xref: /titanic_51/usr/src/uts/common/sys/crypto/impl.h (revision 5d54f3d8999eac1762fe0a8c7177d20f1f201fae)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef	_SYS_CRYPTO_IMPL_H
28 #define	_SYS_CRYPTO_IMPL_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 /*
33  * Kernel Cryptographic Framework private implementation definitions.
34  */
35 
36 #include <sys/types.h>
37 #include <sys/param.h>
38 
39 #ifdef _KERNEL
40 #include <sys/crypto/common.h>
41 #include <sys/crypto/api.h>
42 #include <sys/crypto/spi.h>
43 #include <sys/crypto/ioctl.h>
44 #include <sys/tnf_probe.h>
45 #include <sys/atomic.h>
46 #include <sys/project.h>
47 #include <sys/taskq.h>
48 #include <sys/rctl.h>
49 #endif /* _KERNEL */
50 
51 #ifdef	__cplusplus
52 extern "C" {
53 #endif
54 
55 #ifdef _KERNEL
56 
57 #define	KCF_MODULE "kcf"
58 
59 /*
60  * Prefixes convention: structures internal to the kernel cryptographic
61  * framework start with 'kcf_'. Exposed structure start with 'crypto_'.
62  */
63 
64 /* Provider stats. Not protected. */
65 typedef	struct kcf_prov_stats {
66 	kstat_named_t	ps_ops_total;
67 	kstat_named_t	ps_ops_passed;
68 	kstat_named_t	ps_ops_failed;
69 	kstat_named_t	ps_ops_busy_rval;
70 } kcf_prov_stats_t;
71 
72 /* Various kcf stats. Not protected. */
73 typedef	struct kcf_stats {
74 	kstat_named_t	ks_thrs_in_pool;
75 	kstat_named_t	ks_idle_thrs;
76 	kstat_named_t	ks_minthrs;
77 	kstat_named_t	ks_maxthrs;
78 	kstat_named_t	ks_swq_njobs;
79 	kstat_named_t	ks_swq_maxjobs;
80 	kstat_named_t	ks_taskq_minalloc;
81 	kstat_named_t	ks_taskq_maxalloc;
82 } kcf_stats_t;
83 
84 /*
85  * Keep all the information needed by the scheduler from
86  * this provider.
87  */
88 typedef struct kcf_sched_info {
89 	/* The number of operations dispatched. */
90 	uint64_t	ks_ndispatches;
91 
92 	/* The number of operations that failed. */
93 	uint64_t	ks_nfails;
94 
95 	/* The number of operations that returned CRYPTO_BUSY. */
96 	uint64_t	ks_nbusy_rval;
97 
98 	/* taskq used to dispatch crypto requests */
99 	taskq_t	*ks_taskq;
100 } kcf_sched_info_t;
101 
102 #define	KCF_PROV_INCRSTATS(pd, error)	{				\
103 	(pd)->pd_sched_info.ks_ndispatches++;				\
104 	if (error == CRYPTO_BUSY)					\
105 		(pd)->pd_sched_info.ks_nbusy_rval++;			\
106 	else if (error != CRYPTO_SUCCESS && error != CRYPTO_QUEUED)	\
107 		(pd)->pd_sched_info.ks_nfails++;			\
108 }
109 
110 
111 /*
112  * The following two macros should be
113  * #define KCF_OPS_CLASSSIZE (KCF_LAST_OPSCLASS - KCF_FIRST_OPSCLASS + 2)
114  * #define KCF_MAXMECHTAB KCF_MAXCIPHER
115  *
116  * However, doing that would involve reorganizing the header file a bit.
117  * When impl.h is broken up (bug# 4703218), this will be done. For now,
118  * we hardcode these values.
119  */
120 #define	KCF_OPS_CLASSSIZE	8
121 #define	KCF_MAXMECHTAB		32
122 
123 /*
124  * Valid values for the state of a provider. The order of
125  * the elements is important.
126  *
127  * Routines which get a provider or the list of providers
128  * should pick only those that are either in KCF_PROV_READY state
129  * or in KCF_PROV_BUSY state.
130  */
131 typedef enum {
132 	KCF_PROV_ALLOCATED = 1,
133 	KCF_PROV_UNVERIFIED,
134 	/*
135 	 * state < KCF_PROV_READY means the provider can not
136 	 * be used at all.
137 	 */
138 	KCF_PROV_READY,
139 	KCF_PROV_BUSY,
140 	/*
141 	 * state > KCF_PROV_BUSY means the provider can not
142 	 * be used for new requests.
143 	 */
144 	KCF_PROV_FAILED,
145 	/*
146 	 * Threads setting the following two states should do so only
147 	 * if the current state < KCF_PROV_DISABLED.
148 	 */
149 	KCF_PROV_DISABLED,
150 	KCF_PROV_REMOVED,
151 	KCF_PROV_FREED
152 } kcf_prov_state_t;
153 
154 #define	KCF_IS_PROV_UNVERIFIED(pd) ((pd)->pd_state == KCF_PROV_UNVERIFIED)
155 #define	KCF_IS_PROV_USABLE(pd) ((pd)->pd_state == KCF_PROV_READY || \
156 	(pd)->pd_state == KCF_PROV_BUSY)
157 #define	KCF_IS_PROV_REMOVED(pd)	((pd)->pd_state >= KCF_PROV_REMOVED)
158 
159 /*
160  * A provider descriptor structure. There is one such structure per
161  * provider. It is allocated and initialized at registration time and
162  * freed when the provider unregisters.
163  *
164  * pd_prov_type:	Provider type, hardware or software
165  * pd_prov_handle:	Provider handle specified by provider
166  * pd_kcf_prov_handle:	KCF-private handle assigned by KCF
167  * pd_prov_id:		Identification # assigned by KCF to provider
168  * pd_description:	Provider description string
169  * pd_ops_vector:	The ops vector specified by Provider
170  * pd_mech_list_count:	The number of entries in pi_mechanisms, specified
171  *			by the provider during registration
172  * pd_mechanisms:	Mechanisms supported by the provider, specified
173  *			by the provider during registration
174  * pd_map_mechnums:	Lookup table which maps a core framework mechanism
175  *			number to a number understood by this provider
176  * pd_ks_data:		kstat data
177  * pd_kstat:		kstat associated with the provider
178  * pd_sched_info:	Scheduling information associated with the provider
179  * pd_refcnt:		Reference counter to this provider descriptor
180  * pd_irefcnt:		References held by the framework internal structs
181  * pd_name:		Device name or module name
182  * pd_instance:		Device instance
183  * pd_module_id:	Module ID returned by modload
184  * pd_mctlp:		Pointer to modctl structure for this provider
185  * pd_sid:		Session ID of the provider used by kernel clients.
186  *			This is valid only for session-oriented providers.
187  * pd_lock:		lock protects pd_state and pd_real_provider_list
188  * pd_state:		State value of the provider
189  * pd_resume_cv:	cv to wait for state to change from KCF_PROV_BUSY
190  * pd_remove_cv:	cv to wait on while the provider queue drains
191  * pd_restricted:	true if this is an export restricted provider
192  * pd_provider_list:	Used to cross-reference logical providers and their
193  *			members. Not used for software providers.
194  */
195 typedef struct kcf_provider_desc {
196 	crypto_provider_type_t		pd_prov_type;
197 	crypto_provider_handle_t	pd_prov_handle;
198 	crypto_kcf_provider_handle_t	pd_kcf_prov_handle;
199 	crypto_provider_id_t		pd_prov_id;
200 	char				*pd_description;
201 	crypto_ops_t			*pd_ops_vector;
202 	uint_t				pd_mech_list_count;
203 	crypto_mech_info_t		*pd_mechanisms;
204 	crypto_mech_type_t		pd_map_mechnums[KCF_OPS_CLASSSIZE]\
205 					    [KCF_MAXMECHTAB];
206 	kcf_stats_t			*pd_stats;
207 	kcf_prov_stats_t		pd_ks_data;
208 	kstat_t				*pd_kstat;
209 	kcf_sched_info_t		pd_sched_info;
210 	uint_t				pd_refcnt;
211 	uint_t				pd_irefcnt;
212 	char				*pd_name;
213 	uint_t				pd_instance;
214 	int				pd_module_id;
215 	struct modctl			*pd_mctlp;
216 	crypto_session_id_t		pd_sid;
217 	kmutex_t			pd_lock;
218 	kcf_prov_state_t		pd_state;
219 	kcondvar_t			pd_resume_cv;
220 	kcondvar_t			pd_remove_cv;
221 	boolean_t			pd_restricted;
222 	struct kcf_provider_list	*pd_provider_list;
223 } kcf_provider_desc_t;
224 
225 /* useful for making a list of providers */
226 typedef struct kcf_provider_list {
227 	struct kcf_provider_list *pl_next;
228 	struct kcf_provider_desc *pl_provider;
229 } kcf_provider_list_t;
230 
231 /*
232  * If a component has a reference to a kcf_provider_desc_t,
233  * it REFHOLD()s. A new provider descriptor which is referenced only
234  * by the providers table has a reference counter of one.
235  */
236 #define	KCF_PROV_REFHOLD(desc) {		\
237 	atomic_add_32(&(desc)->pd_refcnt, 1);	\
238 	ASSERT((desc)->pd_refcnt != 0);		\
239 }
240 
241 #define	KCF_PROV_IREFHOLD(desc) {		\
242 	atomic_add_32(&(desc)->pd_irefcnt, 1);	\
243 	ASSERT((desc)->pd_irefcnt != 0);	\
244 }
245 
246 #define	KCF_PROV_IREFRELE(desc) {				\
247 	ASSERT((desc)->pd_irefcnt != 0);			\
248 	membar_exit();						\
249 	if (atomic_add_32_nv(&(desc)->pd_irefcnt, -1) == 0) {	\
250 		cv_broadcast(&(desc)->pd_remove_cv);		\
251 	}							\
252 }
253 
254 #define	KCF_PROV_REFHELD(desc)	((desc)->pd_refcnt >= 1)
255 
256 #define	KCF_PROV_REFRELE(desc) {				\
257 	ASSERT((desc)->pd_refcnt != 0);				\
258 	membar_exit();						\
259 	if (atomic_add_32_nv(&(desc)->pd_refcnt, -1) == 0) {	\
260 		kcf_provider_zero_refcnt((desc));		\
261 	}							\
262 }
263 
264 
265 /* list of crypto_mech_info_t valid as the second mech in a dual operation */
266 
267 typedef	struct crypto_mech_info_list {
268 	struct crypto_mech_info_list	*ml_next;
269 	crypto_mech_type_t		ml_kcf_mechid;	/* KCF's id */
270 	crypto_mech_info_t		ml_mech_info;
271 } crypto_mech_info_list_t;
272 
273 /*
274  * An element in a mechanism provider descriptors chain.
