1734b6a94Sdarrenm /*
2734b6a94Sdarrenm * CDDL HEADER START
3734b6a94Sdarrenm *
4734b6a94Sdarrenm * The contents of this file are subject to the terms of the
5734b6a94Sdarrenm * Common Development and Distribution License (the "License").
6734b6a94Sdarrenm * You may not use this file except in compliance with the License.
7734b6a94Sdarrenm *
8734b6a94Sdarrenm * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9734b6a94Sdarrenm * or http://www.opensolaris.org/os/licensing.
10734b6a94Sdarrenm * See the License for the specific language governing permissions
11734b6a94Sdarrenm * and limitations under the License.
12734b6a94Sdarrenm *
13734b6a94Sdarrenm * When distributing Covered Code, include this CDDL HEADER in each
14734b6a94Sdarrenm * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15734b6a94Sdarrenm * If applicable, add the following below this CDDL HEADER, with the
16734b6a94Sdarrenm * fields enclosed by brackets "[]" replaced with your own identifying
17734b6a94Sdarrenm * information: Portions Copyright [yyyy] [name of copyright owner]
18734b6a94Sdarrenm *
19734b6a94Sdarrenm * CDDL HEADER END
20734b6a94Sdarrenm */
21734b6a94Sdarrenm
22734b6a94Sdarrenm /*
23d3b2efc7SAnthony Scarpino * Copyright 2010 Sun Microsystems, Inc. All rights reserved.
24734b6a94Sdarrenm * Use is subject to license terms.
25734b6a94Sdarrenm */
26734b6a94Sdarrenm
27734b6a94Sdarrenm #include <sys/modctl.h>
28734b6a94Sdarrenm #include <sys/cmn_err.h>
29734b6a94Sdarrenm #include <sys/crypto/common.h>
30734b6a94Sdarrenm #include <sys/crypto/spi.h>
31734b6a94Sdarrenm #include <sys/strsun.h>
32734b6a94Sdarrenm #include <sys/systm.h>
33734b6a94Sdarrenm #include <sys/sysmacros.h>
34734b6a94Sdarrenm #define _SHA2_IMPL
35734b6a94Sdarrenm #include <sys/sha2.h>
36b5a2d845SHai-May Chao #include <sha2/sha2_impl.h>
37734b6a94Sdarrenm
38734b6a94Sdarrenm /*
39734b6a94Sdarrenm * The sha2 module is created with two modlinkages:
40734b6a94Sdarrenm * - a modlmisc that allows consumers to directly call the entry points
41734b6a94Sdarrenm * SHA2Init, SHA2Update, and SHA2Final.
42734b6a94Sdarrenm * - a modlcrypto that allows the module to register with the Kernel
43734b6a94Sdarrenm * Cryptographic Framework (KCF) as a software provider for the SHA2
44734b6a94Sdarrenm * mechanisms.
45734b6a94Sdarrenm */
46734b6a94Sdarrenm
47734b6a94Sdarrenm static struct modlmisc modlmisc = {
48734b6a94Sdarrenm &mod_miscops,
49734b6a94Sdarrenm "SHA2 Message-Digest Algorithm"
50734b6a94Sdarrenm };
51734b6a94Sdarrenm
52734b6a94Sdarrenm static struct modlcrypto modlcrypto = {
53734b6a94Sdarrenm &mod_cryptoops,
54d2b32306Smcpowers "SHA2 Kernel SW Provider"
55734b6a94Sdarrenm };
56734b6a94Sdarrenm
57734b6a94Sdarrenm static struct modlinkage modlinkage = {
58734b6a94Sdarrenm MODREV_1, &modlmisc, &modlcrypto, NULL
59734b6a94Sdarrenm };
60734b6a94Sdarrenm
61734b6a94Sdarrenm /*
62734b6a94Sdarrenm * Macros to access the SHA2 or SHA2-HMAC contexts from a context passed
63734b6a94Sdarrenm * by KCF to one of the entry points.
64734b6a94Sdarrenm */
65734b6a94Sdarrenm
66734b6a94Sdarrenm #define PROV_SHA2_CTX(ctx) ((sha2_ctx_t *)(ctx)->cc_provider_private)
67734b6a94Sdarrenm #define PROV_SHA2_HMAC_CTX(ctx) ((sha2_hmac_ctx_t *)(ctx)->cc_provider_private)
68734b6a94Sdarrenm
69734b6a94Sdarrenm /* to extract the digest length passed as mechanism parameter */
70734b6a94Sdarrenm #define PROV_SHA2_GET_DIGEST_LEN(m, len) { \
71734b6a94Sdarrenm if (IS_P2ALIGNED((m)->cm_param, sizeof (ulong_t))) \
728de5c4f4SDan OpenSolaris Anderson (len) = (uint32_t)*((ulong_t *)(void *)(m)->cm_param); \
73734b6a94Sdarrenm else { \
74734b6a94Sdarrenm ulong_t tmp_ulong; \
75734b6a94Sdarrenm bcopy((m)->cm_param, &tmp_ulong, sizeof (ulong_t)); \
76734b6a94Sdarrenm (len) = (uint32_t)tmp_ulong; \
77734b6a94Sdarrenm } \
78734b6a94Sdarrenm }
79734b6a94Sdarrenm
80734b6a94Sdarrenm #define PROV_SHA2_DIGEST_KEY(mech, ctx, key, len, digest) { \
81734b6a94Sdarrenm SHA2Init(mech, ctx); \
82734b6a94Sdarrenm SHA2Update(ctx, key, len); \
83734b6a94Sdarrenm SHA2Final(digest, ctx); \
84734b6a94Sdarrenm }
85734b6a94Sdarrenm
86734b6a94Sdarrenm /*
87734b6a94Sdarrenm * Mechanism info structure passed to KCF during registration.
88734b6a94Sdarrenm */
89734b6a94Sdarrenm static crypto_mech_info_t sha2_mech_info_tab[] = {
90734b6a94Sdarrenm /* SHA256 */
91734b6a94Sdarrenm {SUN_CKM_SHA256, SHA256_MECH_INFO_TYPE,
92734b6a94Sdarrenm CRYPTO_FG_DIGEST | CRYPTO_FG_DIGEST_ATOMIC,
93734b6a94Sdarrenm 0, 0, CRYPTO_KEYSIZE_UNIT_IN_BITS},
94734b6a94Sdarrenm /* SHA256-HMAC */
95734b6a94Sdarrenm {SUN_CKM_SHA256_HMAC, SHA256_HMAC_MECH_INFO_TYPE,
96734b6a94Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC,
97734b6a94Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN,
985b675b31SVladimir Kotal CRYPTO_KEYSIZE_UNIT_IN_BYTES},
99734b6a94Sdarrenm /* SHA256-HMAC GENERAL */
100734b6a94Sdarrenm {SUN_CKM_SHA256_HMAC_GENERAL, SHA256_HMAC_GEN_MECH_INFO_TYPE,
101734b6a94Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC,
102734b6a94Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN,
1035b675b31SVladimir Kotal CRYPTO_KEYSIZE_UNIT_IN_BYTES},
104734b6a94Sdarrenm /* SHA384 */
105734b6a94Sdarrenm {SUN_CKM_SHA384, SHA384_MECH_INFO_TYPE,
106734b6a94Sdarrenm CRYPTO_FG_DIGEST | CRYPTO_FG_DIGEST_ATOMIC,
107734b6a94Sdarrenm 0, 0, CRYPTO_KEYSIZE_UNIT_IN_BITS},
108734b6a94Sdarrenm /* SHA384-HMAC */
109734b6a94Sdarrenm {SUN_CKM_SHA384_HMAC, SHA384_HMAC_MECH_INFO_TYPE,
110734b6a94Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC,
111734b6a94Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN,
1125b675b31SVladimir Kotal CRYPTO_KEYSIZE_UNIT_IN_BYTES},
113734b6a94Sdarrenm /* SHA384-HMAC GENERAL */
114734b6a94Sdarrenm {SUN_CKM_SHA384_HMAC_GENERAL, SHA384_HMAC_GEN_MECH_INFO_TYPE,
115734b6a94Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC,
116734b6a94Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN,
1175b675b31SVladimir Kotal CRYPTO_KEYSIZE_UNIT_IN_BYTES},
118734b6a94Sdarrenm /* SHA512 */
119734b6a94Sdarrenm {SUN_CKM_SHA512, SHA512_MECH_INFO_TYPE,
120734b6a94Sdarrenm CRYPTO_FG_DIGEST | CRYPTO_FG_DIGEST_ATOMIC,
121734b6a94Sdarrenm 0, 0, CRYPTO_KEYSIZE_UNIT_IN_BITS},
122734b6a94Sdarrenm /* SHA512-HMAC */
123734b6a94Sdarrenm {SUN_CKM_SHA512_HMAC, SHA512_HMAC_MECH_INFO_TYPE,
124734b6a94Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC,
125734b6a94Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN,
1265b675b31SVladimir Kotal CRYPTO_KEYSIZE_UNIT_IN_BYTES},
127734b6a94Sdarrenm /* SHA512-HMAC GENERAL */
128734b6a94Sdarrenm {SUN_CKM_SHA512_HMAC_GENERAL, SHA512_HMAC_GEN_MECH_INFO_TYPE,
129734b6a94Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC,
130734b6a94Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN,
1315b675b31SVladimir Kotal CRYPTO_KEYSIZE_UNIT_IN_BYTES}
132734b6a94Sdarrenm };
133734b6a94Sdarrenm
134734b6a94Sdarrenm static void sha2_provider_status(crypto_provider_handle_t, uint_t *);
135734b6a94Sdarrenm
136734b6a94Sdarrenm static crypto_control_ops_t sha2_control_ops = {
137734b6a94Sdarrenm sha2_provider_status
138734b6a94Sdarrenm };
139734b6a94Sdarrenm
140734b6a94Sdarrenm static int sha2_digest_init(crypto_ctx_t *, crypto_mechanism_t *,
141734b6a94Sdarrenm crypto_req_handle_t);
142734b6a94Sdarrenm static int sha2_digest(crypto_ctx_t *, crypto_data_t *, crypto_data_t *,
143734b6a94Sdarrenm crypto_req_handle_t);
144734b6a94Sdarrenm static int sha2_digest_update(crypto_ctx_t *, crypto_data_t *,
145734b6a94Sdarrenm crypto_req_handle_t);
146734b6a94Sdarrenm static int sha2_digest_final(crypto_ctx_t *, crypto_data_t *,
147734b6a94Sdarrenm crypto_req_handle_t);
148734b6a94Sdarrenm static int sha2_digest_atomic(crypto_provider_handle_t, crypto_session_id_t,
149734b6a94Sdarrenm crypto_mechanism_t *, crypto_data_t *, crypto_data_t *,
150734b6a94Sdarrenm crypto_req_handle_t);
151734b6a94Sdarrenm
152734b6a94Sdarrenm static crypto_digest_ops_t sha2_digest_ops = {
153734b6a94Sdarrenm sha2_digest_init,
154734b6a94Sdarrenm sha2_digest,
155734b6a94Sdarrenm sha2_digest_update,
156734b6a94Sdarrenm NULL,
157734b6a94Sdarrenm sha2_digest_final,
158734b6a94Sdarrenm sha2_digest_atomic
159734b6a94Sdarrenm };
160734b6a94Sdarrenm
161734b6a94Sdarrenm static int sha2_mac_init(crypto_ctx_t *, crypto_mechanism_t *, crypto_key_t *,
162734b6a94Sdarrenm crypto_spi_ctx_template_t, crypto_req_handle_t);
163734b6a94Sdarrenm static int sha2_mac_update(crypto_ctx_t *, crypto_data_t *,
164734b6a94Sdarrenm crypto_req_handle_t);
165734b6a94Sdarrenm static int sha2_mac_final(crypto_ctx_t *, crypto_data_t *, crypto_req_handle_t);
166734b6a94Sdarrenm static int sha2_mac_atomic(crypto_provider_handle_t, crypto_session_id_t,
167734b6a94Sdarrenm crypto_mechanism_t *, crypto_key_t *, crypto_data_t *, crypto_data_t *,
168734b6a94Sdarrenm crypto_spi_ctx_template_t, crypto_req_handle_t);
169734b6a94Sdarrenm static int sha2_mac_verify_atomic(crypto_provider_handle_t, crypto_session_id_t,
170734b6a94Sdarrenm crypto_mechanism_t *, crypto_key_t *, crypto_data_t *, crypto_data_t *,
171734b6a94Sdarrenm crypto_spi_ctx_template_t, crypto_req_handle_t);
172734b6a94Sdarrenm
