tpm2_digest_buffer(TPMI_ALG_HASH alg, TPM2B_DIGEST *digest, const void *data, size_t len, bool extend) {
return tpm2_digest_many(alg, digest, &IOVEC_MAKE((void*) data, len), 1, extend);
}
int tpm2_digest_many_digests(TPMI_ALG_HASH alg, TPM2B_DIGEST *digest, const TPM2B_DIGEST data[], size_t count, bool extend);
static inline int tpm2_digest_rehash(TPMI_ALG_HASH alg, TPM2B_DIGEST *digest) {
return tpm2_digest_many(alg, digest, NULL, 0, true);
}
static inline int tpm2_digest_init(TPMI_ALG_HASH alg, TPM2B_DIGEST *digest) {
return tpm2_digest_many(alg, digest, NULL, 0, false);
}
void tpm2_log_debug_tpml_pcr_selection(const TPML_PCR_SELECTION *l, const char *msg);
void tpm2_log_debug_pcr_value(const Tpm2PCRValue *pcr_value, const char *msg);
void tpm2_log_debug_buffer(const void *buffer, size_t size, const char *msg);
void tpm2_log_debug_digest(const TPM2B_DIGEST *digest, const char *msg);
void tpm2_log_debug_name(const TPM2B_NAME *name, const char *msg);
typedef struct Tpm2PCRPredictionResult {
TPM2B_DIGEST hash[TPM2_N_HASH_ALGORITHMS]; /* a hash for each potential algorithm */
} Tpm2PCRPredictionResult;
TPM2B_DIGEST *tpm2_pcr_prediction_result_get_hash(Tpm2PCRPredictionResult *result, uint16_t alg);
/* A structure encapsulating a full set of PCR predictions with alternatives. This can be converted into a
* series of PolicyOR + PolicyPCR items for the TPM. */
typedef struct Tpm2PCRPrediction {
uint32_t pcrs; /* A mask of pcrs included */
OrderedSet* results[TPM2_PCRS_MAX]; /* set of Tpm2PCRPredictionResult objects, one for each PCR */
} Tpm2PCRPrediction;
void tpm2_pcr_prediction_done(Tpm2PCRPrediction *p);
extern const struct hash_ops tpm2_pcr_prediction_result_hash_ops;
bool tpm2_pcr_prediction_equal(Tpm2PCRPrediction *a, Tpm2PCRPrediction *b, uint16_t algorithm);
int tpm2_pcr_prediction_to_json(const Tpm2PCRPrediction *prediction, uint16_t algorithm, JsonVariant **ret);
int tpm2_pcr_prediction_from_json(Tpm2PCRPrediction *prediction, uint16_t algorithm, JsonVariant *aj);
/* As structure encapsulating all metadata stored for a pcrlock policy on disk */
typedef struct Tpm2PCRLockPolicy {
/* The below is the fixed metadata encoding information about the NV index we store the
* PolicyAuthorizeNV policy in, as well as a pinned SRK, and the encrypted PIN to use for writing to
* the NV Index. */
uint16_t algorithm;
uint32_t nv_index;
struct iovec nv_handle;
struct iovec nv_public;
struct iovec srk_handle;
struct iovec pin_public;
struct iovec pin_private;
/* The below contains the current prediction whose resulting policy is stored in the NV
* index. Once in JSON and once in parsed form. When the policy is updated the fields below are
* changed, the fields above remain fixed. */
JsonVariant *prediction_json;
Tpm2PCRPrediction prediction;
} Tpm2PCRLockPolicy;
void tpm2_pcrlock_policy_done(Tpm2PCRLockPolicy *data);
int tpm2_pcrlock_policy_from_json(JsonVariant *v, Tpm2PCRLockPolicy *ret_policy);
int tpm2_pcrlock_search_file(const char *path, FILE **ret_file, char **ret_path);
int tpm2_pcrlock_policy_load(const char *path, Tpm2PCRLockPolicy *ret_policy);
int tpm2_pcrlock_policy_from_credentials(const struct iovec *srk, const struct iovec *nv, Tpm2PCRLockPolicy *ret);
int tpm2_index_to_handle(Tpm2Context *c, TPM2_HANDLE index, const Tpm2Handle *session, TPM2B_PUBLIC **ret_public, TPM2B_NAME **ret_name, TPM2B_NAME **ret_qname, Tpm2Handle **ret_handle);
int tpm2_index_from_handle(Tpm2Context *c, const Tpm2Handle *handle, TPM2_HANDLE *ret_index);