275  * The kcf_prov_mech_desc_t is duplicated in every chain the provider belongs
276  * to. This is a small tradeoff memory vs mutex spinning time to access the
277  * common provider field.
278  */
279 
280 typedef struct kcf_prov_mech_desc {
281 	struct kcf_mech_entry		*pm_me;		/* Back to the head */
282 	struct kcf_prov_mech_desc	*pm_next;	/* Next in the chain */
283 	crypto_mech_info_t		pm_mech_info;	/* Provider mech info */
284 	crypto_mech_info_list_t		*pm_mi_list;	/* list for duals */
285 	kcf_provider_desc_t		*pm_prov_desc;	/* Common desc. */
286 } kcf_prov_mech_desc_t;
287 
288 /* and the notation shortcuts ... */
289 #define	pm_provider_type	pm_prov_desc.pd_provider_type
290 #define	pm_provider_handle	pm_prov_desc.pd_provider_handle
291 #define	pm_ops_vector		pm_prov_desc.pd_ops_vector
292 
293 
294 #define	KCF_CPU_PAD (128 - sizeof (crypto_mech_name_t) - \
295     sizeof (kmutex_t) - 2 * sizeof (kcf_prov_mech_desc_t *) - \
296     sizeof (int) - sizeof (uint32_t) - sizeof (size_t))
297 
298 /*
299  * A mechanism entry in an xxx_mech_tab[]. KCF_CPU_PAD needs
300  * to be adjusted if this structure is changed.
301  */
302 typedef	struct kcf_mech_entry {
303 	crypto_mech_name_t	me_name;	/* mechanism name */
304 	kmutex_t		me_mutex;	/* access protection	*/
305 	kcf_prov_mech_desc_t	*me_hw_prov_chain;  /* list of HW providers */
306 	kcf_prov_mech_desc_t	*me_sw_prov;    /* SW provider */
307 	/*
308 	 * Number of HW providers in the chain. There is only one
309 	 * SW provider. So, we need only a count of HW providers.
310 	 */
311 	int			me_num_hwprov;
312 	/*
313 	 * When a SW provider is present, this is the generation number that
314 	 * ensures no objects from old SW providers are used in the new one
315 	 */
316 	uint32_t		me_gen_swprov;
317 	/*
318 	 *  threshold for using hardware providers for this mech
319 	 */
320 	size_t			me_threshold;
321 	uint8_t			me_pad[KCF_CPU_PAD];
322 } kcf_mech_entry_t;
323 
324 /*
325  * A policy descriptor structure. It is allocated and initialized
326  * when administrative ioctls load disabled mechanisms.
327  *
328  * pd_prov_type:	Provider type, hardware or software
329  * pd_name:		Device name or module name.
330  * pd_instance:		Device instance.
331  * pd_refcnt:		Reference counter for this policy descriptor
332  * pd_mutex:		Protects array and count of disabled mechanisms.
333  * pd_disabled_count:	Count of disabled mechanisms.
334  * pd_disabled_mechs:	Array of disabled mechanisms.
335  */
336 typedef struct kcf_policy_desc {
337 	crypto_provider_type_t	pd_prov_type;
338 	char			*pd_name;
339 	uint_t			pd_instance;
340 	uint_t			pd_refcnt;
341 	kmutex_t		pd_mutex;
342 	uint_t			pd_disabled_count;
343 	crypto_mech_name_t	*pd_disabled_mechs;
344 } kcf_policy_desc_t;
345 
346 /*
347  * If a component has a reference to a kcf_policy_desc_t,
348  * it REFHOLD()s. A new policy descriptor which is referenced only
349  * by the policy table has a reference count of one.
350  */
351 #define	KCF_POLICY_REFHOLD(desc) {		\
352 	atomic_add_32(&(desc)->pd_refcnt, 1);	\
353 	ASSERT((desc)->pd_refcnt != 0);		\
354 }
355 
356 /*
357  * Releases a reference to a policy descriptor. When the last
358  * reference is released, the descriptor is freed.
359  */
360 #define	KCF_POLICY_REFRELE(desc) {				\
361 	ASSERT((desc)->pd_refcnt != 0);				\
362 	membar_exit();						\
363 	if (atomic_add_32_nv(&(desc)->pd_refcnt, -1) == 0)	\
364 		kcf_policy_free_desc(desc);			\
365 }
366 
367 /*
368  * This entry stores the name of a software module and its
369  * mechanisms.  The mechanisms are 'hints' that are used to
370  * trigger loading of the module.
371  */
372 typedef struct kcf_soft_conf_entry {
373 	struct kcf_soft_conf_entry	*ce_next;
374 	char				*ce_name;
375 	crypto_mech_name_t		*ce_mechs;
376 	uint_t				ce_count;
377 } kcf_soft_conf_entry_t;
378 
379 extern kmutex_t soft_config_mutex;
380 extern kcf_soft_conf_entry_t *soft_config_list;
381 
382 /*
383  * Global tables. The sizes are from the predefined PKCS#11 v2.20 mechanisms,
384  * with a margin of few extra empty entry points
385  */
386 
387 #define	KCF_MAXDIGEST		16	/* Digests */
388 #define	KCF_MAXCIPHER		64	/* Ciphers */
389 #define	KCF_MAXMAC		40	/* Message authentication codes */
390 #define	KCF_MAXSIGN		24	/* Sign/Verify */
391 #define	KCF_MAXKEYOPS		116	/* Key generation and derivation */
392 #define	KCF_MAXMISC		16	/* Others ... */
393 
394 #define	KCF_MAXMECHS		KCF_MAXDIGEST + KCF_MAXCIPHER + KCF_MAXMAC + \
395 				KCF_MAXSIGN + KCF_MAXKEYOPS + \
396 				KCF_MAXMISC
397 
398 extern kcf_mech_entry_t kcf_digest_mechs_tab[];
399 extern kcf_mech_entry_t kcf_cipher_mechs_tab[];
400 extern kcf_mech_entry_t kcf_mac_mechs_tab[];
401 extern kcf_mech_entry_t kcf_sign_mechs_tab[];
402 extern kcf_mech_entry_t kcf_keyops_mechs_tab[];
403 extern kcf_mech_entry_t kcf_misc_mechs_tab[];
404 
405 extern kmutex_t kcf_mech_tabs_lock;
406 
407 typedef	enum {
408 	KCF_DIGEST_CLASS = 1,
409 	KCF_CIPHER_CLASS,
410 	KCF_MAC_CLASS,
411 	KCF_SIGN_CLASS,
412 	KCF_KEYOPS_CLASS,
413 	KCF_MISC_CLASS
414 } kcf_ops_class_t;
415 
416 #define	KCF_FIRST_OPSCLASS	KCF_DIGEST_CLASS
417 #define	KCF_LAST_OPSCLASS	KCF_MISC_CLASS
418 
419 /* The table of all the kcf_xxx_mech_tab[]s, indexed by kcf_ops_class */
420 
421 typedef	struct kcf_mech_entry_tab {
422 	int			met_size;	/* Size of the met_tab[] */
423 	kcf_mech_entry_t	*met_tab;	/* the table		 */
424 } kcf_mech_entry_tab_t;
425 
426 extern kcf_mech_entry_tab_t kcf_mech_tabs_tab[];
427 
428 #define	KCF_MECHID(class, index)				\
429 	(((crypto_mech_type_t)(class) << 32) | (crypto_mech_type_t)(index))
430 
431 #define	KCF_MECH2CLASS(mech_type) ((kcf_ops_class_t)((mech_type) >> 32))
432 
433 #define	KCF_MECH2INDEX(mech_type) ((int)(mech_type))
434 
435 /* ps_refcnt is protected by cm_lock in the crypto_minor structure */
436 typedef struct crypto_provider_session {
437 	struct crypto_provider_session *ps_next;
438 	crypto_session_id_t		ps_session;
439 	kcf_provider_desc_t		*ps_provider;
440 	kcf_provider_desc_t		*ps_real_provider;
441 	uint_t				ps_refcnt;
442 } crypto_provider_session_t;
443 
444 typedef struct crypto_session_data {
445 	kmutex_t			sd_lock;
446 	kcondvar_t			sd_cv;
447 	uint32_t			sd_flags;
448 	crypto_ctx_t			*sd_digest_ctx;
449 	crypto_ctx_t			*sd_encr_ctx;
450 	crypto_ctx_t			*sd_decr_ctx;
451 	crypto_ctx_t			*sd_sign_ctx;
452 	crypto_ctx_t			*sd_verify_ctx;
453 	crypto_ctx_t			*sd_sign_recover_ctx;
454 	crypto_ctx_t			*sd_verify_recover_ctx;
455 	kcf_provider_desc_t		*sd_provider;
456 	void				*sd_find_init_cookie;
457 	crypto_provider_session_t	*sd_provider_session;
458 } crypto_session_data_t;
459 
460 #define	CRYPTO_SESSION_IN_USE		0x00000001
461 #define	CRYPTO_SESSION_IS_BUSY		0x00000002
462 #define	CRYPTO_SESSION_IS_CLOSED	0x00000004
463 
464 #define	KCF_MAX_PIN_LEN			1024
465 
466 /*
467  * Per-minor info.
468  *
469  * cm_lock protects everything in this structure except for cm_refcnt.