173734b6a94Sdarrenm static crypto_mac_ops_t sha2_mac_ops = {
174734b6a94Sdarrenm sha2_mac_init,
175734b6a94Sdarrenm NULL,
176734b6a94Sdarrenm sha2_mac_update,
177734b6a94Sdarrenm sha2_mac_final,
178734b6a94Sdarrenm sha2_mac_atomic,
179734b6a94Sdarrenm sha2_mac_verify_atomic
180734b6a94Sdarrenm };
181734b6a94Sdarrenm
182734b6a94Sdarrenm static int sha2_create_ctx_template(crypto_provider_handle_t,
183734b6a94Sdarrenm crypto_mechanism_t *, crypto_key_t *, crypto_spi_ctx_template_t *,
184734b6a94Sdarrenm size_t *, crypto_req_handle_t);
185734b6a94Sdarrenm static int sha2_free_context(crypto_ctx_t *);
186734b6a94Sdarrenm
187734b6a94Sdarrenm static crypto_ctx_ops_t sha2_ctx_ops = {
188734b6a94Sdarrenm sha2_create_ctx_template,
189734b6a94Sdarrenm sha2_free_context
190734b6a94Sdarrenm };
191734b6a94Sdarrenm
192734b6a94Sdarrenm static crypto_ops_t sha2_crypto_ops = {
193734b6a94Sdarrenm &sha2_control_ops,
194734b6a94Sdarrenm &sha2_digest_ops,
195734b6a94Sdarrenm NULL,
196734b6a94Sdarrenm &sha2_mac_ops,
197734b6a94Sdarrenm NULL,
198734b6a94Sdarrenm NULL,
199734b6a94Sdarrenm NULL,
200734b6a94Sdarrenm NULL,
201734b6a94Sdarrenm NULL,
202734b6a94Sdarrenm NULL,
203734b6a94Sdarrenm NULL,
204734b6a94Sdarrenm NULL,
205734b6a94Sdarrenm NULL,
20673556491SAnthony Scarpino &sha2_ctx_ops,
20773556491SAnthony Scarpino NULL,
20873556491SAnthony Scarpino NULL,
209*6ea3c060SGarrett D'Amore NULL,
210734b6a94Sdarrenm };
211734b6a94Sdarrenm
212734b6a94Sdarrenm static crypto_provider_info_t sha2_prov_info = {
21373556491SAnthony Scarpino CRYPTO_SPI_VERSION_4,
214734b6a94Sdarrenm "SHA2 Software Provider",
215734b6a94Sdarrenm CRYPTO_SW_PROVIDER,
216734b6a94Sdarrenm {&modlinkage},
217734b6a94Sdarrenm NULL,
218734b6a94Sdarrenm &sha2_crypto_ops,
219734b6a94Sdarrenm sizeof (sha2_mech_info_tab)/sizeof (crypto_mech_info_t),
220734b6a94Sdarrenm sha2_mech_info_tab
221734b6a94Sdarrenm };
222734b6a94Sdarrenm
223734b6a94Sdarrenm static crypto_kcf_provider_handle_t sha2_prov_handle = NULL;
224734b6a94Sdarrenm
225734b6a94Sdarrenm int
_init()226734b6a94Sdarrenm _init()
227734b6a94Sdarrenm {
228734b6a94Sdarrenm int ret;
229734b6a94Sdarrenm
230734b6a94Sdarrenm if ((ret = mod_install(&modlinkage)) != 0)
231734b6a94Sdarrenm return (ret);
232734b6a94Sdarrenm
233734b6a94Sdarrenm /*
234d3b2efc7SAnthony Scarpino * Register with KCF. If the registration fails, do not uninstall the
235d3b2efc7SAnthony Scarpino * module, since the functionality provided by misc/sha2 should still
236d3b2efc7SAnthony Scarpino * be available.
237734b6a94Sdarrenm */
238d3b2efc7SAnthony Scarpino (void) crypto_register_provider(&sha2_prov_info, &sha2_prov_handle);
239734b6a94Sdarrenm
240734b6a94Sdarrenm return (0);
241734b6a94Sdarrenm }
242734b6a94Sdarrenm
243734b6a94Sdarrenm int
_info(struct modinfo * modinfop)244734b6a94Sdarrenm _info(struct modinfo *modinfop)
245734b6a94Sdarrenm {
246734b6a94Sdarrenm return (mod_info(&modlinkage, modinfop));
247734b6a94Sdarrenm }
248734b6a94Sdarrenm
249734b6a94Sdarrenm /*
250734b6a94Sdarrenm * KCF software provider control entry points.
251734b6a94Sdarrenm */
252734b6a94Sdarrenm /* ARGSUSED */
253734b6a94Sdarrenm static void
sha2_provider_status(crypto_provider_handle_t provider,uint_t * status)254734b6a94Sdarrenm sha2_provider_status(crypto_provider_handle_t provider, uint_t *status)
255734b6a94Sdarrenm {
256734b6a94Sdarrenm *status = CRYPTO_PROVIDER_READY;
257734b6a94Sdarrenm }
258734b6a94Sdarrenm
259734b6a94Sdarrenm /*
260734b6a94Sdarrenm * KCF software provider digest entry points.
261734b6a94Sdarrenm */
262734b6a94Sdarrenm
263734b6a94Sdarrenm static int
sha2_digest_init(crypto_ctx_t * ctx,crypto_mechanism_t * mechanism,crypto_req_handle_t req)264734b6a94Sdarrenm sha2_digest_init(crypto_ctx_t *ctx, crypto_mechanism_t *mechanism,
265734b6a94Sdarrenm crypto_req_handle_t req)
266734b6a94Sdarrenm {
267734b6a94Sdarrenm
268734b6a94Sdarrenm /*
269734b6a94Sdarrenm * Allocate and initialize SHA2 context.
270734b6a94Sdarrenm */
271734b6a94Sdarrenm ctx->cc_provider_private = kmem_alloc(sizeof (sha2_ctx_t),
272734b6a94Sdarrenm crypto_kmflag(req));
273734b6a94Sdarrenm if (ctx->cc_provider_private == NULL)
274734b6a94Sdarrenm return (CRYPTO_HOST_MEMORY);
275734b6a94Sdarrenm
276734b6a94Sdarrenm PROV_SHA2_CTX(ctx)->sc_mech_type = mechanism->cm_type;
277734b6a94Sdarrenm SHA2Init(mechanism->cm_type, &PROV_SHA2_CTX(ctx)->sc_sha2_ctx);
278734b6a94Sdarrenm
279734b6a94Sdarrenm return (CRYPTO_SUCCESS);
280734b6a94Sdarrenm }
281734b6a94Sdarrenm
282734b6a94Sdarrenm /*
283734b6a94Sdarrenm * Helper SHA2 digest update function for uio data.
284734b6a94Sdarrenm */
285734b6a94Sdarrenm static int
sha2_digest_update_uio(SHA2_CTX * sha2_ctx,crypto_data_t * data)286734b6a94Sdarrenm sha2_digest_update_uio(SHA2_CTX *sha2_ctx, crypto_data_t *data)
287734b6a94Sdarrenm {
288734b6a94Sdarrenm off_t offset = data->cd_offset;
289734b6a94Sdarrenm size_t length = data->cd_length;
290734b6a94Sdarrenm uint_t vec_idx;
291734b6a94Sdarrenm size_t cur_len;
292734b6a94Sdarrenm
293734b6a94Sdarrenm /* we support only kernel buffer */
294734b6a94Sdarrenm if (data->cd_uio->uio_segflg != UIO_SYSSPACE)
295734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
296734b6a94Sdarrenm
297734b6a94Sdarrenm /*
298734b6a94Sdarrenm * Jump to the first iovec containing data to be
299734b6a94Sdarrenm * digested.
300734b6a94Sdarrenm */
301734b6a94Sdarrenm for (vec_idx = 0; vec_idx < data->cd_uio->uio_iovcnt &&
302734b6a94Sdarrenm offset >= data->cd_uio->uio_iov[vec_idx].iov_len;
303d2b32306Smcpowers offset -= data->cd_uio->uio_iov[vec_idx++].iov_len)
304d2b32306Smcpowers ;
305734b6a94Sdarrenm if (vec_idx == data->cd_uio->uio_iovcnt) {
306734b6a94Sdarrenm /*
307734b6a94Sdarrenm * The caller specified an offset that is larger than the
308734b6a94Sdarrenm * total size of the buffers it provided.
309734b6a94Sdarrenm */
310734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
311734b6a94Sdarrenm }
312734b6a94Sdarrenm
313734b6a94Sdarrenm /*
314734b6a94Sdarrenm * Now do the digesting on the iovecs.
315734b6a94Sdarrenm */
316734b6a94Sdarrenm while (vec_idx < data->cd_uio->uio_iovcnt && length > 0) {
317734b6a94Sdarrenm cur_len = MIN(data->cd_uio->uio_iov[vec_idx].iov_len -
318734b6a94Sdarrenm offset, length);
319734b6a94Sdarrenm
320734b6a94Sdarrenm SHA2Update(sha2_ctx, (uint8_t *)data->cd_uio->
321734b6a94Sdarrenm uio_iov[vec_idx].iov_base + offset, cur_len);
322734b6a94Sdarrenm length -= cur_len;
323734b6a94Sdarrenm vec_idx++;
324734b6a94Sdarrenm offset = 0;
325734b6a94Sdarrenm }
326734b6a94Sdarrenm
327734b6a94Sdarrenm if (vec_idx == data->cd_uio->uio_iovcnt && length > 0) {
328734b6a94Sdarrenm /*
329734b6a94Sdarrenm * The end of the specified iovec's was reached but
330734b6a94Sdarrenm * the length requested could not be processed, i.e.
331734b6a94Sdarrenm * The caller requested to digest more data than it provided.
332734b6a94Sdarrenm */
333734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
334734b6a94Sdarrenm }
335734b6a94Sdarrenm
336734b6a94Sdarrenm return (CRYPTO_SUCCESS);
337734b6a94Sdarrenm }
338734b6a94Sdarrenm
339734b6a94Sdarrenm /*
340734b6a94Sdarrenm * Helper SHA2 digest final function for uio data.
341734b6a94Sdarrenm * digest_len is the length of the desired digest. If digest_len
342734b6a94Sdarrenm * is smaller than the default SHA2 digest length, the caller
343734b6a94Sdarrenm * must pass a scratch buffer, digest_scratch, which must
344734b6a94Sdarrenm * be at least the algorithm's digest length bytes.
345734b6a94Sdarrenm */
346734b6a94Sdarrenm static int
sha2_digest_final_uio(SHA2_CTX * sha2_ctx,crypto_data_t * digest,ulong_t digest_len,uchar_t * digest_scratch)347734b6a94Sdarrenm sha2_digest_final_uio(SHA2_CTX *sha2_ctx, crypto_data_t *digest,
348734b6a94Sdarrenm ulong_t digest_len, uchar_t *digest_scratch)
349734b6a94Sdarrenm {
350734b6a94Sdarrenm off_t offset = digest->cd_offset;
351734b6a94Sdarrenm uint_t vec_idx;
352734b6a94Sdarrenm
353734b6a94Sdarrenm /* we support only kernel buffer */
354734b6a94Sdarrenm if (digest->cd_uio->uio_segflg != UIO_SYSSPACE)
355734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
356734b6a94Sdarrenm
357734b6a94Sdarrenm /*
358734b6a94Sdarrenm * Jump to the first iovec containing ptr to the digest to
359734b6a94Sdarrenm * be returned.
360734b6a94Sdarrenm */
361734b6a94Sdarrenm for (vec_idx = 0; offset >= digest->cd_uio->uio_iov[vec_idx].iov_len &&
362734b6a94Sdarrenm vec_idx < digest->cd_uio->uio_iovcnt;
363d2b32306Smcpowers offset -= digest->cd_uio->uio_iov[vec_idx++].iov_len)
364d2b32306Smcpowers ;
365734b6a94Sdarrenm if (vec_idx == digest->cd_uio->uio_iovcnt) {
366734b6a94Sdarrenm /*
367734b6a94Sdarrenm * The caller specified an offset that is
368734b6a94Sdarrenm * larger than the total size of the buffers
369734b6a94Sdarrenm * it provided.
370734b6a94Sdarrenm */
371734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
372734b6a94Sdarrenm }
373734b6a94Sdarrenm
374734b6a94Sdarrenm if (offset + digest_len <=
375734b6a94Sdarrenm digest->cd_uio->uio_iov[vec_idx].iov_len) {
376734b6a94Sdarrenm /*
377734b6a94Sdarrenm * The computed SHA2 digest will fit in the current
378734b6a94Sdarrenm * iovec.
