cms.c revision 1.1
1/* $NetBSD: cms.c,v 1.1 2011/04/13 18:15:10 elric Exp $ */ 2 3/* 4 * Copyright (c) 2003 - 2007 Kungliga Tekniska H��gskolan 5 * (Royal Institute of Technology, Stockholm, Sweden). 6 * All rights reserved. 7 * 8 * Redistribution and use in source and binary forms, with or without 9 * modification, are permitted provided that the following conditions 10 * are met: 11 * 12 * 1. Redistributions of source code must retain the above copyright 13 * notice, this list of conditions and the following disclaimer. 14 * 15 * 2. Redistributions in binary form must reproduce the above copyright 16 * notice, this list of conditions and the following disclaimer in the 17 * documentation and/or other materials provided with the distribution. 18 * 19 * 3. Neither the name of the Institute nor the names of its contributors 20 * may be used to endorse or promote products derived from this software 21 * without specific prior written permission. 22 * 23 * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND 24 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 25 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 26 * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE 27 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 28 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 29 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33 * SUCH DAMAGE. 34 */ 35 36#include "hx_locl.h" 37 38/** 39 * @page page_cms CMS/PKCS7 message functions. 40 * 41 * CMS is defined in RFC 3369 and is an continuation of the RSA Labs 42 * standard PKCS7. The basic messages in CMS is 43 * 44 * - SignedData 45 * Data signed with private key (RSA, DSA, ECDSA) or secret 46 * (symmetric) key 47 * - EnvelopedData 48 * Data encrypted with private key (RSA) 49 * - EncryptedData 50 * Data encrypted with secret (symmetric) key. 51 * - ContentInfo 52 * Wrapper structure including type and data. 53 * 54 * 55 * See the library functions here: @ref hx509_cms 56 */ 57 58#define ALLOC(X, N) (X) = calloc((N), sizeof(*(X))) 59#define ALLOC_SEQ(X, N) do { (X)->len = (N); ALLOC((X)->val, (N)); } while(0) 60 61/** 62 * Wrap data and oid in a ContentInfo and encode it. 63 * 64 * @param oid type of the content. 65 * @param buf data to be wrapped. If a NULL pointer is passed in, the 66 * optional content field in the ContentInfo is not going be filled 67 * in. 68 * @param res the encoded buffer, the result should be freed with 69 * der_free_octet_string(). 70 * 71 * @return Returns an hx509 error code. 72 * 73 * @ingroup hx509_cms 74 */ 75 76int 77hx509_cms_wrap_ContentInfo(const heim_oid *oid, 78 const heim_octet_string *buf, 79 heim_octet_string *res) 80{ 81 ContentInfo ci; 82 size_t size; 83 int ret; 84 85 memset(res, 0, sizeof(*res)); 86 memset(&ci, 0, sizeof(ci)); 87 88 ret = der_copy_oid(oid, &ci.contentType); 89 if (ret) 90 return ret; 91 if (buf) { 92 ALLOC(ci.content, 1); 93 if (ci.content == NULL) { 94 free_ContentInfo(&ci); 95 return ENOMEM; 96 } 97 ci.content->data = malloc(buf->length); 98 if (ci.content->data == NULL) { 99 free_ContentInfo(&ci); 100 return ENOMEM; 101 } 102 memcpy(ci.content->data, buf->data, buf->length); 103 ci.content->length = buf->length; 104 } 105 106 ASN1_MALLOC_ENCODE(ContentInfo, res->data, res->length, &ci, &size, ret); 107 free_ContentInfo(&ci); 108 if (ret) 109 return ret; 110 if (res->length != size) 111 _hx509_abort("internal ASN.1 encoder error"); 112 113 return 0; 114} 115 116/** 117 * Decode an ContentInfo and unwrap data and oid it. 118 * 119 * @param in the encoded buffer. 120 * @param oid type of the content. 121 * @param out data to be wrapped. 122 * @param have_data since the data is optional, this flags show dthe 123 * diffrence between no data and the zero length data. 124 * 125 * @return Returns an hx509 error code. 126 * 127 * @ingroup hx509_cms 128 */ 129 130int 131hx509_cms_unwrap_ContentInfo(const heim_octet_string *in, 132 heim_oid *oid, 133 heim_octet_string *out, 134 int *have_data) 135{ 136 ContentInfo ci; 137 size_t size; 138 int ret; 139 140 memset(oid, 0, sizeof(*oid)); 141 memset(out, 0, sizeof(*out)); 142 143 ret = decode_ContentInfo(in->data, in->length, &ci, &size); 144 if (ret) 145 return ret; 146 147 ret = der_copy_oid(&ci.contentType, oid); 148 if (ret) { 149 free_ContentInfo(&ci); 150 return ret; 151 } 152 if (ci.content) { 153 ret = der_copy_octet_string(ci.content, out); 154 if (ret) { 155 der_free_oid(oid); 156 free_ContentInfo(&ci); 157 return ret; 158 } 159 } else 160 memset(out, 0, sizeof(*out)); 161 162 if (have_data) 163 *have_data = (ci.content != NULL) ? 1 : 0; 164 165 free_ContentInfo(&ci); 166 167 return 0; 168} 169 170#define CMS_ID_SKI 0 171#define CMS_ID_NAME 1 172 173static int 174fill_CMSIdentifier(const hx509_cert cert, 175 int type, 176 CMSIdentifier *id) 177{ 178 int ret; 179 180 switch (type) { 181 case CMS_ID_SKI: 182 id->element = choice_CMSIdentifier_subjectKeyIdentifier; 183 ret = _hx509_find_extension_subject_key_id(_hx509_get_cert(cert), 184 &id->u.subjectKeyIdentifier); 185 if (ret == 0) 186 break; 187 /* FALL THOUGH */ 188 case CMS_ID_NAME: { 189 hx509_name name; 190 191 id->element = choice_CMSIdentifier_issuerAndSerialNumber; 192 ret = hx509_cert_get_issuer(cert, &name); 193 if (ret) 194 return ret; 195 ret = hx509_name_to_Name(name, &id->u.issuerAndSerialNumber.issuer); 196 hx509_name_free(&name); 197 if (ret) 198 return ret; 199 200 ret = hx509_cert_get_serialnumber(cert, &id->u.issuerAndSerialNumber.serialNumber); 201 break; 202 } 203 default: 204 _hx509_abort("CMS fill identifier with unknown type"); 205 } 206 return ret; 207} 208 209static int 210unparse_CMSIdentifier(hx509_context context, 211 CMSIdentifier *id, 212 char **str) 213{ 214 int ret; 215 216 *str = NULL; 217 switch (id->element) { 218 case choice_CMSIdentifier_issuerAndSerialNumber: { 219 IssuerAndSerialNumber *iasn; 220 char *serial, *name; 221 222 iasn = &id->u.issuerAndSerialNumber; 223 224 ret = _hx509_Name_to_string(&iasn->issuer, &name); 225 if(ret) 226 return ret; 227 ret = der_print_hex_heim_integer(&iasn->serialNumber, &serial); 228 if (ret) { 229 free(name); 230 return ret; 231 } 232 asprintf(str, "certificate issued by %s with serial number %s", 233 name, serial); 234 free(name); 235 free(serial); 236 break; 237 } 238 case choice_CMSIdentifier_subjectKeyIdentifier: { 239 KeyIdentifier *ki = &id->u.subjectKeyIdentifier; 240 char *keyid; 241 ssize_t len; 242 243 len = hex_encode(ki->data, ki->length, &keyid); 244 if (len < 0) 245 return ENOMEM; 246 247 asprintf(str, "certificate with id %s", keyid); 248 free(keyid); 249 break; 250 } 251 default: 252 asprintf(str, "certificate have unknown CMSidentifier type"); 253 break; 254 } 255 if (*str == NULL) 256 return ENOMEM; 257 return 0; 258} 259 260static int 261find_CMSIdentifier(hx509_context context, 262 CMSIdentifier *client, 263 hx509_certs certs, 264 time_t time_now, 265 hx509_cert *signer_cert, 266 int match) 267{ 268 hx509_query q; 269 hx509_cert cert; 270 Certificate c; 271 int ret; 272 273 memset(&c, 0, sizeof(c)); 274 _hx509_query_clear(&q); 275 276 *signer_cert = NULL; 277 278 switch (client->element) { 279 case choice_CMSIdentifier_issuerAndSerialNumber: 280 q.serial = &client->u.issuerAndSerialNumber.serialNumber; 281 q.issuer_name = &client->u.issuerAndSerialNumber.issuer; 282 q.match = HX509_QUERY_MATCH_SERIALNUMBER|HX509_QUERY_MATCH_ISSUER_NAME; 283 break; 284 case choice_CMSIdentifier_subjectKeyIdentifier: 285 q.subject_id = &client->u.subjectKeyIdentifier; 286 q.match = HX509_QUERY_MATCH_SUBJECT_KEY_ID; 287 break; 288 default: 289 hx509_set_error_string(context, 0, HX509_CMS_NO_RECIPIENT_CERTIFICATE, 290 "unknown CMS identifier element"); 291 return HX509_CMS_NO_RECIPIENT_CERTIFICATE; 292 } 293 294 q.match |= match; 295 296 q.match |= HX509_QUERY_MATCH_TIME; 297 if (time_now) 298 q.timenow = time_now; 299 else 300 q.timenow = time(NULL); 301 302 ret = hx509_certs_find(context, certs, &q, &cert); 303 if (ret == HX509_CERT_NOT_FOUND) { 304 char *str; 305 306 ret = unparse_CMSIdentifier(context, client, &str); 307 if (ret == 0) { 308 hx509_set_error_string(context, 0, 309 HX509_CMS_NO_RECIPIENT_CERTIFICATE, 310 "Failed to find %s", str); 311 } else 312 hx509_clear_error_string(context); 313 return HX509_CMS_NO_RECIPIENT_CERTIFICATE; 314 } else if (ret) { 315 hx509_set_error_string(context, HX509_ERROR_APPEND, 316 HX509_CMS_NO_RECIPIENT_CERTIFICATE, 317 "Failed to find CMS id in cert store"); 318 return HX509_CMS_NO_RECIPIENT_CERTIFICATE; 319 } 320 321 *signer_cert = cert; 322 323 return 0; 324} 325 326/** 327 * Decode and unencrypt EnvelopedData. 328 * 329 * Extract data and parameteres from from the EnvelopedData. Also 330 * supports using detached EnvelopedData. 331 * 332 * @param context A hx509 context. 333 * @param certs Certificate that can decrypt the EnvelopedData 334 * encryption key. 335 * @param flags HX509_CMS_UE flags to control the behavior. 336 * @param data pointer the structure the contains the DER/BER encoded 337 * EnvelopedData stucture. 338 * @param length length of the data that data point to. 339 * @param encryptedContent in case of detached signature, this 340 * contains the actual encrypted data, othersize its should be NULL. 341 * @param time_now set the current time, if zero the library uses now as the date. 342 * @param contentType output type oid, should be freed with der_free_oid(). 343 * @param content the data, free with der_free_octet_string(). 344 * 345 * @ingroup hx509_cms 346 */ 347 348int 349hx509_cms_unenvelope(hx509_context context, 350 hx509_certs certs, 351 int flags, 352 const void *data, 353 size_t length, 354 const heim_octet_string *encryptedContent, 355 time_t time_now, 356 heim_oid *contentType, 357 heim_octet_string *content) 358{ 359 heim_octet_string key; 360 EnvelopedData ed; 361 hx509_cert cert; 362 AlgorithmIdentifier *ai; 363 const heim_octet_string *enccontent; 364 heim_octet_string *params, params_data; 365 heim_octet_string ivec; 366 size_t size; 367 int ret, i, matched = 0, findflags = 0; 368 369 370 memset(&key, 0, sizeof(key)); 371 memset(&ed, 0, sizeof(ed)); 372 memset(&ivec, 0, sizeof(ivec)); 373 memset(content, 0, sizeof(*content)); 374 memset(contentType, 0, sizeof(*contentType)); 375 376 if ((flags & HX509_CMS_UE_DONT_REQUIRE_KU_ENCIPHERMENT) == 0) 377 findflags |= HX509_QUERY_KU_ENCIPHERMENT; 378 379 ret = decode_EnvelopedData(data, length, &ed, &size); 380 if (ret) { 381 hx509_set_error_string(context, 0, ret, 382 "Failed to decode EnvelopedData"); 383 return ret; 384 } 385 386 if (ed.recipientInfos.len == 0) { 387 ret = HX509_CMS_NO_RECIPIENT_CERTIFICATE; 388 hx509_set_error_string(context, 0, ret, 389 "No recipient info in enveloped data"); 390 goto out; 391 } 392 393 enccontent = ed.encryptedContentInfo.encryptedContent; 394 if (enccontent == NULL) { 395 if (encryptedContent == NULL) { 396 ret = HX509_CMS_NO_DATA_AVAILABLE; 397 hx509_set_error_string(context, 0, ret, 398 "Content missing from encrypted data"); 399 goto out; 400 } 401 enccontent = encryptedContent; 402 } else if (encryptedContent != NULL) { 403 ret = HX509_CMS_NO_DATA_AVAILABLE; 404 hx509_set_error_string(context, 0, ret, 405 "Both internal and external encrypted data"); 406 goto out; 407 } 408 409 cert = NULL; 410 for (i = 0; i < ed.recipientInfos.len; i++) { 411 KeyTransRecipientInfo *ri; 412 char *str; 413 int ret2; 414 415 ri = &ed.recipientInfos.val[i]; 416 417 ret = find_CMSIdentifier(context, &ri->rid, certs, 418 time_now, &cert, 419 HX509_QUERY_PRIVATE_KEY|findflags); 420 if (ret) 421 continue; 422 423 matched = 1; /* found a matching certificate, let decrypt */ 424 425 ret = _hx509_cert_private_decrypt(context, 426 &ri->encryptedKey, 427 &ri->keyEncryptionAlgorithm.algorithm, 428 cert, &key); 429 430 hx509_cert_free(cert); 431 if (ret == 0) 432 break; /* succuessfully decrypted cert */ 433 cert = NULL; 434 ret2 = unparse_CMSIdentifier(context, &ri->rid, &str); 435 if (ret2 == 0) { 436 hx509_set_error_string(context, HX509_ERROR_APPEND, ret, 437 "Failed to decrypt with %s", str); 438 free(str); 439 } 440 } 441 442 if (!matched) { 443 ret = HX509_CMS_NO_RECIPIENT_CERTIFICATE; 444 hx509_set_error_string(context, 0, ret, 445 "No private key matched any certificate"); 446 goto out; 447 } 448 449 if (cert == NULL) { 450 ret = HX509_CMS_NO_RECIPIENT_CERTIFICATE; 451 hx509_set_error_string(context, HX509_ERROR_APPEND, ret, 452 "No private key decrypted the transfer key"); 453 goto out; 454 } 455 456 ret = der_copy_oid(&ed.encryptedContentInfo.contentType, contentType); 457 if (ret) { 458 hx509_set_error_string(context, 0, ret, 459 "Failed to copy EnvelopedData content oid"); 460 goto out; 461 } 462 463 ai = &ed.encryptedContentInfo.contentEncryptionAlgorithm; 464 if (ai->parameters) { 465 params_data.data = ai->parameters->data; 466 params_data.length = ai->parameters->length; 467 params = ¶ms_data; 468 } else 469 params = NULL; 470 471 { 472 hx509_crypto crypto; 473 474 ret = hx509_crypto_init(context, NULL, &ai->algorithm, &crypto); 475 if (ret) 476 goto out; 477 478 if (flags & HX509_CMS_UE_ALLOW_WEAK) 479 hx509_crypto_allow_weak(crypto); 480 481 if (params) { 482 ret = hx509_crypto_set_params(context, crypto, params, &ivec); 483 if (ret) { 484 hx509_crypto_destroy(crypto); 485 goto out; 486 } 487 } 488 489 ret = hx509_crypto_set_key_data(crypto, key.data, key.length); 490 if (ret) { 491 hx509_crypto_destroy(crypto); 492 hx509_set_error_string(context, 0, ret, 493 "Failed to set key for decryption " 494 "of EnvelopedData"); 495 goto out; 496 } 497 498 ret = hx509_crypto_decrypt(crypto, 499 enccontent->data, 500 enccontent->length, 501 ivec.length ? &ivec : NULL, 502 content); 503 hx509_crypto_destroy(crypto); 504 if (ret) { 505 hx509_set_error_string(context, 0, ret, 506 "Failed to decrypt EnvelopedData"); 507 goto out; 508 } 509 } 510 511out: 512 513 free_EnvelopedData(&ed); 514 der_free_octet_string(&key); 515 if (ivec.length) 516 der_free_octet_string(&ivec); 517 if (ret) { 518 der_free_oid(contentType); 519 der_free_octet_string(content); 520 } 521 522 return ret; 523} 524 525/** 526 * Encrypt end encode EnvelopedData. 527 * 528 * Encrypt and encode EnvelopedData. The data is encrypted with a 529 * random key and the the random key is encrypted with the 530 * certificates private key. This limits what private key type can be 531 * used to RSA. 532 * 533 * @param context A hx509 context. 534 * @param flags flags to control the behavior. 535 * - HX509_CMS_EV_NO_KU_CHECK - Dont check KU on certificate 536 * - HX509_CMS_EV_ALLOW_WEAK - Allow weak crytpo 537 * - HX509_CMS_EV_ID_NAME - prefer issuer name and serial number 538 * @param cert Certificate to encrypt the EnvelopedData encryption key 539 * with. 540 * @param data pointer the data to encrypt. 541 * @param length length of the data that data point to. 542 * @param encryption_type Encryption cipher to use for the bulk data, 543 * use NULL to get default. 544 * @param contentType type of the data that is encrypted 545 * @param content the output of the function, 546 * free with der_free_octet_string(). 547 * 548 * @ingroup hx509_cms 549 */ 550 551int 552hx509_cms_envelope_1(hx509_context context, 553 int flags, 554 hx509_cert cert, 555 const void *data, 556 size_t length, 557 const heim_oid *encryption_type, 558 const heim_oid *contentType, 559 heim_octet_string *content) 560{ 561 KeyTransRecipientInfo *ri; 562 heim_octet_string ivec; 563 heim_octet_string key; 564 hx509_crypto crypto = NULL; 565 int ret, cmsidflag; 566 EnvelopedData ed; 567 size_t size; 568 569 memset(&ivec, 0, sizeof(ivec)); 570 memset(&key, 0, sizeof(key)); 571 memset(&ed, 0, sizeof(ed)); 572 memset(content, 0, sizeof(*content)); 573 574 if (encryption_type == NULL) 575 encryption_type = &asn1_oid_id_aes_256_cbc; 576 577 if ((flags & HX509_CMS_EV_NO_KU_CHECK) == 0) { 578 ret = _hx509_check_key_usage(context, cert, 1 << 2, TRUE); 579 if (ret) 580 goto out; 581 } 582 583 ret = hx509_crypto_init(context, NULL, encryption_type, &crypto); 584 if (ret) 585 goto out; 586 587 if (flags & HX509_CMS_EV_ALLOW_WEAK) 588 hx509_crypto_allow_weak(crypto); 589 590 ret = hx509_crypto_set_random_key(crypto, &key); 591 if (ret) { 592 hx509_set_error_string(context, 0, ret, 593 "Create random key for EnvelopedData content"); 594 goto out; 595 } 596 597 ret = hx509_crypto_random_iv(crypto, &ivec); 598 if (ret) { 599 hx509_set_error_string(context, 0, ret, 600 "Failed to create a random iv"); 601 goto out; 602 } 603 604 ret = hx509_crypto_encrypt(crypto, 605 data, 606 length, 607 &ivec, 608 &ed.encryptedContentInfo.encryptedContent); 609 if (ret) { 610 hx509_set_error_string(context, 0, ret, 611 "Failed to encrypt EnvelopedData content"); 612 goto out; 613 } 614 615 { 616 AlgorithmIdentifier *enc_alg; 617 enc_alg = &ed.encryptedContentInfo.contentEncryptionAlgorithm; 618 ret = der_copy_oid(encryption_type, &enc_alg->algorithm); 619 if (ret) { 620 hx509_set_error_string(context, 0, ret, 621 "Failed to set crypto oid " 622 "for EnvelopedData"); 623 goto out; 624 } 625 ALLOC(enc_alg->parameters, 1); 626 if (enc_alg->parameters == NULL) { 627 ret = ENOMEM; 628 hx509_set_error_string(context, 0, ret, 629 "Failed to allocate crypto paramaters " 630 "for EnvelopedData"); 631 goto out; 632 } 633 634 ret = hx509_crypto_get_params(context, 635 crypto, 636 &ivec, 637 enc_alg->parameters); 638 if (ret) { 639 goto out; 640 } 641 } 642 643 ALLOC_SEQ(&ed.recipientInfos, 1); 644 if (ed.recipientInfos.val == NULL) { 645 ret = ENOMEM; 646 hx509_set_error_string(context, 0, ret, 647 "Failed to allocate recipients info " 648 "for EnvelopedData"); 649 goto out; 650 } 651 652 ri = &ed.recipientInfos.val[0]; 653 654 if (flags & HX509_CMS_EV_ID_NAME) { 655 ri->version = 0; 656 cmsidflag = CMS_ID_NAME; 657 } else { 658 ri->version = 2; 659 cmsidflag = CMS_ID_SKI; 660 } 661 662 ret = fill_CMSIdentifier(cert, cmsidflag, &ri->rid); 663 if (ret) { 664 hx509_set_error_string(context, 0, ret, 665 "Failed to set CMS identifier info " 666 "for EnvelopedData"); 667 goto out; 668 } 669 670 ret = hx509_cert_public_encrypt(context, 671 &key, cert, 672 &ri->keyEncryptionAlgorithm.algorithm, 673 &ri->encryptedKey); 674 if (ret) { 675 hx509_set_error_string(context, HX509_ERROR_APPEND, ret, 676 "Failed to encrypt transport key for " 677 "EnvelopedData"); 678 goto out; 679 } 680 681 /* 682 * 683 */ 684 685 ed.version = 0; 686 ed.originatorInfo = NULL; 687 688 ret = der_copy_oid(contentType, &ed.encryptedContentInfo.contentType); 689 if (ret) { 690 hx509_set_error_string(context, 0, ret, 691 "Failed to copy content oid for " 692 "EnvelopedData"); 693 goto out; 694 } 695 696 ed.unprotectedAttrs = NULL; 697 698 ASN1_MALLOC_ENCODE(EnvelopedData, content->data, content->length, 699 &ed, &size, ret); 700 if (ret) { 701 hx509_set_error_string(context, 0, ret, 702 "Failed to encode EnvelopedData"); 703 goto out; 704 } 705 if (size != content->length) 706 _hx509_abort("internal ASN.1 encoder error"); 707 708out: 709 if (crypto) 710 hx509_crypto_destroy(crypto); 711 if (ret) 712 der_free_octet_string(content); 713 der_free_octet_string(&key); 714 der_free_octet_string(&ivec); 715 free_EnvelopedData(&ed); 716 717 return ret; 718} 719 720static int 721any_to_certs(hx509_context context, const SignedData *sd, hx509_certs certs) 722{ 723 int ret, i; 724 725 if (sd->certificates == NULL) 726 return 0; 727 728 for (i = 0; i < sd->certificates->len; i++) { 729 hx509_cert c; 730 731 ret = hx509_cert_init_data(context, 732 sd->certificates->val[i].data, 733 sd->certificates->val[i].length, 734 &c); 735 if (ret) 736 return ret; 737 ret = hx509_certs_add(context, certs, c); 738 hx509_cert_free(c); 739 if (ret) 740 return ret; 741 } 742 743 return 0; 744} 745 746static const Attribute * 747find_attribute(const CMSAttributes *attr, const heim_oid *oid) 748{ 749 int i; 750 for (i = 0; i < attr->len; i++) 751 if (der_heim_oid_cmp(&attr->val[i].type, oid) == 0) 752 return &attr->val[i]; 753 return NULL; 754} 755 756/** 757 * Decode SignedData and verify that the signature is correct. 758 * 759 * @param context A hx509 context. 760 * @param ctx a hx509 verify context. 761 * @param flags to control the behaivor of the function. 762 * - HX509_CMS_VS_NO_KU_CHECK - Don't check KeyUsage 763 * - HX509_CMS_VS_ALLOW_DATA_OID_MISMATCH - allow oid mismatch 764 * - HX509_CMS_VS_ALLOW_ZERO_SIGNER - no signer, see below. 765 * @param data pointer to CMS SignedData encoded data. 766 * @param length length of the data that data point to. 767 * @param signedContent external data used for signature. 768 * @param pool certificate pool to build certificates paths. 769 * @param contentType free with der_free_oid(). 770 * @param content the output of the function, free with 771 * der_free_octet_string(). 772 * @param signer_certs list of the cerficates used to sign this 773 * request, free with hx509_certs_free(). 774 * 775 * @ingroup hx509_cms 776 */ 777 778int 779hx509_cms_verify_signed(hx509_context context, 780 hx509_verify_ctx ctx, 781 unsigned int flags, 782 const void *data, 783 size_t length, 784 const heim_octet_string *signedContent, 785 hx509_certs pool, 786 heim_oid *contentType, 787 heim_octet_string *content, 788 hx509_certs *signer_certs) 789{ 790 SignerInfo *signer_info; 791 hx509_cert cert = NULL; 792 hx509_certs certs = NULL; 793 SignedData sd; 794 size_t size; 795 int ret, i, found_valid_sig; 796 797 *signer_certs = NULL; 798 content->data = NULL; 799 content->length = 0; 800 contentType->length = 0; 801 contentType->components = NULL; 802 803 memset(&sd, 0, sizeof(sd)); 804 805 ret = decode_SignedData(data, length, &sd, &size); 806 if (ret) { 807 hx509_set_error_string(context, 0, ret, 808 "Failed to decode SignedData"); 809 goto out; 810 } 811 812 if (sd.encapContentInfo.eContent == NULL && signedContent == NULL) { 813 ret = HX509_CMS_NO_DATA_AVAILABLE; 814 hx509_set_error_string(context, 0, ret, 815 "No content data in SignedData"); 816 goto out; 817 } 818 if (sd.encapContentInfo.eContent && signedContent) { 819 ret = HX509_CMS_NO_DATA_AVAILABLE; 820 hx509_set_error_string(context, 0, ret, 821 "Both external and internal SignedData"); 822 goto out; 823 } 824 825 if (sd.encapContentInfo.eContent) 826 ret = der_copy_octet_string(sd.encapContentInfo.eContent, content); 827 else 828 ret = der_copy_octet_string(signedContent, content); 829 if (ret) { 830 hx509_set_error_string(context, 0, ret, "malloc: out of memory"); 831 goto out; 832 } 833 834 ret = hx509_certs_init(context, "MEMORY:cms-cert-buffer", 835 0, NULL, &certs); 836 if (ret) 837 goto out; 838 839 ret = hx509_certs_init(context, "MEMORY:cms-signer-certs", 840 0, NULL, signer_certs); 841 if (ret) 842 goto out; 843 844 /* XXX Check CMS version */ 845 846 ret = any_to_certs(context, &sd, certs); 847 if (ret) 848 goto out; 849 850 if (pool) { 851 ret = hx509_certs_merge(context, certs, pool); 852 if (ret) 853 goto out; 854 } 855 856 for (found_valid_sig = 0, i = 0; i < sd.signerInfos.len; i++) { 857 heim_octet_string signed_data; 858 const heim_oid *match_oid; 859 heim_oid decode_oid; 860 861 signer_info = &sd.signerInfos.val[i]; 862 match_oid = NULL; 863 864 if (signer_info->signature.length == 0) { 865 ret = HX509_CMS_MISSING_SIGNER_DATA; 866 hx509_set_error_string(context, 0, ret, 867 "SignerInfo %d in SignedData " 868 "missing sigature", i); 869 continue; 870 } 871 872 ret = find_CMSIdentifier(context, &signer_info->sid, certs, 873 _hx509_verify_get_time(ctx), &cert, 874 HX509_QUERY_KU_DIGITALSIGNATURE); 875 if (ret) { 876 /** 877 * If HX509_CMS_VS_NO_KU_CHECK is set, allow more liberal 878 * search for matching certificates by not considering 879 * KeyUsage bits on the certificates. 880 */ 881 if ((flags & HX509_CMS_VS_NO_KU_CHECK) == 0) 882 continue; 883 884 ret = find_CMSIdentifier(context, &signer_info->sid, certs, 885 _hx509_verify_get_time(ctx), &cert, 886 0); 887 if (ret) 888 continue; 889 890 } 891 892 if (signer_info->signedAttrs) { 893 const Attribute *attr; 894 895 CMSAttributes sa; 896 heim_octet_string os; 897 898 sa.val = signer_info->signedAttrs->val; 899 sa.len = signer_info->signedAttrs->len; 900 901 /* verify that sigature exists */ 902 attr = find_attribute(&sa, &asn1_oid_id_pkcs9_messageDigest); 903 if (attr == NULL) { 904 ret = HX509_CRYPTO_SIGNATURE_MISSING; 905 hx509_set_error_string(context, 0, ret, 906 "SignerInfo have signed attributes " 907 "but messageDigest (signature) " 908 "is missing"); 909 goto next_sigature; 910 } 911 if (attr->value.len != 1) { 912 ret = HX509_CRYPTO_SIGNATURE_MISSING; 913 hx509_set_error_string(context, 0, ret, 914 "SignerInfo have more then one " 915 "messageDigest (signature)"); 916 goto next_sigature; 917 } 918 919 ret = decode_MessageDigest(attr->value.val[0].data, 920 attr->value.val[0].length, 921 &os, 922 &size); 923 if (ret) { 924 hx509_set_error_string(context, 0, ret, 925 "Failed to decode " 926 "messageDigest (signature)"); 927 goto next_sigature; 928 } 929 930 ret = _hx509_verify_signature(context, 931 NULL, 932 &signer_info->digestAlgorithm, 933 content, 934 &os); 935 der_free_octet_string(&os); 936 if (ret) { 937 hx509_set_error_string(context, HX509_ERROR_APPEND, ret, 938 "Failed to verify messageDigest"); 939 goto next_sigature; 940 } 941 942 /* 943 * Fetch content oid inside signedAttrs or set it to 944 * id-pkcs7-data. 945 */ 946 attr = find_attribute(&sa, &asn1_oid_id_pkcs9_contentType); 947 if (attr == NULL) { 948 match_oid = &asn1_oid_id_pkcs7_data; 949 } else { 950 if (attr->value.len != 1) { 951 ret = HX509_CMS_DATA_OID_MISMATCH; 952 hx509_set_error_string(context, 0, ret, 953 "More then one oid in signedAttrs"); 954 goto next_sigature; 955 956 } 957 ret = decode_ContentType(attr->value.val[0].data, 958 attr->value.val[0].length, 959 &decode_oid, 960 &size); 961 if (ret) { 962 hx509_set_error_string(context, 0, ret, 963 "Failed to decode " 964 "oid in signedAttrs"); 965 goto next_sigature; 966 } 967 match_oid = &decode_oid; 968 } 969 970 ASN1_MALLOC_ENCODE(CMSAttributes, 971 signed_data.data, 972 signed_data.length, 973 &sa, 974 &size, ret); 975 if (ret) { 976 if (match_oid == &decode_oid) 977 der_free_oid(&decode_oid); 978 hx509_clear_error_string(context); 979 goto next_sigature; 980 } 981 if (size != signed_data.length) 982 _hx509_abort("internal ASN.1 encoder error"); 983 984 } else { 985 signed_data.data = content->data; 986 signed_data.length = content->length; 987 match_oid = &asn1_oid_id_pkcs7_data; 988 } 989 990 /** 991 * If HX509_CMS_VS_ALLOW_DATA_OID_MISMATCH, allow 992 * encapContentInfo mismatch with the oid in signedAttributes 993 * (or if no signedAttributes where use, pkcs7-data oid). 994 * This is only needed to work with broken CMS implementations 995 * that doesn't follow CMS signedAttributes rules. 996 */ 997 998 if (der_heim_oid_cmp(match_oid, &sd.encapContentInfo.eContentType) && 999 (flags & HX509_CMS_VS_ALLOW_DATA_OID_MISMATCH) == 0) { 1000 ret = HX509_CMS_DATA_OID_MISMATCH; 1001 hx509_set_error_string(context, 0, ret, 1002 "Oid in message mismatch from the expected"); 1003 } 1004 if (match_oid == &decode_oid) 1005 der_free_oid(&decode_oid); 1006 1007 if (ret == 0) { 1008 ret = hx509_verify_signature(context, 1009 cert, 1010 &signer_info->signatureAlgorithm, 1011 &signed_data, 1012 &signer_info->signature); 1013 if (ret) 1014 hx509_set_error_string(context, HX509_ERROR_APPEND, ret, 1015 "Failed to verify signature in " 1016 "CMS SignedData"); 1017 } 1018 if (signer_info->signedAttrs) 1019 free(signed_data.data); 1020 if (ret) 1021 goto next_sigature; 1022 1023 /** 1024 * If HX509_CMS_VS_NO_VALIDATE flags is set, do not verify the 1025 * signing certificates and leave that up to the caller. 