int tpm2_pcr_read(Tpm2Context *c, const TPML_PCR_SELECTION *pcr_selection, Tpm2PCRValue **ret_pcr_values, size_t *ret_n_pcr_values);
int tpm2_pcr_read_missing_values(Tpm2Context *c, Tpm2PCRValue *pcr_values, size_t n_pcr_values);
int tpm2_get_pin_auth(TPMI_ALG_HASH hash, const char *pin, TPM2B_AUTH *ret_auth);
int tpm2_set_auth(Tpm2Context *c, const Tpm2Handle *handle, const char *pin);
int tpm2_set_auth_binary(Tpm2Context *c, const Tpm2Handle *handle, const TPM2B_AUTH *auth);
int tpm2_make_policy_session(Tpm2Context *c, const Tpm2Handle *primary, const Tpm2Handle *encryption_session, Tpm2Handle **ret_session);
int tpm2_policy_auth_value(Tpm2Context *c, const Tpm2Handle *session, TPM2B_DIGEST **ret_policy_digest);
int tpm2_policy_authorize_nv(Tpm2Context *c, const Tpm2Handle *session, const Tpm2Handle *nv_handle, TPM2B_DIGEST **ret_policy_digest);
int tpm2_policy_pcr(Tpm2Context *c, const Tpm2Handle *session, const TPML_PCR_SELECTION *pcr_selection, TPM2B_DIGEST **ret_policy_digest);
int tpm2_policy_or(Tpm2Context *c, const Tpm2Handle *session, const TPM2B_DIGEST *branches, size_t n_branches, TPM2B_DIGEST **ret_policy_digest);
int tpm2_policy_super_pcr(Tpm2Context *c, const Tpm2Handle *session, const Tpm2PCRPrediction *prediction, uint16_t algorithm);
int tpm2_calculate_pubkey_name(const TPMT_PUBLIC *public, TPM2B_NAME *ret_name);
int tpm2_calculate_nv_index_name(const TPMS_NV_PUBLIC *nvpublic, TPM2B_NAME *ret_name);
int tpm2_calculate_policy_auth_value(TPM2B_DIGEST *digest);
int tpm2_calculate_policy_authorize(const TPM2B_PUBLIC *public, const TPM2B_DIGEST *policy_ref, TPM2B_DIGEST *digest);
int tpm2_calculate_policy_authorize_nv(const TPM2B_NV_PUBLIC *public, TPM2B_DIGEST *digest);
int tpm2_calculate_policy_pcr(const Tpm2PCRValue *pcr_values, size_t n_pcr_values, TPM2B_DIGEST *digest);
int tpm2_calculate_policy_or(const TPM2B_DIGEST *branches, size_t n_branches, TPM2B_DIGEST *digest);
int tpm2_calculate_policy_super_pcr(Tpm2PCRPrediction *prediction, uint16_t algorithm, TPM2B_DIGEST *pcr_policy);
int tpm2_calculate_serialize(TPM2_HANDLE handle, const TPM2B_NAME *name, const TPM2B_PUBLIC *public, void **ret_serialized, size_t *ret_serialized_size);
int tpm2_calculate_sealing_policy(const Tpm2PCRValue *pcr_values, size_t n_pcr_values, const TPM2B_PUBLIC *public, bool use_pin, const Tpm2PCRLockPolicy *policy, TPM2B_DIGEST *digest);
int tpm2_calculate_seal(TPM2_HANDLE parent_handle, const TPM2B_PUBLIC *parent_public, const TPMA_OBJECT *attributes, const struct iovec *secret, const TPM2B_DIGEST *policy, const char *pin, struct iovec *ret_secret, struct iovec *ret_blob, struct iovec *ret_serialized_parent);
int tpm2_get_srk_template(TPMI_ALG_PUBLIC alg, TPMT_PUBLIC *ret_template);
int tpm2_get_best_srk_template(Tpm2Context *c, TPMT_PUBLIC *ret_template);
int tpm2_get_srk(Tpm2Context *c, const Tpm2Handle *session, TPM2B_PUBLIC **ret_public, TPM2B_NAME **ret_name, TPM2B_NAME **ret_qname, Tpm2Handle **ret_handle);
int tpm2_get_or_create_srk(Tpm2Context *c, const Tpm2Handle *session, TPM2B_PUBLIC **ret_public, TPM2B_NAME **ret_name, TPM2B_NAME **ret_qname, Tpm2Handle **ret_handle);
int tpm2_seal(Tpm2Context *c, uint32_t seal_key_handle, const TPM2B_DIGEST *policy, const char *pin, struct iovec *ret_secret, struct iovec *ret_blob, uint16_t *ret_primary_alg, struct iovec *ret_srk);
