11694Sdarrenm /* 21694Sdarrenm * CDDL HEADER START 31694Sdarrenm * 41694Sdarrenm * The contents of this file are subject to the terms of the 51694Sdarrenm * Common Development and Distribution License (the "License"). 61694Sdarrenm * You may not use this file except in compliance with the License. 71694Sdarrenm * 81694Sdarrenm * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 91694Sdarrenm * or http://www.opensolaris.org/os/licensing. 101694Sdarrenm * See the License for the specific language governing permissions 111694Sdarrenm * and limitations under the License. 121694Sdarrenm * 131694Sdarrenm * When distributing Covered Code, include this CDDL HEADER in each 141694Sdarrenm * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 151694Sdarrenm * If applicable, add the following below this CDDL HEADER, with the 161694Sdarrenm * fields enclosed by brackets "[]" replaced with your own identifying 171694Sdarrenm * information: Portions Copyright [yyyy] [name of copyright owner] 181694Sdarrenm * 191694Sdarrenm * CDDL HEADER END 201694Sdarrenm */ 211694Sdarrenm 221694Sdarrenm /* 239364SVladimir.Kotal@Sun.COM * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 241694Sdarrenm * Use is subject to license terms. 251694Sdarrenm */ 261694Sdarrenm 271694Sdarrenm #include <sys/modctl.h> 281694Sdarrenm #include <sys/cmn_err.h> 291694Sdarrenm #include <sys/crypto/common.h> 301694Sdarrenm #include <sys/crypto/spi.h> 311694Sdarrenm #include <sys/strsun.h> 321694Sdarrenm #include <sys/systm.h> 331694Sdarrenm #include <sys/sysmacros.h> 341694Sdarrenm #define _SHA2_IMPL 351694Sdarrenm #include <sys/sha2.h> 36*10500SHai-May.Chao@Sun.COM #include <sha2/sha2_impl.h> 371694Sdarrenm 381694Sdarrenm /* 391694Sdarrenm * The sha2 module is created with two modlinkages: 401694Sdarrenm * - a modlmisc that allows consumers to directly call the entry points 411694Sdarrenm * SHA2Init, SHA2Update, and SHA2Final. 421694Sdarrenm * - a modlcrypto that allows the module to register with the Kernel 431694Sdarrenm * Cryptographic Framework (KCF) as a software provider for the SHA2 441694Sdarrenm * mechanisms. 451694Sdarrenm */ 461694Sdarrenm 471694Sdarrenm static struct modlmisc modlmisc = { 481694Sdarrenm &mod_miscops, 491694Sdarrenm "SHA2 Message-Digest Algorithm" 501694Sdarrenm }; 511694Sdarrenm 521694Sdarrenm static struct modlcrypto modlcrypto = { 531694Sdarrenm &mod_cryptoops, 545072Smcpowers "SHA2 Kernel SW Provider" 551694Sdarrenm }; 561694Sdarrenm 571694Sdarrenm static struct modlinkage modlinkage = { 581694Sdarrenm MODREV_1, &modlmisc, &modlcrypto, NULL 591694Sdarrenm }; 601694Sdarrenm 611694Sdarrenm /* 621694Sdarrenm * Macros to access the SHA2 or SHA2-HMAC contexts from a context passed 631694Sdarrenm * by KCF to one of the entry points. 641694Sdarrenm */ 651694Sdarrenm 661694Sdarrenm #define PROV_SHA2_CTX(ctx) ((sha2_ctx_t *)(ctx)->cc_provider_private) 671694Sdarrenm #define PROV_SHA2_HMAC_CTX(ctx) ((sha2_hmac_ctx_t *)(ctx)->cc_provider_private) 681694Sdarrenm 691694Sdarrenm /* to extract the digest length passed as mechanism parameter */ 701694Sdarrenm #define PROV_SHA2_GET_DIGEST_LEN(m, len) { \ 711694Sdarrenm if (IS_P2ALIGNED((m)->cm_param, sizeof (ulong_t))) \ 721694Sdarrenm (len) = (uint32_t)*((ulong_t *)(m)->cm_param); \ 731694Sdarrenm else { \ 741694Sdarrenm ulong_t tmp_ulong; \ 751694Sdarrenm bcopy((m)->cm_param, &tmp_ulong, sizeof (ulong_t)); \ 761694Sdarrenm (len) = (uint32_t)tmp_ulong; \ 771694Sdarrenm } \ 781694Sdarrenm } 791694Sdarrenm 801694Sdarrenm #define PROV_SHA2_DIGEST_KEY(mech, ctx, key, len, digest) { \ 811694Sdarrenm SHA2Init(mech, ctx); \ 821694Sdarrenm SHA2Update(ctx, key, len); \ 831694Sdarrenm SHA2Final(digest, ctx); \ 841694Sdarrenm } 851694Sdarrenm 861694Sdarrenm /* 871694Sdarrenm * Mechanism info structure passed to KCF during registration. 881694Sdarrenm */ 891694Sdarrenm static crypto_mech_info_t sha2_mech_info_tab[] = { 901694Sdarrenm /* SHA256 */ 911694Sdarrenm {SUN_CKM_SHA256, SHA256_MECH_INFO_TYPE, 921694Sdarrenm CRYPTO_FG_DIGEST | CRYPTO_FG_DIGEST_ATOMIC, 931694Sdarrenm 0, 0, CRYPTO_KEYSIZE_UNIT_IN_BITS}, 941694Sdarrenm /* SHA256-HMAC */ 951694Sdarrenm {SUN_CKM_SHA256_HMAC, SHA256_HMAC_MECH_INFO_TYPE, 961694Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC, 971694Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN, 989364SVladimir.Kotal@Sun.COM CRYPTO_KEYSIZE_UNIT_IN_BYTES}, 991694Sdarrenm /* SHA256-HMAC GENERAL */ 1001694Sdarrenm {SUN_CKM_SHA256_HMAC_GENERAL, SHA256_HMAC_GEN_MECH_INFO_TYPE, 1011694Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC, 1021694Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN, 1039364SVladimir.Kotal@Sun.COM CRYPTO_KEYSIZE_UNIT_IN_BYTES}, 1041694Sdarrenm /* SHA384 */ 1051694Sdarrenm {SUN_CKM_SHA384, SHA384_MECH_INFO_TYPE, 1061694Sdarrenm CRYPTO_FG_DIGEST | CRYPTO_FG_DIGEST_ATOMIC, 1071694Sdarrenm 0, 0, CRYPTO_KEYSIZE_UNIT_IN_BITS}, 1081694Sdarrenm /* SHA384-HMAC */ 1091694Sdarrenm {SUN_CKM_SHA384_HMAC, SHA384_HMAC_MECH_INFO_TYPE, 1101694Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC, 1111694Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN, 1129364SVladimir.Kotal@Sun.COM CRYPTO_KEYSIZE_UNIT_IN_BYTES}, 1131694Sdarrenm /* SHA384-HMAC GENERAL */ 1141694Sdarrenm {SUN_CKM_SHA384_HMAC_GENERAL, SHA384_HMAC_GEN_MECH_INFO_TYPE, 1151694Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC, 1161694Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN, 1179364SVladimir.Kotal@Sun.COM CRYPTO_KEYSIZE_UNIT_IN_BYTES}, 1181694Sdarrenm /* SHA512 */ 1191694Sdarrenm {SUN_CKM_SHA512, SHA512_MECH_INFO_TYPE, 1201694Sdarrenm CRYPTO_FG_DIGEST | CRYPTO_FG_DIGEST_ATOMIC, 1211694Sdarrenm 0, 0, CRYPTO_KEYSIZE_UNIT_IN_BITS}, 1221694Sdarrenm /* SHA512-HMAC */ 1231694Sdarrenm {SUN_CKM_SHA512_HMAC, SHA512_HMAC_MECH_INFO_TYPE, 1241694Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC, 1251694Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN, 1269364SVladimir.Kotal@Sun.COM CRYPTO_KEYSIZE_UNIT_IN_BYTES}, 1271694Sdarrenm /* SHA512-HMAC GENERAL */ 1281694Sdarrenm {SUN_CKM_SHA512_HMAC_GENERAL, SHA512_HMAC_GEN_MECH_INFO_TYPE, 1291694Sdarrenm CRYPTO_FG_MAC | CRYPTO_FG_MAC_ATOMIC, 1301694Sdarrenm SHA2_HMAC_MIN_KEY_LEN, SHA2_HMAC_MAX_KEY_LEN, 1319364SVladimir.Kotal@Sun.COM CRYPTO_KEYSIZE_UNIT_IN_BYTES} 1321694Sdarrenm }; 1331694Sdarrenm 1341694Sdarrenm static void sha2_provider_status(crypto_provider_handle_t, uint_t *); 1351694Sdarrenm 1361694Sdarrenm static crypto_control_ops_t sha2_control_ops = { 1371694Sdarrenm sha2_provider_status 1381694Sdarrenm }; 1391694Sdarrenm 1401694Sdarrenm static int sha2_digest_init(crypto_ctx_t *, crypto_mechanism_t *, 1411694Sdarrenm crypto_req_handle_t); 1421694Sdarrenm static int sha2_digest(crypto_ctx_t *, crypto_data_t *, crypto_data_t *, 1431694Sdarrenm crypto_req_handle_t); 1441694Sdarrenm static int sha2_digest_update(crypto_ctx_t *, crypto_data_t *, 1451694Sdarrenm crypto_req_handle_t); 1461694Sdarrenm static int sha2_digest_final(crypto_ctx_t *, crypto_data_t *, 1471694Sdarrenm crypto_req_handle_t); 1481694Sdarrenm static int sha2_digest_atomic(crypto_provider_handle_t, crypto_session_id_t, 1491694Sdarrenm crypto_mechanism_t *, crypto_data_t *, crypto_data_t *, 1501694Sdarrenm crypto_req_handle_t); 1511694Sdarrenm 1521694Sdarrenm static crypto_digest_ops_t sha2_digest_ops = { 1531694Sdarrenm sha2_digest_init, 1541694Sdarrenm sha2_digest, 1551694Sdarrenm sha2_digest_update, 1561694Sdarrenm NULL, 1571694Sdarrenm sha2_digest_final, 1581694Sdarrenm sha2_digest_atomic 1591694Sdarrenm }; 1601694Sdarrenm 1611694Sdarrenm static int sha2_mac_init(crypto_ctx_t *, crypto_mechanism_t *, crypto_key_t *, 1621694Sdarrenm crypto_spi_ctx_template_t, crypto_req_handle_t); 1631694Sdarrenm static int sha2_mac_update(crypto_ctx_t *, crypto_data_t *, 1641694Sdarrenm crypto_req_handle_t); 1651694Sdarrenm static int sha2_mac_final(crypto_ctx_t *, crypto_data_t *, crypto_req_handle_t); 1661694Sdarrenm static int sha2_mac_atomic(crypto_provider_handle_t, crypto_session_id_t, 1671694Sdarrenm crypto_mechanism_t *, crypto_key_t *, crypto_data_t *, crypto_data_t *, 1681694Sdarrenm crypto_spi_ctx_template_t, crypto_req_handle_t); 1691694Sdarrenm static int sha2_mac_verify_atomic(crypto_provider_handle_t, crypto_session_id_t, 1701694Sdarrenm crypto_mechanism_t *, crypto_key_t *, crypto_data_t *, crypto_data_t *, 1711694Sdarrenm crypto_spi_ctx_template_t, crypto_req_handle_t); 1721694Sdarrenm 1731694Sdarrenm static crypto_mac_ops_t sha2_mac_ops = { 1741694Sdarrenm sha2_mac_init, 1751694Sdarrenm NULL, 1761694Sdarrenm sha2_mac_update, 1771694Sdarrenm sha2_mac_final, 1781694Sdarrenm sha2_mac_atomic, 1791694Sdarrenm