1026 */ 1027 1028 if ((flags & HX509_CMS_VS_NO_VALIDATE) == 0) { 1029 ret = hx509_verify_path(context, ctx, cert, certs); 1030 if (ret) 1031 goto next_sigature; 1032 } 1033 1034 ret = hx509_certs_add(context, *signer_certs, cert); 1035 if (ret) 1036 goto next_sigature; 1037 1038 found_valid_sig++; 1039 1040 next_sigature: 1041 if (cert) 1042 hx509_cert_free(cert); 1043 cert = NULL; 1044 } 1045 /** 1046 * If HX509_CMS_VS_ALLOW_ZERO_SIGNER is set, allow empty 1047 * SignerInfo (no signatures). If SignedData have no signatures, 1048 * the function will return 0 with signer_certs set to NULL. Zero 1049 * signers is allowed by the standard, but since its only useful 1050 * in corner cases, it make into a flag that the caller have to 1051 * turn on. 1052 */ 1053 if (sd.signerInfos.len == 0 && (flags & HX509_CMS_VS_ALLOW_ZERO_SIGNER)) { 1054 if (*signer_certs) 1055 hx509_certs_free(signer_certs); 1056 } else if (found_valid_sig == 0) { 1057 if (ret == 0) { 1058 ret = HX509_CMS_SIGNER_NOT_FOUND; 1059 hx509_set_error_string(context, 0, ret, 1060 "No signers where found"); 1061 } 1062 goto out; 1063 } 1064 1065 ret = der_copy_oid(&sd.encapContentInfo.eContentType, contentType); 1066 if (ret) { 1067 hx509_clear_error_string(context); 1068 goto out; 1069 } 1070 1071out: 1072 free_SignedData(&sd); 1073 if (certs) 1074 hx509_certs_free(&certs); 1075 if (ret) { 1076 if (content->data) 1077 der_free_octet_string(content); 1078 if (*signer_certs) 1079 hx509_certs_free(signer_certs); 1080 der_free_oid(contentType); 1081 der_free_octet_string(content); 1082 } 1083 1084 return ret; 1085} 1086 1087static int 1088add_one_attribute(Attribute **attr, 1089 unsigned int *len, 1090 const heim_oid *oid, 1091 heim_octet_string *data) 1092{ 1093 void *d; 1094 int ret; 1095 1096 d = realloc(*attr, sizeof((*attr)[0]) * (*len + 1)); 1097 if (d == NULL) 1098 return ENOMEM; 1099 (*attr) = d; 1100 1101 ret = der_copy_oid(oid, &(*attr)[*len].type); 1102 if (ret) 1103 return ret; 1104 1105 ALLOC_SEQ(&(*attr)[*len].value, 1); 1106 if ((*attr)[*len].value.val == NULL) { 1107 der_free_oid(&(*attr)[*len].type); 1108 return ENOMEM; 1109 } 1110 1111 (*attr)[*len].value.val[0].data = data->data; 1112 (*attr)[*len].value.val[0].length = data->length; 1113 1114 *len += 1; 1115 1116 return 0; 1117} 1118 1119/** 1120 * Decode SignedData and verify that the signature is correct. 1121 * 1122 * @param context A hx509 context. 1123 * @param flags 1124 * @param eContentType the type of the data. 1125 * @param data data to sign 1126 * @param length length of the data that data point to. 1127 * @param digest_alg digest algorithm to use, use NULL to get the 1128 * default or the peer determined algorithm. 1129 * @param cert certificate to use for sign the data. 1130 * @param peer info about the peer the message to send the message to, 1131 * like what digest algorithm to use. 1132 * @param anchors trust anchors that the client will use, used to 1133 * polulate the certificates included in the message 1134 * @param pool certificates to use in try to build the path to the 1135 * trust anchors. 1136 * @param signed_data the output of the function, free with 1137 * der_free_octet_string(). 1138 * 1139 * @ingroup hx509_cms 1140 */ 1141 1142int 1143hx509_cms_create_signed_1(hx509_context context, 1144 int flags, 1145 const heim_oid *eContentType, 1146 const void *data, size_t length, 1147 const AlgorithmIdentifier *digest_alg, 1148 hx509_cert cert, 1149 hx509_peer_info peer, 1150 hx509_certs anchors, 1151 hx509_certs pool, 1152 heim_octet_string *signed_data) 1153{ 1154 hx509_certs certs; 1155 int ret = 0; 1156 1157 signed_data->data = NULL; 1158 signed_data->length = 0; 1159 1160 ret = hx509_certs_init(context, "MEMORY:certs", 0, NULL, &certs); 1161 if (ret) 1162 return ret; 1163 ret = hx509_certs_add(context, certs, cert); 1164 if (ret) 1165 goto out; 1166 1167 ret = hx509_cms_create_signed(context, flags, eContentType, data, length, 1168 digest_alg, certs, peer, anchors, pool, 1169 signed_data); 1170 1171 out: 1172 hx509_certs_free(&certs); 1173 return ret; 1174} 1175 1176struct sigctx { 1177 SignedData sd; 1178 const AlgorithmIdentifier *digest_alg; 1179 const heim_oid *eContentType; 1180 heim_octet_string content; 1181 hx509_peer_info peer; 1182 int cmsidflag; 1183 int leafonly; 1184 hx509_certs certs; 1185 hx509_certs anchors; 1186 hx509_certs pool; 1187}; 1188 1189static int 1190sig_process(hx509_context context, void *ctx, hx509_cert cert) 1191{ 1192 struct sigctx *sigctx = ctx; 1193 heim_octet_string buf, sigdata = { 0, NULL }; 1194 SignerInfo *signer_info = NULL; 1195 AlgorithmIdentifier digest; 1196 size_t size; 1197 void *ptr; 1198 int ret; 1199 SignedData *sd = &sigctx->sd; 1200 hx509_path path; 1201 1202 memset(&digest, 0, sizeof(digest)); 1203 memset(&path, 0, sizeof(path)); 1204 1205 if (_hx509_cert_private_key(cert) == NULL) { 1206 hx509_set_error_string(context, 0, HX509_PRIVATE_KEY_MISSING, 1207 "Private key missing for signing"); 1208 return HX509_PRIVATE_KEY_MISSING; 