etc/services - sync with NetBSD-8
[minix.git] / crypto / external / bsd / heimdal / dist / lib / ntlm / ntlm.c
blob943df591200912968a565dc22a88cba539caef37
1 /* $NetBSD: ntlm.c,v 1.1.1.2 2014/04/24 12:45:51 pettai Exp $ */
3 /*
4 * Copyright (c) 2006 - 2008 Kungliga Tekniska Högskolan
5 * (Royal Institute of Technology, Stockholm, Sweden).
6 * All rights reserved.
8 * Portions Copyright (c) 2010 Apple Inc. All rights reserved.
10 * Redistribution and use in source and binary forms, with or without
11 * modification, are permitted provided that the following conditions
12 * are met:
14 * 1. Redistributions of source code must retain the above copyright
15 * notice, this list of conditions and the following disclaimer.
17 * 2. Redistributions in binary form must reproduce the above copyright
18 * notice, this list of conditions and the following disclaimer in the
19 * documentation and/or other materials provided with the distribution.
21 * 3. Neither the name of the Institute nor the names of its contributors
22 * may be used to endorse or promote products derived from this software
23 * without specific prior written permission.
25 * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
26 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
27 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
28 * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
29 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
30 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
31 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
32 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
33 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
34 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
35 * SUCH DAMAGE.
38 #include <config.h>
40 #include <stdio.h>
41 #include <stdlib.h>
42 #include <assert.h>
43 #include <string.h>
44 #include <ctype.h>
45 #include <errno.h>
46 #include <limits.h>
48 #include <krb5/roken.h>
49 #include <krb5/parse_units.h>
50 #include <krb5/krb5.h>
52 #define HC_DEPRECATED_CRYPTO
54 #include <krb5/krb5-types.h>
55 #include "crypto-headers.h"
57 #include <krb5/heimntlm.h>
59 /*! \mainpage Heimdal NTLM library
61 * \section intro Introduction
63 * Heimdal libheimntlm library is a implementation of the NTLM
64 * protocol, both version 1 and 2. The GSS-API mech that uses this
65 * library adds support for transport encryption and integrity
66 * checking.
68 * NTLM is a protocol for mutual authentication, its still used in
69 * many protocol where Kerberos is not support, one example is
70 * EAP/X802.1x mechanism LEAP from Microsoft and Cisco.
72 * This is a support library for the core protocol, its used in
73 * Heimdal to implement and GSS-API mechanism. There is also support
74 * in the KDC to do remote digest authenticiation, this to allow
75 * services to authenticate users w/o direct access to the users ntlm
76 * hashes (same as Kerberos arcfour enctype keys).
78 * More information about the NTLM protocol can found here
79 * http://davenport.sourceforge.net/ntlm.html .
81 * The Heimdal projects web page: http://www.h5l.org/
83 * @section ntlm_example NTLM Example
85 * Example to to use @ref test_ntlm.c .
87 * @example test_ntlm.c
89 * Example how to use the NTLM primitives.
93 /** @defgroup ntlm_core Heimdal NTLM library
95 * The NTLM core functions implement the string2key generation
96 * function, message encode and decode function, and the hash function
97 * functions.
100 struct sec_buffer {
101 uint16_t length;
102 uint16_t allocated;
103 uint32_t offset;
106 static const unsigned char ntlmsigature[8] = "NTLMSSP\x00";
112 #define CHECK(f, e) \
113 do { \
114 ret = f; \
115 if (ret != (ssize_t)(e)) { \
116 ret = HNTLM_ERR_DECODE; \
117 goto out; \
119 } while(/*CONSTCOND*/0)
121 static struct units ntlm_flag_units[] = {
122 #define ntlm_flag(x) { #x, NTLM_##x }
123 ntlm_flag(ENC_56),
124 ntlm_flag(NEG_KEYEX),
125 ntlm_flag(ENC_128),
126 ntlm_flag(MBZ1),
127 ntlm_flag(MBZ2),
128 ntlm_flag(MBZ3),
129 ntlm_flag(NEG_VERSION),
130 ntlm_flag(MBZ4),
131 ntlm_flag(NEG_TARGET_INFO),
132 ntlm_flag(NON_NT_SESSION_KEY),
133 ntlm_flag(MBZ5),
134 ntlm_flag(NEG_IDENTIFY),
135 ntlm_flag(NEG_NTLM2),
136 ntlm_flag(TARGET_SHARE),
137 ntlm_flag(TARGET_SERVER),
138 ntlm_flag(TARGET_DOMAIN),
139 ntlm_flag(NEG_ALWAYS_SIGN),
140 ntlm_flag(MBZ6),
141 ntlm_flag(OEM_SUPPLIED_WORKSTATION),
142 ntlm_flag(OEM_SUPPLIED_DOMAIN),
143 ntlm_flag(NEG_ANONYMOUS),
144 ntlm_flag(NEG_NT_ONLY),
145 ntlm_flag(NEG_NTLM),
146 ntlm_flag(MBZ8),
147 ntlm_flag(NEG_LM_KEY),
148 ntlm_flag(NEG_DATAGRAM),
149 ntlm_flag(NEG_SEAL),
150 ntlm_flag(NEG_SIGN),
151 ntlm_flag(MBZ9),
152 ntlm_flag(NEG_TARGET),