sha2_mac_verify_atomic 1801694Sdarrenm }; 1811694Sdarrenm 1821694Sdarrenm static int sha2_create_ctx_template(crypto_provider_handle_t, 1831694Sdarrenm crypto_mechanism_t *, crypto_key_t *, crypto_spi_ctx_template_t *, 1841694Sdarrenm size_t *, crypto_req_handle_t); 1851694Sdarrenm static int sha2_free_context(crypto_ctx_t *); 1861694Sdarrenm 1871694Sdarrenm static crypto_ctx_ops_t sha2_ctx_ops = { 1881694Sdarrenm sha2_create_ctx_template, 1891694Sdarrenm sha2_free_context 1901694Sdarrenm }; 1911694Sdarrenm 1921694Sdarrenm static crypto_ops_t sha2_crypto_ops = { 1931694Sdarrenm &sha2_control_ops, 1941694Sdarrenm &sha2_digest_ops, 1951694Sdarrenm NULL, 1961694Sdarrenm &sha2_mac_ops, 1971694Sdarrenm NULL, 1981694Sdarrenm NULL, 1991694Sdarrenm NULL, 2001694Sdarrenm NULL, 2011694Sdarrenm NULL, 2021694Sdarrenm NULL, 2031694Sdarrenm NULL, 2041694Sdarrenm NULL, 2051694Sdarrenm NULL, 2061694Sdarrenm &sha2_ctx_ops 2071694Sdarrenm }; 2081694Sdarrenm 2091694Sdarrenm static crypto_provider_info_t sha2_prov_info = { 2101694Sdarrenm CRYPTO_SPI_VERSION_1, 2111694Sdarrenm "SHA2 Software Provider", 2121694Sdarrenm CRYPTO_SW_PROVIDER, 2131694Sdarrenm {&modlinkage}, 2141694Sdarrenm NULL, 2151694Sdarrenm &sha2_crypto_ops, 2161694Sdarrenm sizeof (sha2_mech_info_tab)/sizeof (crypto_mech_info_t), 2171694Sdarrenm sha2_mech_info_tab 2181694Sdarrenm }; 2191694Sdarrenm 2201694Sdarrenm static crypto_kcf_provider_handle_t sha2_prov_handle = NULL; 2211694Sdarrenm 2221694Sdarrenm int 2231694Sdarrenm _init() 2241694Sdarrenm { 2251694Sdarrenm int ret; 2261694Sdarrenm 2271694Sdarrenm if ((ret = mod_install(&modlinkage)) != 0) 2281694Sdarrenm return (ret); 2291694Sdarrenm 2301694Sdarrenm /* 2311694Sdarrenm * Register with KCF. If the registration fails, log an 2321694Sdarrenm * error but do not uninstall the module, since the functionality 2331694Sdarrenm * provided by misc/sha2 should still be available. 2341694Sdarrenm */ 2351694Sdarrenm if ((ret = crypto_register_provider(&sha2_prov_info, 2361694Sdarrenm &sha2_prov_handle)) != CRYPTO_SUCCESS) 2371694Sdarrenm cmn_err(CE_WARN, "sha2 _init: " 2381694Sdarrenm "crypto_register_provider() failed (0x%x)", ret); 2391694Sdarrenm 2401694Sdarrenm return (0); 2411694Sdarrenm } 2421694Sdarrenm 2431694Sdarrenm int 2441694Sdarrenm _info(struct modinfo *modinfop) 2451694Sdarrenm { 2461694Sdarrenm return (mod_info(&modlinkage, modinfop)); 2471694Sdarrenm } 2481694Sdarrenm 2491694Sdarrenm /* 2501694Sdarrenm * KCF software provider control entry points. 2511694Sdarrenm */ 2521694Sdarrenm /* ARGSUSED */ 2531694Sdarrenm static void 2541694Sdarrenm sha2_provider_status(crypto_provider_handle_t provider, uint_t *status) 2551694Sdarrenm { 2561694Sdarrenm *status = CRYPTO_PROVIDER_READY; 2571694Sdarrenm } 2581694Sdarrenm 2591694Sdarrenm /* 2601694Sdarrenm * KCF software provider digest entry points. 2611694Sdarrenm */ 2621694Sdarrenm 2631694Sdarrenm static int 2641694Sdarrenm sha2_digest_init(crypto_ctx_t *ctx, crypto_mechanism_t *mechanism, 2651694Sdarrenm crypto_req_handle_t req) 2661694Sdarrenm { 2671694Sdarrenm 2681694Sdarrenm /* 2691694Sdarrenm * Allocate and initialize SHA2 context. 2701694Sdarrenm */ 2711694Sdarrenm ctx->cc_provider_private = kmem_alloc(sizeof (sha2_ctx_t), 2721694Sdarrenm crypto_kmflag(req)); 2731694Sdarrenm if (ctx->cc_provider_private == NULL) 2741694Sdarrenm return (CRYPTO_HOST_MEMORY); 2751694Sdarrenm 2761694Sdarrenm PROV_SHA2_CTX(ctx)->sc_mech_type = mechanism->cm_type; 2771694Sdarrenm SHA2Init(mechanism->cm_type, &PROV_SHA2_CTX(ctx)->sc_sha2_ctx); 2781694Sdarrenm 2791694Sdarrenm return (CRYPTO_SUCCESS); 2801694Sdarrenm } 2811694Sdarrenm 2821694Sdarrenm /* 2831694Sdarrenm * Helper SHA2 digest update function for uio data. 2841694Sdarrenm */ 2851694Sdarrenm static int 2861694Sdarrenm sha2_digest_update_uio(SHA2_CTX *sha2_ctx, crypto_data_t *data) 2871694Sdarrenm { 2881694Sdarrenm off_t offset = data->cd_offset; 2891694Sdarrenm size_t length = data->cd_length; 2901694Sdarrenm uint_t vec_idx; 2911694Sdarrenm size_t cur_len; 2921694Sdarrenm 2931694Sdarrenm /* we support only kernel buffer */ 2941694Sdarrenm if (data->cd_uio->uio_segflg != UIO_SYSSPACE) 2951694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 2961694Sdarrenm 2971694Sdarrenm /* 2981694Sdarrenm * Jump to the first iovec containing data to be 2991694Sdarrenm * digested. 3001694Sdarrenm */ 3011694Sdarrenm for (vec_idx = 0; vec_idx < data->cd_uio->uio_iovcnt && 3021694Sdarrenm offset >= data->cd_uio->uio_iov[vec_idx].iov_len; 3035072Smcpowers offset -= data->cd_uio->uio_iov[vec_idx++].iov_len) 3045072Smcpowers ; 3051694Sdarrenm if (vec_idx == data->cd_uio->uio_iovcnt) { 3061694Sdarrenm /* 3071694Sdarrenm * The caller specified an offset that is larger than the 3081694Sdarrenm * total size of the buffers it provided. 3091694Sdarrenm */ 3101694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 3111694Sdarrenm } 3121694Sdarrenm 3131694Sdarrenm /* 3141694Sdarrenm * Now do the digesting on the iovecs. 3151694Sdarrenm */ 3161694Sdarrenm while (vec_idx < data->cd_uio->uio_iovcnt && length > 0) { 3171694Sdarrenm cur_len = MIN(data->cd_uio->uio_iov[vec_idx].iov_len - 3181694Sdarrenm offset, length); 3191694Sdarrenm 3201694Sdarrenm SHA2Update(sha2_ctx, (uint8_t *)data->cd_uio-> 3211694Sdarrenm uio_iov[vec_idx].iov_base + offset, cur_len); 3221694Sdarrenm length -= cur_len; 3231694Sdarrenm vec_idx++; 3241694Sdarrenm offset = 0; 3251694Sdarrenm } 3261694Sdarrenm 3271694Sdarrenm if (vec_idx == data->cd_uio->uio_iovcnt && length > 0) { 3281694Sdarrenm /* 3291694Sdarrenm * The end of the specified iovec's was reached but 3301694Sdarrenm * the length requested could not be processed, i.e. 3311694Sdarrenm * The caller requested to digest more data than it provided. 3321694Sdarrenm */ 3331694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 3341694Sdarrenm } 3351694Sdarrenm 3361694Sdarrenm return (CRYPTO_SUCCESS); 3371694Sdarrenm } 3381694Sdarrenm 3391694Sdarrenm /* 3401694Sdarrenm * Helper SHA2 digest final function for uio data. 3411694Sdarrenm * digest_len is the length of the desired digest. If digest_len 3421694Sdarrenm * is smaller than the default SHA2 digest length, the caller 3431694Sdarrenm * must pass a scratch buffer, digest_scratch, which must 3441694Sdarrenm * be at least the algorithm's digest length bytes. 3451694Sdarrenm */ 3461694Sdarrenm static int 3471694Sdarrenm sha2_digest_final_uio(SHA2_CTX *sha2_ctx, crypto_data_t *digest, 3481694Sdarrenm ulong_t digest_len, uchar_t *digest_scratch) 3491694Sdarrenm { 3501694Sdarrenm off_t offset = digest->cd_offset; 3511694Sdarrenm uint_t vec_idx; 3521694Sdarrenm 3531694Sdarrenm /* we support only kernel buffer */ 3541694Sdarrenm if (digest->cd_uio->uio_segflg != UIO_SYSSPACE) 3551694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 3561694Sdarrenm 3571694Sdarrenm /* 3581694Sdarrenm * Jump to the first iovec containing ptr to the digest to 3591694Sdarrenm * be returned. 3601694Sdarrenm */ 3611694Sdarrenm for (vec_idx = 0; offset >= digest->cd_uio->uio_iov[vec_idx].iov_len && 3621694Sdarrenm vec_idx < digest->cd_uio->uio_iovcnt; 3635072Smcpowers offset -= digest->cd_uio->uio_iov[vec_idx++].iov_len) 3645072Smcpowers ; 3651694Sdarrenm if (vec_idx == digest->cd_uio->uio_iovcnt) { 3661694Sdarrenm /* 3671694Sdarrenm * The caller specified an offset that is 3681694Sdarrenm * larger than the total size of the buffers 3691694Sdarrenm * it provided. 3701694Sdarrenm */ 3711694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 3721694Sdarrenm } 3731694Sdarrenm 3741694Sdarrenm if (offset + digest_len <= 3751694Sdarrenm digest->cd_uio->uio_iov[vec_idx].iov_len) { 3761694Sdarrenm /* 3771694Sdarrenm * The computed SHA2 digest will fit in the current 3781694Sdarrenm * iovec. 3791694Sdarrenm */ 3801694Sdarrenm if (((sha2_ctx->algotype <= SHA256_HMAC_GEN_MECH_INFO_TYPE) && 3811694Sdarrenm (digest_len != SHA256_DIGEST_LENGTH)) || 3821694Sdarrenm ((sha2_ctx->algotype > SHA256_HMAC_GEN_MECH_INFO_TYPE) && 3835072Smcpowers (digest_len != SHA512_DIGEST_LENGTH))) { 3841694Sdarrenm /* 3851694Sdarrenm * The caller requested a short digest. Digest 3861694Sdarrenm * into a scratch buffer and return to 3871694Sdarrenm * the user only what was requested. 