int tpm2_unseal(Tpm2Context *c, uint32_t hash_pcr_mask, uint16_t pcr_bank, const struct iovec *pubkey, uint32_t pubkey_pcr_mask, JsonVariant *signature, const char *pin, const Tpm2PCRLockPolicy *pcrlock_policy, uint16_t primary_alg, const struct iovec *blob, const struct iovec *policy_hash, const struct iovec *srk, struct iovec *ret_secret);
#if HAVE_OPENSSL
int tpm2_tpm2b_public_to_openssl_pkey(const TPM2B_PUBLIC *public, EVP_PKEY **ret);
int tpm2_tpm2b_public_from_openssl_pkey(const EVP_PKEY *pkey, TPM2B_PUBLIC *ret);
#endif
int tpm2_tpm2b_public_from_pem(const void *pem, size_t pem_size, TPM2B_PUBLIC *ret);
int tpm2_tpm2b_public_to_fingerprint(const TPM2B_PUBLIC *public, void **ret_fingerprint, size_t *ret_fingerprint_size);
int tpm2_define_policy_nv_index(Tpm2Context *c, const Tpm2Handle *session, TPM2_HANDLE requested_nv_index, const TPM2B_DIGEST *write_policy, const char *pin, const TPM2B_AUTH *auth, TPM2_HANDLE *ret_nv_index, Tpm2Handle **ret_nv_handle, TPM2B_NV_PUBLIC *ret_nv_public);
int tpm2_write_policy_nv_index(Tpm2Context *c, const Tpm2Handle *policy_session, TPM2_HANDLE nv_index, const Tpm2Handle *nv_handle, const TPM2B_DIGEST *policy_digest);
int tpm2_undefine_policy_nv_index(Tpm2Context *c, const Tpm2Handle *session, TPM2_HANDLE nv_index, const Tpm2Handle *nv_handle);
int tpm2_seal_data(Tpm2Context *c, const struct iovec *data, const Tpm2Handle *primary_handle, const Tpm2Handle *encryption_session, const TPM2B_DIGEST *policy, struct iovec *ret_public, struct iovec *ret_private);
int tpm2_unseal_data(Tpm2Context *c, const struct iovec *public, const struct iovec *private, const Tpm2Handle *primary_handle, const Tpm2Handle *policy_session, const Tpm2Handle *encryption_session, struct iovec *ret_data);
int tpm2_serialize(Tpm2Context *c, const Tpm2Handle *handle, void **ret_serialized, size_t *ret_serialized_size);
int tpm2_deserialize(Tpm2Context *c, const void *serialized, size_t serialized_size, Tpm2Handle **ret_handle);
int tpm2_load_public_key_file(const char *path, TPM2B_PUBLIC *ret);
/* The tpm2-tss library has many structs that are simply a combination of an array (or object) and
* size. These macros allow easily initializing or assigning instances of such structs from an existing
* buffer/object and size, while also checking the size for safety with the struct buffer/object size. If the
* provided buffer/object is NULL, the resulting struct's buffer/object will be 0s. If the provided size is
* larger than the struct's buffer/object size, this results in assertion failure; to check the size, use one
* of the TPM2B_*_CHECK_SIZE() macros. */
#define TPM2B_AUTH_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_AUTH, buffer, size)
#define TPM2B_DATA_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_DATA, buffer, size)
#define TPM2B_DIGEST_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_DIGEST, buffer, size)
#define TPM2B_ECC_PARAMETER_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_ECC_PARAMETER, buffer, size)
#define TPM2B_ENCRYPTED_SECRET_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_ENCRYPTED_SECRET, secret, size)
#define TPM2B_MAX_BUFFER_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_MAX_BUFFER, buffer, size)
#define TPM2B_NAME_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_NAME, name, size)
#define TPM2B_PRIVATE_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_PRIVATE, buffer, size)
#define TPM2B_PRIVATE_KEY_RSA_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_PRIVATE_KEY_RSA, buffer, size)