470  */
471 typedef struct crypto_minor {
472 	uint_t				cm_refcnt;
473 	kmutex_t			cm_lock;
474 	kcondvar_t			cm_cv;
475 	crypto_session_data_t		**cm_session_table;
476 	uint_t				cm_session_table_count;
477 	kcf_provider_desc_t		**cm_provider_array;
478 	uint_t				cm_provider_count;
479 	crypto_provider_session_t	*cm_provider_session;
480 	kproject_t			*cm_projp;
481 } crypto_minor_t;
482 
483 /* resource control framework handle used by /dev/crypto */
484 extern rctl_hndl_t rc_project_crypto_mem;
485 /*
486  * Return codes for internal functions
487  */
488 #define	KCF_SUCCESS		0x0	/* Successful call */
489 #define	KCF_INVALID_MECH_NUMBER	0x1	/* invalid mechanism number */
490 #define	KCF_INVALID_MECH_NAME	0x2	/* invalid mechanism name */
491 #define	KCF_INVALID_MECH_CLASS	0x3	/* invalid mechanism class */
492 #define	KCF_MECH_TAB_FULL	0x4	/* Need more room in the mech tabs. */
493 
494 /*
495  * kCF internal mechanism and function group for tracking RNG providers.
496  */
497 #define	SUN_RANDOM		"random"
498 #define	CRYPTO_FG_RANDOM	0x80000000	/* generate_random() */
499 
500 /*
501  * Wrappers for ops vectors. In the wrapper definitions below, the pd
502  * argument always corresponds to a pointer to a provider descriptor
503  * of type kcf_prov_desc_t.
504  */
505 
506 #define	KCF_PROV_CONTROL_OPS(pd)	((pd)->pd_ops_vector->control_ops)
507 #define	KCF_PROV_CTX_OPS(pd)		((pd)->pd_ops_vector->ctx_ops)
508 #define	KCF_PROV_DIGEST_OPS(pd)		((pd)->pd_ops_vector->digest_ops)
509 #define	KCF_PROV_CIPHER_OPS(pd)		((pd)->pd_ops_vector->cipher_ops)
510 #define	KCF_PROV_MAC_OPS(pd)		((pd)->pd_ops_vector->mac_ops)
511 #define	KCF_PROV_SIGN_OPS(pd)		((pd)->pd_ops_vector->sign_ops)
512 #define	KCF_PROV_VERIFY_OPS(pd)		((pd)->pd_ops_vector->verify_ops)
513 #define	KCF_PROV_DUAL_OPS(pd)		((pd)->pd_ops_vector->dual_ops)
514 #define	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) \
515 	((pd)->pd_ops_vector->dual_cipher_mac_ops)
516 #define	KCF_PROV_RANDOM_OPS(pd)		((pd)->pd_ops_vector->random_ops)
517 #define	KCF_PROV_SESSION_OPS(pd)	((pd)->pd_ops_vector->session_ops)
518 #define	KCF_PROV_OBJECT_OPS(pd)		((pd)->pd_ops_vector->object_ops)
519 #define	KCF_PROV_KEY_OPS(pd)		((pd)->pd_ops_vector->key_ops)
520 #define	KCF_PROV_PROVIDER_OPS(pd)	((pd)->pd_ops_vector->provider_ops)
521 
522 /*
523  * Wrappers for crypto_control_ops(9S) entry points.
524  */
525 
526 #define	KCF_PROV_STATUS(pd, status) ( \
527 	(KCF_PROV_CONTROL_OPS(pd) && \
528 	KCF_PROV_CONTROL_OPS(pd)->provider_status) ? \
529 	KCF_PROV_CONTROL_OPS(pd)->provider_status( \
530 	    (pd)->pd_prov_handle, status) : \
531 	CRYPTO_NOT_SUPPORTED)
532 
533 /*
534  * Wrappers for crypto_ctx_ops(9S) entry points.
535  */
536 
537 #define	KCF_PROV_CREATE_CTX_TEMPLATE(pd, mech, key, template, size, req) ( \
538 	(KCF_PROV_CTX_OPS(pd) && KCF_PROV_CTX_OPS(pd)->create_ctx_template) ? \
539 	KCF_PROV_CTX_OPS(pd)->create_ctx_template( \
540 	    (pd)->pd_prov_handle, mech, key, template, size, req) : \
541 	CRYPTO_NOT_SUPPORTED)
542 
543 #define	KCF_PROV_FREE_CONTEXT(pd, ctx) ( \
544 	(KCF_PROV_CTX_OPS(pd) && KCF_PROV_CTX_OPS(pd)->free_context) ? \
545 	KCF_PROV_CTX_OPS(pd)->free_context(ctx) : CRYPTO_NOT_SUPPORTED)
546 
547 /*
548  * Wrappers for crypto_digest_ops(9S) entry points.
549  */
550 
551 #define	KCF_PROV_DIGEST_INIT(pd, ctx, mech, req) ( \
552 	(KCF_PROV_DIGEST_OPS(pd) && KCF_PROV_DIGEST_OPS(pd)->digest_init) ? \
553 	KCF_PROV_DIGEST_OPS(pd)->digest_init(ctx, mech, req) : \
554 	CRYPTO_NOT_SUPPORTED)
555 
556 /*
557  * The _ (underscore) in _digest is needed to avoid replacing the
558  * function digest().
559  */
560 #define	KCF_PROV_DIGEST(pd, ctx, data, _digest, req) ( \
561 	(KCF_PROV_DIGEST_OPS(pd) && KCF_PROV_DIGEST_OPS(pd)->digest) ? \
562 	KCF_PROV_DIGEST_OPS(pd)->digest(ctx, data, _digest, req) : \
563 	CRYPTO_NOT_SUPPORTED)
564 
565 #define	KCF_PROV_DIGEST_UPDATE(pd, ctx, data, req) ( \
566 	(KCF_PROV_DIGEST_OPS(pd) && KCF_PROV_DIGEST_OPS(pd)->digest_update) ? \
567 	KCF_PROV_DIGEST_OPS(pd)->digest_update(ctx, data, req) : \
568 	CRYPTO_NOT_SUPPORTED)
569 
570 #define	KCF_PROV_DIGEST_KEY(pd, ctx, key, req) ( \
571 	(KCF_PROV_DIGEST_OPS(pd) && KCF_PROV_DIGEST_OPS(pd)->digest_key) ? \
572 	KCF_PROV_DIGEST_OPS(pd)->digest_key(ctx, key, req) : \
573 	CRYPTO_NOT_SUPPORTED)
574 
575 #define	KCF_PROV_DIGEST_FINAL(pd, ctx, digest, req) ( \
576 	(KCF_PROV_DIGEST_OPS(pd) && KCF_PROV_DIGEST_OPS(pd)->digest_final) ? \
577 	KCF_PROV_DIGEST_OPS(pd)->digest_final(ctx, digest, req) : \
578 	CRYPTO_NOT_SUPPORTED)
579 
580 #define	KCF_PROV_DIGEST_ATOMIC(pd, session, mech, data, digest, req) ( \
581 	(KCF_PROV_DIGEST_OPS(pd) && KCF_PROV_DIGEST_OPS(pd)->digest_atomic) ? \
582 	KCF_PROV_DIGEST_OPS(pd)->digest_atomic( \
583 	    (pd)->pd_prov_handle, session, mech, data, digest, req) : \
584 	CRYPTO_NOT_SUPPORTED)
585 
586 /*
587  * Wrappers for crypto_cipher_ops(9S) entry points.
588  */
589 
590 #define	KCF_PROV_ENCRYPT_INIT(pd, ctx, mech, key, template, req) ( \
591 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->encrypt_init) ? \
592 	KCF_PROV_CIPHER_OPS(pd)->encrypt_init(ctx, mech, key, template, \
593 	    req) : \
594 	CRYPTO_NOT_SUPPORTED)
595 
596 #define	KCF_PROV_ENCRYPT(pd, ctx, plaintext, ciphertext, req) ( \
597 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->encrypt) ? \
598 	KCF_PROV_CIPHER_OPS(pd)->encrypt(ctx, plaintext, ciphertext, req) : \
599 	CRYPTO_NOT_SUPPORTED)
600 
601 #define	KCF_PROV_ENCRYPT_UPDATE(pd, ctx, plaintext, ciphertext, req) ( \
602 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->encrypt_update) ? \
603 	KCF_PROV_CIPHER_OPS(pd)->encrypt_update(ctx, plaintext, \
604 	    ciphertext, req) : \
605 	CRYPTO_NOT_SUPPORTED)
606 
607 #define	KCF_PROV_ENCRYPT_FINAL(pd, ctx, ciphertext, req) ( \
608 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->encrypt_final) ? \
609 	KCF_PROV_CIPHER_OPS(pd)->encrypt_final(ctx, ciphertext, req) : \
610 	CRYPTO_NOT_SUPPORTED)
611 
612 #define	KCF_PROV_ENCRYPT_ATOMIC(pd, session, mech, key, plaintext, ciphertext, \
613 	    template, req) ( \
614 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->encrypt_atomic) ? \
615 	KCF_PROV_CIPHER_OPS(pd)->encrypt_atomic( \
616 	    (pd)->pd_prov_handle, session, mech, key, plaintext, ciphertext, \
617 	    template, req) : \
618 	CRYPTO_NOT_SUPPORTED)
619 
620 #define	KCF_PROV_DECRYPT_INIT(pd, ctx, mech, key, template, req) ( \
621 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->decrypt_init) ? \
622 	KCF_PROV_CIPHER_OPS(pd)->decrypt_init(ctx, mech, key, template, \
623 	    req) : \
624 	CRYPTO_NOT_SUPPORTED)
625 
626 #define	KCF_PROV_DECRYPT(pd, ctx, ciphertext, plaintext, req) ( \
627 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->decrypt) ? \
628 	KCF_PROV_CIPHER_OPS(pd)->decrypt(ctx, ciphertext, plaintext, req) : \
629 	CRYPTO_NOT_SUPPORTED)
630 
631 #define	KCF_PROV_DECRYPT_UPDATE(pd, ctx, ciphertext, plaintext, req) ( \
632 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->decrypt_update) ? \
633 	KCF_PROV_CIPHER_OPS(pd)->decrypt_update(ctx, ciphertext, \
634 	    plaintext, req) : \
635 	CRYPTO_NOT_SUPPORTED)
636 
637 #define	KCF_PROV_DECRYPT_FINAL(pd, ctx, plaintext, req) ( \
638 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->decrypt_final) ? \
639 	KCF_PROV_CIPHER_OPS(pd)->decrypt_final(ctx, plaintext, req) : \
640 	CRYPTO_NOT_SUPPORTED)
641 
642 #define	KCF_PROV_DECRYPT_ATOMIC(pd, session, mech, key, ciphertext, plaintext, \
643 	    template, req) ( \
644 	(KCF_PROV_CIPHER_OPS(pd) && KCF_PROV_CIPHER_OPS(pd)->decrypt_atomic) ? \
645 	KCF_PROV_CIPHER_OPS(pd)->decrypt_atomic( \
646 	    (pd)->pd_prov_handle, session, mech, key, ciphertext, plaintext, \
647 	    template, req) : \
648 	CRYPTO_NOT_SUPPORTED)
649 
650 /*
651  * Wrappers for crypto_mac_ops(9S) entry points.