3881694Sdarrenm */ 3891694Sdarrenm SHA2Final(digest_scratch, sha2_ctx); 3901694Sdarrenm 3911694Sdarrenm bcopy(digest_scratch, (uchar_t *)digest-> 3921694Sdarrenm cd_uio->uio_iov[vec_idx].iov_base + offset, 3931694Sdarrenm digest_len); 3941694Sdarrenm } else { 3951694Sdarrenm SHA2Final((uchar_t *)digest-> 3961694Sdarrenm cd_uio->uio_iov[vec_idx].iov_base + offset, 3971694Sdarrenm sha2_ctx); 3981694Sdarrenm 3991694Sdarrenm } 4001694Sdarrenm } else { 4011694Sdarrenm /* 4021694Sdarrenm * The computed digest will be crossing one or more iovec's. 4031694Sdarrenm * This is bad performance-wise but we need to support it. 4041694Sdarrenm * Allocate a small scratch buffer on the stack and 4051694Sdarrenm * copy it piece meal to the specified digest iovec's. 4061694Sdarrenm */ 4071694Sdarrenm uchar_t digest_tmp[SHA512_DIGEST_LENGTH]; 4081694Sdarrenm off_t scratch_offset = 0; 4091694Sdarrenm size_t length = digest_len; 4101694Sdarrenm size_t cur_len; 4111694Sdarrenm 4121694Sdarrenm SHA2Final(digest_tmp, sha2_ctx); 4131694Sdarrenm 4141694Sdarrenm while (vec_idx < digest->cd_uio->uio_iovcnt && length > 0) { 4151694Sdarrenm cur_len = 4161694Sdarrenm MIN(digest->cd_uio->uio_iov[vec_idx].iov_len - 4175072Smcpowers offset, length); 4181694Sdarrenm bcopy(digest_tmp + scratch_offset, 4191694Sdarrenm digest->cd_uio->uio_iov[vec_idx].iov_base + offset, 4201694Sdarrenm cur_len); 4211694Sdarrenm 4221694Sdarrenm length -= cur_len; 4231694Sdarrenm vec_idx++; 4241694Sdarrenm scratch_offset += cur_len; 4251694Sdarrenm offset = 0; 4261694Sdarrenm } 4271694Sdarrenm 4281694Sdarrenm if (vec_idx == digest->cd_uio->uio_iovcnt && length > 0) { 4291694Sdarrenm /* 4301694Sdarrenm * The end of the specified iovec's was reached but 4311694Sdarrenm * the length requested could not be processed, i.e. 4321694Sdarrenm * The caller requested to digest more data than it 4331694Sdarrenm * provided. 4341694Sdarrenm */ 4351694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 4361694Sdarrenm } 4371694Sdarrenm } 4381694Sdarrenm 4391694Sdarrenm return (CRYPTO_SUCCESS); 4401694Sdarrenm } 4411694Sdarrenm 4421694Sdarrenm /* 4431694Sdarrenm * Helper SHA2 digest update for mblk's. 4441694Sdarrenm */ 4451694Sdarrenm static int 4461694Sdarrenm sha2_digest_update_mblk(SHA2_CTX *sha2_ctx, crypto_data_t *data) 4471694Sdarrenm { 4481694Sdarrenm off_t offset = data->cd_offset; 4491694Sdarrenm size_t length = data->cd_length; 4501694Sdarrenm mblk_t *mp; 4511694Sdarrenm size_t cur_len; 4521694Sdarrenm 4531694Sdarrenm /* 4541694Sdarrenm * Jump to the first mblk_t containing data to be digested. 4551694Sdarrenm */ 4561694Sdarrenm for (mp = data->cd_mp; mp != NULL && offset >= MBLKL(mp); 4575072Smcpowers offset -= MBLKL(mp), mp = mp->b_cont) 4585072Smcpowers ; 4591694Sdarrenm if (mp == NULL) { 4601694Sdarrenm /* 4611694Sdarrenm * The caller specified an offset that is larger than the 4621694Sdarrenm * total size of the buffers it provided. 4631694Sdarrenm */ 4641694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 4651694Sdarrenm } 4661694Sdarrenm 4671694Sdarrenm /* 4681694Sdarrenm * Now do the digesting on the mblk chain. 4691694Sdarrenm */ 4701694Sdarrenm while (mp != NULL && length > 0) { 4711694Sdarrenm cur_len = MIN(MBLKL(mp) - offset, length); 4721694Sdarrenm SHA2Update(sha2_ctx, mp->b_rptr + offset, cur_len); 4731694Sdarrenm length -= cur_len; 4741694Sdarrenm offset = 0; 4751694Sdarrenm mp = mp->b_cont; 4761694Sdarrenm } 4771694Sdarrenm 4781694Sdarrenm if (mp == NULL && length > 0) { 4791694Sdarrenm /* 4801694Sdarrenm * The end of the mblk was reached but the length requested 4811694Sdarrenm * could not be processed, i.e. The caller requested 4821694Sdarrenm * to digest more data than it provided. 4831694Sdarrenm */ 4841694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 4851694Sdarrenm } 4861694Sdarrenm 4871694Sdarrenm return (CRYPTO_SUCCESS); 4881694Sdarrenm } 4891694Sdarrenm 4901694Sdarrenm /* 4911694Sdarrenm * Helper SHA2 digest final for mblk's. 4921694Sdarrenm * digest_len is the length of the desired digest. If digest_len 4931694Sdarrenm * is smaller than the default SHA2 digest length, the caller 4941694Sdarrenm * must pass a scratch buffer, digest_scratch, which must 4951694Sdarrenm * be at least the algorithm's digest length bytes. 4961694Sdarrenm */ 4971694Sdarrenm static int 4981694Sdarrenm sha2_digest_final_mblk(SHA2_CTX *sha2_ctx, crypto_data_t *digest, 4991694Sdarrenm ulong_t digest_len, uchar_t *digest_scratch) 5001694Sdarrenm { 5011694Sdarrenm off_t offset = digest->cd_offset; 5021694Sdarrenm mblk_t *mp; 5031694Sdarrenm 5041694Sdarrenm /* 5051694Sdarrenm * Jump to the first mblk_t that will be used to store the digest. 5061694Sdarrenm */ 5071694Sdarrenm for (mp = digest->cd_mp; mp != NULL && offset >= MBLKL(mp); 5085072Smcpowers offset -= MBLKL(mp), mp = mp->b_cont) 5095072Smcpowers ; 5101694Sdarrenm if (mp == NULL) { 5111694Sdarrenm /* 5121694Sdarrenm * The caller specified an offset that is larger than the 5131694Sdarrenm * total size of the buffers it provided. 5141694Sdarrenm */ 5151694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 5161694Sdarrenm } 5171694Sdarrenm 5181694Sdarrenm if (offset + digest_len <= MBLKL(mp)) { 5191694Sdarrenm /* 5201694Sdarrenm * The computed SHA2 digest will fit in the current mblk. 5211694Sdarrenm * Do the SHA2Final() in-place. 5221694Sdarrenm */ 5231694Sdarrenm if (((sha2_ctx->algotype <= SHA256_HMAC_GEN_MECH_INFO_TYPE) && 5241694Sdarrenm (digest_len != SHA256_DIGEST_LENGTH)) || 5251694Sdarrenm ((sha2_ctx->algotype > SHA256_HMAC_GEN_MECH_INFO_TYPE) && 5265072Smcpowers (digest_len != SHA512_DIGEST_LENGTH))) { 5271694Sdarrenm /* 5281694Sdarrenm * The caller requested a short digest. Digest 5291694Sdarrenm * into a scratch buffer and return to 5301694Sdarrenm * the user only what was requested. 5311694Sdarrenm */ 5321694Sdarrenm SHA2Final(digest_scratch, sha2_ctx); 5331694Sdarrenm bcopy(digest_scratch, mp->b_rptr + offset, digest_len); 5341694Sdarrenm } else { 5351694Sdarrenm SHA2Final(mp->b_rptr + offset, sha2_ctx); 5361694Sdarrenm } 5371694Sdarrenm } else { 5381694Sdarrenm /* 5391694Sdarrenm * The computed digest will be crossing one or more mblk's. 5401694Sdarrenm * This is bad performance-wise but we need to support it. 5411694Sdarrenm * Allocate a small scratch buffer on the stack and 5421694Sdarrenm * copy it piece meal to the specified digest iovec's. 5431694Sdarrenm */ 5441694Sdarrenm uchar_t digest_tmp[SHA512_DIGEST_LENGTH]; 5451694Sdarrenm off_t scratch_offset = 0; 5461694Sdarrenm size_t length = digest_len; 5471694Sdarrenm size_t cur_len; 5481694Sdarrenm 5491694Sdarrenm SHA2Final(digest_tmp, sha2_ctx); 5501694Sdarrenm 5511694Sdarrenm while (mp != NULL && length > 0) { 5521694Sdarrenm cur_len = MIN(MBLKL(mp) - offset, length); 5531694Sdarrenm bcopy(digest_tmp + scratch_offset, 5541694Sdarrenm mp->b_rptr + offset, cur_len); 5551694Sdarrenm 5561694Sdarrenm length -= cur_len; 5571694Sdarrenm mp = mp->b_cont; 5581694Sdarrenm scratch_offset += cur_len; 5591694Sdarrenm offset = 0; 5601694Sdarrenm } 5611694Sdarrenm 5621694Sdarrenm if (mp == NULL && length > 0) { 5631694Sdarrenm /* 5641694Sdarrenm * The end of the specified mblk was reached but 5651694Sdarrenm * the length requested could not be processed, i.e. 5661694Sdarrenm * The caller requested to digest more data than it 5671694Sdarrenm * provided. 5681694Sdarrenm */ 5691694Sdarrenm return (CRYPTO_DATA_LEN_RANGE); 5701694Sdarrenm } 5711694Sdarrenm } 5721694Sdarrenm 5731694Sdarrenm return (CRYPTO_SUCCESS); 5741694Sdarrenm } 5751694Sdarrenm 5761694Sdarrenm /* ARGSUSED */ 5771694Sdarrenm static int 5781694Sdarrenm sha2_digest(crypto_ctx_t *ctx, crypto_data_t *data, crypto_data_t *digest, 5791694Sdarrenm crypto_req_handle_t req) 5801694Sdarrenm { 5811694Sdarrenm int ret = CRYPTO_SUCCESS; 5821694Sdarrenm uint_t sha_digest_len; 5831694Sdarrenm 5841694Sdarrenm ASSERT(ctx->cc_provider_private != NULL); 5851694Sdarrenm 5861694Sdarrenm switch (PROV_SHA2_CTX(ctx)->sc_mech_type) { 5871694Sdarrenm case SHA256_MECH_INFO_TYPE: 5881694Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH; 5891694Sdarrenm break; 5901694Sdarrenm case SHA384_MECH_INFO_TYPE: 5911694Sdarrenm sha_digest_len = SHA384_DIGEST_LENGTH; 5921694Sdarrenm break; 5931694Sdarrenm case SHA512_MECH_INFO_TYPE: 5941694Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH; 5951694Sdarrenm break; 5961694Sdarrenm default: 5971694Sdarrenm return (CRYPTO_MECHANISM_INVALID); 5981694Sdarrenm } 5991694Sdarrenm 6001694Sdarrenm /* 6011694Sdarrenm * We need to just return the length needed to store the output. 6021694Sdarrenm * We should not destroy the context for the following cases. 