#define TPM2B_PUBLIC_KEY_RSA_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_PUBLIC_KEY_RSA, buffer, size)
#define TPM2B_SENSITIVE_DATA_MAKE(b, s) TPM2B_BUF_SIZE_STRUCT_MAKE(b, s, TPM2B_SENSITIVE_DATA, buffer, size)
#define TPM2B_BUF_SIZE_STRUCT_MAKE(buf, size, struct_type, buffer_field, size_field) \
_TPM2B_BUF_SIZE_STRUCT_MAKE(buf, size, UNIQ, struct_type, buffer_field, size_field)
#define _TPM2B_BUF_SIZE_STRUCT_MAKE(buf, size, uniq, struct_type, buffer_field, size_field) \
({ \
typeof(buf) UNIQ_T(BUF, uniq) = (buf); \
typeof(size) UNIQ_T(SIZE, uniq) = (size); \
struct_type UNIQ_T(STRUCT, uniq) = { .size_field = UNIQ_T(SIZE, uniq), }; \
assert(sizeof(UNIQ_T(STRUCT, uniq).buffer_field) >= (size_t) UNIQ_T(SIZE, uniq)); \
if (UNIQ_T(BUF, uniq)) \
memcpy_safe(UNIQ_T(STRUCT, uniq).buffer_field, UNIQ_T(BUF, uniq), UNIQ_T(SIZE, uniq)); \
UNIQ_T(STRUCT, uniq); \
})
/* Check if the size will fit in the TPM2B struct buffer. Returns 0 if the size will fit, otherwise this logs
* a debug message and returns < 0. */
#define TPM2B_AUTH_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_AUTH, buffer)
#define TPM2B_DATA_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_DATA, buffer)
#define TPM2B_DIGEST_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_DIGEST, buffer)
#define TPM2B_ECC_PARAMETER_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_ECC_PARAMETER, buffer)
#define TPM2B_ENCRYPTED_SECRET_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_ENCRYPTED_SECRET, buffer)
#define TPM2B_MAX_BUFFER_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_MAX_BUFFER, buffer)
#define TPM2B_NAME_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_NAME, name)
#define TPM2B_PRIVATE_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_PRIVATE, buffer)
#define TPM2B_PRIVATE_KEY_RSA_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_PRIVATE_KEY_RSA, buffer)
#define TPM2B_PUBLIC_KEY_RSA_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_PUBLIC_KEY_RSA, buffer)
#define TPM2B_SENSITIVE_DATA_CHECK_SIZE(s) TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(s, TPM2B_SENSITIVE_DATA, buffer)
#define TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(size, struct_type, buffer_field) \
_TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(size, UNIQ, struct_type, buffer_field)
#define _TPM2B_BUF_SIZE_STRUCT_CHECK_SIZE(size, uniq, struct_type, buffer_field) \
({ \
size_t UNIQ_T(SIZE, uniq) = (size_t) (size); \
size_t UNIQ_T(BUFSIZE, uniq) = sizeof_field(struct_type, buffer_field); \
UNIQ_T(BUFSIZE, uniq) < UNIQ_T(SIZE, uniq) ? \
log_debug_errno(SYNTHETIC_ERRNO(EINVAL), \
"Size %zu larger than " #struct_type " buffer size %zu.", \
UNIQ_T(SIZE, uniq), UNIQ_T(BUFSIZE, uniq)) : \
0; \
})
#else /* HAVE_TPM2 */
typedef struct {} Tpm2Context;
typedef struct {} Tpm2Handle;
typedef struct {} Tpm2PCRValue;
#define TPM2_PCR_VALUE_MAKE(i, h, v) (Tpm2PCRValue) {}
static inline int tpm2_pcrlock_search_file(const char *path, FILE **ret_file, char **ret_path) {
return -ENOENT;
}
#endif /* HAVE_TPM2 */
int tpm2_list_devices(void);
int tpm2_find_device_auto(char **ret);
int tpm2_make_pcr_json_array(uint32_t pcr_mask, JsonVariant **ret);
int tpm2_parse_pcr_json_array(JsonVariant *v, uint32_t *ret);
int tpm2_make_luks2_json(int keyslot, uint32_t hash_pcr_mask, uint16_t pcr_bank, const struct iovec *pubkey, uint32_t pubkey_pcr_mask, uint16_t primary_alg, const struct iovec *blob, const struct iovec *policy_hash, const struct iovec *salt, const struct iovec *srk, const struct iovec *pcrlock_nv, TPM2Flags flags, JsonVariant **ret);