652  */
653 
654 #define	KCF_PROV_MAC_INIT(pd, ctx, mech, key, template, req) ( \
655 	(KCF_PROV_MAC_OPS(pd) && KCF_PROV_MAC_OPS(pd)->mac_init) ? \
656 	KCF_PROV_MAC_OPS(pd)->mac_init(ctx, mech, key, template, req) \
657 	: CRYPTO_NOT_SUPPORTED)
658 
659 /*
660  * The _ (underscore) in _mac is needed to avoid replacing the
661  * function mac().
662  */
663 #define	KCF_PROV_MAC(pd, ctx, data, _mac, req) ( \
664 	(KCF_PROV_MAC_OPS(pd) && KCF_PROV_MAC_OPS(pd)->mac) ? \
665 	KCF_PROV_MAC_OPS(pd)->mac(ctx, data, _mac, req) : \
666 	CRYPTO_NOT_SUPPORTED)
667 
668 #define	KCF_PROV_MAC_UPDATE(pd, ctx, data, req) ( \
669 	(KCF_PROV_MAC_OPS(pd) && KCF_PROV_MAC_OPS(pd)->mac_update) ? \
670 	KCF_PROV_MAC_OPS(pd)->mac_update(ctx, data, req) : \
671 	CRYPTO_NOT_SUPPORTED)
672 
673 #define	KCF_PROV_MAC_FINAL(pd, ctx, mac, req) ( \
674 	(KCF_PROV_MAC_OPS(pd) && KCF_PROV_MAC_OPS(pd)->mac_final) ? \
675 	KCF_PROV_MAC_OPS(pd)->mac_final(ctx, mac, req) : \
676 	CRYPTO_NOT_SUPPORTED)
677 
678 #define	KCF_PROV_MAC_ATOMIC(pd, session, mech, key, data, mac, template, \
679 	    req) ( \
680 	(KCF_PROV_MAC_OPS(pd) && KCF_PROV_MAC_OPS(pd)->mac_atomic) ? \
681 	KCF_PROV_MAC_OPS(pd)->mac_atomic( \
682 	    (pd)->pd_prov_handle, session, mech, key, data, mac, template, \
683 	    req) : \
684 	CRYPTO_NOT_SUPPORTED)
685 
686 #define	KCF_PROV_MAC_VERIFY_ATOMIC(pd, session, mech, key, data, mac, \
687 	    template, req) ( \
688 	(KCF_PROV_MAC_OPS(pd) && KCF_PROV_MAC_OPS(pd)->mac_verify_atomic) ? \
689 	KCF_PROV_MAC_OPS(pd)->mac_verify_atomic( \
690 	    (pd)->pd_prov_handle, session, mech, key, data, mac, template, \
691 	    req) : \
692 	CRYPTO_NOT_SUPPORTED)
693 
694 /*
695  * Wrappers for crypto_sign_ops(9S) entry points.
696  */
697 
698 #define	KCF_PROV_SIGN_INIT(pd, ctx, mech, key, template, req) ( \
699 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign_init) ? \
700 	KCF_PROV_SIGN_OPS(pd)->sign_init( \
701 	    ctx, mech, key, template, req) : CRYPTO_NOT_SUPPORTED)
702 
703 #define	KCF_PROV_SIGN(pd, ctx, data, sig, req) ( \
704 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign) ? \
705 	KCF_PROV_SIGN_OPS(pd)->sign(ctx, data, sig, req) : \
706 	CRYPTO_NOT_SUPPORTED)
707 
708 #define	KCF_PROV_SIGN_UPDATE(pd, ctx, data, req) ( \
709 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign_update) ? \
710 	KCF_PROV_SIGN_OPS(pd)->sign_update(ctx, data, req) : \
711 	CRYPTO_NOT_SUPPORTED)
712 
713 #define	KCF_PROV_SIGN_FINAL(pd, ctx, sig, req) ( \
714 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign_final) ? \
715 	KCF_PROV_SIGN_OPS(pd)->sign_final(ctx, sig, req) : \
716 	CRYPTO_NOT_SUPPORTED)
717 
718 #define	KCF_PROV_SIGN_ATOMIC(pd, session, mech, key, data, template, \
719 	    sig, req) ( \
720 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign_atomic) ? \
721 	KCF_PROV_SIGN_OPS(pd)->sign_atomic( \
722 	    (pd)->pd_prov_handle, session, mech, key, data, sig, template, \
723 	    req) : CRYPTO_NOT_SUPPORTED)
724 
725 #define	KCF_PROV_SIGN_RECOVER_INIT(pd, ctx, mech, key, template, \
726 	    req) ( \
727 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign_recover_init) ? \
728 	KCF_PROV_SIGN_OPS(pd)->sign_recover_init(ctx, mech, key, template, \
729 	    req) : CRYPTO_NOT_SUPPORTED)
730 
731 #define	KCF_PROV_SIGN_RECOVER(pd, ctx, data, sig, req) ( \
732 	(KCF_PROV_SIGN_OPS(pd) && KCF_PROV_SIGN_OPS(pd)->sign_recover) ? \
733 	KCF_PROV_SIGN_OPS(pd)->sign_recover(ctx, data, sig, req) : \
734 	CRYPTO_NOT_SUPPORTED)
735 
736 #define	KCF_PROV_SIGN_RECOVER_ATOMIC(pd, session, mech, key, data, template, \
737 	    sig, req) ( \
738 	(KCF_PROV_SIGN_OPS(pd) && \
739 	KCF_PROV_SIGN_OPS(pd)->sign_recover_atomic) ? \
740 	KCF_PROV_SIGN_OPS(pd)->sign_recover_atomic( \
741 	    (pd)->pd_prov_handle, session, mech, key, data, sig, template, \
742 	    req) : CRYPTO_NOT_SUPPORTED)
743 
744 /*
745  * Wrappers for crypto_verify_ops(9S) entry points.
746  */
747 
748 #define	KCF_PROV_VERIFY_INIT(pd, ctx, mech, key, template, req) ( \
749 	(KCF_PROV_VERIFY_OPS(pd) && KCF_PROV_VERIFY_OPS(pd)->verify_init) ? \
750 	KCF_PROV_VERIFY_OPS(pd)->verify_init(ctx, mech, key, template, \
751 	    req) : CRYPTO_NOT_SUPPORTED)
752 
753 #define	KCF_PROV_VERIFY(pd, ctx, data, sig, req) ( \
754 	(KCF_PROV_VERIFY_OPS(pd) && KCF_PROV_VERIFY_OPS(pd)->verify) ? \
755 	KCF_PROV_VERIFY_OPS(pd)->verify(ctx, data, sig, req) : \
756 	CRYPTO_NOT_SUPPORTED)
757 
758 #define	KCF_PROV_VERIFY_UPDATE(pd, ctx, data, req) ( \
759 	(KCF_PROV_VERIFY_OPS(pd) && KCF_PROV_VERIFY_OPS(pd)->verify_update) ? \
760 	KCF_PROV_VERIFY_OPS(pd)->verify_update(ctx, data, req) : \
761 	CRYPTO_NOT_SUPPORTED)
762 
763 #define	KCF_PROV_VERIFY_FINAL(pd, ctx, sig, req) ( \
764 	(KCF_PROV_VERIFY_OPS(pd) && KCF_PROV_VERIFY_OPS(pd)->verify_final) ? \
765 	KCF_PROV_VERIFY_OPS(pd)->verify_final(ctx, sig, req) : \
766 	CRYPTO_NOT_SUPPORTED)
767 
768 #define	KCF_PROV_VERIFY_ATOMIC(pd, session, mech, key, data, template, sig, \
769 	    req) ( \
770 	(KCF_PROV_VERIFY_OPS(pd) && KCF_PROV_VERIFY_OPS(pd)->verify_atomic) ? \
771 	KCF_PROV_VERIFY_OPS(pd)->verify_atomic( \
772 	    (pd)->pd_prov_handle, session, mech, key, data, sig, template, \
773 	    req) : CRYPTO_NOT_SUPPORTED)
774 
775 #define	KCF_PROV_VERIFY_RECOVER_INIT(pd, ctx, mech, key, template, \
776 	    req) ( \
777 	(KCF_PROV_VERIFY_OPS(pd) && \
778 	KCF_PROV_VERIFY_OPS(pd)->verify_recover_init) ? \
779 	KCF_PROV_VERIFY_OPS(pd)->verify_recover_init(ctx, mech, key, \
780 	    template, req) : CRYPTO_NOT_SUPPORTED)
781 
782 /* verify_recover() CSPI routine has different argument order than verify() */
783 #define	KCF_PROV_VERIFY_RECOVER(pd, ctx, sig, data, req) ( \
784 	(KCF_PROV_VERIFY_OPS(pd) && KCF_PROV_VERIFY_OPS(pd)->verify_recover) ? \
785 	KCF_PROV_VERIFY_OPS(pd)->verify_recover(ctx, sig, data, req) : \
786 	CRYPTO_NOT_SUPPORTED)
787 
788 /*
789  * verify_recover_atomic() CSPI routine has different argument order
790  * than verify_atomic().