6031694Sdarrenm */ 6041694Sdarrenm if ((digest->cd_length == 0) || 6051694Sdarrenm (digest->cd_length < sha_digest_len)) { 6061694Sdarrenm digest->cd_length = sha_digest_len; 6071694Sdarrenm return (CRYPTO_BUFFER_TOO_SMALL); 6081694Sdarrenm } 6091694Sdarrenm 6101694Sdarrenm /* 6111694Sdarrenm * Do the SHA2 update on the specified input data. 6121694Sdarrenm */ 6131694Sdarrenm switch (data->cd_format) { 6141694Sdarrenm case CRYPTO_DATA_RAW: 6151694Sdarrenm SHA2Update(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6161694Sdarrenm (uint8_t *)data->cd_raw.iov_base + data->cd_offset, 6171694Sdarrenm data->cd_length); 6181694Sdarrenm break; 6191694Sdarrenm case CRYPTO_DATA_UIO: 6201694Sdarrenm ret = sha2_digest_update_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6211694Sdarrenm data); 6221694Sdarrenm break; 6231694Sdarrenm case CRYPTO_DATA_MBLK: 6241694Sdarrenm ret = sha2_digest_update_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6251694Sdarrenm data); 6261694Sdarrenm break; 6271694Sdarrenm default: 6281694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 6291694Sdarrenm } 6301694Sdarrenm 6311694Sdarrenm if (ret != CRYPTO_SUCCESS) { 6321694Sdarrenm /* the update failed, free context and bail */ 6331694Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_ctx_t)); 6341694Sdarrenm ctx->cc_provider_private = NULL; 6351694Sdarrenm digest->cd_length = 0; 6361694Sdarrenm return (ret); 6371694Sdarrenm } 6381694Sdarrenm 6391694Sdarrenm /* 6401694Sdarrenm * Do a SHA2 final, must be done separately since the digest 6411694Sdarrenm * type can be different than the input data type. 6421694Sdarrenm */ 6431694Sdarrenm switch (digest->cd_format) { 6441694Sdarrenm case CRYPTO_DATA_RAW: 6451694Sdarrenm SHA2Final((unsigned char *)digest->cd_raw.iov_base + 6461694Sdarrenm digest->cd_offset, &PROV_SHA2_CTX(ctx)->sc_sha2_ctx); 6471694Sdarrenm break; 6481694Sdarrenm case CRYPTO_DATA_UIO: 6491694Sdarrenm ret = sha2_digest_final_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6501694Sdarrenm digest, sha_digest_len, NULL); 6511694Sdarrenm break; 6521694Sdarrenm case CRYPTO_DATA_MBLK: 6531694Sdarrenm ret = sha2_digest_final_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6541694Sdarrenm digest, sha_digest_len, NULL); 6551694Sdarrenm break; 6561694Sdarrenm default: 6571694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 6581694Sdarrenm } 6591694Sdarrenm 6601694Sdarrenm /* all done, free context and return */ 6611694Sdarrenm 6621694Sdarrenm if (ret == CRYPTO_SUCCESS) 6631694Sdarrenm digest->cd_length = sha_digest_len; 6641694Sdarrenm else 6651694Sdarrenm digest->cd_length = 0; 6661694Sdarrenm 6671694Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_ctx_t)); 6681694Sdarrenm ctx->cc_provider_private = NULL; 6691694Sdarrenm return (ret); 6701694Sdarrenm } 6711694Sdarrenm 6721694Sdarrenm /* ARGSUSED */ 6731694Sdarrenm static int 6741694Sdarrenm sha2_digest_update(crypto_ctx_t *ctx, crypto_data_t *data, 6751694Sdarrenm crypto_req_handle_t req) 6761694Sdarrenm { 6771694Sdarrenm int ret = CRYPTO_SUCCESS; 6781694Sdarrenm 6791694Sdarrenm ASSERT(ctx->cc_provider_private != NULL); 6801694Sdarrenm 6811694Sdarrenm /* 6821694Sdarrenm * Do the SHA2 update on the specified input data. 6831694Sdarrenm */ 6841694Sdarrenm switch (data->cd_format) { 6851694Sdarrenm case CRYPTO_DATA_RAW: 6861694Sdarrenm SHA2Update(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6871694Sdarrenm (uint8_t *)data->cd_raw.iov_base + data->cd_offset, 6881694Sdarrenm data->cd_length); 6891694Sdarrenm break; 6901694Sdarrenm case CRYPTO_DATA_UIO: 6911694Sdarrenm ret = sha2_digest_update_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6921694Sdarrenm data); 6931694Sdarrenm break; 6941694Sdarrenm case CRYPTO_DATA_MBLK: 6951694Sdarrenm ret = sha2_digest_update_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 6961694Sdarrenm data); 6971694Sdarrenm break; 6981694Sdarrenm default: 6991694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 7001694Sdarrenm } 7011694Sdarrenm 7021694Sdarrenm return (ret); 7031694Sdarrenm } 7041694Sdarrenm 7051694Sdarrenm /* ARGSUSED */ 7061694Sdarrenm static int 7071694Sdarrenm sha2_digest_final(crypto_ctx_t *ctx, crypto_data_t *digest, 7081694Sdarrenm crypto_req_handle_t req) 7091694Sdarrenm { 7101694Sdarrenm int ret = CRYPTO_SUCCESS; 7111694Sdarrenm uint_t sha_digest_len; 7121694Sdarrenm 7131694Sdarrenm ASSERT(ctx->cc_provider_private != NULL); 7141694Sdarrenm 7151694Sdarrenm switch (PROV_SHA2_CTX(ctx)->sc_mech_type) { 7161694Sdarrenm case SHA256_MECH_INFO_TYPE: 7171694Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH; 7181694Sdarrenm break; 7191694Sdarrenm case SHA384_MECH_INFO_TYPE: 7201694Sdarrenm sha_digest_len = SHA384_DIGEST_LENGTH; 7211694Sdarrenm break; 7221694Sdarrenm case SHA512_MECH_INFO_TYPE: 7231694Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH; 7241694Sdarrenm break; 7251694Sdarrenm default: 7261694Sdarrenm return (CRYPTO_MECHANISM_INVALID); 7271694Sdarrenm } 7281694Sdarrenm 7291694Sdarrenm /* 7301694Sdarrenm * We need to just return the length needed to store the output. 7311694Sdarrenm * We should not destroy the context for the following cases. 7321694Sdarrenm */ 7331694Sdarrenm if ((digest->cd_length == 0) || 7341694Sdarrenm (digest->cd_length < sha_digest_len)) { 7351694Sdarrenm digest->cd_length = sha_digest_len; 7361694Sdarrenm return (CRYPTO_BUFFER_TOO_SMALL); 7371694Sdarrenm } 7381694Sdarrenm 7391694Sdarrenm /* 7401694Sdarrenm * Do a SHA2 final. 7411694Sdarrenm */ 7421694Sdarrenm switch (digest->cd_format) { 7431694Sdarrenm case CRYPTO_DATA_RAW: 7441694Sdarrenm SHA2Final((unsigned char *)digest->cd_raw.iov_base + 7451694Sdarrenm digest->cd_offset, &PROV_SHA2_CTX(ctx)->sc_sha2_ctx); 7461694Sdarrenm break; 7471694Sdarrenm case CRYPTO_DATA_UIO: 7481694Sdarrenm ret = sha2_digest_final_uio(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 7491694Sdarrenm digest, sha_digest_len, NULL); 7501694Sdarrenm break; 7511694Sdarrenm case CRYPTO_DATA_MBLK: 7521694Sdarrenm ret = sha2_digest_final_mblk(&PROV_SHA2_CTX(ctx)->sc_sha2_ctx, 7531694Sdarrenm digest, sha_digest_len, NULL); 7541694Sdarrenm break; 7551694Sdarrenm default: 7561694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 7571694Sdarrenm } 7581694Sdarrenm 7591694Sdarrenm /* all done, free context and return */ 7601694Sdarrenm 7611694Sdarrenm if (ret == CRYPTO_SUCCESS) 7621694Sdarrenm digest->cd_length = sha_digest_len; 7631694Sdarrenm else 7641694Sdarrenm digest->cd_length = 0; 7651694Sdarrenm 7661694Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_ctx_t)); 7671694Sdarrenm ctx->cc_provider_private = NULL; 7681694Sdarrenm 7691694Sdarrenm return (ret); 7701694Sdarrenm } 7711694Sdarrenm 7721694Sdarrenm /* ARGSUSED */ 7731694Sdarrenm static int 7741694Sdarrenm sha2_digest_atomic(crypto_provider_handle_t provider, 7751694Sdarrenm crypto_session_id_t session_id, crypto_mechanism_t *mechanism, 7761694Sdarrenm crypto_data_t *data, crypto_data_t *digest, 7771694Sdarrenm crypto_req_handle_t req) 7781694Sdarrenm { 7791694Sdarrenm int ret = CRYPTO_SUCCESS; 7801694Sdarrenm SHA2_CTX sha2_ctx; 7811694Sdarrenm uint32_t sha_digest_len; 7821694Sdarrenm 7831694Sdarrenm /* 7841694Sdarrenm * Do the SHA inits. 7851694Sdarrenm */ 7861694Sdarrenm 7871694Sdarrenm SHA2Init(mechanism->cm_type, &sha2_ctx); 7881694Sdarrenm 7891694Sdarrenm switch (data->cd_format) { 7901694Sdarrenm case CRYPTO_DATA_RAW: 7911694Sdarrenm SHA2Update(&sha2_ctx, (uint8_t *)data-> 7921694Sdarrenm cd_raw.iov_base + data->cd_offset, data->cd_length); 7931694Sdarrenm break; 7941694Sdarrenm case CRYPTO_DATA_UIO: 7951694Sdarrenm ret = sha2_digest_update_uio(&sha2_ctx, data); 7961694Sdarrenm break; 7971694Sdarrenm case CRYPTO_DATA_MBLK: 7981694Sdarrenm ret = sha2_digest_update_mblk(&sha2_ctx, data); 7991694Sdarrenm break; 8001694Sdarrenm default: 8011694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 8021694Sdarrenm } 8031694Sdarrenm 8041694Sdarrenm /* 8051694Sdarrenm * Do the SHA updates on the specified input data. 8061694Sdarrenm */ 8071694Sdarrenm 8081694Sdarrenm if (ret != CRYPTO_SUCCESS) { 8091694Sdarrenm /* the update failed, bail */ 8101694Sdarrenm digest->cd_length = 0; 8111694Sdarrenm return (ret); 8121694Sdarrenm } 8131694Sdarrenm 8141694Sdarrenm if (mechanism->cm_type <= SHA256_HMAC_GEN_MECH_INFO_TYPE) 8151694Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH; 8161694Sdarrenm else 8171694Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH; 8181694Sdarrenm 8191694Sdarrenm /* 8201694Sdarrenm * Do a SHA2 final, must be done separately since the digest 8211694Sdarrenm * type can be different than the input data type. 8221694Sdarrenm */ 8231694Sdarrenm switch (digest->cd_format) { 8241694Sdarrenm case CRYPTO_DATA_RAW: 8251694Sdarrenm SHA2Final((unsigned char *)digest->cd_raw.iov_base + 8261694Sdarrenm digest->cd_offset, &sha2_ctx); 8271694Sdarrenm break; 8281694Sdarrenm case CRYPTO_DATA_UIO: 8291694Sdarrenm ret = sha2_digest_final_uio(&sha2_ctx, digest, 8301694Sdarrenm sha_digest_len, NULL); 8311694Sdarrenm break; 8321694Sdarrenm case CRYPTO_DATA_MBLK: 8331694Sdarrenm ret = sha2_digest_final_mblk(&sha2_ctx, digest, 8341694Sdarrenm sha_digest_len, NULL); 8351694Sdarrenm break; 8361694Sdarrenm default: 8371694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 8381694Sdarrenm } 8391694Sdarrenm 8401694Sdarrenm if (ret == CRYPTO_SUCCESS) 8411694Sdarrenm digest->cd_length = sha_digest_len; 8421694Sdarrenm else 8431694Sdarrenm digest->cd_length = 0; 8441694Sdarrenm 8451694Sdarrenm return (ret); 8461694Sdarrenm } 8471694Sdarrenm 8481694Sdarrenm /* 8491694Sdarrenm * KCF software provider mac entry points. 