153 ntlm_flag(NEG_OEM),
154 ntlm_flag(NEG_UNICODE),
155 #undef ntlm_flag
156 {NULL, 0}
159 size_t
160 heim_ntlm_unparse_flags(uint32_t flags, char *s, size_t len)
162 return unparse_flags(flags, ntlm_flag_units, s, len);
167 * heim_ntlm_free_buf frees the ntlm buffer
169 * @param p buffer to be freed
171 * @ingroup ntlm_core
174 void
175 heim_ntlm_free_buf(struct ntlm_buf *p)
177 if (p->data)
178 free(p->data);
179 p->data = NULL;
180 p->length = 0;
184 static int
185 ascii2ucs2le(const char *string, int up, struct ntlm_buf *buf)
187 unsigned char *p;
188 size_t len, i;
190 len = strlen(string);
191 if (len / 2 > UINT_MAX)
192 return ERANGE;
194 buf->length = len * 2;
195 buf->data = malloc(buf->length);
196 if (buf->data == NULL && len != 0) {
197 heim_ntlm_free_buf(buf);
198 return ENOMEM;
201 p = buf->data;
202 for (i = 0; i < len; i++) {
203 unsigned char t = (unsigned char)string[i];
204 if (t & 0x80) {
205 heim_ntlm_free_buf(buf);
206 return EINVAL;
208 if (up)
209 t = toupper(t);
210 p[(i * 2) + 0] = t;
211 p[(i * 2) + 1] = 0;
213 return 0;
220 static krb5_error_code
221 ret_sec_buffer(krb5_storage *sp, struct sec_buffer *buf)
223 krb5_error_code ret;
224 CHECK(krb5_ret_uint16(sp, &buf->length), 0);
225 CHECK(krb5_ret_uint16(sp, &buf->allocated), 0);
226 CHECK(krb5_ret_uint32(sp, &buf->offset), 0);
227 out:
228 return ret;
231 static krb5_error_code
232 store_sec_buffer(krb5_storage *sp, const struct sec_buffer *buf)
234 krb5_error_code ret;
235 CHECK(krb5_store_uint16(sp, buf->length), 0);
236 CHECK(krb5_store_uint16(sp, buf->allocated), 0);
237 CHECK(krb5_store_uint32(sp, buf->offset), 0);
238 out:
239 return ret;
243 * Strings are either OEM or UNICODE. The later is encoded as ucs2 on
244 * wire, but using utf8 in memory.
247 static krb5_error_code
248 len_string(int ucs2, const char *s)
250 size_t len = strlen(s);
251 if (ucs2)
252 len *= 2;
253 return len;
260 static krb5_error_code
261 ret_string(krb5_storage *sp, int ucs2, size_t len, char **s)
263 krb5_error_code ret;
265 *s = malloc(len + 1);
266 if (*s == NULL)
267 return ENOMEM;
268 CHECK(krb5_storage_read(sp, *s, len), len);
270 (*s)[len] = '\0';
272 if (ucs2) {
273 size_t i;
274 for (i = 0; i < len / 2; i++) {
275 (*s)[i] = (*s)[i * 2];
276 if ((*s)[i * 2 + 1]) {
277 free(*s);
278 *s = NULL;
279 return EINVAL;
282 (*s)[i] = '\0';
284 ret = 0;
285 out:
286 return ret;
291 static krb5_error_code
292 ret_sec_string(krb5_storage *sp, int ucs2, struct sec_buffer *desc, char **s)
294 krb5_error_code ret = 0;
295 CHECK(krb5_storage_seek(sp, desc->offset, SEEK_SET), desc->offset);
296 CHECK(ret_string(sp, ucs2, desc->length, s), 0);
297 out:
298 return ret;
301 static krb5_error_code
302 put_string(krb5_storage *sp, int ucs2, const char *s)
304 krb5_error_code ret;
305 struct ntlm_buf buf;
307 if (ucs2) {
308 ret = ascii2ucs2le(s, 0, &buf);
309 if (ret)
310 return ret;
311 } else {
312 buf.data = rk_UNCONST(s);
313 buf.length = strlen(s);
316 CHECK(krb5_storage_write(sp, buf.data, buf.length), buf.length);
317 if (ucs2)
318 heim_ntlm_free_buf(&buf);
319 ret = 0;
320 out:
321 return ret;
328 static krb5_error_code
329 ret_buf(krb5_storage *sp, struct sec_buffer *desc, struct ntlm_buf *buf)
331 krb5_error_code ret;
333 buf->data = malloc(desc->length);
334 buf->length = desc->length;
335 CHECK(krb5_storage_seek(sp, desc->offset, SEEK_SET), desc->offset);
336 CHECK(krb5_storage_read(sp, buf->data, buf->length), buf->length);
337 ret = 0;
338 out:
339 return ret;
342 static krb5_error_code
343 put_buf(krb5_storage *sp, const struct ntlm_buf *buf)
345 krb5_error_code ret;
346 CHECK(krb5_storage_write(sp, buf->data, buf->length), buf->length);
347 ret = 0;
348 out:
349 return ret;
353 * Frees the ntlm_targetinfo message
355 * @param ti targetinfo to be freed
357 * @ingroup ntlm_core
360 void
361 heim_ntlm_free_targetinfo(struct ntlm_targetinfo *ti)
363 free(ti->servername);
364 free(ti->domainname);
365 free(ti->dnsdomainname);
366 free(ti->dnsservername);
367 free(ti->dnstreename);
368 memset(ti, 0, sizeof(*ti));
371 static int
372 encode_ti_string(krb5_storage *out, uint16_t type, int ucs2, char *s)
374 krb5_error_code ret;
375 CHECK(krb5_store_uint16(out, type), 0);
376 CHECK(krb5_store_uint16(out, len_string(ucs2, s)), 0);
377 CHECK(put_string(out, ucs2, s), 0);
378 out:
379 return ret;
383 * Encodes a ntlm_targetinfo message.
385 * @param ti the ntlm_targetinfo message to encode.
386 * @param ucs2 ignored
387 * @param data is the return buffer with the encoded message, should be
388 * freed with heim_ntlm_free_buf().
390 * @return In case of success 0 is return, an errors, a errno in what
391 * went wrong.