379734b6a94Sdarrenm */
380734b6a94Sdarrenm if (((sha2_ctx->algotype <= SHA256_HMAC_GEN_MECH_INFO_TYPE) &&
381734b6a94Sdarrenm (digest_len != SHA256_DIGEST_LENGTH)) ||
382734b6a94Sdarrenm ((sha2_ctx->algotype > SHA256_HMAC_GEN_MECH_INFO_TYPE) &&
383734b6a94Sdarrenm (digest_len != SHA512_DIGEST_LENGTH))) {
384734b6a94Sdarrenm /*
385734b6a94Sdarrenm * The caller requested a short digest. Digest
386734b6a94Sdarrenm * into a scratch buffer and return to
387734b6a94Sdarrenm * the user only what was requested.
388734b6a94Sdarrenm */
389734b6a94Sdarrenm SHA2Final(digest_scratch, sha2_ctx);
390734b6a94Sdarrenm
391734b6a94Sdarrenm bcopy(digest_scratch, (uchar_t *)digest->
392734b6a94Sdarrenm cd_uio->uio_iov[vec_idx].iov_base + offset,
393734b6a94Sdarrenm digest_len);
394734b6a94Sdarrenm } else {
395734b6a94Sdarrenm SHA2Final((uchar_t *)digest->
396734b6a94Sdarrenm cd_uio->uio_iov[vec_idx].iov_base + offset,
397734b6a94Sdarrenm sha2_ctx);
398734b6a94Sdarrenm
399734b6a94Sdarrenm }
400734b6a94Sdarrenm } else {
401734b6a94Sdarrenm /*
402734b6a94Sdarrenm * The computed digest will be crossing one or more iovec's.
403734b6a94Sdarrenm * This is bad performance-wise but we need to support it.
404734b6a94Sdarrenm * Allocate a small scratch buffer on the stack and
405734b6a94Sdarrenm * copy it piece meal to the specified digest iovec's.
406734b6a94Sdarrenm */
407734b6a94Sdarrenm uchar_t digest_tmp[SHA512_DIGEST_LENGTH];
408734b6a94Sdarrenm off_t scratch_offset = 0;
409734b6a94Sdarrenm size_t length = digest_len;
410734b6a94Sdarrenm size_t cur_len;
411734b6a94Sdarrenm
412734b6a94Sdarrenm SHA2Final(digest_tmp, sha2_ctx);
413734b6a94Sdarrenm
414734b6a94Sdarrenm while (vec_idx < digest->cd_uio->uio_iovcnt && length > 0) {
415734b6a94Sdarrenm cur_len =
416734b6a94Sdarrenm MIN(digest->cd_uio->uio_iov[vec_idx].iov_len -
417734b6a94Sdarrenm offset, length);
418734b6a94Sdarrenm bcopy(digest_tmp + scratch_offset,
419734b6a94Sdarrenm digest->cd_uio->uio_iov[vec_idx].iov_base + offset,
420734b6a94Sdarrenm cur_len);
421734b6a94Sdarrenm
422734b6a94Sdarrenm length -= cur_len;
423734b6a94Sdarrenm vec_idx++;
424734b6a94Sdarrenm scratch_offset += cur_len;
425734b6a94Sdarrenm offset = 0;
426734b6a94Sdarrenm }
427734b6a94Sdarrenm
428734b6a94Sdarrenm if (vec_idx == digest->cd_uio->uio_iovcnt && length > 0) {
429734b6a94Sdarrenm /*
430734b6a94Sdarrenm * The end of the specified iovec's was reached but
431734b6a94Sdarrenm * the length requested could not be processed, i.e.
432734b6a94Sdarrenm * The caller requested to digest more data than it
433734b6a94Sdarrenm * provided.
434734b6a94Sdarrenm */
435734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
436734b6a94Sdarrenm }
437734b6a94Sdarrenm }
438734b6a94Sdarrenm
439734b6a94Sdarrenm return (CRYPTO_SUCCESS);
440734b6a94Sdarrenm }
441734b6a94Sdarrenm
442734b6a94Sdarrenm /*
443734b6a94Sdarrenm * Helper SHA2 digest update for mblk's.
444734b6a94Sdarrenm */
445734b6a94Sdarrenm static int
sha2_digest_update_mblk(SHA2_CTX * sha2_ctx,crypto_data_t * data)446734b6a94Sdarrenm sha2_digest_update_mblk(SHA2_CTX *sha2_ctx, crypto_data_t *data)
447734b6a94Sdarrenm {
448734b6a94Sdarrenm off_t offset = data->cd_offset;
449734b6a94Sdarrenm size_t length = data->cd_length;
450734b6a94Sdarrenm mblk_t *mp;
451734b6a94Sdarrenm size_t cur_len;
452734b6a94Sdarrenm
453734b6a94Sdarrenm /*
454734b6a94Sdarrenm * Jump to the first mblk_t containing data to be digested.
455734b6a94Sdarrenm */
456734b6a94Sdarrenm for (mp = data->cd_mp; mp != NULL && offset >= MBLKL(mp);
457d2b32306Smcpowers offset -= MBLKL(mp), mp = mp->b_cont)
458d2b32306Smcpowers ;
459734b6a94Sdarrenm if (mp == NULL) {
460734b6a94Sdarrenm /*
461734b6a94Sdarrenm * The caller specified an offset that is larger than the
462734b6a94Sdarrenm * total size of the buffers it provided.
463734b6a94Sdarrenm */
464734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
465734b6a94Sdarrenm }
466734b6a94Sdarrenm
467734b6a94Sdarrenm /*
468734b6a94Sdarrenm * Now do the digesting on the mblk chain.
469734b6a94Sdarrenm */
470734b6a94Sdarrenm while (mp != NULL && length > 0) {
471734b6a94Sdarrenm cur_len = MIN(MBLKL(mp) - offset, length);
472734b6a94Sdarrenm SHA2Update(sha2_ctx, mp->b_rptr + offset, cur_len);
473734b6a94Sdarrenm length -= cur_len;
474734b6a94Sdarrenm offset = 0;
475734b6a94Sdarrenm mp = mp->b_cont;
476734b6a94Sdarrenm }
477734b6a94Sdarrenm
478734b6a94Sdarrenm if (mp == NULL && length > 0) {
479734b6a94Sdarrenm /*
480734b6a94Sdarrenm * The end of the mblk was reached but the length requested
481734b6a94Sdarrenm * could not be processed, i.e. The caller requested
482734b6a94Sdarrenm * to digest more data than it provided.
483734b6a94Sdarrenm */
484734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
485734b6a94Sdarrenm }
486734b6a94Sdarrenm
487734b6a94Sdarrenm return (CRYPTO_SUCCESS);
488734b6a94Sdarrenm }
489734b6a94Sdarrenm
490734b6a94Sdarrenm /*
491734b6a94Sdarrenm * Helper SHA2 digest final for mblk's.
492734b6a94Sdarrenm * digest_len is the length of the desired digest. If digest_len
493734b6a94Sdarrenm * is smaller than the default SHA2 digest length, the caller
494734b6a94Sdarrenm * must pass a scratch buffer, digest_scratch, which must
495734b6a94Sdarrenm * be at least the algorithm's digest length bytes.
496734b6a94Sdarrenm */
497734b6a94Sdarrenm static int
sha2_digest_final_mblk(SHA2_CTX * sha2_ctx,crypto_data_t * digest,ulong_t digest_len,uchar_t * digest_scratch)498734b6a94Sdarrenm sha2_digest_final_mblk(SHA2_CTX *sha2_ctx, crypto_data_t *digest,
499734b6a94Sdarrenm ulong_t digest_len, uchar_t *digest_scratch)
500734b6a94Sdarrenm {
501734b6a94Sdarrenm off_t offset = digest->cd_offset;
502734b6a94Sdarrenm mblk_t *mp;
503734b6a94Sdarrenm
504734b6a94Sdarrenm /*
505734b6a94Sdarrenm * Jump to the first mblk_t that will be used to store the digest.
506734b6a94Sdarrenm */
507734b6a94Sdarrenm for (mp = digest->cd_mp; mp != NULL && offset >= MBLKL(mp);
508d2b32306Smcpowers offset -= MBLKL(mp), mp = mp->b_cont)
509d2b32306Smcpowers ;
510734b6a94Sdarrenm if (mp == NULL) {
511734b6a94Sdarrenm /*
512734b6a94Sdarrenm * The caller specified an offset that is larger than the
513734b6a94Sdarrenm * total size of the buffers it provided.
514734b6a94Sdarrenm */
515734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
516734b6a94Sdarrenm }
517734b6a94Sdarrenm
518734b6a94Sdarrenm if (offset + digest_len <= MBLKL(mp)) {
519734b6a94Sdarrenm /*
520734b6a94Sdarrenm * The computed SHA2 digest will fit in the current mblk.
521734b6a94Sdarrenm * Do the SHA2Final() in-place.
522734b6a94Sdarrenm */
523734b6a94Sdarrenm if (((sha2_ctx->algotype <= SHA256_HMAC_GEN_MECH_INFO_TYPE) &&
524734b6a94Sdarrenm (digest_len != SHA256_DIGEST_LENGTH)) ||
525734b6a94Sdarrenm ((sha2_ctx->algotype > SHA256_HMAC_GEN_MECH_INFO_TYPE) &&
526734b6a94Sdarrenm (digest_len != SHA512_DIGEST_LENGTH))) {
527734b6a94Sdarrenm /*
528734b6a94Sdarrenm * The caller requested a short digest. Digest
529734b6a94Sdarrenm * into a scratch buffer and return to
530734b6a94Sdarrenm * the user only what was requested.
531734b6a94Sdarrenm */
532734b6a94Sdarrenm SHA2Final(digest_scratch, sha2_ctx);
533734b6a94Sdarrenm bcopy(digest_scratch, mp->b_rptr + offset, digest_len);
534734b6a94Sdarrenm } else {
535734b6a94Sdarrenm SHA2Final(mp->b_rptr + offset, sha2_ctx);
536734b6a94Sdarrenm }
537734b6a94Sdarrenm } else {
538734b6a94Sdarrenm /*
539734b6a94Sdarrenm * The computed digest will be crossing one or more mblk's.
540734b6a94Sdarrenm * This is bad performance-wise but we need to support it.
541734b6a94Sdarrenm * Allocate a small scratch buffer on the stack and
542734b6a94Sdarrenm * copy it piece meal to the specified digest iovec's.
543734b6a94Sdarrenm */
544734b6a94Sdarrenm uchar_t digest_tmp[SHA512_DIGEST_LENGTH];
545734b6a94Sdarrenm off_t scratch_offset = 0;
546734b6a94Sdarrenm size_t length = digest_len;
547734b6a94Sdarrenm size_t cur_len;
548734b6a94Sdarrenm
549734b6a94Sdarrenm SHA2Final(digest_tmp, sha2_ctx);
550734b6a94Sdarrenm
551734b6a94Sdarrenm while (mp != NULL && length > 0) {
552734b6a94Sdarrenm cur_len = MIN(MBLKL(mp) - offset, length);
553734b6a94Sdarrenm bcopy(digest_tmp + scratch_offset,
554734b6a94Sdarrenm mp->b_rptr + offset, cur_len);
555734b6a94Sdarrenm
556734b6a94Sdarrenm length -= cur_len;
557734b6a94Sdarrenm mp = mp->b_cont;
558734b6a94Sdarrenm scratch_offset += cur_len;
559734b6a94Sdarrenm offset = 0;
560734b6a94Sdarrenm }
561734b6a94Sdarrenm
562734b6a94Sdarrenm if (mp == NULL && length > 0) {
563734b6a94Sdarrenm /*
564734b6a94Sdarrenm * The end of the specified mblk was reached but
565734b6a94Sdarrenm * the length requested could not be processed, i.e.
566734b6a94Sdarrenm * The caller requested to digest more data than it
567734b6a94Sdarrenm * provided.