8501694Sdarrenm * 8511694Sdarrenm * SHA2 HMAC is: SHA2(key XOR opad, SHA2(key XOR ipad, text)) 8521694Sdarrenm * 8531694Sdarrenm * Init: 8541694Sdarrenm * The initialization routine initializes what we denote 8551694Sdarrenm * as the inner and outer contexts by doing 8561694Sdarrenm * - for inner context: SHA2(key XOR ipad) 8571694Sdarrenm * - for outer context: SHA2(key XOR opad) 8581694Sdarrenm * 8591694Sdarrenm * Update: 8601694Sdarrenm * Each subsequent SHA2 HMAC update will result in an 8611694Sdarrenm * update of the inner context with the specified data. 8621694Sdarrenm * 8631694Sdarrenm * Final: 8641694Sdarrenm * The SHA2 HMAC final will do a SHA2 final operation on the 8651694Sdarrenm * inner context, and the resulting digest will be used 8661694Sdarrenm * as the data for an update on the outer context. Last 8671694Sdarrenm * but not least, a SHA2 final on the outer context will 8681694Sdarrenm * be performed to obtain the SHA2 HMAC digest to return 8691694Sdarrenm * to the user. 8701694Sdarrenm */ 8711694Sdarrenm 8721694Sdarrenm /* 8731694Sdarrenm * Initialize a SHA2-HMAC context. 8741694Sdarrenm */ 8751694Sdarrenm static void 8761694Sdarrenm sha2_mac_init_ctx(sha2_hmac_ctx_t *ctx, void *keyval, uint_t length_in_bytes) 8771694Sdarrenm { 8781694Sdarrenm uint64_t ipad[SHA512_HMAC_BLOCK_SIZE / sizeof (uint64_t)]; 8791694Sdarrenm uint64_t opad[SHA512_HMAC_BLOCK_SIZE / sizeof (uint64_t)]; 8801694Sdarrenm int i, block_size, blocks_per_int64; 8811694Sdarrenm 8821694Sdarrenm /* Determine the block size */ 8831694Sdarrenm if (ctx->hc_mech_type <= SHA256_HMAC_GEN_MECH_INFO_TYPE) { 8841694Sdarrenm block_size = SHA256_HMAC_BLOCK_SIZE; 8851694Sdarrenm blocks_per_int64 = SHA256_HMAC_BLOCK_SIZE / sizeof (uint64_t); 8861694Sdarrenm } else { 8871694Sdarrenm block_size = SHA512_HMAC_BLOCK_SIZE; 8881694Sdarrenm blocks_per_int64 = SHA512_HMAC_BLOCK_SIZE / sizeof (uint64_t); 8891694Sdarrenm } 8901694Sdarrenm 8911694Sdarrenm (void) bzero(ipad, block_size); 8921694Sdarrenm (void) bzero(opad, block_size); 8931694Sdarrenm (void) bcopy(keyval, ipad, length_in_bytes); 8941694Sdarrenm (void) bcopy(keyval, opad, length_in_bytes); 8951694Sdarrenm 8961694Sdarrenm /* XOR key with ipad (0x36) and opad (0x5c) */ 8971694Sdarrenm for (i = 0; i < blocks_per_int64; i ++) { 8981694Sdarrenm ipad[i] ^= 0x3636363636363636; 8991694Sdarrenm opad[i] ^= 0x5c5c5c5c5c5c5c5c; 9001694Sdarrenm } 9011694Sdarrenm 9021694Sdarrenm /* perform SHA2 on ipad */ 9031694Sdarrenm SHA2Init(ctx->hc_mech_type, &ctx->hc_icontext); 9041694Sdarrenm SHA2Update(&ctx->hc_icontext, (uint8_t *)ipad, block_size); 9051694Sdarrenm 9061694Sdarrenm /* perform SHA2 on opad */ 9071694Sdarrenm SHA2Init(ctx->hc_mech_type, &ctx->hc_ocontext); 9081694Sdarrenm SHA2Update(&ctx->hc_ocontext, (uint8_t *)opad, block_size); 9091694Sdarrenm 9101694Sdarrenm } 9111694Sdarrenm 9121694Sdarrenm /* 9131694Sdarrenm */ 9141694Sdarrenm static int 9151694Sdarrenm sha2_mac_init(crypto_ctx_t *ctx, crypto_mechanism_t *mechanism, 9161694Sdarrenm crypto_key_t *key, crypto_spi_ctx_template_t ctx_template, 9171694Sdarrenm crypto_req_handle_t req) 9181694Sdarrenm { 9191694Sdarrenm int ret = CRYPTO_SUCCESS; 9201694Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length); 9211694Sdarrenm uint_t sha_digest_len, sha_hmac_block_size; 9221694Sdarrenm 9231694Sdarrenm /* 9241694Sdarrenm * Set the digest length and block size to values approriate to the 9251694Sdarrenm * mechanism 9261694Sdarrenm */ 9271694Sdarrenm switch (mechanism->cm_type) { 9281694Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE: 9291694Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE: 9301694Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH; 9311694Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE; 9321694Sdarrenm break; 9331694Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE: 9341694Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE: 9351694Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE: 9361694Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE: 9371694Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH; 9381694Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE; 9391694Sdarrenm break; 9401694Sdarrenm default: 9411694Sdarrenm return (CRYPTO_MECHANISM_INVALID); 9421694Sdarrenm } 9431694Sdarrenm 9441694Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW) 9451694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 9461694Sdarrenm 9471694Sdarrenm ctx->cc_provider_private = kmem_alloc(sizeof (sha2_hmac_ctx_t), 9481694Sdarrenm crypto_kmflag(req)); 9491694Sdarrenm if (ctx->cc_provider_private == NULL) 9501694Sdarrenm return (CRYPTO_HOST_MEMORY); 9511694Sdarrenm 9524072Skrishna PROV_SHA2_HMAC_CTX(ctx)->hc_mech_type = mechanism->cm_type; 9531694Sdarrenm if (ctx_template != NULL) { 9541694Sdarrenm /* reuse context template */ 9551694Sdarrenm bcopy(ctx_template, PROV_SHA2_HMAC_CTX(ctx), 9561694Sdarrenm sizeof (sha2_hmac_ctx_t)); 9571694Sdarrenm } else { 9581694Sdarrenm /* no context template, compute context */ 9591694Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) { 9601694Sdarrenm uchar_t digested_key[SHA512_DIGEST_LENGTH]; 9611694Sdarrenm sha2_hmac_ctx_t *hmac_ctx = ctx->cc_provider_private; 9621694Sdarrenm 9631694Sdarrenm /* 9641694Sdarrenm * Hash the passed-in key to get a smaller key. 9651694Sdarrenm * The inner context is used since it hasn't been 9661694Sdarrenm * initialized yet. 9671694Sdarrenm */ 9681694Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3, 9691694Sdarrenm &hmac_ctx->hc_icontext, 9701694Sdarrenm key->ck_data, keylen_in_bytes, digested_key); 9711694Sdarrenm sha2_mac_init_ctx(PROV_SHA2_HMAC_CTX(ctx), 9721694Sdarrenm digested_key, sha_digest_len); 9731694Sdarrenm } else { 9741694Sdarrenm sha2_mac_init_ctx(PROV_SHA2_HMAC_CTX(ctx), 9751694Sdarrenm key->ck_data, keylen_in_bytes); 9761694Sdarrenm } 9771694Sdarrenm } 9781694Sdarrenm 9791694Sdarrenm /* 9801694Sdarrenm * Get the mechanism parameters, if applicable. 9811694Sdarrenm */ 9821694Sdarrenm if (mechanism->cm_type % 3 == 2) { 9831694Sdarrenm if (mechanism->cm_param == NULL || 9841694Sdarrenm mechanism->cm_param_len != sizeof (ulong_t)) 9851694Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID; 9861694Sdarrenm PROV_SHA2_GET_DIGEST_LEN(mechanism, 9871694Sdarrenm PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len); 9881694Sdarrenm if (PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len > sha_digest_len) 9891694Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID; 9901694Sdarrenm } 9911694Sdarrenm 9921694Sdarrenm if (ret != CRYPTO_SUCCESS) { 9931694Sdarrenm bzero(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t)); 9941694Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t)); 9951694Sdarrenm ctx->cc_provider_private = NULL; 9961694Sdarrenm } 9971694Sdarrenm 9981694Sdarrenm return (ret); 9991694Sdarrenm } 10001694Sdarrenm 10011694Sdarrenm /* ARGSUSED */ 10021694Sdarrenm static int 10031694Sdarrenm sha2_mac_update(crypto_ctx_t *ctx, crypto_data_t *data, 10041694Sdarrenm crypto_req_handle_t req) 10051694Sdarrenm { 10061694Sdarrenm int ret = CRYPTO_SUCCESS; 10071694Sdarrenm 10081694Sdarrenm ASSERT(ctx->cc_provider_private != NULL); 10091694Sdarrenm 10101694Sdarrenm /* 10111694Sdarrenm * Do a SHA2 update of the inner context using the specified 10121694Sdarrenm * data. 10131694Sdarrenm */ 10141694Sdarrenm switch (data->cd_format) { 10151694Sdarrenm case CRYPTO_DATA_RAW: 10161694Sdarrenm SHA2Update(&PROV_SHA2_HMAC_CTX(ctx)->hc_icontext, 10171694Sdarrenm (uint8_t *)data->cd_raw.iov_base + data->cd_offset, 10181694Sdarrenm data->cd_length); 10191694Sdarrenm break; 10201694Sdarrenm case CRYPTO_DATA_UIO: 10211694Sdarrenm ret = sha2_digest_update_uio( 10221694Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_icontext, data); 10231694Sdarrenm break; 10241694Sdarrenm case CRYPTO_DATA_MBLK: 10251694Sdarrenm ret = sha2_digest_update_mblk( 10261694Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_icontext, data); 