393 * @ingroup ntlm_core
397 heim_ntlm_encode_targetinfo(const struct ntlm_targetinfo *ti,
398 int ucs2,
399 struct ntlm_buf *data)
401 krb5_error_code ret;
402 krb5_storage *out;
404 data->data = NULL;
405 data->length = 0;
407 out = krb5_storage_emem();
408 if (out == NULL)
409 return ENOMEM;
411 krb5_storage_set_byteorder(out, KRB5_STORAGE_BYTEORDER_LE);
413 if (ti->servername)
414 CHECK(encode_ti_string(out, 1, ucs2, ti->servername), 0);
415 if (ti->domainname)
416 CHECK(encode_ti_string(out, 2, ucs2, ti->domainname), 0);
417 if (ti->dnsservername)
418 CHECK(encode_ti_string(out, 3, ucs2, ti->dnsservername), 0);
419 if (ti->dnsdomainname)
420 CHECK(encode_ti_string(out, 4, ucs2, ti->dnsdomainname), 0);
421 if (ti->dnstreename)
422 CHECK(encode_ti_string(out, 5, ucs2, ti->dnstreename), 0);
423 if (ti->avflags) {
424 CHECK(krb5_store_uint16(out, 6), 0);
425 CHECK(krb5_store_uint16(out, 4), 0);
426 CHECK(krb5_store_uint32(out, ti->avflags), 0);
429 /* end tag */
430 CHECK(krb5_store_int16(out, 0), 0);
431 CHECK(krb5_store_int16(out, 0), 0);
434 krb5_data d;
435 ret = krb5_storage_to_data(out, &d);
436 data->data = d.data;
437 data->length = d.length;
439 out:
440 krb5_storage_free(out);
441 return ret;
445 * Decodes an NTLM targetinfo message
447 * @param data input data buffer with the encode NTLM targetinfo message
448 * @param ucs2 if the strings should be encoded with ucs2 (selected by flag in message).
449 * @param ti the decoded target info, should be freed with heim_ntlm_free_targetinfo().
451 * @return In case of success 0 is return, an errors, a errno in what
452 * went wrong.
454 * @ingroup ntlm_core
458 heim_ntlm_decode_targetinfo(const struct ntlm_buf *data,
459 int ucs2,
460 struct ntlm_targetinfo *ti)
462 uint16_t type, len;
463 krb5_storage *in;
464 int ret = 0, done = 0;
466 memset(ti, 0, sizeof(*ti));
468 if (data->length == 0)
469 return 0;
471 in = krb5_storage_from_readonly_mem(data->data, data->length);
472 if (in == NULL)
473 return ENOMEM;
474 krb5_storage_set_byteorder(in, KRB5_STORAGE_BYTEORDER_LE);
476 while (!done) {
477 CHECK(krb5_ret_uint16(in, &type), 0);
478 CHECK(krb5_ret_uint16(in, &len), 0);
480 switch (type) {
481 case 0:
482 done = 1;
483 break;
484 case 1:
485 CHECK(ret_string(in, ucs2, len, &ti->servername), 0);
486 break;
487 case 2:
488 CHECK(ret_string(in, ucs2, len, &ti->domainname), 0);
489 break;
490 case 3:
491 CHECK(ret_string(in, ucs2, len, &ti->dnsservername), 0);
492 break;
493 case 4:
494 CHECK(ret_string(in, ucs2, len, &ti->dnsdomainname), 0);
495 break;
496 case 5:
497 CHECK(ret_string(in, ucs2, len, &ti->dnstreename), 0);
498 break;
499 case 6:
500 CHECK(krb5_ret_uint32(in, &ti->avflags), 0);
501 break;
502 default:
503 krb5_storage_seek(in, len, SEEK_CUR);
504 break;
507 out:
508 if (in)
509 krb5_storage_free(in);
510 return ret;
514 * Frees the ntlm_type1 message
516 * @param data message to be freed
518 * @ingroup ntlm_core
521 void
522 heim_ntlm_free_type1(struct ntlm_type1 *data)
524 if (data->domain)
525 free(data->domain);
526 if (data->hostname)
527 free(data->hostname);
528 memset(data, 0, sizeof(*data));
532 heim_ntlm_decode_type1(const struct ntlm_buf *buf, struct ntlm_type1 *data)
534 krb5_error_code ret;
535 unsigned char sig[8];
536 uint32_t type;
537 struct sec_buffer domain, hostname;
538 krb5_storage *in;
540 memset(data, 0, sizeof(*data));
542 in = krb5_storage_from_readonly_mem(buf->data, buf->length);
543 if (in == NULL) {
544 ret = ENOMEM;
545 goto out;
547 krb5_storage_set_byteorder(in, KRB5_STORAGE_BYTEORDER_LE);
549 CHECK(krb5_storage_read(in, sig, sizeof(sig)), sizeof(sig));
550 CHECK(memcmp(ntlmsigature, sig, sizeof(ntlmsigature)), 0);
551 CHECK(krb5_ret_uint32(in, &type), 0);
552 CHECK(type, 1);
553 CHECK(krb5_ret_uint32(in, &data->flags), 0);
554 if (data->flags & NTLM_OEM_SUPPLIED_DOMAIN)
555 CHECK(ret_sec_buffer(in, &domain), 0);
556 if (data->flags & NTLM_OEM_SUPPLIED_WORKSTATION)
557 CHECK(ret_sec_buffer(in, &hostname), 0);
558 #if 0
559 if (domain.offset > 32) {
560 CHECK(krb5_ret_uint32(in, &data->os[0]), 0);
561 CHECK(krb5_ret_uint32(in, &data->os[1]), 0);
563 #endif
564 if (data->flags & NTLM_OEM_SUPPLIED_DOMAIN)
565 CHECK(ret_sec_string(in, 0, &domain, &data->domain), 0);
566 if (data->flags & NTLM_OEM_SUPPLIED_WORKSTATION)
567 CHECK(ret_sec_string(in, 0, &hostname, &data->hostname), 0);
569 out:
570 if (in)
571 krb5_storage_free(in);
572 if (ret)
573 heim_ntlm_free_type1(data);
575 return ret;
579 * Encodes an ntlm_type1 message.