791  */
792 #define	KCF_PROV_VERIFY_RECOVER_ATOMIC(pd, session, mech, key, sig, \
793 	    template, data,  req) ( \
794 	(KCF_PROV_VERIFY_OPS(pd) && \
795 	KCF_PROV_VERIFY_OPS(pd)->verify_recover_atomic) ? \
796 	KCF_PROV_VERIFY_OPS(pd)->verify_recover_atomic( \
797 	    (pd)->pd_prov_handle, session, mech, key, sig, data, template, \
798 	    req) : CRYPTO_NOT_SUPPORTED)
799 
800 /*
801  * Wrappers for crypto_dual_ops(9S) entry points.
802  */
803 
804 #define	KCF_PROV_DIGEST_ENCRYPT_UPDATE(digest_ctx, encrypt_ctx, plaintext, \
805 	    ciphertext, req) ( \
806 	(KCF_PROV_DUAL_OPS(pd) && \
807 	KCF_PROV_DUAL_OPS(pd)->digest_encrypt_update) ? \
808 	KCF_PROV_DUAL_OPS(pd)->digest_encrypt_update( \
809 	    digest_ctx, encrypt_ctx, plaintext, ciphertext, req) : \
810 	CRYPTO_NOT_SUPPORTED)
811 
812 #define	KCF_PROV_DECRYPT_DIGEST_UPDATE(decrypt_ctx, digest_ctx, ciphertext, \
813 	    plaintext, req) ( \
814 	(KCF_PROV_DUAL_OPS(pd) && \
815 	KCF_PROV_DUAL_OPS(pd)->decrypt_digest_update) ? \
816 	KCF_PROV_DUAL_OPS(pd)->decrypt_digest_update( \
817 	    decrypt_ctx, digest_ctx, ciphertext, plaintext, req) : \
818 	CRYPTO_NOT_SUPPORTED)
819 
820 #define	KCF_PROV_SIGN_ENCRYPT_UPDATE(sign_ctx, encrypt_ctx, plaintext, \
821 	    ciphertext, req) ( \
822 	(KCF_PROV_DUAL_OPS(pd) && \
823 	KCF_PROV_DUAL_OPS(pd)->sign_encrypt_update) ? \
824 	KCF_PROV_DUAL_OPS(pd)->sign_encrypt_update( \
825 	    sign_ctx, encrypt_ctx, plaintext, ciphertext, req) : \
826 	CRYPTO_NOT_SUPPORTED)
827 
828 #define	KCF_PROV_DECRYPT_VERIFY_UPDATE(decrypt_ctx, verify_ctx, ciphertext, \
829 	    plaintext, req) ( \
830 	(KCF_PROV_DUAL_OPS(pd) && \
831 	KCF_PROV_DUAL_OPS(pd)->decrypt_verify_update) ? \
832 	KCF_PROV_DUAL_OPS(pd)->decrypt_verify_update( \
833 	    decrypt_ctx, verify_ctx, ciphertext, plaintext, req) : \
834 	CRYPTO_NOT_SUPPORTED)
835 
836 /*
837  * Wrappers for crypto_dual_cipher_mac_ops(9S) entry points.
838  */
839 
840 #define	KCF_PROV_ENCRYPT_MAC_INIT(pd, ctx, encr_mech, encr_key, mac_mech, \
841 	    mac_key, encr_ctx_template, mac_ctx_template, req) ( \
842 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
843 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_init) ? \
844 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_init( \
845 	    ctx, encr_mech, encr_key, mac_mech, mac_key, encr_ctx_template, \
846 	    mac_ctx_template, req) : \
847 	CRYPTO_NOT_SUPPORTED)
848 
849 #define	KCF_PROV_ENCRYPT_MAC(pd, ctx, plaintext, ciphertext, mac, req) ( \
850 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
851 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac) ? \
852 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac( \
853 	    ctx, plaintext, ciphertext, mac, req) : \
854 	CRYPTO_NOT_SUPPORTED)
855 
856 #define	KCF_PROV_ENCRYPT_MAC_UPDATE(pd, ctx, plaintext, ciphertext, req) ( \
857 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
858 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_update) ? \
859 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_update( \
860 	    ctx, plaintext, ciphertext, req) : \
861 	CRYPTO_NOT_SUPPORTED)
862 
863 #define	KCF_PROV_ENCRYPT_MAC_FINAL(pd, ctx, ciphertext, mac, req) ( \
864 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
865 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_final) ? \
866 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_final( \
867 	    ctx, ciphertext, mac, req) : \
868 	CRYPTO_NOT_SUPPORTED)
869 
870 #define	KCF_PROV_ENCRYPT_MAC_ATOMIC(pd, session, encr_mech, encr_key, \
871 	    mac_mech, mac_key, plaintext, ciphertext, mac, \
872 	    encr_ctx_template, mac_ctx_template, req) ( \
873 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
874 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_atomic) ? \
875 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->encrypt_mac_atomic( \
876 	    (pd)->pd_prov_handle, session, encr_mech, encr_key, \
877 	    mac_mech, mac_key, plaintext, ciphertext, mac, \
878 	    encr_ctx_template, mac_ctx_template, req) : \
879 	CRYPTO_NOT_SUPPORTED)
880 
881 #define	KCF_PROV_MAC_DECRYPT_INIT(pd, ctx, mac_mech, mac_key, decr_mech, \
882 	    decr_key, mac_ctx_template, decr_ctx_template, req) ( \
883 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
884 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_init) ? \
885 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_init( \
886 	    ctx, mac_mech, mac_key, decr_mech, decr_key, mac_ctx_template, \
887 	    decr_ctx_template, req) : \
888 	CRYPTO_NOT_SUPPORTED)
889 
890 #define	KCF_PROV_MAC_DECRYPT(pd, ctx, ciphertext, mac, plaintext, req) ( \
891 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
892 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt) ? \
893 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt( \
894 	    ctx, ciphertext, mac, plaintext, req) : \
895 	CRYPTO_NOT_SUPPORTED)
896 
897 #define	KCF_PROV_MAC_DECRYPT_UPDATE(pd, ctx, ciphertext, plaintext, req) ( \
898 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
899 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_update) ? \
900 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_update( \
901 	    ctx, ciphertext, plaintext, req) : \
902 	CRYPTO_NOT_SUPPORTED)
903 
904 #define	KCF_PROV_MAC_DECRYPT_FINAL(pd, ctx, mac, plaintext, req) ( \
905 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
906 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_final) ? \
907 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_final( \
908 	    ctx, mac, plaintext, req) : \
909 	CRYPTO_NOT_SUPPORTED)
910 
911 #define	KCF_PROV_MAC_DECRYPT_ATOMIC(pd, session, mac_mech, mac_key, \
912 	    decr_mech, decr_key, ciphertext, mac, plaintext, \
913 	    mac_ctx_template, decr_ctx_template, req) ( \
914 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
915 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_atomic) ? \
916 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_decrypt_atomic( \
917 	    (pd)->pd_prov_handle, session, mac_mech, mac_key, \
918 	    decr_mech, decr_key, ciphertext, mac, plaintext, \
919 	    mac_ctx_template, decr_ctx_template, req) : \
920 	CRYPTO_NOT_SUPPORTED)
921 
922 #define	KCF_PROV_MAC_VERIFY_DECRYPT_ATOMIC(pd, session, mac_mech, mac_key, \
923 	    decr_mech, decr_key, ciphertext, mac, plaintext, \
924 	    mac_ctx_template, decr_ctx_template, req) ( \
925 	(KCF_PROV_DUAL_CIPHER_MAC_OPS(pd) && \
926 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_verify_decrypt_atomic \
927 	    != NULL) ? \
928 	KCF_PROV_DUAL_CIPHER_MAC_OPS(pd)->mac_verify_decrypt_atomic( \
929 	    (pd)->pd_prov_handle, session, mac_mech, mac_key, \
930 	    decr_mech, decr_key, ciphertext, mac, plaintext, \
931 	    mac_ctx_template, decr_ctx_template, req) : \
932 	CRYPTO_NOT_SUPPORTED)
933 
934 /*
935  * Wrappers for crypto_random_number_ops(9S) entry points.
936  */
937 
938 #define	KCF_PROV_SEED_RANDOM(pd, session, buf, len, req) ( \
939 	(KCF_PROV_RANDOM_OPS(pd) && KCF_PROV_RANDOM_OPS(pd)->seed_random) ? \
940 	KCF_PROV_RANDOM_OPS(pd)->seed_random((pd)->pd_prov_handle, \
941 	    session, buf, len, req) : CRYPTO_NOT_SUPPORTED)
942 
943 #define	KCF_PROV_GENERATE_RANDOM(pd, session, buf, len, req) ( \
944 	(KCF_PROV_RANDOM_OPS(pd) && \
945 	KCF_PROV_RANDOM_OPS(pd)->generate_random) ? \
946 	KCF_PROV_RANDOM_OPS(pd)->generate_random((pd)->pd_prov_handle, \
947 	    session, buf, len, req) : CRYPTO_NOT_SUPPORTED)
948 
949 /*
950  * Wrappers for crypto_session_ops(9S) entry points.
951  *
952  * ops_pd is the provider descriptor that supplies the ops_vector.
953  * pd is the descriptor that supplies the provider handle.
954  * Only session open/close needs two handles.