10271694Sdarrenm break; 10281694Sdarrenm default: 10291694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 10301694Sdarrenm } 10311694Sdarrenm 10321694Sdarrenm return (ret); 10331694Sdarrenm } 10341694Sdarrenm 10351694Sdarrenm /* ARGSUSED */ 10361694Sdarrenm static int 10371694Sdarrenm sha2_mac_final(crypto_ctx_t *ctx, crypto_data_t *mac, crypto_req_handle_t req) 10381694Sdarrenm { 10391694Sdarrenm int ret = CRYPTO_SUCCESS; 10401694Sdarrenm uchar_t digest[SHA512_DIGEST_LENGTH]; 10411694Sdarrenm uint32_t digest_len, sha_digest_len; 10421694Sdarrenm 10431694Sdarrenm ASSERT(ctx->cc_provider_private != NULL); 10441694Sdarrenm 10451694Sdarrenm /* Set the digest lengths to values approriate to the mechanism */ 10461694Sdarrenm switch (PROV_SHA2_HMAC_CTX(ctx)->hc_mech_type) { 10471694Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE: 10481694Sdarrenm sha_digest_len = digest_len = SHA256_DIGEST_LENGTH; 10491694Sdarrenm break; 10501694Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE: 10514072Skrishna sha_digest_len = digest_len = SHA384_DIGEST_LENGTH; 10524072Skrishna break; 10531694Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE: 10541694Sdarrenm sha_digest_len = digest_len = SHA512_DIGEST_LENGTH; 10551694Sdarrenm break; 10561694Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE: 10571694Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH; 10581694Sdarrenm digest_len = PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len; 10591694Sdarrenm break; 10601694Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE: 10611694Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE: 10621694Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH; 10631694Sdarrenm digest_len = PROV_SHA2_HMAC_CTX(ctx)->hc_digest_len; 10641694Sdarrenm break; 10651694Sdarrenm } 10661694Sdarrenm 10671694Sdarrenm /* 10681694Sdarrenm * We need to just return the length needed to store the output. 10691694Sdarrenm * We should not destroy the context for the following cases. 10701694Sdarrenm */ 10711694Sdarrenm if ((mac->cd_length == 0) || (mac->cd_length < digest_len)) { 10721694Sdarrenm mac->cd_length = digest_len; 10731694Sdarrenm return (CRYPTO_BUFFER_TOO_SMALL); 10741694Sdarrenm } 10751694Sdarrenm 10761694Sdarrenm /* 10771694Sdarrenm * Do a SHA2 final on the inner context. 10781694Sdarrenm */ 10791694Sdarrenm SHA2Final(digest, &PROV_SHA2_HMAC_CTX(ctx)->hc_icontext); 10801694Sdarrenm 10811694Sdarrenm /* 10821694Sdarrenm * Do a SHA2 update on the outer context, feeding the inner 10831694Sdarrenm * digest as data. 10841694Sdarrenm */ 10851694Sdarrenm SHA2Update(&PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext, digest, 10861694Sdarrenm sha_digest_len); 10871694Sdarrenm 10881694Sdarrenm /* 10891694Sdarrenm * Do a SHA2 final on the outer context, storing the computing 10901694Sdarrenm * digest in the users buffer. 10911694Sdarrenm */ 10921694Sdarrenm switch (mac->cd_format) { 10931694Sdarrenm case CRYPTO_DATA_RAW: 10941694Sdarrenm if (digest_len != sha_digest_len) { 10951694Sdarrenm /* 10961694Sdarrenm * The caller requested a short digest. Digest 10971694Sdarrenm * into a scratch buffer and return to 10981694Sdarrenm * the user only what was requested. 10991694Sdarrenm */ 11001694Sdarrenm SHA2Final(digest, 11011694Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext); 11021694Sdarrenm bcopy(digest, (unsigned char *)mac->cd_raw.iov_base + 11031694Sdarrenm mac->cd_offset, digest_len); 11041694Sdarrenm } else { 11051694Sdarrenm SHA2Final((unsigned char *)mac->cd_raw.iov_base + 11061694Sdarrenm mac->cd_offset, 11071694Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext); 11081694Sdarrenm } 11091694Sdarrenm break; 11101694Sdarrenm case CRYPTO_DATA_UIO: 11111694Sdarrenm ret = sha2_digest_final_uio( 11121694Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext, mac, 11131694Sdarrenm digest_len, digest); 11141694Sdarrenm break; 11151694Sdarrenm case CRYPTO_DATA_MBLK: 11161694Sdarrenm ret = sha2_digest_final_mblk( 11171694Sdarrenm &PROV_SHA2_HMAC_CTX(ctx)->hc_ocontext, mac, 11181694Sdarrenm digest_len, digest); 11191694Sdarrenm break; 11201694Sdarrenm default: 11211694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 11221694Sdarrenm } 11231694Sdarrenm 11241694Sdarrenm if (ret == CRYPTO_SUCCESS) 11251694Sdarrenm mac->cd_length = digest_len; 11261694Sdarrenm else 11271694Sdarrenm mac->cd_length = 0; 11281694Sdarrenm 11294072Skrishna bzero(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t)); 11301694Sdarrenm kmem_free(ctx->cc_provider_private, sizeof (sha2_hmac_ctx_t)); 11311694Sdarrenm ctx->cc_provider_private = NULL; 11321694Sdarrenm 11331694Sdarrenm return (ret); 11341694Sdarrenm } 11351694Sdarrenm 11361694Sdarrenm #define SHA2_MAC_UPDATE(data, ctx, ret) { \ 11371694Sdarrenm switch (data->cd_format) { \ 11381694Sdarrenm case CRYPTO_DATA_RAW: \ 11391694Sdarrenm SHA2Update(&(ctx).hc_icontext, \ 11401694Sdarrenm (uint8_t *)data->cd_raw.iov_base + \ 11411694Sdarrenm data->cd_offset, data->cd_length); \ 11421694Sdarrenm break; \ 11431694Sdarrenm case CRYPTO_DATA_UIO: \ 11441694Sdarrenm ret = sha2_digest_update_uio(&(ctx).hc_icontext, data); \ 11451694Sdarrenm break; \ 11461694Sdarrenm case CRYPTO_DATA_MBLK: \ 11471694Sdarrenm ret = sha2_digest_update_mblk(&(ctx).hc_icontext, \ 11481694Sdarrenm data); \ 11491694Sdarrenm break; \ 11501694Sdarrenm default: \ 11511694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; \ 11521694Sdarrenm } \ 11531694Sdarrenm } 11541694Sdarrenm 11551694Sdarrenm /* ARGSUSED */ 11561694Sdarrenm static int 11571694Sdarrenm sha2_mac_atomic(crypto_provider_handle_t provider, 11581694Sdarrenm crypto_session_id_t session_id, crypto_mechanism_t *mechanism, 11591694Sdarrenm crypto_key_t *key, crypto_data_t *data, crypto_data_t *mac, 11601694Sdarrenm crypto_spi_ctx_template_t ctx_template, crypto_req_handle_t req) 11611694Sdarrenm { 11621694Sdarrenm int ret = CRYPTO_SUCCESS; 11631694Sdarrenm uchar_t digest[SHA512_DIGEST_LENGTH]; 11641694Sdarrenm sha2_hmac_ctx_t sha2_hmac_ctx; 11651694Sdarrenm uint32_t sha_digest_len, digest_len, sha_hmac_block_size; 11661694Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length); 11671694Sdarrenm 11681694Sdarrenm /* 11691694Sdarrenm * Set the digest length and block size to values approriate to the 11701694Sdarrenm * mechanism 11711694Sdarrenm */ 11721694Sdarrenm switch (mechanism->cm_type) { 11731694Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE: 11741694Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE: 11751694Sdarrenm sha_digest_len = digest_len = SHA256_DIGEST_LENGTH; 11761694Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE; 11771694Sdarrenm break; 11781694Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE: 11791694Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE: 11801694Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE: 11811694Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE: 11821694Sdarrenm sha_digest_len = digest_len = SHA512_DIGEST_LENGTH; 11831694Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE; 11841694Sdarrenm break; 11851694Sdarrenm default: 11861694Sdarrenm return (CRYPTO_MECHANISM_INVALID); 11871694Sdarrenm } 11881694Sdarrenm 11891694Sdarrenm /* Add support for key by attributes (RFE 4706552) */ 11901694Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW) 11911694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 11921694Sdarrenm 11931694Sdarrenm if (ctx_template != NULL) { 11941694Sdarrenm /* reuse context template */ 11951694Sdarrenm bcopy(ctx_template, &sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t)); 11961694Sdarrenm } else { 11971694Sdarrenm sha2_hmac_ctx.hc_mech_type = mechanism->cm_type; 11981694Sdarrenm /* no context template, initialize context */ 11991694Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) { 12001694Sdarrenm /* 12011694Sdarrenm * Hash the passed-in key to get a smaller key. 12021694Sdarrenm * The inner context is used since it hasn't been 12031694Sdarrenm * initialized yet. 12041694Sdarrenm */ 12051694Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3, 12061694Sdarrenm &sha2_hmac_ctx.hc_icontext, 12071694Sdarrenm key->ck_data, keylen_in_bytes, digest); 12081694Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, digest, 12091694Sdarrenm sha_digest_len); 12101694Sdarrenm } else { 12111694Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, key->ck_data, 12121694Sdarrenm keylen_in_bytes); 12131694Sdarrenm } 12141694Sdarrenm } 12151694Sdarrenm 12161694Sdarrenm /* get the mechanism parameters, if applicable */ 12171694Sdarrenm if ((mechanism->cm_type % 3) == 2) { 12181694Sdarrenm if (mechanism->cm_param == NULL || 12191694Sdarrenm mechanism->cm_param_len != sizeof (ulong_t)) { 12201694Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID; 12211694Sdarrenm goto bail; 12221694Sdarrenm } 12231694Sdarrenm PROV_SHA2_GET_DIGEST_LEN(mechanism, digest_len); 12241694Sdarrenm if (digest_len > sha_digest_len) { 12251694Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID; 12261694Sdarrenm goto bail; 12271694Sdarrenm } 12281694Sdarrenm } 12291694Sdarrenm 12301694Sdarrenm /* do a SHA2 update of the inner context using the specified data */ 12311694Sdarrenm SHA2_MAC_UPDATE(data, sha2_hmac_ctx, ret); 12321694Sdarrenm if (ret != CRYPTO_SUCCESS) 12331694Sdarrenm /* the update failed, free context and bail */ 12341694Sdarrenm goto bail; 12351694Sdarrenm 12361694Sdarrenm /* 12371694Sdarrenm * Do a SHA2 final on the inner context. 