581 * @param type1 the ntlm_type1 message to encode.
582 * @param data is the return buffer with the encoded message, should be
583 * freed with heim_ntlm_free_buf().
585 * @return In case of success 0 is return, an errors, a errno in what
586 * went wrong.
588 * @ingroup ntlm_core
592 heim_ntlm_encode_type1(const struct ntlm_type1 *type1, struct ntlm_buf *data)
594 krb5_error_code ret;
595 struct sec_buffer domain, hostname;
596 krb5_storage *out;
597 uint32_t base, flags;
599 flags = type1->flags;
600 base = 16;
602 if (type1->domain) {
603 base += 8;
604 flags |= NTLM_OEM_SUPPLIED_DOMAIN;
606 if (type1->hostname) {
607 base += 8;
608 flags |= NTLM_OEM_SUPPLIED_WORKSTATION;
610 if (type1->os[0])
611 base += 8;
613 domain.offset = base;
614 if (type1->domain) {
615 domain.length = len_string(0, type1->domain);
616 domain.allocated = domain.length;
617 } else {
618 domain.length = 0;
619 domain.allocated = 0;
622 hostname.offset = domain.allocated + domain.offset;
623 if (type1->hostname) {
624 hostname.length = len_string(0, type1->hostname);
625 hostname.allocated = hostname.length;
626 } else {
627 hostname.length = 0;
628 hostname.allocated = 0;
631 out = krb5_storage_emem();
632 if (out == NULL)
633 return ENOMEM;
635 krb5_storage_set_byteorder(out, KRB5_STORAGE_BYTEORDER_LE);
636 CHECK(krb5_storage_write(out, ntlmsigature, sizeof(ntlmsigature)),
637 sizeof(ntlmsigature));
638 CHECK(krb5_store_uint32(out, 1), 0);
639 CHECK(krb5_store_uint32(out, flags), 0);
641 CHECK(store_sec_buffer(out, &domain), 0);
642 CHECK(store_sec_buffer(out, &hostname), 0);
643 #if 0
644 CHECK(krb5_store_uint32(out, type1->os[0]), 0);
645 CHECK(krb5_store_uint32(out, type1->os[1]), 0);
646 #endif
647 if (type1->domain)
648 CHECK(put_string(out, 0, type1->domain), 0);
649 if (type1->hostname)
650 CHECK(put_string(out, 0, type1->hostname), 0);
653 krb5_data d;
654 ret = krb5_storage_to_data(out, &d);
655 data->data = d.data;
656 data->length = d.length;
658 out:
659 krb5_storage_free(out);
661 return ret;
665 * Frees the ntlm_type2 message
667 * @param data message to be freed
669 * @ingroup ntlm_core
672 void
673 heim_ntlm_free_type2(struct ntlm_type2 *data)
675 if (data->targetname)
676 free(data->targetname);
677 heim_ntlm_free_buf(&data->targetinfo);
678 memset(data, 0, sizeof(*data));
682 heim_ntlm_decode_type2(const struct ntlm_buf *buf, struct ntlm_type2 *type2)
684 krb5_error_code ret;
685 unsigned char sig[8];
686 uint32_t type, ctx[2];
687 struct sec_buffer targetname, targetinfo;
688 krb5_storage *in;
689 int ucs2 = 0;
691 memset(type2, 0, sizeof(*type2));
693 in = krb5_storage_from_readonly_mem(buf->data, buf->length);
694 if (in == NULL) {
695 ret = ENOMEM;
696 goto out;
698 krb5_storage_set_byteorder(in, KRB5_STORAGE_BYTEORDER_LE);
700 CHECK(krb5_storage_read(in, sig, sizeof(sig)), sizeof(sig));
701 CHECK(memcmp(ntlmsigature, sig, sizeof(ntlmsigature)), 0);
702 CHECK(krb5_ret_uint32(in, &type), 0);
703 CHECK(type, 2);
705 CHECK(ret_sec_buffer(in, &targetname), 0);
706 CHECK(krb5_ret_uint32(in, &type2->flags), 0);
707 if (type2->flags & NTLM_NEG_UNICODE)
708 ucs2 = 1;
709 CHECK(krb5_storage_read(in, type2->challenge, sizeof(type2->challenge)),
710 sizeof(type2->challenge));
711 CHECK(krb5_ret_uint32(in, &ctx[0]), 0); /* context */
712 CHECK(krb5_ret_uint32(in, &ctx[1]), 0);
713 CHECK(ret_sec_buffer(in, &targetinfo), 0);
714 /* os version */
715 if (type2->flags & NTLM_NEG_VERSION) {
716 CHECK(krb5_ret_uint32(in, &type2->os[0]), 0);
717 CHECK(krb5_ret_uint32(in, &type2->os[1]), 0);
720 CHECK(ret_sec_string(in, ucs2, &targetname, &type2->targetname), 0);
721 CHECK(ret_buf(in, &targetinfo, &type2->targetinfo), 0);
722 ret = 0;
724 out:
725 if (in)
726 krb5_storage_free(in);
727 if (ret)
728 heim_ntlm_free_type2(type2);
730 return ret;
734 * Encodes an ntlm_type2 message.
736 * @param type2 the ntlm_type2 message to encode.
737 * @param data is the return buffer with the encoded message, should be
738 * freed with heim_ntlm_free_buf().
740 * @return In case of success 0 is return, an errors, a errno in what
741 * went wrong.