1209 } 1210 1211 if (sigctx->digest_alg) { 1212 ret = copy_AlgorithmIdentifier(sigctx->digest_alg, &digest); 1213 if (ret) 1214 hx509_clear_error_string(context); 1215 } else { 1216 ret = hx509_crypto_select(context, HX509_SELECT_DIGEST, 1217 _hx509_cert_private_key(cert), 1218 sigctx->peer, &digest); 1219 } 1220 if (ret) 1221 goto out; 1222 1223 /* 1224 * Allocate on more signerInfo and do the signature processing 1225 */ 1226 1227 ptr = realloc(sd->signerInfos.val, 1228 (sd->signerInfos.len + 1) * sizeof(sd->signerInfos.val[0])); 1229 if (ptr == NULL) { 1230 ret = ENOMEM; 1231 goto out; 1232 } 1233 sd->signerInfos.val = ptr; 1234 1235 signer_info = &sd->signerInfos.val[sd->signerInfos.len]; 1236 1237 memset(signer_info, 0, sizeof(*signer_info)); 1238 1239 signer_info->version = 1; 1240 1241 ret = fill_CMSIdentifier(cert, sigctx->cmsidflag, &signer_info->sid); 1242 if (ret) { 1243 hx509_clear_error_string(context); 1244 goto out; 1245 } 1246 1247 signer_info->signedAttrs = NULL; 1248 signer_info->unsignedAttrs = NULL; 1249 1250 ret = copy_AlgorithmIdentifier(&digest, &signer_info->digestAlgorithm); 1251 if (ret) { 1252 hx509_clear_error_string(context); 1253 goto out; 1254 } 1255 1256 /* 1257 * If it isn't pkcs7-data send signedAttributes 1258 */ 1259 1260 if (der_heim_oid_cmp(sigctx->eContentType, &asn1_oid_id_pkcs7_data) != 0) { 1261 CMSAttributes sa; 1262 heim_octet_string sig; 1263 1264 ALLOC(signer_info->signedAttrs, 1); 1265 if (signer_info->signedAttrs == NULL) { 1266 ret = ENOMEM; 1267 goto out; 1268 } 1269 1270 ret = _hx509_create_signature(context, 1271 NULL, 1272 &digest, 1273 &sigctx->content, 1274 NULL, 1275 &sig); 1276 if (ret) 1277 goto out; 1278 1279 ASN1_MALLOC_ENCODE(MessageDigest, 1280 buf.data, 1281 buf.length, 1282 &sig, 1283 &size, 1284 ret); 1285 der_free_octet_string(&sig); 1286 if (ret) { 1287 hx509_clear_error_string(context); 1288 goto out; 1289 } 1290 if (size != buf.length) 1291 _hx509_abort("internal ASN.1 encoder error"); 1292 1293 ret = add_one_attribute(&signer_info->signedAttrs->val, 1294 &signer_info->signedAttrs->len, 1295 &asn1_oid_id_pkcs9_messageDigest, 1296 &buf); 1297 if (ret) { 1298 free(buf.data); 1299 hx509_clear_error_string(context); 1300 goto out; 1301 } 1302 1303 1304 ASN1_MALLOC_ENCODE(ContentType, 1305 buf.data, 1306 buf.length, 1307 sigctx->eContentType, 1308 &size, 1309 ret); 1310 if (ret) 1311 goto out; 1312 if (size != buf.length) 1313 _hx509_abort("internal ASN.1 encoder error"); 1314 1315 ret = add_one_attribute(&signer_info->signedAttrs->val, 1316 &signer_info->signedAttrs->len, 1317 &asn1_oid_id_pkcs9_contentType, 1318 &buf); 1319 if (ret) { 1320 free(buf.data); 1321 hx509_clear_error_string(context); 1322 goto out; 1323 } 1324 1325 sa.val = signer_info->signedAttrs->val; 1326 sa.len = signer_info->signedAttrs->len; 1327 1328 ASN1_MALLOC_ENCODE(CMSAttributes, 1329 sigdata.data, 1330 sigdata.length, 1331 &sa, 1332 &size, 1333 ret); 1334 if (ret) { 1335 hx509_clear_error_string(context); 1336 goto out; 1337 } 1338 if (size != sigdata.length) 1339 _hx509_abort("internal ASN.1 encoder error"); 1340 } else { 1341 sigdata.data = sigctx->content.data; 1342 sigdata.length = sigctx->content.length; 1343 } 1344 1345 { 1346 AlgorithmIdentifier sigalg; 1347 1348 ret = hx509_crypto_select(context, HX509_SELECT_PUBLIC_SIG, 1349 _hx509_cert_private_key(cert), sigctx->peer, 1350 &sigalg); 1351 if (ret) 1352 goto out; 1353 1354 ret = _hx509_create_signature(context, 1355 _hx509_cert_private_key(cert), 1356 &sigalg, 1357 &sigdata, 1358 &signer_info->signatureAlgorithm, 1359 &signer_info->signature); 1360 free_AlgorithmIdentifier(&sigalg); 1361 if (ret) 1362 goto out; 1363 } 1364 1365 sigctx->sd.signerInfos.len++; 1366 signer_info = NULL; 1367 1368 /* 1369 * Provide best effort path 1370 */ 1371 if (sigctx->certs) { 1372 unsigned int i; 1373 1374 if (sigctx->pool && sigctx->leafonly == 0) { 1375 _hx509_calculate_path(context, 1376 HX509_CALCULATE_PATH_NO_ANCHOR, 1377 time(NULL), 1378 sigctx->anchors, 1379 0, 1380 cert, 1381 sigctx->pool, 1382 &path); 1383 } else 1384 _hx509_path_append(context, &path, cert); 1385 1386 for (i = 0; i < path.len; i++) { 1387 /* XXX remove dups */ 1388 ret = hx509_certs_add(context, sigctx->certs, path.val[i]); 1389 if (ret) { 1390 hx509_clear_error_string(context); 1391 goto out; 1392 } 1393 } 1394 } 1395 1396 out: 1397 if (signer_info) 1398 free_SignerInfo(signer_info); 1399 if (sigdata.data != sigctx->content.data) 1400 der_free_octet_string(&sigdata); 1401 _hx509_path_free(&path); 1402 free_AlgorithmIdentifier(&digest); 1403 1404 return ret; 1405} 1406 1407static int 1408cert_process(hx509_context context, void *ctx, hx509_cert cert) 1409{ 1410 struct sigctx *sigctx = ctx; 1411 const unsigned int i = sigctx->sd.certificates->len; 1412 void *ptr; 1413 int ret; 1414 1415 ptr = realloc(sigctx->sd.certificates->val, 1416 (i + 1) * sizeof(sigctx->sd.certificates->val[0])); 1417 if (ptr == NULL) 1418 return ENOMEM; 1419 sigctx->sd.certificates->val = ptr; 1420 1421 ret = hx509_cert_binary(context, cert, 1422 &sigctx->sd.certificates->val[i]); 1423 if (ret == 0) 1424 sigctx->sd.certificates->len++; 1425 1426 return ret; 1427} 1428 1429static int 1430cmp_AlgorithmIdentifier(const AlgorithmIdentifier *p, const AlgorithmIdentifier *q) 1431{ 1432 return der_heim_oid_cmp(&p->algorithm, &q->algorithm); 1433} 1434 1435int 1436hx509_cms_create_signed(hx509_context context, 