12381694Sdarrenm */ 12391694Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_icontext); 12401694Sdarrenm 12411694Sdarrenm /* 12421694Sdarrenm * Do an SHA2 update on the outer context, feeding the inner 12431694Sdarrenm * digest as data. 12441694Sdarrenm * 12456126Sdanmcd * HMAC-SHA384 needs special handling as the outer hash needs only 48 12466126Sdanmcd * bytes of the inner hash value. 12471694Sdarrenm */ 12481694Sdarrenm if (mechanism->cm_type == SHA384_HMAC_MECH_INFO_TYPE || 12491694Sdarrenm mechanism->cm_type == SHA384_HMAC_GEN_MECH_INFO_TYPE) 12501694Sdarrenm SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest, 12511694Sdarrenm SHA384_DIGEST_LENGTH); 12521694Sdarrenm else 12531694Sdarrenm SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest, sha_digest_len); 12541694Sdarrenm 12551694Sdarrenm /* 12561694Sdarrenm * Do a SHA2 final on the outer context, storing the computed 12571694Sdarrenm * digest in the users buffer. 12581694Sdarrenm */ 12591694Sdarrenm switch (mac->cd_format) { 12601694Sdarrenm case CRYPTO_DATA_RAW: 12611694Sdarrenm if (digest_len != sha_digest_len) { 12621694Sdarrenm /* 12631694Sdarrenm * The caller requested a short digest. Digest 12641694Sdarrenm * into a scratch buffer and return to 12651694Sdarrenm * the user only what was requested. 12661694Sdarrenm */ 12671694Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_ocontext); 12681694Sdarrenm bcopy(digest, (unsigned char *)mac->cd_raw.iov_base + 12691694Sdarrenm mac->cd_offset, digest_len); 12701694Sdarrenm } else { 12711694Sdarrenm SHA2Final((unsigned char *)mac->cd_raw.iov_base + 12721694Sdarrenm mac->cd_offset, &sha2_hmac_ctx.hc_ocontext); 12731694Sdarrenm } 12741694Sdarrenm break; 12751694Sdarrenm case CRYPTO_DATA_UIO: 12761694Sdarrenm ret = sha2_digest_final_uio(&sha2_hmac_ctx.hc_ocontext, mac, 12771694Sdarrenm digest_len, digest); 12781694Sdarrenm break; 12791694Sdarrenm case CRYPTO_DATA_MBLK: 12801694Sdarrenm ret = sha2_digest_final_mblk(&sha2_hmac_ctx.hc_ocontext, mac, 12811694Sdarrenm digest_len, digest); 12821694Sdarrenm break; 12831694Sdarrenm default: 12841694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 12851694Sdarrenm } 12861694Sdarrenm 12871694Sdarrenm if (ret == CRYPTO_SUCCESS) { 12881694Sdarrenm mac->cd_length = digest_len; 12891694Sdarrenm return (CRYPTO_SUCCESS); 12901694Sdarrenm } 12911694Sdarrenm bail: 12921694Sdarrenm bzero(&sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t)); 12931694Sdarrenm mac->cd_length = 0; 12941694Sdarrenm return (ret); 12951694Sdarrenm } 12961694Sdarrenm 12971694Sdarrenm /* ARGSUSED */ 12981694Sdarrenm static int 12991694Sdarrenm sha2_mac_verify_atomic(crypto_provider_handle_t provider, 13001694Sdarrenm crypto_session_id_t session_id, crypto_mechanism_t *mechanism, 13011694Sdarrenm crypto_key_t *key, crypto_data_t *data, crypto_data_t *mac, 13021694Sdarrenm crypto_spi_ctx_template_t ctx_template, crypto_req_handle_t req) 13031694Sdarrenm { 13041694Sdarrenm int ret = CRYPTO_SUCCESS; 13051694Sdarrenm uchar_t digest[SHA512_DIGEST_LENGTH]; 13061694Sdarrenm sha2_hmac_ctx_t sha2_hmac_ctx; 13071694Sdarrenm uint32_t sha_digest_len, digest_len, sha_hmac_block_size; 13081694Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length); 13091694Sdarrenm 13101694Sdarrenm /* 13111694Sdarrenm * Set the digest length and block size to values approriate to the 13121694Sdarrenm * mechanism 13131694Sdarrenm */ 13141694Sdarrenm switch (mechanism->cm_type) { 13151694Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE: 13161694Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE: 13171694Sdarrenm sha_digest_len = digest_len = SHA256_DIGEST_LENGTH; 13181694Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE; 13191694Sdarrenm break; 13201694Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE: 13211694Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE: 13221694Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE: 13231694Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE: 13241694Sdarrenm sha_digest_len = digest_len = SHA512_DIGEST_LENGTH; 13251694Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE; 13261694Sdarrenm break; 13271694Sdarrenm default: 13281694Sdarrenm return (CRYPTO_MECHANISM_INVALID); 13291694Sdarrenm } 13301694Sdarrenm 13311694Sdarrenm /* Add support for key by attributes (RFE 4706552) */ 13321694Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW) 13331694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 13341694Sdarrenm 13351694Sdarrenm if (ctx_template != NULL) { 13361694Sdarrenm /* reuse context template */ 13371694Sdarrenm bcopy(ctx_template, &sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t)); 13381694Sdarrenm } else { 13399456SMark.Powers@Sun.COM sha2_hmac_ctx.hc_mech_type = mechanism->cm_type; 13401694Sdarrenm /* no context template, initialize context */ 13411694Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) { 13421694Sdarrenm /* 13431694Sdarrenm * Hash the passed-in key to get a smaller key. 13441694Sdarrenm * The inner context is used since it hasn't been 13451694Sdarrenm * initialized yet. 13461694Sdarrenm */ 13471694Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3, 13481694Sdarrenm &sha2_hmac_ctx.hc_icontext, 13491694Sdarrenm key->ck_data, keylen_in_bytes, digest); 13501694Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, digest, 13511694Sdarrenm sha_digest_len); 13521694Sdarrenm } else { 13531694Sdarrenm sha2_mac_init_ctx(&sha2_hmac_ctx, key->ck_data, 13541694Sdarrenm keylen_in_bytes); 13551694Sdarrenm } 13561694Sdarrenm } 13571694Sdarrenm 13581694Sdarrenm /* get the mechanism parameters, if applicable */ 13591694Sdarrenm if (mechanism->cm_type % 3 == 2) { 13601694Sdarrenm if (mechanism->cm_param == NULL || 13611694Sdarrenm mechanism->cm_param_len != sizeof (ulong_t)) { 13621694Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID; 13631694Sdarrenm goto bail; 13641694Sdarrenm } 13651694Sdarrenm PROV_SHA2_GET_DIGEST_LEN(mechanism, digest_len); 13661694Sdarrenm if (digest_len > sha_digest_len) { 13671694Sdarrenm ret = CRYPTO_MECHANISM_PARAM_INVALID; 13681694Sdarrenm goto bail; 13691694Sdarrenm } 13701694Sdarrenm } 13711694Sdarrenm 13721694Sdarrenm if (mac->cd_length != digest_len) { 13731694Sdarrenm ret = CRYPTO_INVALID_MAC; 13741694Sdarrenm goto bail; 13751694Sdarrenm } 13761694Sdarrenm 13771694Sdarrenm /* do a SHA2 update of the inner context using the specified data */ 13781694Sdarrenm SHA2_MAC_UPDATE(data, sha2_hmac_ctx, ret); 13791694Sdarrenm if (ret != CRYPTO_SUCCESS) 13801694Sdarrenm /* the update failed, free context and bail */ 13811694Sdarrenm goto bail; 13821694Sdarrenm 13831694Sdarrenm /* do a SHA2 final on the inner context */ 13841694Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_icontext); 13851694Sdarrenm 13861694Sdarrenm /* 13871694Sdarrenm * Do an SHA2 update on the outer context, feeding the inner 13881694Sdarrenm * digest as data. 13896126Sdanmcd * 13906126Sdanmcd * HMAC-SHA384 needs special handling as the outer hash needs only 48 13916126Sdanmcd * bytes of the inner hash value. 13921694Sdarrenm */ 13936126Sdanmcd if (mechanism->cm_type == SHA384_HMAC_MECH_INFO_TYPE || 13946126Sdanmcd mechanism->cm_type == SHA384_HMAC_GEN_MECH_INFO_TYPE) 13956126Sdanmcd SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest, 13966126Sdanmcd SHA384_DIGEST_LENGTH); 13976126Sdanmcd else 13986126Sdanmcd SHA2Update(&sha2_hmac_ctx.hc_ocontext, digest, sha_digest_len); 13991694Sdarrenm 14001694Sdarrenm /* 14011694Sdarrenm * Do a SHA2 final on the outer context, storing the computed 14021694Sdarrenm * digest in the users buffer. 14031694Sdarrenm */ 14041694Sdarrenm SHA2Final(digest, &sha2_hmac_ctx.hc_ocontext); 14051694Sdarrenm 14061694Sdarrenm /* 14071694Sdarrenm * Compare the computed digest against the expected digest passed 14081694Sdarrenm * as argument. 