568734b6a94Sdarrenm */
569734b6a94Sdarrenm return (CRYPTO_DATA_LEN_RANGE);
570734b6a94Sdarrenm }
571734b6a94Sdarrenm }
572734b6a94Sdarrenm
573734b6a94Sdarrenm return (CRYPTO_SUCCESS);
574734b6a94Sdarrenm }
575734b6a94Sdarrenm
576734b6a94Sdarrenm /* ARGSUSED */
577734b6a94Sdarrenm static int
sha2_digest(crypto_ctx_t * ctx,crypto_data_t * data,crypto_data_t * digest,crypto_req_handle_t req)578734b6a94Sdarrenm sha2_digest(crypto_ctx_t *ctx, crypto_data_t *data, crypto_data_t *digest,
579734b6a94Sdarrenm crypto_req_handle_t req)
580734b6a94Sdarrenm {
581734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
582734b6a94Sdarrenm uint_t sha_digest_len;
583734b6a94Sdarrenm
584734b6a94Sdarrenm ASSERT(ctx->cc_provider_private != NULL);
585734b6a94Sdarrenm
586734b6a94Sdarrenm switch (PROV_SHA2_CTX(ctx)->sc_mech_type) {
587734b6a94Sdarrenm case SHA256_MECH_INFO_TYPE:
588734b6a94Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH;
589734b6a94Sdarrenm break;
590734b6a94Sdarrenm case SHA384_MECH_INFO_TYPE:
591734b6a94Sdarrenm sha_digest_len = SHA384_DIGEST_LENGTH;
592734b6a94Sdarrenm break;
593734b6a94Sdarrenm case SHA512_MECH_INFO_TYPE:
594734b6a94Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH;
595734b6a94Sdarrenm break;
596734b6a94Sdarrenm default:
597734b6a94Sdarrenm return (CRYPTO_MECHANISM_INVALID);
598734b6a94Sdarrenm }
599734b6a94Sdarrenm
600734b6a94Sdarrenm /*
601734b6a94Sdarrenm * We need to just return the length needed to store the output.
602734b6a94Sdarrenm * We should not destroy the context for the following cases.
603734b6a94Sdarrenm */
604734b6a94Sdarrenm if ((digest->cd_length == 0) ||
605734b6a94Sdarrenm (digest->cd_length < sha_digest_len)) {
606734b6a94Sdarrenm digest->cd_length = sha_digest_len;
607734b6a94Sdarrenm return (CRYPTO_BUFFER_TOO_SMALL);
608734b6a94Sdarrenm }
609734b6a94Sdarrenm
610734b6a94Sdarrenm /*
611734b6a94Sdarrenm * Do the SHA2 update on the specified input data.
612734b6a94Sdarrenm */
613734b6a94Sdarrenm switch (data->cd_format) {
614734b6a94Sdarrenm case CRYPTO_DATA_RAW:
615734b6a94Sdarrenm SHA2Update(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
616734b6a94Sdarrenm (uint8_t *)data->cd_raw.iov_base + data->cd_offset,
617734b6a94Sdarrenm data->cd_length);
618734b6a94Sdarrenm break;
619734b6a94Sdarrenm case CRYPTO_DATA_UIO:
620734b6a94Sdarrenm ret = sha2_digest_update_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
621734b6a94Sdarrenm data);
622734b6a94Sdarrenm break;
623734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
624734b6a94Sdarrenm ret = sha2_digest_update_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
625734b6a94Sdarrenm data);
626734b6a94Sdarrenm break;
627734b6a94Sdarrenm default:
628734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
629734b6a94Sdarrenm }
630734b6a94Sdarrenm
631734b6a94Sdarrenm if (ret != CRYPTO_SUCCESS) {
632734b6a94Sdarrenm /* the update failed, free context and bail */
633734b6a94Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_ctx_t));
634734b6a94Sdarrenm ctx->cc_provider_private = NULL;
635734b6a94Sdarrenm digest->cd_length = 0;
636734b6a94Sdarrenm return (ret);
637734b6a94Sdarrenm }
638734b6a94Sdarrenm
639734b6a94Sdarrenm /*
640734b6a94Sdarrenm * Do a SHA2 final, must be done separately since the digest
641734b6a94Sdarrenm * type can be different than the input data type.
642734b6a94Sdarrenm */
643734b6a94Sdarrenm switch (digest->cd_format) {
644734b6a94Sdarrenm case CRYPTO_DATA_RAW:
645734b6a94Sdarrenm SHA2Final((unsigned char *)digest->cd_raw.iov_base +
646734b6a94Sdarrenm digest->cd_offset, &PROV_SHA2_CTX(ctx)->sc_sha2_ctx);
647734b6a94Sdarrenm break;
648734b6a94Sdarrenm case CRYPTO_DATA_UIO:
649734b6a94Sdarrenm ret = sha2_digest_final_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
650734b6a94Sdarrenm digest, sha_digest_len, NULL);
651734b6a94Sdarrenm break;
652734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
653734b6a94Sdarrenm ret = sha2_digest_final_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
654734b6a94Sdarrenm digest, sha_digest_len, NULL);
655734b6a94Sdarrenm break;
656734b6a94Sdarrenm default:
657734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
658734b6a94Sdarrenm }
659734b6a94Sdarrenm
660734b6a94Sdarrenm /* all done, free context and return */
661734b6a94Sdarrenm
662734b6a94Sdarrenm if (ret == CRYPTO_SUCCESS)
663734b6a94Sdarrenm digest->cd_length = sha_digest_len;
664734b6a94Sdarrenm else
665734b6a94Sdarrenm digest->cd_length = 0;
666734b6a94Sdarrenm
667734b6a94Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_ctx_t));
668734b6a94Sdarrenm ctx->cc_provider_private = NULL;
669734b6a94Sdarrenm return (ret);
670734b6a94Sdarrenm }
671734b6a94Sdarrenm
672734b6a94Sdarrenm /* ARGSUSED */
673734b6a94Sdarrenm static int
sha2_digest_update(crypto_ctx_t * ctx,crypto_data_t * data,crypto_req_handle_t req)674734b6a94Sdarrenm sha2_digest_update(crypto_ctx_t *ctx, crypto_data_t *data,
675734b6a94Sdarrenm crypto_req_handle_t req)
676734b6a94Sdarrenm {
677734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
678734b6a94Sdarrenm
679734b6a94Sdarrenm ASSERT(ctx->cc_provider_private != NULL);
680734b6a94Sdarrenm
681734b6a94Sdarrenm /*
682734b6a94Sdarrenm * Do the SHA2 update on the specified input data.
683734b6a94Sdarrenm */
684734b6a94Sdarrenm switch (data->cd_format) {
685734b6a94Sdarrenm case CRYPTO_DATA_RAW:
686734b6a94Sdarrenm SHA2Update(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
687734b6a94Sdarrenm (uint8_t *)data->cd_raw.iov_base + data->cd_offset,
688734b6a94Sdarrenm data->cd_length);
689734b6a94Sdarrenm break;
690734b6a94Sdarrenm case CRYPTO_DATA_UIO:
691734b6a94Sdarrenm ret = sha2_digest_update_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
692734b6a94Sdarrenm data);
693734b6a94Sdarrenm break;
694734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
695734b6a94Sdarrenm ret = sha2_digest_update_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
696734b6a94Sdarrenm data);
697734b6a94Sdarrenm break;
698734b6a94Sdarrenm default:
699734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
700734b6a94Sdarrenm }
701734b6a94Sdarrenm
702734b6a94Sdarrenm return (ret);
703734b6a94Sdarrenm }
704734b6a94Sdarrenm
705734b6a94Sdarrenm /* ARGSUSED */
706734b6a94Sdarrenm static int
sha2_digest_final(crypto_ctx_t * ctx,crypto_data_t * digest,crypto_req_handle_t req)707734b6a94Sdarrenm sha2_digest_final(crypto_ctx_t *ctx, crypto_data_t *digest,
708734b6a94Sdarrenm crypto_req_handle_t req)
709734b6a94Sdarrenm {
710734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
711734b6a94Sdarrenm uint_t sha_digest_len;
712734b6a94Sdarrenm
713734b6a94Sdarrenm ASSERT(ctx->cc_provider_private != NULL);
714734b6a94Sdarrenm
715734b6a94Sdarrenm switch (PROV_SHA2_CTX(ctx)->sc_mech_type) {
716734b6a94Sdarrenm case SHA256_MECH_INFO_TYPE:
717734b6a94Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH;
718734b6a94Sdarrenm break;
719734b6a94Sdarrenm case SHA384_MECH_INFO_TYPE:
720734b6a94Sdarrenm sha_digest_len = SHA384_DIGEST_LENGTH;
721734b6a94Sdarrenm break;
722734b6a94Sdarrenm case SHA512_MECH_INFO_TYPE:
723734b6a94Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH;
724734b6a94Sdarrenm break;
725734b6a94Sdarrenm default:
726734b6a94Sdarrenm return (CRYPTO_MECHANISM_INVALID);
727734b6a94Sdarrenm }
728734b6a94Sdarrenm
729734b6a94Sdarrenm /*
730734b6a94Sdarrenm * We need to just return the length needed to store the output.
731734b6a94Sdarrenm * We should not destroy the context for the following cases.
732734b6a94Sdarrenm */
733734b6a94Sdarrenm if ((digest->cd_length == 0) ||
734734b6a94Sdarrenm (digest->cd_length < sha_digest_len)) {
735734b6a94Sdarrenm digest->cd_length = sha_digest_len;
736734b6a94Sdarrenm return (CRYPTO_BUFFER_TOO_SMALL);
737734b6a94Sdarrenm }
738734b6a94Sdarrenm
739734b6a94Sdarrenm /*
740734b6a94Sdarrenm * Do a SHA2 final.
741734b6a94Sdarrenm */
742734b6a94Sdarrenm switch (digest->cd_format) {
743734b6a94Sdarrenm case CRYPTO_DATA_RAW:
744734b6a94Sdarrenm SHA2Final((unsigned char *)digest->cd_raw.iov_base +
745734b6a94Sdarrenm digest->cd_offset, &PROV_SHA2_CTX(ctx)->sc_sha2_ctx);
746734b6a94Sdarrenm break;
747734b6a94Sdarrenm case CRYPTO_DATA_UIO:
748734b6a94Sdarrenm ret = sha2_digest_final_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
749734b6a94Sdarrenm digest, sha_digest_len, NULL);
750734b6a94Sdarrenm break;
751734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
752734b6a94Sdarrenm ret = sha2_digest_final_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx,
753734b6a94Sdarrenm digest, sha_digest_len, NULL);
754734b6a94Sdarrenm break;
755734b6a94Sdarrenm default:
756734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
757734b6a94Sdarrenm }
758734b6a94Sdarrenm
759734b6a94Sdarrenm /* all done, free context and return */
760734b6a94Sdarrenm
761734b6a94Sdarrenm if (ret == CRYPTO_SUCCESS)
762734b6a94Sdarrenm digest->cd_length = sha_digest_len;
763734b6a94Sdarrenm else
764734b6a94Sdarrenm digest->cd_length = 0;
765734b6a94Sdarrenm
766734b6a94Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_ctx_t));
767734b6a94Sdarrenm ctx->cc_provider_private = NULL;
768734b6a94Sdarrenm
769734b6a94Sdarrenm return (ret);
770734b6a94Sdarrenm }
771734b6a94Sdarrenm
772734b6a94Sdarrenm /* ARGSUSED */
773734b6a94Sdarrenm static int
sha2_digest_atomic(crypto_provider_handle_t provider,crypto_session_id_t session_id,crypto_mechanism_t * mechanism,crypto_data_t * data,crypto_data_t * digest,crypto_req_handle_t req)774734b6a94Sdarrenm sha2_digest_atomic(crypto_provider_handle_t provider,
775734b6a94Sdarrenm crypto_session_id_t session_id, crypto_mechanism_t *mechanism,
776734b6a94Sdarrenm crypto_data_t *data, crypto_data_t *digest,
777734b6a94Sdarrenm crypto_req_handle_t req)
778734b6a94Sdarrenm {
779734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
780734b6a94Sdarrenm SHA2_CTX sha2_ctx;
781734b6a94Sdarrenm uint32_t sha_digest_len;
782734b6a94Sdarrenm
783734b6a94Sdarrenm /*
784734b6a94Sdarrenm * Do the SHA inits.
785734b6a94Sdarrenm */
786734b6a94Sdarrenm
787734b6a94Sdarrenm SHA2Init(mechanism->cm_type, &sha2_ctx);
788734b6a94Sdarrenm
789734b6a94Sdarrenm switch (data->cd_format) {
790734b6a94Sdarrenm case CRYPTO_DATA_RAW:
791734b6a94Sdarrenm SHA2Update(&sha2_ctx, (uint8_t *)data->
792734b6a94Sdarrenm cd_raw.iov_base + data->cd_offset, data->cd_length);
793734b6a94Sdarrenm break;
794734b6a94Sdarrenm case CRYPTO_DATA_UIO:
795734b6a94Sdarrenm ret = sha2_digest_update_uio(&sha2_ctx, data);
796734b6a94Sdarrenm break;
797734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
798734b6a94Sdarrenm ret = sha2_digest_update_mblk(&sha2_ctx, data);
799734b6a94Sdarrenm break;
800734b6a94Sdarrenm default:
801734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
802734b6a94Sdarrenm }
803734b6a94Sdarrenm
804734b6a94Sdarrenm /*
805734b6a94Sdarrenm * Do the SHA updates on the specified input data.