743 * @ingroup ntlm_core
747 heim_ntlm_encode_type2(const struct ntlm_type2 *type2, struct ntlm_buf *data)
749 struct sec_buffer targetname, targetinfo;
750 krb5_error_code ret;
751 krb5_storage *out = NULL;
752 uint32_t base;
753 int ucs2 = 0;
755 base = 48;
757 if (type2->flags & NTLM_NEG_VERSION)
758 base += 8;
760 if (type2->flags & NTLM_NEG_UNICODE)
761 ucs2 = 1;
763 targetname.offset = base;
764 targetname.length = len_string(ucs2, type2->targetname);
765 targetname.allocated = targetname.length;
767 targetinfo.offset = targetname.allocated + targetname.offset;
768 targetinfo.length = type2->targetinfo.length;
769 targetinfo.allocated = type2->targetinfo.length;
771 out = krb5_storage_emem();
772 if (out == NULL)
773 return ENOMEM;
775 krb5_storage_set_byteorder(out, KRB5_STORAGE_BYTEORDER_LE);
776 CHECK(krb5_storage_write(out, ntlmsigature, sizeof(ntlmsigature)),
777 sizeof(ntlmsigature));
778 CHECK(krb5_store_uint32(out, 2), 0);
779 CHECK(store_sec_buffer(out, &targetname), 0);
780 CHECK(krb5_store_uint32(out, type2->flags), 0);
781 CHECK(krb5_storage_write(out, type2->challenge, sizeof(type2->challenge)),
782 sizeof(type2->challenge));
783 CHECK(krb5_store_uint32(out, 0), 0); /* context */
784 CHECK(krb5_store_uint32(out, 0), 0);
785 CHECK(store_sec_buffer(out, &targetinfo), 0);
786 /* os version */
787 if (type2->flags & NTLM_NEG_VERSION) {
788 CHECK(krb5_store_uint32(out, type2->os[0]), 0);
789 CHECK(krb5_store_uint32(out, type2->os[1]), 0);
791 CHECK(put_string(out, ucs2, type2->targetname), 0);
792 CHECK(krb5_storage_write(out, type2->targetinfo.data,
793 type2->targetinfo.length),
794 type2->targetinfo.length);
797 krb5_data d;
798 ret = krb5_storage_to_data(out, &d);
799 data->data = d.data;
800 data->length = d.length;
803 out:
804 krb5_storage_free(out);
806 return ret;
810 * Frees the ntlm_type3 message
812 * @param data message to be freed
814 * @ingroup ntlm_core
817 void
818 heim_ntlm_free_type3(struct ntlm_type3 *data)
820 heim_ntlm_free_buf(&data->lm);
821 heim_ntlm_free_buf(&data->ntlm);
822 if (data->targetname)
823 free(data->targetname);
824 if (data->username)
825 free(data->username);
826 if (data->ws)
827 free(data->ws);
828 heim_ntlm_free_buf(&data->sessionkey);
829 memset(data, 0, sizeof(*data));
837 heim_ntlm_decode_type3(const struct ntlm_buf *buf,
838 int ucs2,
839 struct ntlm_type3 *type3)
841 krb5_error_code ret;
842 unsigned char sig[8];
843 uint32_t type;
844 krb5_storage *in;
845 struct sec_buffer lm, ntlm, target, username, sessionkey, ws;
846 uint32_t min_offset = 72;
848 memset(type3, 0, sizeof(*type3));
849 memset(&sessionkey, 0, sizeof(sessionkey));
851 in = krb5_storage_from_readonly_mem(buf->data, buf->length);
852 if (in == NULL) {
853 ret = ENOMEM;
854 goto out;
856 krb5_storage_set_byteorder(in, KRB5_STORAGE_BYTEORDER_LE);
858 CHECK(krb5_storage_read(in, sig, sizeof(sig)), sizeof(sig));
859 CHECK(memcmp(ntlmsigature, sig, sizeof(ntlmsigature)), 0);
860 CHECK(krb5_ret_uint32(in, &type), 0);
861 CHECK(type, 3);
862 CHECK(ret_sec_buffer(in, &lm), 0);
863 if (lm.allocated)
864 min_offset = min(min_offset, lm.offset);
865 CHECK(ret_sec_buffer(in, &ntlm), 0);
866 if (ntlm.allocated)
867 min_offset = min(min_offset, ntlm.offset);
868 CHECK(ret_sec_buffer(in, &target), 0);
869 if (target.allocated)
870 min_offset = min(min_offset, target.offset);
871 CHECK(ret_sec_buffer(in, &username), 0);
872 if (username.allocated)
873 min_offset = min(min_offset, username.offset);
874 CHECK(ret_sec_buffer(in, &ws), 0);
875 if (ws.allocated)
876 min_offset = min(min_offset, ws.offset);
878 if (min_offset > 52) {
879 CHECK(ret_sec_buffer(in, &sessionkey), 0);
880 min_offset = max(min_offset, sessionkey.offset);
881 CHECK(krb5_ret_uint32(in, &type3->flags), 0);
883 if (min_offset > 52 + 8 + 4 + 8) {
884 CHECK(krb5_ret_uint32(in, &type3->os[0]), 0);
885 CHECK(krb5_ret_uint32(in, &type3->os[1]), 0);
887 CHECK(ret_buf(in, &lm, &type3->lm), 0);
888 CHECK(ret_buf(in, &ntlm, &type3->ntlm), 0);
889 CHECK(ret_sec_string(in, ucs2, &target, &type3->targetname), 0);
890 CHECK(ret_sec_string(in, ucs2, &username, &type3->username), 0);
891 CHECK(ret_sec_string(in, ucs2, &ws, &type3->ws), 0);
892 if (sessionkey.offset)
893 CHECK(ret_buf(in, &sessionkey, &type3->sessionkey), 0);
895 out:
896 if (in)
897 krb5_storage_free(in);
898 if (ret)
899 heim_ntlm_free_type3(type3);
901 return ret;
905 * Encodes an ntlm_type3 message.
907 * @param type3 the ntlm_type3 message to encode.
908 * @param data is the return buffer with the encoded message, should be
909 * freed with heim_ntlm_free_buf().
911 * @return In case of success 0 is return, an errors, a errno in what
912 * went wrong.