14091694Sdarrenm */ 14101694Sdarrenm 14111694Sdarrenm switch (mac->cd_format) { 14121694Sdarrenm 14131694Sdarrenm case CRYPTO_DATA_RAW: 14141694Sdarrenm if (bcmp(digest, (unsigned char *)mac->cd_raw.iov_base + 14151694Sdarrenm mac->cd_offset, digest_len) != 0) 14161694Sdarrenm ret = CRYPTO_INVALID_MAC; 14171694Sdarrenm break; 14181694Sdarrenm 14191694Sdarrenm case CRYPTO_DATA_UIO: { 14201694Sdarrenm off_t offset = mac->cd_offset; 14211694Sdarrenm uint_t vec_idx; 14221694Sdarrenm off_t scratch_offset = 0; 14231694Sdarrenm size_t length = digest_len; 14241694Sdarrenm size_t cur_len; 14251694Sdarrenm 14261694Sdarrenm /* we support only kernel buffer */ 14271694Sdarrenm if (mac->cd_uio->uio_segflg != UIO_SYSSPACE) 14281694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 14291694Sdarrenm 14301694Sdarrenm /* jump to the first iovec containing the expected digest */ 14311694Sdarrenm for (vec_idx = 0; 14321694Sdarrenm offset >= mac->cd_uio->uio_iov[vec_idx].iov_len && 14331694Sdarrenm vec_idx < mac->cd_uio->uio_iovcnt; 14345072Smcpowers offset -= mac->cd_uio->uio_iov[vec_idx++].iov_len) 14355072Smcpowers ; 14361694Sdarrenm if (vec_idx == mac->cd_uio->uio_iovcnt) { 14371694Sdarrenm /* 14381694Sdarrenm * The caller specified an offset that is 14391694Sdarrenm * larger than the total size of the buffers 14401694Sdarrenm * it provided. 14411694Sdarrenm */ 14421694Sdarrenm ret = CRYPTO_DATA_LEN_RANGE; 14431694Sdarrenm break; 14441694Sdarrenm } 14451694Sdarrenm 14461694Sdarrenm /* do the comparison of computed digest vs specified one */ 14471694Sdarrenm while (vec_idx < mac->cd_uio->uio_iovcnt && length > 0) { 14481694Sdarrenm cur_len = MIN(mac->cd_uio->uio_iov[vec_idx].iov_len - 14491694Sdarrenm offset, length); 14501694Sdarrenm 14511694Sdarrenm if (bcmp(digest + scratch_offset, 14521694Sdarrenm mac->cd_uio->uio_iov[vec_idx].iov_base + offset, 14531694Sdarrenm cur_len) != 0) { 14541694Sdarrenm ret = CRYPTO_INVALID_MAC; 14551694Sdarrenm break; 14561694Sdarrenm } 14571694Sdarrenm 14581694Sdarrenm length -= cur_len; 14591694Sdarrenm vec_idx++; 14601694Sdarrenm scratch_offset += cur_len; 14611694Sdarrenm offset = 0; 14621694Sdarrenm } 14631694Sdarrenm break; 14641694Sdarrenm } 14651694Sdarrenm 14661694Sdarrenm case CRYPTO_DATA_MBLK: { 14671694Sdarrenm off_t offset = mac->cd_offset; 14681694Sdarrenm mblk_t *mp; 14691694Sdarrenm off_t scratch_offset = 0; 14701694Sdarrenm size_t length = digest_len; 14711694Sdarrenm size_t cur_len; 14721694Sdarrenm 14731694Sdarrenm /* jump to the first mblk_t containing the expected digest */ 14741694Sdarrenm for (mp = mac->cd_mp; mp != NULL && offset >= MBLKL(mp); 14755072Smcpowers offset -= MBLKL(mp), mp = mp->b_cont) 14765072Smcpowers ; 14771694Sdarrenm if (mp == NULL) { 14781694Sdarrenm /* 14791694Sdarrenm * The caller specified an offset that is larger than 14801694Sdarrenm * the total size of the buffers it provided. 14811694Sdarrenm */ 14821694Sdarrenm ret = CRYPTO_DATA_LEN_RANGE; 14831694Sdarrenm break; 14841694Sdarrenm } 14851694Sdarrenm 14861694Sdarrenm while (mp != NULL && length > 0) { 14871694Sdarrenm cur_len = MIN(MBLKL(mp) - offset, length); 14881694Sdarrenm if (bcmp(digest + scratch_offset, 14891694Sdarrenm mp->b_rptr + offset, cur_len) != 0) { 14901694Sdarrenm ret = CRYPTO_INVALID_MAC; 14911694Sdarrenm break; 14921694Sdarrenm } 14931694Sdarrenm 14941694Sdarrenm length -= cur_len; 14951694Sdarrenm mp = mp->b_cont; 14961694Sdarrenm scratch_offset += cur_len; 14971694Sdarrenm offset = 0; 14981694Sdarrenm } 14991694Sdarrenm break; 15001694Sdarrenm } 15011694Sdarrenm 15021694Sdarrenm default: 15031694Sdarrenm ret = CRYPTO_ARGUMENTS_BAD; 15041694Sdarrenm } 15051694Sdarrenm 15061694Sdarrenm return (ret); 15071694Sdarrenm bail: 15081694Sdarrenm bzero(&sha2_hmac_ctx, sizeof (sha2_hmac_ctx_t)); 15091694Sdarrenm mac->cd_length = 0; 15101694Sdarrenm return (ret); 15111694Sdarrenm } 15121694Sdarrenm 15131694Sdarrenm /* 15141694Sdarrenm * KCF software provider context management entry points. 15151694Sdarrenm */ 15161694Sdarrenm 15171694Sdarrenm /* ARGSUSED */ 15181694Sdarrenm static int 15191694Sdarrenm sha2_create_ctx_template(crypto_provider_handle_t provider, 15201694Sdarrenm crypto_mechanism_t *mechanism, crypto_key_t *key, 15211694Sdarrenm crypto_spi_ctx_template_t *ctx_template, size_t *ctx_template_size, 15221694Sdarrenm crypto_req_handle_t req) 15231694Sdarrenm { 15241694Sdarrenm sha2_hmac_ctx_t *sha2_hmac_ctx_tmpl; 15251694Sdarrenm uint_t keylen_in_bytes = CRYPTO_BITS2BYTES(key->ck_length); 15261694Sdarrenm uint32_t sha_digest_len, sha_hmac_block_size; 15271694Sdarrenm 15281694Sdarrenm /* 15291694Sdarrenm * Set the digest length and block size to values approriate to the 15301694Sdarrenm * mechanism 15311694Sdarrenm */ 15321694Sdarrenm switch (mechanism->cm_type) { 15331694Sdarrenm case SHA256_HMAC_MECH_INFO_TYPE: 15341694Sdarrenm case SHA256_HMAC_GEN_MECH_INFO_TYPE: 15351694Sdarrenm sha_digest_len = SHA256_DIGEST_LENGTH; 15361694Sdarrenm sha_hmac_block_size = SHA256_HMAC_BLOCK_SIZE; 15371694Sdarrenm break; 15381694Sdarrenm case SHA384_HMAC_MECH_INFO_TYPE: 15391694Sdarrenm case SHA384_HMAC_GEN_MECH_INFO_TYPE: 15401694Sdarrenm case SHA512_HMAC_MECH_INFO_TYPE: 15411694Sdarrenm case SHA512_HMAC_GEN_MECH_INFO_TYPE: 15421694Sdarrenm sha_digest_len = SHA512_DIGEST_LENGTH; 15431694Sdarrenm sha_hmac_block_size = SHA512_HMAC_BLOCK_SIZE; 15441694Sdarrenm break; 15451694Sdarrenm default: 15461694Sdarrenm return (CRYPTO_MECHANISM_INVALID); 15471694Sdarrenm } 15481694Sdarrenm 15491694Sdarrenm /* Add support for key by attributes (RFE 4706552) */ 15501694Sdarrenm if (key->ck_format != CRYPTO_KEY_RAW) 15511694Sdarrenm return (CRYPTO_ARGUMENTS_BAD); 15521694Sdarrenm 15531694Sdarrenm /* 15541694Sdarrenm * Allocate and initialize SHA2 context. 15551694Sdarrenm */ 15561694Sdarrenm sha2_hmac_ctx_tmpl = kmem_alloc(sizeof (sha2_hmac_ctx_t), 15571694Sdarrenm crypto_kmflag(req)); 15581694Sdarrenm if (sha2_hmac_ctx_tmpl == NULL) 15591694Sdarrenm return (CRYPTO_HOST_MEMORY); 15601694Sdarrenm 15611694Sdarrenm sha2_hmac_ctx_tmpl->hc_mech_type = mechanism->cm_type; 15621694Sdarrenm 15631694Sdarrenm if (keylen_in_bytes > sha_hmac_block_size) { 15641694Sdarrenm uchar_t digested_key[SHA512_DIGEST_LENGTH]; 15651694Sdarrenm 15661694Sdarrenm /* 15671694Sdarrenm * Hash the passed-in key to get a smaller key. 15681694Sdarrenm * The inner context is used since it hasn't been 15691694Sdarrenm * initialized yet. 15701694Sdarrenm */ 15711694Sdarrenm PROV_SHA2_DIGEST_KEY(mechanism->cm_type / 3, 15721694Sdarrenm &sha2_hmac_ctx_tmpl->hc_icontext, 15731694Sdarrenm key->ck_data, keylen_in_bytes, digested_key); 15741694Sdarrenm sha2_mac_init_ctx(sha2_hmac_ctx_tmpl, digested_key, 15751694Sdarrenm sha_digest_len); 15761694Sdarrenm } else { 15771694Sdarrenm sha2_mac_init_ctx(sha2_hmac_ctx_tmpl, key->ck_data, 15781694Sdarrenm keylen_in_bytes); 15791694Sdarrenm } 15801694Sdarrenm 15811694Sdarrenm *ctx_template = (crypto_spi_ctx_template_t)sha2_hmac_ctx_tmpl; 15821694Sdarrenm *ctx_template_size = sizeof (sha2_hmac_ctx_t); 15831694Sdarrenm 15841694Sdarrenm return (CRYPTO_SUCCESS); 15851694Sdarrenm } 15861694Sdarrenm 15871694Sdarrenm static int 15881694Sdarrenm sha2_free_context(crypto_ctx_t *ctx) 15891694Sdarrenm { 15901694Sdarrenm uint_t ctx_len; 15911694Sdarrenm 15921694Sdarrenm if (ctx->cc_provider_private == NULL) 15931694Sdarrenm return (CRYPTO_SUCCESS); 15941694Sdarrenm 15951694Sdarrenm /* 15961694Sdarrenm * We have to free either SHA2 or SHA2-HMAC contexts, which 15971694Sdarrenm * have different lengths. 15981694Sdarrenm * 15991694Sdarrenm * Note: Below is dependent on the mechanism ordering. 16001694Sdarrenm */ 16011694Sdarrenm 16021694Sdarrenm if (PROV_SHA2_CTX(ctx)->sc_mech_type % 3 == 0) 16031694Sdarrenm ctx_len = sizeof (sha2_ctx_t); 16041694Sdarrenm else 16051694Sdarrenm ctx_len = sizeof (sha2_hmac_ctx_t); 16061694Sdarrenm 16071694Sdarrenm bzero(ctx->cc_provider_private, ctx_len); 16081694Sdarrenm kmem_free(ctx->cc_provider_private, ctx_len); 16091694Sdarrenm ctx->cc_provider_private = NULL; 16101694Sdarrenm 16111694Sdarrenm return (CRYPTO_SUCCESS); 16121694Sdarrenm } 1613*10500SHai-May.Chao@Sun.COM 1614*10500SHai-May.Chao@Sun.COM /* 1615*10500SHai-May.Chao@Sun.COM * SHA-2 Power-Up Self-Test 1616*10500SHai-May.Chao@Sun.COM */ 1617*10500SHai-May.Chao@Sun.COM void 1618*10500SHai-May.Chao@Sun.COM sha2_POST(int *rc) 1619*10500SHai-May.Chao@Sun.COM { 1620*10500SHai-May.Chao@Sun.COM 1621*10500SHai-May.Chao@Sun.COM *rc = fips_sha2_post(); 1622*10500SHai-May.Chao@Sun.COM 1623*10500SHai-May.Chao@Sun.COM } 1624