806734b6a94Sdarrenm */
807734b6a94Sdarrenm
808734b6a94Sdarrenm if (ret != CRYPTO_SUCCESS) {
809734b6a94Sdarrenm /* the update failed, bail */
810734b6a94Sdarrenm digest->cd_length = 0;
811734b6a94Sdarrenm return (ret);
812734b6a94Sdarrenm }
813734b6a94Sdarrenm
814734b6a94Sdarrenm if (mechanism->cm_type <= SHA256_HMAC_GEN_MECH_INFO_TYPE)
815734b6a94Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH;
816734b6a94Sdarrenm else
817734b6a94Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH;
818734b6a94Sdarrenm
819734b6a94Sdarrenm /*
820734b6a94Sdarrenm * Do a SHA2 final, must be done separately since the digest
821734b6a94Sdarrenm * type can be different than the input data type.
822734b6a94Sdarrenm */
823734b6a94Sdarrenm switch (digest->cd_format) {
824734b6a94Sdarrenm case CRYPTO_DATA_RAW:
825734b6a94Sdarrenm SHA2Final((unsigned char *)digest->cd_raw.iov_base +
826734b6a94Sdarrenm digest->cd_offset, &sha2_ctx);
827734b6a94Sdarrenm break;
828734b6a94Sdarrenm case CRYPTO_DATA_UIO:
829734b6a94Sdarrenm ret = sha2_digest_final_uio(&sha2_ctx, digest,
830734b6a94Sdarrenm sha_digest_len, NULL);
831734b6a94Sdarrenm break;
832734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
833734b6a94Sdarrenm ret = sha2_digest_final_mblk(&sha2_ctx, digest,
834734b6a94Sdarrenm sha_digest_len, NULL);
835734b6a94Sdarrenm break;
836734b6a94Sdarrenm default:
837734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
838734b6a94Sdarrenm }
839734b6a94Sdarrenm
840734b6a94Sdarrenm if (ret == CRYPTO_SUCCESS)
841734b6a94Sdarrenm digest->cd_length = sha_digest_len;
842734b6a94Sdarrenm else
843734b6a94Sdarrenm digest->cd_length = 0;
844734b6a94Sdarrenm
845734b6a94Sdarrenm return (ret);
846734b6a94Sdarrenm }
847734b6a94Sdarrenm
848734b6a94Sdarrenm /*
849734b6a94Sdarrenm * KCF software provider mac entry points.
850734b6a94Sdarrenm *
851734b6a94Sdarrenm * SHA2 HMAC is: SHA2(key XOR opad, SHA2(key XOR ipad, text))
852734b6a94Sdarrenm *
853734b6a94Sdarrenm * Init:
854734b6a94Sdarrenm * The initialization routine initializes what we denote
855734b6a94Sdarrenm * as the inner and outer contexts by doing
856734b6a94Sdarrenm * - for inner context: SHA2(key XOR ipad)
857734b6a94Sdarrenm * - for outer context: SHA2(key XOR opad)
858734b6a94Sdarrenm *
859734b6a94Sdarrenm * Update:
860734b6a94Sdarrenm * Each subsequent SHA2 HMAC update will result in an
861734b6a94Sdarrenm * update of the inner context with the specified data.
862734b6a94Sdarrenm *
863734b6a94Sdarrenm * Final:
864734b6a94Sdarrenm * The SHA2 HMAC final will do a SHA2 final operation on the
865734b6a94Sdarrenm * inner context, and the resulting digest will be used
866734b6a94Sdarrenm * as the data for an update on the outer context. Last
867734b6a94Sdarrenm * but not least, a SHA2 final on the outer context will
868734b6a94Sdarrenm * be performed to obtain the SHA2 HMAC digest to return
869734b6a94Sdarrenm * to the user.
870734b6a94Sdarrenm */
871734b6a94Sdarrenm
872734b6a94Sdarrenm /*
873734b6a94Sdarrenm * Initialize a SHA2-HMAC context.
874734b6a94Sdarrenm */
875734b6a94Sdarrenm static void
sha2_mac_init_ctx(sha2_hmac_ctx_t * ctx,void * keyval,uint_t length_in_bytes)876734b6a94Sdarrenm sha2_mac_init_ctx(sha2_hmac_ctx_t *ctx, void *keyval, uint_t length_in_bytes)
877734b6a94Sdarrenm {
878734b6a94Sdarrenm uint64_t ipad[SHA512_HMAC_BLOCK_SIZE / sizeof (uint64_t)];
879734b6a94Sdarrenm uint64_t opad[SHA512_HMAC_BLOCK_SIZE / sizeof (uint64_t)];
880734b6a94Sdarrenm int i, block_size, blocks_per_int64;
881734b6a94Sdarrenm
882734b6a94Sdarrenm /* Determine the block size */
883734b6a94Sdarrenm if (ctx->hc_mech_type <= SHA256_HMAC_GEN_MECH_INFO_TYPE) {
884734b6a94Sdarrenm block_size = SHA256_HMAC_BLOCK_SIZE;
885734b6a94Sdarrenm blocks_per_int64 = SHA256_HMAC_BLOCK_SIZE / sizeof (uint64_t);
886734b6a94Sdarrenm } else {
887734b6a94Sdarrenm block_size = SHA512_HMAC_BLOCK_SIZE;
888734b6a94Sdarrenm blocks_per_int64 = SHA512_HMAC_BLOCK_SIZE / sizeof (uint64_t);
889734b6a94Sdarrenm }
890734b6a94Sdarrenm
891734b6a94Sdarrenm (void) bzero(ipad, block_size);
892734b6a94Sdarrenm (void) bzero(opad, block_size);
893734b6a94Sdarrenm (void) bcopy(keyval, ipad, length_in_bytes);
894734b6a94Sdarrenm (void) bcopy(keyval, opad, length_in_bytes);
895734b6a94Sdarrenm
896734b6a94Sdarrenm /* XOR key with ipad (0x36) and opad (0x5c) */
897734b6a94Sdarrenm for (i = 0; i < blocks_per_int64; i ++) {
898734b6a94Sdarrenm ipad[i] ^= 0x3636363636363636;
899734b6a94Sdarrenm opad[i] ^= 0x5c5c5c5c5c5c5c5c;
900734b6a94Sdarrenm }
901734b6a94Sdarrenm
902734b6a94Sdarrenm /* perform SHA2 on ipad */
903734b6a94Sdarrenm SHA2Init(ctx->hc_mech_type, &ctx->hc_icontext);
904734b6a94Sdarrenm SHA2Update(&ctx->hc_icontext, (uint8_t *)ipad, block_size);
905734b6a94Sdarrenm
906734b6a94Sdarrenm /* perform SHA2 on opad */
907734b6a94Sdarrenm SHA2Init(ctx->hc_mech_type, &ctx->hc_ocontext);
908734b6a94Sdarrenm SHA2Update(&ctx->hc_ocontext, (uint8_t *)opad, block_size);
909734b6a94Sdarrenm
910734b6a94Sdarrenm }
911734b6a94Sdarrenm
912734b6a94Sdarrenm /*
913734b6a94Sdarrenm */
914734b6a94Sdarrenm static int
sha2_mac_init(crypto_ctx_t * ctx,crypto_mechanism_t * mechanism,crypto_key_t * key,crypto_spi_ctx_template_t ctx_template,crypto_req_handle_t req)915734b6a94Sdarrenm sha2_mac_init(crypto_ctx_t *ctx, crypto_mechanism_t *mechanism,
916734b6a94Sdarrenm crypto_key_t *key, crypto_spi_ctx_template_t ctx_template,
917734b6a94Sdarrenm crypto_req_handle_t req)
918734b6a94Sdarrenm {
919734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
920734b6a94Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length);
921734b6a94Sdarrenm uint_t sha_digest_len, sha_hmac_block_size;
922734b6a94Sdarrenm
923734b6a94Sdarrenm /*
9248de5c4f4SDan OpenSolaris Anderson * Set the digest length and block size to values appropriate to the
925734b6a94Sdarrenm * mechanism
926734b6a94Sdarrenm */
927734b6a94Sdarrenm switch (mechanism->cm_type) {
928734b6a94Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE:
929734b6a94Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE:
930734b6a94Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH;
931734b6a94Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE;
932734b6a94Sdarrenm break;
933734b6a94Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE:
934734b6a94Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE:
935734b6a94Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE:
936734b6a94Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE:
937734b6a94Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH;
938734b6a94Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE;
939734b6a94Sdarrenm break;
940734b6a94Sdarrenm default:
941734b6a94Sdarrenm return (CRYPTO_MECHANISM_INVALID);
942734b6a94Sdarrenm }
943734b6a94Sdarrenm
944734b6a94Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW)
945734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
946734b6a94Sdarrenm
947734b6a94Sdarrenm ctx->cc_provider_private = kmem_alloc(sizeof (sha2_hmac_ctx_t),
948734b6a94Sdarrenm crypto_kmflag(req));
949734b6a94Sdarrenm if (ctx->cc_provider_private == NULL)
950734b6a94Sdarrenm return (CRYPTO_HOST_MEMORY);
951734b6a94Sdarrenm
952ba5f469cSkrishna PROV_SHA2_HMAC_CTX(ctx)->hc_mech_type = mechanism->cm_type;
953734b6a94Sdarrenm if (ctx_template != NULL) {
954734b6a94Sdarrenm /* reuse context template */
955734b6a94Sdarrenm bcopy(ctx_template, PROV_SHA2_HMAC_CTX(ctx),
956734b6a94Sdarrenm sizeof (sha2_hmac_ctx_t));
957734b6a94Sdarrenm } else {
958734b6a94Sdarrenm /* no context template, compute context */
959734b6a94Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) {
960734b6a94Sdarrenm uchar_t digested_key[SHA512_DIGEST_LENGTH];
961734b6a94Sdarrenm sha2_hmac_ctx_t *hmac_ctx = ctx->cc_provider_private;
962734b6a94Sdarrenm
963734b6a94Sdarrenm /*
964734b6a94Sdarrenm * Hash the passed-in key to get a smaller key.
965734b6a94Sdarrenm * The inner context is used since it hasn't been
966734b6a94Sdarrenm * initialized yet.
967734b6a94Sdarrenm */
968734b6a94Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3,
969734b6a94Sdarrenm &hmac_ctx->hc_icontext,
970734b6a94Sdarrenm key->ck_data, keylen_in_bytes, digested_key);
971734b6a94Sdarrenm sha2_mac_init_ctx(PROV_SHA2_HMAC_CTX(ctx),
972734b6a94Sdarrenm digested_key, sha_digest_len);
973734b6a94Sdarrenm } else {
974734b6a94Sdarrenm sha2_mac_init_ctx(PROV_SHA2_HMAC_CTX(ctx),
975734b6a94Sdarrenm key->ck_data, keylen_in_bytes);
976734b6a94Sdarrenm }
977734b6a94Sdarrenm }
978734b6a94Sdarrenm
979734b6a94Sdarrenm /*
980734b6a94Sdarrenm * Get the mechanism parameters, if applicable.
981734b6a94Sdarrenm */
982734b6a94Sdarrenm if (mechanism->cm_type % 3 == 2) {
983734b6a94Sdarrenm if (mechanism->cm_param == NULL ||
984734b6a94Sdarrenm mechanism->cm_param_len != sizeof (ulong_t))
985734b6a94Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID;
986734b6a94Sdarrenm PROV_SHA2_GET_DIGEST_LEN(mechanism,
987734b6a94Sdarrenm PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len);
988734b6a94Sdarrenm if (PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len > sha_digest_len)
989734b6a94Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID;
990734b6a94Sdarrenm }
991734b6a94Sdarrenm
992734b6a94Sdarrenm if (ret != CRYPTO_SUCCESS) {
993734b6a94Sdarrenm bzero(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t));
994734b6a94Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t));
995734b6a94Sdarrenm ctx->cc_provider_private = NULL;
996734b6a94Sdarrenm }
997734b6a94Sdarrenm
998734b6a94Sdarrenm return (ret);
999734b6a94Sdarrenm }
1000734b6a94Sdarrenm
1001734b6a94Sdarrenm /* ARGSUSED */
1002734b6a94Sdarrenm static int
sha2_mac_update(crypto_ctx_t * ctx,crypto_data_t * data,crypto_req_handle_t req)1003734b6a94Sdarrenm sha2_mac_update(crypto_ctx_t *ctx, crypto_data_t *data,
1004734b6a94Sdarrenm crypto_req_handle_t req)
1005734b6a94Sdarrenm {
1006734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
1007734b6a94Sdarrenm
1008734b6a94Sdarrenm ASSERT(ctx->cc_provider_private != NULL);
1009734b6a94Sdarrenm
1010734b6a94Sdarrenm /*
1011734b6a94Sdarrenm * Do a SHA2 update of the inner context using the specified
1012734b6a94Sdarrenm * data.