914 * @ingroup ntlm_core
918 heim_ntlm_encode_type3(const struct ntlm_type3 *type3, struct ntlm_buf *data)
920 struct sec_buffer lm, ntlm, target, username, sessionkey, ws;
921 krb5_error_code ret;
922 krb5_storage *out = NULL;
923 uint32_t base;
924 int ucs2 = 0;
926 memset(&lm, 0, sizeof(lm));
927 memset(&ntlm, 0, sizeof(ntlm));
928 memset(&target, 0, sizeof(target));
929 memset(&username, 0, sizeof(username));
930 memset(&ws, 0, sizeof(ws));
931 memset(&sessionkey, 0, sizeof(sessionkey));
933 base = 52;
935 base += 8; /* sessionkey sec buf */
936 base += 4; /* flags */
938 if (type3->os[0]) {
939 base += 8;
942 if (type3->flags & NTLM_NEG_UNICODE)
943 ucs2 = 1;
945 target.offset = base;
946 target.length = len_string(ucs2, type3->targetname);
947 target.allocated = target.length;
949 username.offset = target.offset + target.allocated;
950 username.length = len_string(ucs2, type3->username);
951 username.allocated = username.length;
953 ws.offset = username.offset + username.allocated;
954 ws.length = len_string(ucs2, type3->ws);
955 ws.allocated = ws.length;
957 lm.offset = ws.offset + ws.allocated;
958 lm.length = type3->lm.length;
959 lm.allocated = type3->lm.length;
961 ntlm.offset = lm.offset + lm.allocated;
962 ntlm.length = type3->ntlm.length;
963 ntlm.allocated = ntlm.length;
965 sessionkey.offset = ntlm.offset + ntlm.allocated;
966 sessionkey.length = type3->sessionkey.length;
967 sessionkey.allocated = type3->sessionkey.length;
969 out = krb5_storage_emem();
970 if (out == NULL)
971 return ENOMEM;
973 krb5_storage_set_byteorder(out, KRB5_STORAGE_BYTEORDER_LE);
974 CHECK(krb5_storage_write(out, ntlmsigature, sizeof(ntlmsigature)),
975 sizeof(ntlmsigature));
976 CHECK(krb5_store_uint32(out, 3), 0);
978 CHECK(store_sec_buffer(out, &lm), 0);
979 CHECK(store_sec_buffer(out, &ntlm), 0);
980 CHECK(store_sec_buffer(out, &target), 0);
981 CHECK(store_sec_buffer(out, &username), 0);
982 CHECK(store_sec_buffer(out, &ws), 0);
983 CHECK(store_sec_buffer(out, &sessionkey), 0);
984 CHECK(krb5_store_uint32(out, type3->flags), 0);
986 #if 0
987 CHECK(krb5_store_uint32(out, 0), 0); /* os0 */
988 CHECK(krb5_store_uint32(out, 0), 0); /* os1 */
989 #endif
991 CHECK(put_string(out, ucs2, type3->targetname), 0);
992 CHECK(put_string(out, ucs2, type3->username), 0);
993 CHECK(put_string(out, ucs2, type3->ws), 0);
994 CHECK(put_buf(out, &type3->lm), 0);
995 CHECK(put_buf(out, &type3->ntlm), 0);
996 CHECK(put_buf(out, &type3->sessionkey), 0);
999 krb5_data d;
1000 ret = krb5_storage_to_data(out, &d);
1001 data->data = d.data;
1002 data->length = d.length;
1005 out:
1006 krb5_storage_free(out);
1008 return ret;
1016 static void
1017 splitandenc(unsigned char *hash,
1018 unsigned char *challenge,
1019 unsigned char *answer)
1021 EVP_CIPHER_CTX ctx;
1022 unsigned char key[8];
1024 key[0] = hash[0];
1025 key[1] = (hash[0] << 7) | (hash[1] >> 1);
1026 key[2] = (hash[1] << 6) | (hash[2] >> 2);
1027 key[3] = (hash[2] << 5) | (hash[3] >> 3);
1028 key[4] = (hash[3] << 4) | (hash[4] >> 4);
1029 key[5] = (hash[4] << 3) | (hash[5] >> 5);
1030 key[6] = (hash[5] << 2) | (hash[6] >> 6);
1031 key[7] = (hash[6] << 1);
1033 EVP_CIPHER_CTX_init(&ctx);
1035 EVP_CipherInit_ex(&ctx, EVP_des_cbc(), NULL, key, NULL, 1);
1036 EVP_Cipher(&ctx, answer, challenge, 8);
1037 EVP_CIPHER_CTX_cleanup(&ctx);
1038 memset(key, 0, sizeof(key));
1042 * Calculate the NTLM key, the password is assumed to be in UTF8.
1044 * @param password password to calcute the key for.
1045 * @param key calcuted key, should be freed with heim_ntlm_free_buf().
1047 * @return In case of success 0 is return, an errors, a errno in what
1048 * went wrong.
1050 * @ingroup ntlm_core
1054 heim_ntlm_nt_key(const char *password, struct ntlm_buf *key)
1056 struct ntlm_buf buf;
1057 EVP_MD_CTX *m;
1058 int ret;
1060 key->data = malloc(MD5_DIGEST_LENGTH);
1061 if (key->data == NULL)
1062 return ENOMEM;
1063 key->length = MD5_DIGEST_LENGTH;
1065 ret = ascii2ucs2le(password, 0, &buf);
1066 if (ret) {
1067 heim_ntlm_free_buf(key);
1068 return ret;
1071 m = EVP_MD_CTX_create();
1072 if (m == NULL) {
1073 heim_ntlm_free_buf(key);
1074 heim_ntlm_free_buf(&buf);
1075 return ENOMEM;
1078 EVP_DigestInit_ex(m, EVP_md4(), NULL);
1079 EVP_DigestUpdate(m, buf.data, buf.length);
1080 EVP_DigestFinal_ex(m, key->data, NULL);
1081 EVP_MD_CTX_destroy(m);
1083 heim_ntlm_free_buf(&buf);
1084 return 0;
1088 * Calculate NTLMv1 response hash
1090 * @param key the ntlm v1 key
1091 * @param len length of key
1092 * @param challenge sent by the server
1093 * @param answer calculated answer, should be freed with heim_ntlm_free_buf().