1437 int flags, 1438 const heim_oid *eContentType, 1439 const void *data, size_t length, 1440 const AlgorithmIdentifier *digest_alg, 1441 hx509_certs certs, 1442 hx509_peer_info peer, 1443 hx509_certs anchors, 1444 hx509_certs pool, 1445 heim_octet_string *signed_data) 1446{ 1447 unsigned int i, j; 1448 hx509_name name; 1449 int ret; 1450 size_t size; 1451 struct sigctx sigctx; 1452 1453 memset(&sigctx, 0, sizeof(sigctx)); 1454 memset(&name, 0, sizeof(name)); 1455 1456 if (eContentType == NULL) 1457 eContentType = &asn1_oid_id_pkcs7_data; 1458 1459 sigctx.digest_alg = digest_alg; 1460 sigctx.content.data = rk_UNCONST(data); 1461 sigctx.content.length = length; 1462 sigctx.eContentType = eContentType; 1463 sigctx.peer = peer; 1464 /** 1465 * Use HX509_CMS_SIGNATURE_ID_NAME to preferred use of issuer name 1466 * and serial number if possible. Otherwise subject key identifier 1467 * will preferred. 1468 */ 1469 if (flags & HX509_CMS_SIGNATURE_ID_NAME) 1470 sigctx.cmsidflag = CMS_ID_NAME; 1471 else 1472 sigctx.cmsidflag = CMS_ID_SKI; 1473 1474 /** 1475 * Use HX509_CMS_SIGNATURE_LEAF_ONLY to only request leaf 1476 * certificates to be added to the SignedData. 1477 */ 1478 sigctx.leafonly = (flags & HX509_CMS_SIGNATURE_LEAF_ONLY) ? 1 : 0; 1479 1480 /** 1481 * Use HX509_CMS_NO_CERTS to make the SignedData contain no 1482 * certificates, overrides HX509_CMS_SIGNATURE_LEAF_ONLY. 1483 */ 1484 1485 if ((flags & HX509_CMS_SIGNATURE_NO_CERTS) == 0) { 1486 ret = hx509_certs_init(context, "MEMORY:certs", 0, NULL, &sigctx.certs); 1487 if (ret) 1488 return ret; 1489 } 1490 1491 sigctx.anchors = anchors; 1492 sigctx.pool = pool; 1493 1494 sigctx.sd.version = CMSVersion_v3; 1495 1496 der_copy_oid(eContentType, &sigctx.sd.encapContentInfo.eContentType); 1497 1498 /** 1499 * Use HX509_CMS_SIGNATURE_DETACHED to create detached signatures. 1500 */ 1501 if ((flags & HX509_CMS_SIGNATURE_DETACHED) == 0) { 1502 ALLOC(sigctx.sd.encapContentInfo.eContent, 1); 1503 if (sigctx.sd.encapContentInfo.eContent == NULL) { 1504 hx509_clear_error_string(context); 1505 ret = ENOMEM; 1506 goto out; 1507 } 1508 1509 sigctx.sd.encapContentInfo.eContent->data = malloc(length); 1510 if (sigctx.sd.encapContentInfo.eContent->data == NULL) { 1511 hx509_clear_error_string(context); 1512 ret = ENOMEM; 1513 goto out; 1514 } 1515 memcpy(sigctx.sd.encapContentInfo.eContent->data, data, length); 1516 sigctx.sd.encapContentInfo.eContent->length = length; 1517 } 1518 1519 /** 1520 * Use HX509_CMS_SIGNATURE_NO_SIGNER to create no sigInfo (no 1521 * signatures). 1522 */ 1523 if ((flags & HX509_CMS_SIGNATURE_NO_SIGNER) == 0) { 1524 ret = hx509_certs_iter_f(context, certs, sig_process, &sigctx); 1525 if (ret) 1526 goto out; 1527 } 1528 1529 if (sigctx.sd.signerInfos.len) { 1530 for (i = 0; i < sigctx.sd.signerInfos.len; i++) { 1531 AlgorithmIdentifier *di = 1532 &sigctx.sd.signerInfos.val[i].digestAlgorithm; 1533 1534 for (j = 0; j < sigctx.sd.digestAlgorithms.len; j++) 1535 if (cmp_AlgorithmIdentifier(di, &sigctx.sd.digestAlgorithms.val[j]) == 0) 1536 break; 1537 if (j < sigctx.sd.digestAlgorithms.len) { 1538 ret = add_DigestAlgorithmIdentifiers(&sigctx.sd.digestAlgorithms, di); 1539 if (ret) { 1540 hx509_clear_error_string(context); 1541 goto out; 1542 } 1543 } 1544 } 1545 } 1546 1547 if (sigctx.certs) { 1548 ALLOC(sigctx.sd.certificates, 1); 1549 if (sigctx.sd.certificates == NULL) { 1550 hx509_clear_error_string(context); 1551 ret = ENOMEM; 1552 goto out; 1553 } 1554 1555 ret = hx509_certs_iter_f(context, sigctx.certs, cert_process, &sigctx); 1556 if (ret) 1557 goto out; 1558 } 1559 1560 ASN1_MALLOC_ENCODE(SignedData, 1561 signed_data->data, signed_data->length, 1562 &sigctx.sd, &size, ret); 1563 if (ret) { 1564 hx509_clear_error_string(context); 1565 goto out; 1566 } 1567 if (signed_data->length != size) 1568 _hx509_abort("internal ASN.1 encoder error"); 1569 1570out: 1571 hx509_certs_free(&sigctx.certs); 1572 free_SignedData(&sigctx.sd); 1573 1574 return ret; 1575} 1576 1577int 1578hx509_cms_decrypt_encrypted(hx509_context context, 1579 hx509_lock lock, 1580 const void *data, 1581 size_t length, 1582 heim_oid *contentType, 1583 heim_octet_string *content) 1584{ 1585 heim_octet_string cont; 1586 CMSEncryptedData ed; 1587 AlgorithmIdentifier *ai; 1588 int ret; 1589 1590 memset(content, 0, sizeof(*content)); 1591 memset(&cont, 0, sizeof(cont)); 1592 1593 ret = decode_CMSEncryptedData(data, length, &ed, NULL); 1594 if (ret) { 1595 hx509_set_error_string(context, 0, ret, 1596 "Failed to decode CMSEncryptedData"); 1597 return ret; 1598 } 1599 1600 if (ed.encryptedContentInfo.encryptedContent == NULL) { 1601 ret = HX509_CMS_NO_DATA_AVAILABLE; 1602 hx509_set_error_string(context, 0, ret, 1603 "No content in EncryptedData"); 1604 goto out; 1605 } 1606 1607 ret = der_copy_oid(&ed.encryptedContentInfo.contentType, contentType); 1608 if (ret) { 1609 hx509_clear_error_string(context); 1610 goto out; 1611 } 1612 1613 ai = &ed.encryptedContentInfo.contentEncryptionAlgorithm; 1614 if (ai->parameters == NULL) { 1615 ret = HX509_ALG_NOT_SUPP; 1616 hx509_clear_error_string(context); 1617 goto out; 1618 } 1619 1620 ret = _hx509_pbe_decrypt(context, 1621 lock, 1622 ai, 1623 ed.encryptedContentInfo.encryptedContent, 1624 &cont); 1625 if (ret) 1626 goto out; 1627 1628 *content = cont; 1629 1630out: 1631 if (ret) { 1632 if (cont.data) 1633 free(cont.data); 1634 } 1635 free_CMSEncryptedData(&ed); 1636 return ret; 1637} 1638