1013734b6a94Sdarrenm */
1014734b6a94Sdarrenm switch (data->cd_format) {
1015734b6a94Sdarrenm case CRYPTO_DATA_RAW:
1016734b6a94Sdarrenm SHA2Update(&PROV_SHA2_HMAC_CTX(ctx)->hc_icontext,
1017734b6a94Sdarrenm (uint8_t *)data->cd_raw.iov_base + data->cd_offset,
1018734b6a94Sdarrenm data->cd_length);
1019734b6a94Sdarrenm break;
1020734b6a94Sdarrenm case CRYPTO_DATA_UIO:
1021734b6a94Sdarrenm ret = sha2_digest_update_uio(
1022734b6a94Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_icontext, data);
1023734b6a94Sdarrenm break;
1024734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
1025734b6a94Sdarrenm ret = sha2_digest_update_mblk(
1026734b6a94Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_icontext, data);
1027734b6a94Sdarrenm break;
1028734b6a94Sdarrenm default:
1029734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
1030734b6a94Sdarrenm }
1031734b6a94Sdarrenm
1032734b6a94Sdarrenm return (ret);
1033734b6a94Sdarrenm }
1034734b6a94Sdarrenm
1035734b6a94Sdarrenm /* ARGSUSED */
1036734b6a94Sdarrenm static int
sha2_mac_final(crypto_ctx_t * ctx,crypto_data_t * mac,crypto_req_handle_t req)1037734b6a94Sdarrenm sha2_mac_final(crypto_ctx_t *ctx, crypto_data_t *mac, crypto_req_handle_t req)
1038734b6a94Sdarrenm {
1039734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
1040734b6a94Sdarrenm uchar_t digest[SHA512_DIGEST_LENGTH];
1041734b6a94Sdarrenm uint32_t digest_len, sha_digest_len;
1042734b6a94Sdarrenm
1043734b6a94Sdarrenm ASSERT(ctx->cc_provider_private != NULL);
1044734b6a94Sdarrenm
10458de5c4f4SDan OpenSolaris Anderson /* Set the digest lengths to values appropriate to the mechanism */
1046734b6a94Sdarrenm switch (PROV_SHA2_HMAC_CTX(ctx)->hc_mech_type) {
1047734b6a94Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE:
1048734b6a94Sdarrenm sha_digest_len = digest_len = SHA256_DIGEST_LENGTH;
1049734b6a94Sdarrenm break;
1050734b6a94Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE:
1051ba5f469cSkrishna sha_digest_len = digest_len = SHA384_DIGEST_LENGTH;
1052ba5f469cSkrishna break;
1053734b6a94Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE:
1054734b6a94Sdarrenm sha_digest_len = digest_len = SHA512_DIGEST_LENGTH;
1055734b6a94Sdarrenm break;
1056734b6a94Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE:
1057734b6a94Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH;
1058734b6a94Sdarrenm digest_len = PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len;
1059734b6a94Sdarrenm break;
1060734b6a94Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE:
1061734b6a94Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE:
1062734b6a94Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH;
1063734b6a94Sdarrenm digest_len = PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len;
1064734b6a94Sdarrenm break;
1065734b6a94Sdarrenm }
1066734b6a94Sdarrenm
1067734b6a94Sdarrenm /*
1068734b6a94Sdarrenm * We need to just return the length needed to store the output.
1069734b6a94Sdarrenm * We should not destroy the context for the following cases.
1070734b6a94Sdarrenm */
1071734b6a94Sdarrenm if ((mac->cd_length == 0) || (mac->cd_length < digest_len)) {
1072734b6a94Sdarrenm mac->cd_length = digest_len;
1073734b6a94Sdarrenm return (CRYPTO_BUFFER_TOO_SMALL);
1074734b6a94Sdarrenm }
1075734b6a94Sdarrenm
1076734b6a94Sdarrenm /*
1077734b6a94Sdarrenm * Do a SHA2 final on the inner context.
1078734b6a94Sdarrenm */
1079734b6a94Sdarrenm SHA2Final(digest, &PROV_SHA2_HMAC_CTX(ctx)->hc_icontext);
1080734b6a94Sdarrenm
1081734b6a94Sdarrenm /*
1082734b6a94Sdarrenm * Do a SHA2 update on the outer context, feeding the inner
1083734b6a94Sdarrenm * digest as data.
1084734b6a94Sdarrenm */
1085734b6a94Sdarrenm SHA2Update(&PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext, digest,
1086734b6a94Sdarrenm sha_digest_len);
1087734b6a94Sdarrenm
1088734b6a94Sdarrenm /*
1089734b6a94Sdarrenm * Do a SHA2 final on the outer context, storing the computing
1090734b6a94Sdarrenm * digest in the users buffer.
1091734b6a94Sdarrenm */
1092734b6a94Sdarrenm switch (mac->cd_format) {
1093734b6a94Sdarrenm case CRYPTO_DATA_RAW:
1094734b6a94Sdarrenm if (digest_len != sha_digest_len) {
1095734b6a94Sdarrenm /*
1096734b6a94Sdarrenm * The caller requested a short digest. Digest
1097734b6a94Sdarrenm * into a scratch buffer and return to
1098734b6a94Sdarrenm * the user only what was requested.
1099734b6a94Sdarrenm */
1100734b6a94Sdarrenm SHA2Final(digest,
1101734b6a94Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext);
1102734b6a94Sdarrenm bcopy(digest, (unsigned char *)mac->cd_raw.iov_base +
1103734b6a94Sdarrenm mac->cd_offset, digest_len);
1104734b6a94Sdarrenm } else {
1105734b6a94Sdarrenm SHA2Final((unsigned char *)mac->cd_raw.iov_base +
1106734b6a94Sdarrenm mac->cd_offset,
1107734b6a94Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext);
1108734b6a94Sdarrenm }
1109734b6a94Sdarrenm break;
1110734b6a94Sdarrenm case CRYPTO_DATA_UIO:
1111734b6a94Sdarrenm ret = sha2_digest_final_uio(
1112734b6a94Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext, mac,
1113734b6a94Sdarrenm digest_len, digest);
1114734b6a94Sdarrenm break;
1115734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
1116734b6a94Sdarrenm ret = sha2_digest_final_mblk(
1117734b6a94Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext, mac,
1118734b6a94Sdarrenm digest_len, digest);
1119734b6a94Sdarrenm break;
1120734b6a94Sdarrenm default:
1121734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
1122734b6a94Sdarrenm }
1123734b6a94Sdarrenm
1124734b6a94Sdarrenm if (ret == CRYPTO_SUCCESS)
1125734b6a94Sdarrenm mac->cd_length = digest_len;
1126734b6a94Sdarrenm else
1127734b6a94Sdarrenm mac->cd_length = 0;
1128734b6a94Sdarrenm
1129ba5f469cSkrishna bzero(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t));
1130734b6a94Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t));
1131734b6a94Sdarrenm ctx->cc_provider_private = NULL;
1132734b6a94Sdarrenm
1133734b6a94Sdarrenm return (ret);
1134734b6a94Sdarrenm }
1135734b6a94Sdarrenm
1136734b6a94Sdarrenm #define SHA2_MAC_UPDATE(data, ctx, ret) { \
1137734b6a94Sdarrenm switch (data->cd_format) { \
1138734b6a94Sdarrenm case CRYPTO_DATA_RAW: \
1139734b6a94Sdarrenm SHA2Update(&(ctx).hc_icontext, \
1140734b6a94Sdarrenm (uint8_t *)data->cd_raw.iov_base + \
1141734b6a94Sdarrenm data->cd_offset, data->cd_length); \
1142734b6a94Sdarrenm break; \
1143734b6a94Sdarrenm case CRYPTO_DATA_UIO: \
1144734b6a94Sdarrenm ret = sha2_digest_update_uio(&(ctx).hc_icontext, data); \
1145734b6a94Sdarrenm break; \
1146734b6a94Sdarrenm case CRYPTO_DATA_MBLK: \
1147734b6a94Sdarrenm ret = sha2_digest_update_mblk(&(ctx).hc_icontext, \
1148734b6a94Sdarrenm data); \
1149734b6a94Sdarrenm break; \
1150734b6a94Sdarrenm default: \
1151734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; \
1152734b6a94Sdarrenm } \
1153734b6a94Sdarrenm }
1154734b6a94Sdarrenm
1155734b6a94Sdarrenm /* ARGSUSED */
1156734b6a94Sdarrenm static int
sha2_mac_atomic(crypto_provider_handle_t provider,crypto_session_id_t session_id,crypto_mechanism_t * mechanism,crypto_key_t * key,crypto_data_t * data,crypto_data_t * mac,crypto_spi_ctx_template_t ctx_template,crypto_req_handle_t req)1157734b6a94Sdarrenm sha2_mac_atomic(crypto_provider_handle_t provider,
1158734b6a94Sdarrenm crypto_session_id_t session_id, crypto_mechanism_t *mechanism,
1159734b6a94Sdarrenm crypto_key_t *key, crypto_data_t *data, crypto_data_t *mac,
1160734b6a94Sdarrenm crypto_spi_ctx_template_t ctx_template, crypto_req_handle_t req)
1161734b6a94Sdarrenm {
1162734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
1163734b6a94Sdarrenm uchar_t digest[SHA512_DIGEST_LENGTH];
1164734b6a94Sdarrenm sha2_hmac_ctx_t sha2_hmac_ctx;
1165734b6a94Sdarrenm uint32_t sha_digest_len, digest_len, sha_hmac_block_size;
1166734b6a94Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length);
1167734b6a94Sdarrenm
1168734b6a94Sdarrenm /*
11698de5c4f4SDan OpenSolaris Anderson * Set the digest length and block size to values appropriate to the
1170734b6a94Sdarrenm * mechanism
1171734b6a94Sdarrenm */
1172734b6a94Sdarrenm switch (mechanism->cm_type) {
1173734b6a94Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE:
1174734b6a94Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE:
1175734b6a94Sdarrenm sha_digest_len = digest_len = SHA256_DIGEST_LENGTH;
1176734b6a94Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE;
1177734b6a94Sdarrenm break;
1178734b6a94Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE:
1179734b6a94Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE:
1180734b6a94Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE:
1181734b6a94Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE:
1182734b6a94Sdarrenm sha_digest_len = digest_len = SHA512_DIGEST_LENGTH;
1183734b6a94Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE;
1184734b6a94Sdarrenm break;
1185734b6a94Sdarrenm default:
1186734b6a94Sdarrenm return (CRYPTO_MECHANISM_INVALID);
1187734b6a94Sdarrenm }
1188734b6a94Sdarrenm
1189734b6a94Sdarrenm /* Add support for key by attributes (RFE 4706552) */
1190734b6a94Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW)
1191734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
1192734b6a94Sdarrenm
1193734b6a94Sdarrenm if (ctx_template != NULL) {
1194734b6a94Sdarrenm /* reuse context template */
1195734b6a94Sdarrenm bcopy(ctx_template, &sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t));
1196734b6a94Sdarrenm } else {
1197734b6a94Sdarrenm sha2_hmac_ctx.hc_mech_type = mechanism->cm_type;
1198734b6a94Sdarrenm /* no context template, initialize context */
1199734b6a94Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) {
1200734b6a94Sdarrenm /*
1201734b6a94Sdarrenm * Hash the passed-in key to get a smaller key.
1202734b6a94Sdarrenm * The inner context is used since it hasn't been
1203734b6a94Sdarrenm * initialized yet.