1095 * @return In case of success 0 is return, an errors, a errno in what
1096 * went wrong.
1098 * @ingroup ntlm_core
1102 heim_ntlm_calculate_ntlm1(void *key, size_t len,
1103 unsigned char challenge[8],
1104 struct ntlm_buf *answer)
1106 unsigned char res[21];
1108 if (len != MD4_DIGEST_LENGTH)
1109 return HNTLM_ERR_INVALID_LENGTH;
1111 memcpy(res, key, len);
1112 memset(&res[MD4_DIGEST_LENGTH], 0, sizeof(res) - MD4_DIGEST_LENGTH);
1114 answer->data = malloc(24);
1115 if (answer->data == NULL)
1116 return ENOMEM;
1117 answer->length = 24;
1119 splitandenc(&res[0], challenge, ((unsigned char *)answer->data) + 0);
1120 splitandenc(&res[7], challenge, ((unsigned char *)answer->data) + 8);
1121 splitandenc(&res[14], challenge, ((unsigned char *)answer->data) + 16);
1123 return 0;
1127 heim_ntlm_v1_base_session(void *key, size_t len,
1128 struct ntlm_buf *session)
1130 EVP_MD_CTX *m;
1132 session->length = MD4_DIGEST_LENGTH;
1133 session->data = malloc(session->length);
1134 if (session->data == NULL) {
1135 session->length = 0;
1136 return ENOMEM;
1139 m = EVP_MD_CTX_create();
1140 if (m == NULL) {
1141 heim_ntlm_free_buf(session);
1142 return ENOMEM;
1144 EVP_DigestInit_ex(m, EVP_md4(), NULL);
1145 EVP_DigestUpdate(m, key, len);
1146 EVP_DigestFinal_ex(m, session->data, NULL);
1147 EVP_MD_CTX_destroy(m);
1149 return 0;
1153 heim_ntlm_v2_base_session(void *key, size_t len,
1154 struct ntlm_buf *ntlmResponse,
1155 struct ntlm_buf *session)
1157 unsigned int hmaclen;
1158 HMAC_CTX c;
1160 if (ntlmResponse->length <= 16)
1161 return HNTLM_ERR_INVALID_LENGTH;
1163 session->data = malloc(16);
1164 if (session->data == NULL)
1165 return ENOMEM;
1166 session->length = 16;
1168 /* Note: key is the NTLMv2 key */
1169 HMAC_CTX_init(&c);
1170 HMAC_Init_ex(&c, key, len, EVP_md5(), NULL);
1171 HMAC_Update(&c, ntlmResponse->data, 16);
1172 HMAC_Final(&c, session->data, &hmaclen);
1173 HMAC_CTX_cleanup(&c);
1175 return 0;
1180 heim_ntlm_keyex_wrap(struct ntlm_buf *base_session,
1181 struct ntlm_buf *session,
1182 struct ntlm_buf *encryptedSession)
1184 EVP_CIPHER_CTX c;
1185 int ret;
1187 session->length = MD4_DIGEST_LENGTH;
1188 session->data = malloc(session->length);
1189 if (session->data == NULL) {
1190 session->length = 0;
1191 return ENOMEM;
1193 encryptedSession->length = MD4_DIGEST_LENGTH;
1194 encryptedSession->data = malloc(encryptedSession->length);
1195 if (encryptedSession->data == NULL) {
1196 heim_ntlm_free_buf(session);
1197 encryptedSession->length = 0;
1198 return ENOMEM;
1201 EVP_CIPHER_CTX_init(&c);
1203 ret = EVP_CipherInit_ex(&c, EVP_rc4(), NULL, base_session->data, NULL, 1);
1204 if (ret != 1) {
1205 EVP_CIPHER_CTX_cleanup(&c);
1206 heim_ntlm_free_buf(encryptedSession);
1207 heim_ntlm_free_buf(session);
1208 return HNTLM_ERR_CRYPTO;
1211 if (RAND_bytes(session->data, session->length) != 1) {
1212 EVP_CIPHER_CTX_cleanup(&c);
1213 heim_ntlm_free_buf(encryptedSession);
1214 heim_ntlm_free_buf(session);
1215 return HNTLM_ERR_RAND;
1218 EVP_Cipher(&c, encryptedSession->data, session->data, encryptedSession->length);
1219 EVP_CIPHER_CTX_cleanup(&c);
1221 return 0;
1230 * Generates an NTLMv1 session random with assosited session master key.
1232 * @param key the ntlm v1 key
1233 * @param len length of key
1234 * @param session generated session nonce, should be freed with heim_ntlm_free_buf().
1235 * @param master calculated session master key, should be freed with heim_ntlm_free_buf().
1237 * @return In case of success 0 is return, an errors, a errno in what
1238 * went wrong.
1240 * @ingroup ntlm_core
1244 heim_ntlm_build_ntlm1_master(void *key, size_t len,
1245 struct ntlm_buf *session,
1246 struct ntlm_buf *master)
1248 struct ntlm_buf sess;
1249 int ret;
1251 ret = heim_ntlm_v1_base_session(key, len, &sess);
1252 if (ret)
1253 return ret;
1255 ret = heim_ntlm_keyex_wrap(&sess, session, master);
1256 heim_ntlm_free_buf(&sess);
1258 return ret;
1262 * Generates an NTLMv2 session random with associated session master key.
1264 * @param key the NTLMv2 key
1265 * @param len length of key
1266 * @param blob the NTLMv2 "blob"
1267 * @param session generated session nonce, should be freed with heim_ntlm_free_buf().
1268 * @param master calculated session master key, should be freed with heim_ntlm_free_buf().