955  */
956 
957 #define	KCF_PROV_SESSION_OPEN(ops_pd, session, req, pd) ( \
958 	(KCF_PROV_SESSION_OPS(ops_pd) && \
959 	KCF_PROV_SESSION_OPS(ops_pd)->session_open) ? \
960 	KCF_PROV_SESSION_OPS(ops_pd)->session_open((pd)->pd_prov_handle, \
961 	    session, req) : CRYPTO_NOT_SUPPORTED)
962 
963 #define	KCF_PROV_SESSION_CLOSE(ops_pd, session, req, pd) ( \
964 	(KCF_PROV_SESSION_OPS(ops_pd) && \
965 	KCF_PROV_SESSION_OPS(ops_pd)->session_close) ? \
966 	KCF_PROV_SESSION_OPS(ops_pd)->session_close((pd)->pd_prov_handle, \
967 	    session, req) : CRYPTO_NOT_SUPPORTED)
968 
969 #define	KCF_PROV_SESSION_LOGIN(pd, session, user_type, pin, len, req) ( \
970 	(KCF_PROV_SESSION_OPS(pd) && \
971 	KCF_PROV_SESSION_OPS(pd)->session_login) ? \
972 	KCF_PROV_SESSION_OPS(pd)->session_login((pd)->pd_prov_handle, \
973 	    session, user_type, pin, len, req) : CRYPTO_NOT_SUPPORTED)
974 
975 #define	KCF_PROV_SESSION_LOGOUT(pd, session, req) ( \
976 	(KCF_PROV_SESSION_OPS(pd) && \
977 	KCF_PROV_SESSION_OPS(pd)->session_logout) ? \
978 	KCF_PROV_SESSION_OPS(pd)->session_logout((pd)->pd_prov_handle, \
979 	    session, req) : CRYPTO_NOT_SUPPORTED)
980 
981 /*
982  * Wrappers for crypto_object_ops(9S) entry points.
983  */
984 
985 #define	KCF_PROV_OBJECT_CREATE(pd, session, template, count, object, req) ( \
986 	(KCF_PROV_OBJECT_OPS(pd) && KCF_PROV_OBJECT_OPS(pd)->object_create) ? \
987 	KCF_PROV_OBJECT_OPS(pd)->object_create((pd)->pd_prov_handle, \
988 	    session, template, count, object, req) : CRYPTO_NOT_SUPPORTED)
989 
990 #define	KCF_PROV_OBJECT_COPY(pd, session, object, template, count, \
991 	    new_object, req) ( \
992 	(KCF_PROV_OBJECT_OPS(pd) && KCF_PROV_OBJECT_OPS(pd)->object_copy) ? \
993 	KCF_PROV_OBJECT_OPS(pd)->object_copy((pd)->pd_prov_handle, \
994 	session, object, template, count, new_object, req) : \
995 	    CRYPTO_NOT_SUPPORTED)
996 
997 #define	KCF_PROV_OBJECT_DESTROY(pd, session, object, req) ( \
998 	(KCF_PROV_OBJECT_OPS(pd) && KCF_PROV_OBJECT_OPS(pd)->object_destroy) ? \
999 	KCF_PROV_OBJECT_OPS(pd)->object_destroy((pd)->pd_prov_handle, \
1000 	    session, object, req) : CRYPTO_NOT_SUPPORTED)
1001 
1002 #define	KCF_PROV_OBJECT_GET_SIZE(pd, session, object, size, req) ( \
1003 	(KCF_PROV_OBJECT_OPS(pd) && \
1004 	KCF_PROV_OBJECT_OPS(pd)->object_get_size) ? \
1005 	KCF_PROV_OBJECT_OPS(pd)->object_get_size((pd)->pd_prov_handle, \
1006 	    session, object, size, req) : CRYPTO_NOT_SUPPORTED)
1007 
1008 #define	KCF_PROV_OBJECT_GET_ATTRIBUTE_VALUE(pd, session, object, template, \
1009 	    count, req) ( \
1010 	(KCF_PROV_OBJECT_OPS(pd) && \
1011 	KCF_PROV_OBJECT_OPS(pd)->object_get_attribute_value) ? \
1012 	KCF_PROV_OBJECT_OPS(pd)->object_get_attribute_value( \
1013 	(pd)->pd_prov_handle, session, object, template, count, req) : \
1014 	    CRYPTO_NOT_SUPPORTED)
1015 
1016 #define	KCF_PROV_OBJECT_SET_ATTRIBUTE_VALUE(pd, session, object, template, \
1017 	    count, req) ( \
1018 	(KCF_PROV_OBJECT_OPS(pd) && \
1019 	KCF_PROV_OBJECT_OPS(pd)->object_set_attribute_value) ? \
1020 	KCF_PROV_OBJECT_OPS(pd)->object_set_attribute_value( \
1021 	(pd)->pd_prov_handle, session, object, template, count, req) : \
1022 	    CRYPTO_NOT_SUPPORTED)
1023 
1024 #define	KCF_PROV_OBJECT_FIND_INIT(pd, session, template, count, ppriv, \
1025 	    req) ( \
1026 	(KCF_PROV_OBJECT_OPS(pd) && \
1027 	KCF_PROV_OBJECT_OPS(pd)->object_find_init) ? \
1028 	KCF_PROV_OBJECT_OPS(pd)->object_find_init((pd)->pd_prov_handle, \
1029 	session, template, count, ppriv, req) : CRYPTO_NOT_SUPPORTED)
1030 
1031 #define	KCF_PROV_OBJECT_FIND(pd, ppriv, objects, max_objects, object_count, \
1032 	    req) ( \
1033 	(KCF_PROV_OBJECT_OPS(pd) && KCF_PROV_OBJECT_OPS(pd)->object_find) ? \
1034 	KCF_PROV_OBJECT_OPS(pd)->object_find( \
1035 	(pd)->pd_prov_handle, ppriv, objects, max_objects, object_count, \
1036 	req) : CRYPTO_NOT_SUPPORTED)
1037 
1038 #define	KCF_PROV_OBJECT_FIND_FINAL(pd, ppriv, req) ( \
1039 	(KCF_PROV_OBJECT_OPS(pd) && \
1040 	KCF_PROV_OBJECT_OPS(pd)->object_find_final) ? \
1041 	KCF_PROV_OBJECT_OPS(pd)->object_find_final( \
1042 	    (pd)->pd_prov_handle, ppriv, req) : CRYPTO_NOT_SUPPORTED)
1043 
1044 /*
1045  * Wrappers for crypto_key_ops(9S) entry points.
1046  */
1047 
1048 #define	KCF_PROV_KEY_GENERATE(pd, session, mech, template, count, object, \
1049 	    req) ( \
1050 	(KCF_PROV_KEY_OPS(pd) && KCF_PROV_KEY_OPS(pd)->key_generate) ? \
1051 	KCF_PROV_KEY_OPS(pd)->key_generate((pd)->pd_prov_handle, \
1052 	    session, mech, template, count, object, req) : \
1053 	CRYPTO_NOT_SUPPORTED)
1054 
1055 #define	KCF_PROV_KEY_GENERATE_PAIR(pd, session, mech, pub_template, \
1056 	    pub_count, priv_template, priv_count, pub_key, priv_key, req) ( \
1057 	(KCF_PROV_KEY_OPS(pd) && KCF_PROV_KEY_OPS(pd)->key_generate_pair) ? \
1058 	KCF_PROV_KEY_OPS(pd)->key_generate_pair((pd)->pd_prov_handle, \
1059 	    session, mech, pub_template, pub_count, priv_template, \
1060 	    priv_count, pub_key, priv_key, req) : \
1061 	CRYPTO_NOT_SUPPORTED)
1062 
1063 #define	KCF_PROV_KEY_WRAP(pd, session, mech, wrapping_key, key, wrapped_key, \
1064 	    wrapped_key_len, req) ( \
1065 	(KCF_PROV_KEY_OPS(pd) && KCF_PROV_KEY_OPS(pd)->key_wrap) ? \
1066 	KCF_PROV_KEY_OPS(pd)->key_wrap((pd)->pd_prov_handle, \
1067 	    session, mech, wrapping_key, key, wrapped_key, wrapped_key_len, \
1068 	    req) : \
1069 	CRYPTO_NOT_SUPPORTED)
1070 
1071 #define	KCF_PROV_KEY_UNWRAP(pd, session, mech, unwrapping_key, wrapped_key, \
1072 	    wrapped_key_len, template, count, key, req) ( \
1073 	(KCF_PROV_KEY_OPS(pd) && KCF_PROV_KEY_OPS(pd)->key_unwrap) ? \
1074 	KCF_PROV_KEY_OPS(pd)->key_unwrap((pd)->pd_prov_handle, \
1075 	    session, mech, unwrapping_key, wrapped_key, wrapped_key_len, \
1076 	    template, count, key, req) : \
1077 	CRYPTO_NOT_SUPPORTED)
1078 
1079 #define	KCF_PROV_KEY_DERIVE(pd, session, mech, base_key, template, count, \
1080 	    key, req) ( \
1081 	(KCF_PROV_KEY_OPS(pd) && KCF_PROV_KEY_OPS(pd)->key_derive) ? \
1082 	KCF_PROV_KEY_OPS(pd)->key_derive((pd)->pd_prov_handle, \
1083 	    session, mech, base_key, template, count, key, req) : \
1084 	CRYPTO_NOT_SUPPORTED)
1085 
1086 #define	KCF_PROV_KEY_CHECK(pd, mech, key) ( \
1087 	(KCF_PROV_KEY_OPS(pd) && KCF_PROV_KEY_OPS(pd)->key_check) ? \
1088 	KCF_PROV_KEY_OPS(pd)->key_check((pd)->pd_prov_handle, mech, key) : \
1089 	CRYPTO_NOT_SUPPORTED)
1090 
1091 /*
1092  * Wrappers for crypto_provider_management_ops(9S) entry points.
1093  *
1094  * ops_pd is the provider descriptor that supplies the ops_vector.
1095  * pd is the descriptor that supplies the provider handle.
1096  * Only ext_info needs two handles.