1204734b6a94Sdarrenm */
1205734b6a94Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3,
1206734b6a94Sdarrenm &sha2_hmac_ctx.hc_icontext,
1207734b6a94Sdarrenm key->ck_data, keylen_in_bytes, digest);
1208734b6a94Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, digest,
1209734b6a94Sdarrenm sha_digest_len);
1210734b6a94Sdarrenm } else {
1211734b6a94Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, key->ck_data,
1212734b6a94Sdarrenm keylen_in_bytes);
1213734b6a94Sdarrenm }
1214734b6a94Sdarrenm }
1215734b6a94Sdarrenm
1216734b6a94Sdarrenm /* get the mechanism parameters, if applicable */
1217734b6a94Sdarrenm if ((mechanism->cm_type % 3) == 2) {
1218734b6a94Sdarrenm if (mechanism->cm_param == NULL ||
1219734b6a94Sdarrenm mechanism->cm_param_len != sizeof (ulong_t)) {
1220734b6a94Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID;
1221734b6a94Sdarrenm goto bail;
1222734b6a94Sdarrenm }
1223734b6a94Sdarrenm PROV_SHA2_GET_DIGEST_LEN(mechanism, digest_len);
1224734b6a94Sdarrenm if (digest_len > sha_digest_len) {
1225734b6a94Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID;
1226734b6a94Sdarrenm goto bail;
1227734b6a94Sdarrenm }
1228734b6a94Sdarrenm }
1229734b6a94Sdarrenm
1230734b6a94Sdarrenm /* do a SHA2 update of the inner context using the specified data */
1231734b6a94Sdarrenm SHA2_MAC_UPDATE(data, sha2_hmac_ctx, ret);
1232734b6a94Sdarrenm if (ret != CRYPTO_SUCCESS)
1233734b6a94Sdarrenm /* the update failed, free context and bail */
1234734b6a94Sdarrenm goto bail;
1235734b6a94Sdarrenm
1236734b6a94Sdarrenm /*
1237734b6a94Sdarrenm * Do a SHA2 final on the inner context.
1238734b6a94Sdarrenm */
1239734b6a94Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_icontext);
1240734b6a94Sdarrenm
1241734b6a94Sdarrenm /*
1242734b6a94Sdarrenm * Do an SHA2 update on the outer context, feeding the inner
1243734b6a94Sdarrenm * digest as data.
1244734b6a94Sdarrenm *
12450358d3a6Sdanmcd * HMAC-SHA384 needs special handling as the outer hash needs only 48
12460358d3a6Sdanmcd * bytes of the inner hash value.
1247734b6a94Sdarrenm */
1248734b6a94Sdarrenm if (mechanism->cm_type == SHA384_HMAC_MECH_INFO_TYPE ||
1249734b6a94Sdarrenm mechanism->cm_type == SHA384_HMAC_GEN_MECH_INFO_TYPE)
1250734b6a94Sdarrenm SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest,
1251734b6a94Sdarrenm SHA384_DIGEST_LENGTH);
1252734b6a94Sdarrenm else
1253734b6a94Sdarrenm SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest, sha_digest_len);
1254734b6a94Sdarrenm
1255734b6a94Sdarrenm /*
1256734b6a94Sdarrenm * Do a SHA2 final on the outer context, storing the computed
1257734b6a94Sdarrenm * digest in the users buffer.
1258734b6a94Sdarrenm */
1259734b6a94Sdarrenm switch (mac->cd_format) {
1260734b6a94Sdarrenm case CRYPTO_DATA_RAW:
1261734b6a94Sdarrenm if (digest_len != sha_digest_len) {
1262734b6a94Sdarrenm /*
1263734b6a94Sdarrenm * The caller requested a short digest. Digest
1264734b6a94Sdarrenm * into a scratch buffer and return to
1265734b6a94Sdarrenm * the user only what was requested.
1266734b6a94Sdarrenm */
1267734b6a94Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_ocontext);
1268734b6a94Sdarrenm bcopy(digest, (unsigned char *)mac->cd_raw.iov_base +
1269734b6a94Sdarrenm mac->cd_offset, digest_len);
1270734b6a94Sdarrenm } else {
1271734b6a94Sdarrenm SHA2Final((unsigned char *)mac->cd_raw.iov_base +
1272734b6a94Sdarrenm mac->cd_offset, &sha2_hmac_ctx.hc_ocontext);
1273734b6a94Sdarrenm }
1274734b6a94Sdarrenm break;
1275734b6a94Sdarrenm case CRYPTO_DATA_UIO:
1276734b6a94Sdarrenm ret = sha2_digest_final_uio(&sha2_hmac_ctx.hc_ocontext, mac,
1277734b6a94Sdarrenm digest_len, digest);
1278734b6a94Sdarrenm break;
1279734b6a94Sdarrenm case CRYPTO_DATA_MBLK:
1280734b6a94Sdarrenm ret = sha2_digest_final_mblk(&sha2_hmac_ctx.hc_ocontext, mac,
1281734b6a94Sdarrenm digest_len, digest);
1282734b6a94Sdarrenm break;
1283734b6a94Sdarrenm default:
1284734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
1285734b6a94Sdarrenm }
1286734b6a94Sdarrenm
1287734b6a94Sdarrenm if (ret == CRYPTO_SUCCESS) {
1288734b6a94Sdarrenm mac->cd_length = digest_len;
1289734b6a94Sdarrenm return (CRYPTO_SUCCESS);
1290734b6a94Sdarrenm }
1291734b6a94Sdarrenm bail:
1292734b6a94Sdarrenm bzero(&sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t));
1293734b6a94Sdarrenm mac->cd_length = 0;
1294734b6a94Sdarrenm return (ret);
1295734b6a94Sdarrenm }
1296734b6a94Sdarrenm
1297734b6a94Sdarrenm /* ARGSUSED */
1298734b6a94Sdarrenm static int
sha2_mac_verify_atomic(crypto_provider_handle_t provider,crypto_session_id_t session_id,crypto_mechanism_t * mechanism,crypto_key_t * key,crypto_data_t * data,crypto_data_t * mac,crypto_spi_ctx_template_t ctx_template,crypto_req_handle_t req)1299734b6a94Sdarrenm sha2_mac_verify_atomic(crypto_provider_handle_t provider,
1300734b6a94Sdarrenm crypto_session_id_t session_id, crypto_mechanism_t *mechanism,
1301734b6a94Sdarrenm crypto_key_t *key, crypto_data_t *data, crypto_data_t *mac,
1302734b6a94Sdarrenm crypto_spi_ctx_template_t ctx_template, crypto_req_handle_t req)
1303734b6a94Sdarrenm {
1304734b6a94Sdarrenm int ret = CRYPTO_SUCCESS;
1305734b6a94Sdarrenm uchar_t digest[SHA512_DIGEST_LENGTH];
1306734b6a94Sdarrenm sha2_hmac_ctx_t sha2_hmac_ctx;
1307734b6a94Sdarrenm uint32_t sha_digest_len, digest_len, sha_hmac_block_size;
1308734b6a94Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length);
1309734b6a94Sdarrenm
1310734b6a94Sdarrenm /*
13118de5c4f4SDan OpenSolaris Anderson * Set the digest length and block size to values appropriate to the
1312734b6a94Sdarrenm * mechanism
1313734b6a94Sdarrenm */
1314734b6a94Sdarrenm switch (mechanism->cm_type) {
1315734b6a94Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE:
1316734b6a94Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE:
1317734b6a94Sdarrenm sha_digest_len = digest_len = SHA256_DIGEST_LENGTH;
1318734b6a94Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE;
1319734b6a94Sdarrenm break;
1320734b6a94Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE:
1321734b6a94Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE:
1322734b6a94Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE:
1323734b6a94Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE:
1324734b6a94Sdarrenm sha_digest_len = digest_len = SHA512_DIGEST_LENGTH;
1325734b6a94Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE;
1326734b6a94Sdarrenm break;
1327734b6a94Sdarrenm default:
1328734b6a94Sdarrenm return (CRYPTO_MECHANISM_INVALID);
1329734b6a94Sdarrenm }
1330734b6a94Sdarrenm
1331734b6a94Sdarrenm /* Add support for key by attributes (RFE 4706552) */
1332734b6a94Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW)
1333734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
1334734b6a94Sdarrenm
1335734b6a94Sdarrenm if (ctx_template != NULL) {
1336734b6a94Sdarrenm /* reuse context template */
1337734b6a94Sdarrenm bcopy(ctx_template, &sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t));
1338734b6a94Sdarrenm } else {
133952aa4e90SMark Powers sha2_hmac_ctx.hc_mech_type = mechanism->cm_type;
1340734b6a94Sdarrenm /* no context template, initialize context */
1341734b6a94Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) {
1342734b6a94Sdarrenm /*
1343734b6a94Sdarrenm * Hash the passed-in key to get a smaller key.
1344734b6a94Sdarrenm * The inner context is used since it hasn't been
1345734b6a94Sdarrenm * initialized yet.
1346734b6a94Sdarrenm */
1347734b6a94Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3,
1348734b6a94Sdarrenm &sha2_hmac_ctx.hc_icontext,
1349734b6a94Sdarrenm key->ck_data, keylen_in_bytes, digest);
1350734b6a94Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, digest,
1351734b6a94Sdarrenm sha_digest_len);
1352734b6a94Sdarrenm } else {
1353734b6a94Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, key->ck_data,
1354734b6a94Sdarrenm keylen_in_bytes);
1355734b6a94Sdarrenm }
1356734b6a94Sdarrenm }
1357734b6a94Sdarrenm
1358734b6a94Sdarrenm /* get the mechanism parameters, if applicable */
1359734b6a94Sdarrenm if (mechanism->cm_type % 3 == 2) {
1360734b6a94Sdarrenm if (mechanism->cm_param == NULL ||
1361734b6a94Sdarrenm mechanism->cm_param_len != sizeof (ulong_t)) {
1362734b6a94Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID;
1363734b6a94Sdarrenm goto bail;
1364734b6a94Sdarrenm }
1365734b6a94Sdarrenm PROV_SHA2_GET_DIGEST_LEN(mechanism, digest_len);
1366734b6a94Sdarrenm if (digest_len > sha_digest_len) {
1367734b6a94Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID;
1368734b6a94Sdarrenm goto bail;
1369734b6a94Sdarrenm }
1370734b6a94Sdarrenm }
1371734b6a94Sdarrenm
1372734b6a94Sdarrenm if (mac->cd_length != digest_len) {
1373734b6a94Sdarrenm ret = CRYPTO_INVALID_MAC;
1374734b6a94Sdarrenm goto bail;
1375734b6a94Sdarrenm }
1376734b6a94Sdarrenm
1377734b6a94Sdarrenm /* do a SHA2 update of the inner context using the specified data */
1378734b6a94Sdarrenm SHA2_MAC_UPDATE(data, sha2_hmac_ctx, ret);
1379734b6a94Sdarrenm if (ret != CRYPTO_SUCCESS)
1380734b6a94Sdarrenm /* the update failed, free context and bail */
1381734b6a94Sdarrenm goto bail;
1382734b6a94Sdarrenm
1383734b6a94Sdarrenm /* do a SHA2 final on the inner context */
1384734b6a94Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_icontext);
1385734b6a94Sdarrenm
1386734b6a94Sdarrenm /*
1387734b6a94Sdarrenm * Do an SHA2 update on the outer context, feeding the inner
1388734b6a94Sdarrenm * digest as data.
13890358d3a6Sdanmcd *
13900358d3a6Sdanmcd * HMAC-SHA384 needs special handling as the outer hash needs only 48
13910358d3a6Sdanmcd * bytes of the inner hash value.
1392734b6a94Sdarrenm */
13930358d3a6Sdanmcd if (mechanism->cm_type == SHA384_HMAC_MECH_INFO_TYPE ||
13940358d3a6Sdanmcd mechanism->cm_type == SHA384_HMAC_GEN_MECH_INFO_TYPE)
13950358d3a6Sdanmcd SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest,
13960358d3a6Sdanmcd SHA384_DIGEST_LENGTH);
13970358d3a6Sdanmcd else
1398734b6a94Sdarrenm SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest, sha_digest_len);
1399734b6a94Sdarrenm
1400734b6a94Sdarrenm /*
1401734b6a94Sdarrenm * Do a SHA2 final on the outer context, storing the computed
1402734b6a94Sdarrenm * digest in the users buffer.
1403734b6a94Sdarrenm */
1404734b6a94Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_ocontext);
1405734b6a94Sdarrenm
1406734b6a94Sdarrenm /*
1407734b6a94Sdarrenm * Compare the computed digest against the expected digest passed
1408734b6a94Sdarrenm * as argument.