int tpm2_parse_luks2_json(JsonVariant *v, int *ret_keyslot, uint32_t *ret_hash_pcr_mask, uint16_t *ret_pcr_bank, struct iovec *ret_pubkey, uint32_t *ret_pubkey_pcr_mask, uint16_t *ret_primary_alg, struct iovec *ret_blob, struct iovec *ret_policy_hash, struct iovec *ret_salt, struct iovec *ret_srk, struct iovec *pcrlock_nv, TPM2Flags *ret_flags);
/* Default to PCR 7 only */
#define TPM2_PCR_INDEX_DEFAULT UINT32_C(7)
#define TPM2_PCR_MASK_DEFAULT INDEX_TO_MASK(uint32_t, TPM2_PCR_INDEX_DEFAULT)
/* We want the helpers below to work also if TPM2 libs are not available, hence define these four defines if
* they are missing. */
#ifndef TPM2_ALG_SHA1
#define TPM2_ALG_SHA1 0x4
#endif
#ifndef TPM2_ALG_SHA256
#define TPM2_ALG_SHA256 0xB
#endif
#ifndef TPM2_ALG_SHA384
#define TPM2_ALG_SHA384 0xC
#endif
#ifndef TPM2_ALG_SHA512
#define TPM2_ALG_SHA512 0xD
#endif
#ifndef TPM2_ALG_ECC
#define TPM2_ALG_ECC 0x23
#endif
#ifndef TPM2_ALG_RSA
#define TPM2_ALG_RSA 0x1
#endif
int tpm2_hash_alg_to_size(uint16_t alg);
const char *tpm2_hash_alg_to_string(uint16_t alg) _const_;
int tpm2_hash_alg_from_string(const char *alg) _pure_;
const char *tpm2_asym_alg_to_string(uint16_t alg) _const_;
int tpm2_asym_alg_from_string(const char *alg) _pure_;
const char *tpm2_sym_alg_to_string(uint16_t alg) _const_;
int tpm2_sym_alg_from_string(const char *alg) _pure_;
const char *tpm2_sym_mode_to_string(uint16_t mode) _const_;
int tpm2_sym_mode_from_string(const char *mode) _pure_;
char *tpm2_pcr_mask_to_string(uint32_t mask);
extern const uint16_t tpm2_hash_algorithms[];
typedef struct {
uint32_t search_pcr_mask;
const char *device;
const char *signature_path;
const char *pcrlock_path;
} systemd_tpm2_plugin_params;
typedef enum Tpm2Support {
/* NOTE! The systemd-creds tool returns these flags 1:1 as exit status. Hence these flags are pretty
* much ABI! Hence, be extra careful when changing/extending these definitions. */
TPM2_SUPPORT_NONE = 0, /* no support */
TPM2_SUPPORT_FIRMWARE = 1 << 0, /* firmware reports TPM2 was used */
TPM2_SUPPORT_DRIVER = 1 << 1, /* the kernel has a driver loaded for it */
TPM2_SUPPORT_SYSTEM = 1 << 2, /* we support it ourselves */
TPM2_SUPPORT_SUBSYSTEM = 1 << 3, /* the kernel has the tpm subsystem enabled */
TPM2_SUPPORT_LIBRARIES = 1 << 4, /* we can dlopen the tpm2 libraries */
TPM2_SUPPORT_FULL = TPM2_SUPPORT_FIRMWARE|TPM2_SUPPORT_DRIVER|TPM2_SUPPORT_SYSTEM|TPM2_SUPPORT_SUBSYSTEM|TPM2_SUPPORT_LIBRARIES,
} Tpm2Support;
Tpm2Support tpm2_support(void);
int tpm2_parse_pcr_argument(const char *arg, Tpm2PCRValue **ret_pcr_values, size_t *ret_n_pcr_values);
int tpm2_parse_pcr_argument_append(const char *arg, Tpm2PCRValue **ret_pcr_values, size_t *ret_n_pcr_values);
int tpm2_parse_pcr_argument_to_mask(const char *arg, uint32_t *mask);
int tpm2_load_pcr_signature(const char *path, JsonVariant **ret);
int tpm2_load_pcr_public_key(const char *path, void **ret_pubkey, size_t *ret_pubkey_size);
int tpm2_util_pbkdf2_hmac_sha256(const void *pass,
size_t passlen,
const void *salt,
size_t saltlen,
uint8_t res[static SHA256_DIGEST_SIZE]);
enum {
/* Additional defines for the PCR index naming enum from "fundamental/tpm2-pcr.h" */
_TPM2_PCR_INDEX_MAX_DEFINED = TPM2_PCRS_MAX,
_TPM2_PCR_INDEX_INVALID = -EINVAL,
};
int tpm2_pcr_index_from_string(const char *s) _pure_;
const char *tpm2_pcr_index_to_string(int pcr) _const_;
|