1097  */
1098 
1099 #define	KCF_PROV_EXT_INFO(ops_pd, provext_info, req, pd) ( \
1100 	(KCF_PROV_PROVIDER_OPS(ops_pd) && \
1101 	KCF_PROV_PROVIDER_OPS(ops_pd)->ext_info) ? \
1102 	KCF_PROV_PROVIDER_OPS(ops_pd)->ext_info((pd)->pd_prov_handle, \
1103 	    provext_info, req) : CRYPTO_NOT_SUPPORTED)
1104 
1105 #define	KCF_PROV_INIT_TOKEN(pd, pin, pin_len, label, req) ( \
1106 	(KCF_PROV_PROVIDER_OPS(pd) && KCF_PROV_PROVIDER_OPS(pd)->init_token) ? \
1107 	KCF_PROV_PROVIDER_OPS(pd)->init_token((pd)->pd_prov_handle, \
1108 	    pin, pin_len, label, req) : CRYPTO_NOT_SUPPORTED)
1109 
1110 #define	KCF_PROV_INIT_PIN(pd, session, pin, pin_len, req) ( \
1111 	(KCF_PROV_PROVIDER_OPS(pd) && KCF_PROV_PROVIDER_OPS(pd)->init_pin) ? \
1112 	KCF_PROV_PROVIDER_OPS(pd)->init_pin((pd)->pd_prov_handle, \
1113 	    session, pin, pin_len, req) : CRYPTO_NOT_SUPPORTED)
1114 
1115 #define	KCF_PROV_SET_PIN(pd, session, old_pin, old_len, new_pin, new_len, \
1116 	    req) ( \
1117 	(KCF_PROV_PROVIDER_OPS(pd) && KCF_PROV_PROVIDER_OPS(pd)->set_pin) ? \
1118 	KCF_PROV_PROVIDER_OPS(pd)->set_pin((pd)->pd_prov_handle, \
1119 	session, old_pin, old_len, new_pin, new_len, req) : \
1120 	    CRYPTO_NOT_SUPPORTED)
1121 
1122 /*
1123  * The following routines are exported by the kcf module (/kernel/misc/kcf)
1124  * to the crypto and cryptoadmin modules.
1125  */
1126 
1127 /* Digest/mac/cipher entry points that take a provider descriptor and session */
1128 extern int crypto_digest_prov(crypto_mechanism_t *, crypto_data_t *,
1129     crypto_data_t *, crypto_call_req_t *, kcf_provider_desc_t *,
1130     crypto_session_id_t);
1131 extern int crypto_digest_init_prov(kcf_provider_desc_t *, crypto_session_id_t,
1132     crypto_mechanism_t *, crypto_context_t *, crypto_call_req_t *);
1133 extern int crypto_digest_single(crypto_context_t, crypto_data_t *,
1134     crypto_data_t *, crypto_call_req_t *);
1135 
1136 extern int crypto_mac_prov(crypto_mechanism_t *, crypto_data_t *,
1137     crypto_key_t *, crypto_ctx_template_t, crypto_data_t *,
1138     crypto_call_req_t *, kcf_provider_desc_t *, crypto_session_id_t);
1139 extern int crypto_mac_verify_prov(crypto_mechanism_t *, crypto_data_t *,
1140     crypto_key_t *, crypto_ctx_template_t, crypto_data_t *,
1141     crypto_call_req_t *, kcf_provider_desc_t *, crypto_session_id_t);
1142 extern int crypto_mac_init_prov(kcf_provider_desc_t *, crypto_session_id_t,
1143     crypto_mechanism_t *, crypto_key_t *, crypto_ctx_template_t,
1144     crypto_context_t *, crypto_call_req_t *);
1145 extern int crypto_mac_single(crypto_context_t, crypto_data_t *,
1146     crypto_data_t *, crypto_call_req_t *);
1147 
1148 extern int crypto_encrypt_prov(crypto_mechanism_t *, crypto_data_t *,
1149     crypto_key_t *, crypto_ctx_template_t, crypto_data_t *,
1150     crypto_call_req_t *, kcf_provider_desc_t *, crypto_session_id_t);
1151 extern int crypto_encrypt_init_prov(kcf_provider_desc_t *,
1152     crypto_session_id_t, crypto_mechanism_t *, crypto_key_t *,
1153     crypto_ctx_template_t, crypto_context_t *, crypto_call_req_t *);
1154 extern int crypto_encrypt_single(crypto_context_t, crypto_data_t *,
1155     crypto_data_t *, crypto_call_req_t *);
1156 
1157 extern int crypto_decrypt_prov(crypto_mechanism_t *, crypto_data_t *,
1158     crypto_key_t *, crypto_ctx_template_t, crypto_data_t *,
1159     crypto_call_req_t *, kcf_provider_desc_t *, crypto_session_id_t);
1160 extern int crypto_decrypt_init_prov(kcf_provider_desc_t *, crypto_session_id_t,
1161     crypto_mechanism_t *, crypto_key_t *, crypto_ctx_template_t,
1162     crypto_context_t *, crypto_call_req_t *);
1163 extern int crypto_decrypt_single(crypto_context_t, crypto_data_t *,
1164     crypto_data_t *, crypto_call_req_t *);
1165 
1166 
1167 /* Other private digest/mac/cipher entry points not exported through k-API */
1168 extern int crypto_digest_key_prov(crypto_context_t, crypto_key_t *,
1169     crypto_call_req_t *);
1170 
1171 /* Private sign entry points exported by KCF */
1172 extern int crypto_sign_init_prov(kcf_provider_desc_t *, crypto_session_id_t,
1173     crypto_mechanism_t *, crypto_key_t *, crypto_ctx_template_t,
1174     crypto_context_t *, crypto_call_req_t *);
1175 extern int crypto_sign_single(crypto_context_t, crypto_data_t *,
1176     crypto_data_t *, crypto_call_req_t *);
1177 extern int crypto_sign_prov(kcf_provider_desc_t *, crypto_session_id_t,
1178     crypto_mechanism_t *, crypto_key_t *, crypto_data_t *,
1179     crypto_ctx_template_t, crypto_data_t *, crypto_call_req_t *);
1180 
1181 extern int crypto_sign_recover_init_prov(kcf_provider_desc_t *,
1182     crypto_session_id_t, crypto_mechanism_t *, crypto_key_t *,
1183     crypto_ctx_template_t tmpl, crypto_context_t *, crypto_call_req_t *);
1184 extern int crypto_sign_recover_single(crypto_context_t, crypto_data_t *,
1185     crypto_data_t *, crypto_call_req_t *);
1186 extern int crypto_sign_recover_prov(kcf_provider_desc_t *,
1187     crypto_session_id_t, crypto_mechanism_t *, crypto_key_t *,
1188     crypto_data_t *, crypto_ctx_template_t, crypto_data_t *,
1189     crypto_call_req_t *);
1190 
1191 /* Private verify entry points exported by KCF */
1192 extern int crypto_verify_init_prov(kcf_provider_desc_t *, crypto_session_id_t,
1193     crypto_mechanism_t *, crypto_key_t *, crypto_ctx_template_t,
1194     crypto_context_t *, crypto_call_req_t *);
1195 extern int crypto_verify_single(crypto_context_t, crypto_data_t *,
1196     crypto_data_t *, crypto_call_req_t *);
1197 extern int crypto_verify_prov(kcf_provider_desc_t *, crypto_session_id_t,
1198     crypto_mechanism_t *, crypto_key_t *, crypto_data_t *,
1199     crypto_ctx_template_t, crypto_data_t *, crypto_call_req_t *);
1200 
1201 extern int crypto_verify_recover_init_prov(kcf_provider_desc_t *,
1202     crypto_session_id_t, crypto_mechanism_t *, crypto_key_t *,
1203     crypto_ctx_template_t tmpl, crypto_context_t *, crypto_call_req_t *);
1204 extern int crypto_verify_recover_single(crypto_context_t, crypto_data_t *,
1205     crypto_data_t *, crypto_call_req_t *);
1206 extern int crypto_verify_recover_prov(kcf_provider_desc_t *,
1207     crypto_session_id_t, crypto_mechanism_t *, crypto_key_t *,
1208     crypto_data_t *, crypto_ctx_template_t, crypto_data_t *,
1209     crypto_call_req_t *);
1210 
1211 /* Private dual operations entry points exported by KCF */
1212 extern int crypto_digest_encrypt_update(crypto_context_t, crypto_context_t,
1213     crypto_data_t *, crypto_data_t *, crypto_call_req_t *);
1214 extern int crypto_decrypt_digest_update(crypto_context_t, crypto_context_t,
1215     crypto_data_t *, crypto_data_t *, crypto_call_req_t *);
1216 extern int crypto_sign_encrypt_update(crypto_context_t, crypto_context_t,
1217     crypto_data_t *, crypto_data_t *, crypto_call_req_t *);
1218 extern int crypto_decrypt_verify_update(crypto_context_t, crypto_context_t,
1219     crypto_data_t *, crypto_data_t *, crypto_call_req_t *);
1220 
1221 /* Random Number Generation */
1222 int crypto_seed_random(crypto_provider_handle_t provider, uchar_t *buf,
1223     size_t len, crypto_call_req_t *req);
1224 int crypto_generate_random(crypto_provider_handle_t provider, uchar_t *buf,
1225     size_t len, crypto_call_req_t *req);
1226 
1227 /* Session Management */
1228 int crypto_session_open(crypto_provider_handle_t provider,
1229     crypto_session_id_t *session_id, crypto_call_req_t *req);
1230 int crypto_session_close(crypto_provider_handle_t provider,
1231     crypto_session_id_t session_id, crypto_call_req_t *req);
1232 int crypto_session_login(crypto_provider_handle_t provider,
1233     crypto_session_id_t session_id, crypto_user_type_t user_type, char *pin,
1234     size_t pin_len, crypto_call_req_t *req);
1235 int crypto_session_logout(crypto_provider_handle_t provider,
1236     crypto_session_id_t session_id, crypto_call_req_t *req);
1237 
1238 /* Object Management */
1239 int crypto_object_create(crypto_provider_handle_t provider,
1240     crypto_session_id_t session_id, crypto_object_attribute_t *template,
1241     uint_t attribute_count, crypto_object_id_t *object_handle,
1242     crypto_call_req_t *req);
1243 int crypto_object_copy(crypto_provider_handle_t provider,
1244     crypto_session_id_t session_id, crypto_object_id_t object_handle,
1245     crypto_object_attribute_t *template, uint_t attribute_count,