1409734b6a94Sdarrenm */
1410734b6a94Sdarrenm
1411734b6a94Sdarrenm switch (mac->cd_format) {
1412734b6a94Sdarrenm
1413734b6a94Sdarrenm case CRYPTO_DATA_RAW:
1414734b6a94Sdarrenm if (bcmp(digest, (unsigned char *)mac->cd_raw.iov_base +
1415734b6a94Sdarrenm mac->cd_offset, digest_len) != 0)
1416734b6a94Sdarrenm ret = CRYPTO_INVALID_MAC;
1417734b6a94Sdarrenm break;
1418734b6a94Sdarrenm
1419734b6a94Sdarrenm case CRYPTO_DATA_UIO: {
1420734b6a94Sdarrenm off_t offset = mac->cd_offset;
1421734b6a94Sdarrenm uint_t vec_idx;
1422734b6a94Sdarrenm off_t scratch_offset = 0;
1423734b6a94Sdarrenm size_t length = digest_len;
1424734b6a94Sdarrenm size_t cur_len;
1425734b6a94Sdarrenm
1426734b6a94Sdarrenm /* we support only kernel buffer */
1427734b6a94Sdarrenm if (mac->cd_uio->uio_segflg != UIO_SYSSPACE)
1428734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
1429734b6a94Sdarrenm
1430734b6a94Sdarrenm /* jump to the first iovec containing the expected digest */
1431734b6a94Sdarrenm for (vec_idx = 0;
1432734b6a94Sdarrenm offset >= mac->cd_uio->uio_iov[vec_idx].iov_len &&
1433734b6a94Sdarrenm vec_idx < mac->cd_uio->uio_iovcnt;
1434d2b32306Smcpowers offset -= mac->cd_uio->uio_iov[vec_idx++].iov_len)
1435d2b32306Smcpowers ;
1436734b6a94Sdarrenm if (vec_idx == mac->cd_uio->uio_iovcnt) {
1437734b6a94Sdarrenm /*
1438734b6a94Sdarrenm * The caller specified an offset that is
1439734b6a94Sdarrenm * larger than the total size of the buffers
1440734b6a94Sdarrenm * it provided.
1441734b6a94Sdarrenm */
1442734b6a94Sdarrenm ret = CRYPTO_DATA_LEN_RANGE;
1443734b6a94Sdarrenm break;
1444734b6a94Sdarrenm }
1445734b6a94Sdarrenm
1446734b6a94Sdarrenm /* do the comparison of computed digest vs specified one */
1447734b6a94Sdarrenm while (vec_idx < mac->cd_uio->uio_iovcnt && length > 0) {
1448734b6a94Sdarrenm cur_len = MIN(mac->cd_uio->uio_iov[vec_idx].iov_len -
1449734b6a94Sdarrenm offset, length);
1450734b6a94Sdarrenm
1451734b6a94Sdarrenm if (bcmp(digest + scratch_offset,
1452734b6a94Sdarrenm mac->cd_uio->uio_iov[vec_idx].iov_base + offset,
1453734b6a94Sdarrenm cur_len) != 0) {
1454734b6a94Sdarrenm ret = CRYPTO_INVALID_MAC;
1455734b6a94Sdarrenm break;
1456734b6a94Sdarrenm }
1457734b6a94Sdarrenm
1458734b6a94Sdarrenm length -= cur_len;
1459734b6a94Sdarrenm vec_idx++;
1460734b6a94Sdarrenm scratch_offset += cur_len;
1461734b6a94Sdarrenm offset = 0;
1462734b6a94Sdarrenm }
1463734b6a94Sdarrenm break;
1464734b6a94Sdarrenm }
1465734b6a94Sdarrenm
1466734b6a94Sdarrenm case CRYPTO_DATA_MBLK: {
1467734b6a94Sdarrenm off_t offset = mac->cd_offset;
1468734b6a94Sdarrenm mblk_t *mp;
1469734b6a94Sdarrenm off_t scratch_offset = 0;
1470734b6a94Sdarrenm size_t length = digest_len;
1471734b6a94Sdarrenm size_t cur_len;
1472734b6a94Sdarrenm
1473734b6a94Sdarrenm /* jump to the first mblk_t containing the expected digest */
1474734b6a94Sdarrenm for (mp = mac->cd_mp; mp != NULL && offset >= MBLKL(mp);
1475d2b32306Smcpowers offset -= MBLKL(mp), mp = mp->b_cont)
1476d2b32306Smcpowers ;
1477734b6a94Sdarrenm if (mp == NULL) {
1478734b6a94Sdarrenm /*
1479734b6a94Sdarrenm * The caller specified an offset that is larger than
1480734b6a94Sdarrenm * the total size of the buffers it provided.
1481734b6a94Sdarrenm */
1482734b6a94Sdarrenm ret = CRYPTO_DATA_LEN_RANGE;
1483734b6a94Sdarrenm break;
1484734b6a94Sdarrenm }
1485734b6a94Sdarrenm
1486734b6a94Sdarrenm while (mp != NULL && length > 0) {
1487734b6a94Sdarrenm cur_len = MIN(MBLKL(mp) - offset, length);
1488734b6a94Sdarrenm if (bcmp(digest + scratch_offset,
1489734b6a94Sdarrenm mp->b_rptr + offset, cur_len) != 0) {
1490734b6a94Sdarrenm ret = CRYPTO_INVALID_MAC;
1491734b6a94Sdarrenm break;
1492734b6a94Sdarrenm }
1493734b6a94Sdarrenm
1494734b6a94Sdarrenm length -= cur_len;
1495734b6a94Sdarrenm mp = mp->b_cont;
1496734b6a94Sdarrenm scratch_offset += cur_len;
1497734b6a94Sdarrenm offset = 0;
1498734b6a94Sdarrenm }
1499734b6a94Sdarrenm break;
1500734b6a94Sdarrenm }
1501734b6a94Sdarrenm
1502734b6a94Sdarrenm default:
1503734b6a94Sdarrenm ret = CRYPTO_ARGUMENTS_BAD;
1504734b6a94Sdarrenm }
1505734b6a94Sdarrenm
1506734b6a94Sdarrenm return (ret);
1507734b6a94Sdarrenm bail:
1508734b6a94Sdarrenm bzero(&sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t));
1509734b6a94Sdarrenm mac->cd_length = 0;
1510734b6a94Sdarrenm return (ret);
1511734b6a94Sdarrenm }
1512734b6a94Sdarrenm
1513734b6a94Sdarrenm /*
1514734b6a94Sdarrenm * KCF software provider context management entry points.
1515734b6a94Sdarrenm */
1516734b6a94Sdarrenm
1517734b6a94Sdarrenm /* ARGSUSED */
1518734b6a94Sdarrenm static int
sha2_create_ctx_template(crypto_provider_handle_t provider,crypto_mechanism_t * mechanism,crypto_key_t * key,crypto_spi_ctx_template_t * ctx_template,size_t * ctx_template_size,crypto_req_handle_t req)1519734b6a94Sdarrenm sha2_create_ctx_template(crypto_provider_handle_t provider,
1520734b6a94Sdarrenm crypto_mechanism_t *mechanism, crypto_key_t *key,
1521734b6a94Sdarrenm crypto_spi_ctx_template_t *ctx_template, size_t *ctx_template_size,
1522734b6a94Sdarrenm crypto_req_handle_t req)
1523734b6a94Sdarrenm {
1524734b6a94Sdarrenm sha2_hmac_ctx_t *sha2_hmac_ctx_tmpl;
1525734b6a94Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length);
1526734b6a94Sdarrenm uint32_t sha_digest_len, sha_hmac_block_size;
1527734b6a94Sdarrenm
1528734b6a94Sdarrenm /*
15298de5c4f4SDan OpenSolaris Anderson * Set the digest length and block size to values appropriate to the
1530734b6a94Sdarrenm * mechanism
1531734b6a94Sdarrenm */
1532734b6a94Sdarrenm switch (mechanism->cm_type) {
1533734b6a94Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE:
1534734b6a94Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE:
1535734b6a94Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH;
1536734b6a94Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE;
1537734b6a94Sdarrenm break;
1538734b6a94Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE:
1539734b6a94Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE:
1540734b6a94Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE:
1541734b6a94Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE:
1542734b6a94Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH;
1543734b6a94Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE;
1544734b6a94Sdarrenm break;
1545734b6a94Sdarrenm default:
1546734b6a94Sdarrenm return (CRYPTO_MECHANISM_INVALID);
1547734b6a94Sdarrenm }
1548734b6a94Sdarrenm
1549734b6a94Sdarrenm /* Add support for key by attributes (RFE 4706552) */
1550734b6a94Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW)
1551734b6a94Sdarrenm return (CRYPTO_ARGUMENTS_BAD);
1552734b6a94Sdarrenm
1553734b6a94Sdarrenm /*
1554734b6a94Sdarrenm * Allocate and initialize SHA2 context.
1555734b6a94Sdarrenm */
1556734b6a94Sdarrenm sha2_hmac_ctx_tmpl = kmem_alloc(sizeof (sha2_hmac_ctx_t),
1557734b6a94Sdarrenm crypto_kmflag(req));
1558734b6a94Sdarrenm if (sha2_hmac_ctx_tmpl == NULL)
1559734b6a94Sdarrenm return (CRYPTO_HOST_MEMORY);
1560734b6a94Sdarrenm
1561734b6a94Sdarrenm sha2_hmac_ctx_tmpl->hc_mech_type = mechanism->cm_type;
1562734b6a94Sdarrenm
1563734b6a94Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) {
1564734b6a94Sdarrenm uchar_t digested_key[SHA512_DIGEST_LENGTH];
1565734b6a94Sdarrenm
1566734b6a94Sdarrenm /*
1567734b6a94Sdarrenm * Hash the passed-in key to get a smaller key.
1568734b6a94Sdarrenm * The inner context is used since it hasn't been
1569734b6a94Sdarrenm * initialized yet.
1570734b6a94Sdarrenm */
1571734b6a94Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3,
1572734b6a94Sdarrenm &sha2_hmac_ctx_tmpl->hc_icontext,
1573734b6a94Sdarrenm key->ck_data, keylen_in_bytes, digested_key);
1574734b6a94Sdarrenm sha2_mac_init_ctx(sha2_hmac_ctx_tmpl, digested_key,
1575734b6a94Sdarrenm sha_digest_len);
1576734b6a94Sdarrenm } else {
1577734b6a94Sdarrenm sha2_mac_init_ctx(sha2_hmac_ctx_tmpl, key->ck_data,
1578734b6a94Sdarrenm keylen_in_bytes);
1579734b6a94Sdarrenm }
1580734b6a94Sdarrenm
1581734b6a94Sdarrenm *ctx_template = (crypto_spi_ctx_template_t)sha2_hmac_ctx_tmpl;
1582734b6a94Sdarrenm *ctx_template_size = sizeof (sha2_hmac_ctx_t);
1583734b6a94Sdarrenm
1584734b6a94Sdarrenm return (CRYPTO_SUCCESS);
1585734b6a94Sdarrenm }
1586734b6a94Sdarrenm
1587734b6a94Sdarrenm static int
sha2_free_context(crypto_ctx_t * ctx)1588734b6a94Sdarrenm sha2_free_context(crypto_ctx_t *ctx)
1589734b6a94Sdarrenm {
1590734b6a94Sdarrenm uint_t ctx_len;
1591734b6a94Sdarrenm
1592734b6a94Sdarrenm if (ctx->cc_provider_private == NULL)
1593734b6a94Sdarrenm return (CRYPTO_SUCCESS);
1594734b6a94Sdarrenm
1595734b6a94Sdarrenm /*
1596734b6a94Sdarrenm * We have to free either SHA2 or SHA2-HMAC contexts, which
1597734b6a94Sdarrenm * have different lengths.
1598734b6a94Sdarrenm *
1599734b6a94Sdarrenm * Note: Below is dependent on the mechanism ordering.
1600734b6a94Sdarrenm */
1601734b6a94Sdarrenm
1602734b6a94Sdarrenm if (PROV_SHA2_CTX(ctx)->sc_mech_type % 3 == 0)
1603734b6a94Sdarrenm ctx_len = sizeof (sha2_ctx_t);
1604734b6a94Sdarrenm else
1605734b6a94Sdarrenm ctx_len = sizeof (sha2_hmac_ctx_t);
1606734b6a94Sdarrenm
1607734b6a94Sdarrenm bzero(ctx->cc_provider_private, ctx_len);
1608734b6a94Sdarrenm kmem_free(ctx->cc_provider_private, ctx_len);
1609734b6a94Sdarrenm ctx->cc_provider_private = NULL;
1610734b6a94Sdarrenm
1611734b6a94Sdarrenm return (CRYPTO_SUCCESS);
1612734b6a94Sdarrenm }
1613