1246     crypto_object_id_t *new_object_handle, crypto_call_req_t *req);
1247 int crypto_object_destroy(crypto_provider_handle_t provider,
1248     crypto_session_id_t session_id, crypto_object_id_t object_handle,
1249     crypto_call_req_t *req);
1250 int crypto_object_get_size(crypto_provider_handle_t provider,
1251     crypto_session_id_t session_id, crypto_object_id_t object_handle,
1252     size_t *size, crypto_call_req_t *req);
1253 int crypto_object_get_attribute_value(crypto_provider_handle_t provider,
1254     crypto_session_id_t session_id, crypto_object_id_t object_handle,
1255     crypto_object_attribute_t *template, uint_t attribute_count,
1256     crypto_call_req_t *req);
1257 int crypto_object_set_attribute_value(crypto_provider_handle_t provider,
1258     crypto_session_id_t session_id, crypto_object_id_t object_handle,
1259     crypto_object_attribute_t *template, uint_t count, crypto_call_req_t *req);
1260 int crypto_object_find_init(crypto_provider_handle_t provider,
1261     crypto_session_id_t session_id, crypto_object_attribute_t *template,
1262     uint_t attribute_count, void **provider_private, crypto_call_req_t *req);
1263 int crypto_object_find(crypto_provider_handle_t provider,
1264     void *provider_private, crypto_object_id_t *objects,
1265     uint_t max_object_count, uint_t *object_count, crypto_call_req_t *req);
1266 int crypto_object_find_final(crypto_provider_handle_t provider,
1267     void *provider_private, crypto_call_req_t *req);
1268 
1269 /* Key Generation */
1270 int crypto_generate_key(crypto_provider_handle_t provider,
1271     crypto_session_id_t session_id, crypto_mechanism_t *mech,
1272     crypto_object_attribute_t *key_attributes, uint_t attributes_count,
1273     crypto_object_id_t *key_handle, crypto_call_req_t *req);
1274 int crypto_generate_key_pair(crypto_provider_handle_t provider,
1275     crypto_session_id_t session_id, crypto_mechanism_t *mech,
1276     crypto_object_attribute_t *public_attributes, uint_t public_count,
1277     crypto_object_attribute_t *private_attributes, uint_t private_count,
1278     crypto_object_id_t *public_handle, crypto_object_id_t *private_handle,
1279     crypto_call_req_t *req);
1280 int crypto_wrap_key(crypto_provider_handle_t provider,
1281     crypto_session_id_t session_id, crypto_mechanism_t *mech,
1282     crypto_key_t *wrapping_key, crypto_object_id_t *key_handle,
1283     uchar_t *wrapped_key, size_t wrapped_key_len, crypto_call_req_t *req);
1284 int crypto_unwrap_key(crypto_provider_handle_t provider,
1285     crypto_session_id_t session_id, crypto_mechanism_t *mech, crypto_key_t *key,
1286     uchar_t *wrapped_key, size_t wrapped_key_len,
1287     crypto_object_id_t *key_handle, crypto_call_req_t *req);
1288 int crypto_derive_key(crypto_provider_handle_t provider,
1289     crypto_session_id_t session_id, crypto_mechanism_t *mech, crypto_key_t *key,
1290     crypto_object_attribute_t *attributes, uint_t attribute_count,
1291     crypto_object_id_t *object_handle, crypto_call_req_t *req);
1292 
1293 /* Provider Management */
1294 int crypto_get_provider_info(crypto_provider_id_t id,
1295     crypto_provider_info_t **info, crypto_call_req_t *req);
1296 int crypto_get_provider_mechanisms(crypto_minor_t *, crypto_provider_id_t id,
1297     uint_t *count, crypto_mech_name_t **list);
1298 int crypto_init_token(crypto_provider_handle_t provider, char *pin,
1299     size_t pin_len, char *label, crypto_call_req_t *);
1300 int crypto_init_pin(crypto_provider_handle_t provider, char *pin,
1301     size_t pin_len, crypto_call_req_t *req);
1302 int crypto_set_pin(crypto_provider_handle_t provider, char *old_pin,
1303     size_t old_len, char *new_pin, size_t new_len, crypto_call_req_t *req);
1304 void crypto_free_provider_list(crypto_provider_entry_t *list, uint_t count);
1305 void crypto_free_provider_info(crypto_provider_info_t *info);
1306 
1307 /* Administrative */
1308 int crypto_get_dev_list(uint_t *count, crypto_dev_list_entry_t **list);
1309 int crypto_get_soft_list(uint_t *count, char **list, size_t *len);
1310 int crypto_get_dev_info(char *name, uint_t instance, uint_t *count,
1311     crypto_mech_name_t **list);
1312 int crypto_get_soft_info(caddr_t name, uint_t *count,
1313     crypto_mech_name_t **list);
1314 int crypto_load_dev_disabled(char *name, uint_t instance, uint_t count,
1315     crypto_mech_name_t *list);
1316 int crypto_load_soft_disabled(caddr_t name, uint_t count,
1317     crypto_mech_name_t *list);
1318 int crypto_unload_soft_module(caddr_t path);
1319 int crypto_load_soft_config(caddr_t name, uint_t count,
1320     crypto_mech_name_t *list);
1321 int crypto_load_door(uint_t did);
1322 void crypto_free_mech_list(crypto_mech_name_t *list, uint_t count);
1323 void crypto_free_dev_list(crypto_dev_list_entry_t *list, uint_t count);
1324 
1325 /* Miscellaneous */
1326 int crypto_get_mechanism_number(caddr_t name, crypto_mech_type_t *number);
1327 int crypto_get_function_list(crypto_provider_id_t id,
1328     crypto_function_list_t **list, int kmflag);
1329 void crypto_free_function_list(crypto_function_list_t *list);
1330 int crypto_build_permitted_mech_names(kcf_provider_desc_t *,
1331     crypto_mech_name_t **, uint_t *, int);
1332 extern void kcf_init_mech_tabs(void);
1333 extern int kcf_add_mech_provider(crypto_mech_info_t *, kcf_provider_desc_t *,
1334     kcf_prov_mech_desc_t **);
1335 extern void kcf_remove_mech_provider(char *, kcf_provider_desc_t *);
1336 extern int kcf_get_mech_entry(crypto_mech_type_t, kcf_mech_entry_t **);
1337 extern kcf_provider_desc_t *kcf_alloc_provider_desc(crypto_provider_info_t *);
1338 extern void kcf_provider_zero_refcnt(kcf_provider_desc_t *);
1339 extern void kcf_free_provider_desc(kcf_provider_desc_t *);
1340 extern void kcf_soft_config_init(void);
1341 extern int get_sw_provider_for_mech(crypto_mech_name_t, char **);
1342 extern void kcf_dup_mech(crypto_mechanism_t *, crypto_mechanism_t *,
1343     crypto_mech_type_t *);
1344 extern crypto_mech_type_t crypto_mech2id_common(char *, boolean_t);
1345 extern void undo_register_provider(kcf_provider_desc_t *, boolean_t);
1346 extern void redo_register_provider(kcf_provider_desc_t *);
1347 extern void kcf_rnd_init();
1348 extern boolean_t kcf_rngprov_check(void);
1349 extern int kcf_rnd_get_pseudo_bytes(uint8_t *, size_t);
1350 extern int kcf_rnd_get_bytes(uint8_t *, size_t, boolean_t, boolean_t);
1351 extern void kcf_rnd_chpoll(int, short *, struct pollhead **);
1352 extern void kcf_rnd_schedule_timeout(boolean_t);
1353 
1354 /* Access to the provider's table */
1355 extern void kcf_prov_tab_init(void);
1356 extern int kcf_prov_tab_add_provider(kcf_provider_desc_t *);
1357 extern int kcf_prov_tab_rem_provider(crypto_provider_id_t);
1358 extern kcf_provider_desc_t *kcf_prov_tab_lookup_by_name(char *);
1359 extern kcf_provider_desc_t *kcf_prov_tab_lookup_by_dev(char *, uint_t);
1360 extern int kcf_get_hw_prov_tab(uint_t *, kcf_provider_desc_t ***, int,
1361     char *, uint_t, boolean_t);
1362 extern int kcf_get_slot_list(uint_t *, kcf_provider_desc_t ***, boolean_t);
1363 extern void kcf_free_provider_tab(uint_t, kcf_provider_desc_t **);
1364 extern kcf_provider_desc_t *kcf_prov_tab_lookup(crypto_provider_id_t);
1365 extern int kcf_get_sw_prov(crypto_mech_type_t, kcf_provider_desc_t **,
1366     boolean_t);
1367 
1368 /* Access to the policy table */
1369 extern boolean_t is_mech_disabled(kcf_provider_desc_t *, crypto_mech_name_t);
1370 extern boolean_t is_mech_disabled_byname(crypto_provider_type_t, char *,
1371     uint_t, crypto_mech_name_t);
1372 extern void kcf_policy_tab_init(void);
1373 extern void kcf_policy_free_desc(kcf_policy_desc_t *);
1374 extern void kcf_policy_remove_by_name(char *, uint_t *, crypto_mech_name_t **);
1375 extern void kcf_policy_remove_by_dev(char *, uint_t, uint_t *,
1376     crypto_mech_name_t **);
1377 extern kcf_policy_desc_t *kcf_policy_lookup_by_name(char *);
1378 extern kcf_policy_desc_t *kcf_policy_lookup_by_dev(char *, uint_t);
1379 extern int kcf_policy_load_soft_disabled(char *, uint_t, crypto_mech_name_t *,
1380     uint_t *, crypto_mech_name_t **);
1381 extern int kcf_policy_load_dev_disabled(char *, uint_t, uint_t,
1382     crypto_mech_name_t *, uint_t *, crypto_mech_name_t **);
1383 
1384 #endif	/* _KERNEL */
1385 
1386 #ifdef	__cplusplus
1387 }
1388 #endif
1389 
1390 #endif	/* _SYS_CRYPTO_IMPL_H */
1391