1270 * @return In case of success 0 is return, an errors, a errno in what
1271 * went wrong.
1273 * @ingroup ntlm_core
1278 heim_ntlm_build_ntlm2_master(void *key, size_t len,
1279 struct ntlm_buf *blob,
1280 struct ntlm_buf *session,
1281 struct ntlm_buf *master)
1283 struct ntlm_buf sess;
1284 int ret;
1286 ret = heim_ntlm_v2_base_session(key, len, blob, &sess);
1287 if (ret)
1288 return ret;
1290 ret = heim_ntlm_keyex_wrap(&sess, session, master);
1291 heim_ntlm_free_buf(&sess);
1293 return ret;
1297 * Given a key and encrypted session, unwrap the session key
1299 * @param baseKey the sessionBaseKey
1300 * @param encryptedSession encrypted session, type3.session field.
1301 * @param session generated session nonce, should be freed with heim_ntlm_free_buf().
1303 * @return In case of success 0 is return, an errors, a errno in what
1304 * went wrong.
1306 * @ingroup ntlm_core
1310 heim_ntlm_keyex_unwrap(struct ntlm_buf *baseKey,
1311 struct ntlm_buf *encryptedSession,
1312 struct ntlm_buf *session)
1314 EVP_CIPHER_CTX c;
1316 memset(session, 0, sizeof(*session));
1318 if (baseKey->length != MD4_DIGEST_LENGTH)
1319 return HNTLM_ERR_INVALID_LENGTH;
1321 session->length = MD4_DIGEST_LENGTH;
1322 session->data = malloc(session->length);
1323 if (session->data == NULL) {
1324 session->length = 0;
1325 return ENOMEM;
1327 EVP_CIPHER_CTX_init(&c);
1329 if (EVP_CipherInit_ex(&c, EVP_rc4(), NULL, baseKey->data, NULL, 0) != 1) {
1330 EVP_CIPHER_CTX_cleanup(&c);
1331 heim_ntlm_free_buf(session);
1332 return HNTLM_ERR_CRYPTO;
1335 EVP_Cipher(&c, session->data, encryptedSession->data, session->length);
1336 EVP_CIPHER_CTX_cleanup(&c);
1338 return 0;
1343 * Generates an NTLMv2 session key.
1345 * @param key the ntlm key
1346 * @param len length of key
1347 * @param username name of the user, as sent in the message, assumed to be in UTF8.
1348 * @param target the name of the target, assumed to be in UTF8.
1349 * @param ntlmv2 the ntlmv2 session key
1351 * @return 0 on success, or an error code on failure.
1353 * @ingroup ntlm_core
1357 heim_ntlm_ntlmv2_key(const void *key, size_t len,
1358 const char *username,
1359 const char *target,
1360 unsigned char ntlmv2[16])
1362 int ret;
1363 unsigned int hmaclen;
1364 HMAC_CTX c;
1366 HMAC_CTX_init(&c);
1367 HMAC_Init_ex(&c, key, len, EVP_md5(), NULL);
1369 struct ntlm_buf buf;
1370 /* uppercase username and turn it into ucs2-le */
1371 ret = ascii2ucs2le(username, 1, &buf);
1372 if (ret)
1373 goto out;
1374 HMAC_Update(&c, buf.data, buf.length);
1375 free(buf.data);
1376 /* uppercase target and turn into ucs2-le */
1377 ret = ascii2ucs2le(target, 1, &buf);
1378 if (ret)
1379 goto out;
1380 HMAC_Update(&c, buf.data, buf.length);
1381 free(buf.data);
1383 HMAC_Final(&c, ntlmv2, &hmaclen);
1384 out:
1385 HMAC_CTX_cleanup(&c);
1387 return ret;
1394 #define NTTIME_EPOCH 0x019DB1DED53E8000LL
1396 static uint64_t
1397 unix2nttime(time_t unix_time)
1399 long long wt;
1400 wt = unix_time * (uint64_t)10000000 + (uint64_t)NTTIME_EPOCH;
1401 return wt;
1404 static time_t
1405 nt2unixtime(uint64_t t)
1407 t = ((t - (uint64_t)NTTIME_EPOCH) / (uint64_t)10000000);
1408 if (t > (((uint64_t)(time_t)(~(uint64_t)0)) >> 1))
1409 return 0;
1410 return (time_t)t;
1414 * Calculate LMv2 response
1416 * @param key the ntlm key
1417 * @param len length of key
1418 * @param username name of the user, as sent in the message, assumed to be in UTF8.
1419 * @param target the name of the target, assumed to be in UTF8.
1420 * @param serverchallenge challenge as sent by the server in the type2 message.
1421 * @param ntlmv2 calculated session key
1422 * @param answer ntlm response answer, should be freed with heim_ntlm_free_buf().
1424 * @return In case of success 0 is return, an errors, a errno in what
1425 * went wrong.
1427 * @ingroup ntlm_core
1431 heim_ntlm_calculate_lm2(const void *key, size_t len,
1432 const char *username,
1433 const char *target,
1434 const unsigned char serverchallenge[8],
1435 unsigned char ntlmv2[16],
1436 struct ntlm_buf *answer)
1438 unsigned char clientchallenge[8];
1440 if (RAND_bytes(clientchallenge, sizeof(clientchallenge)) != 1)
1441 return HNTLM_ERR_RAND;
1443 /* calculate ntlmv2 key */
1445 heim_ntlm_ntlmv2_key(key, len, username, target, ntlmv2);
1447 answer->data = malloc(24);
1448 if (answer->data == NULL)
1449 return ENOMEM;
1450 answer->length = 24;
1452 heim_ntlm_derive_ntlm2_sess(ntlmv2, clientchallenge, 8,
1453 serverchallenge, answer->data);
1455 memcpy(((uint8_t *)answer->data) + 16, clientchallenge, 8);
1457 return 0;
1462 * Calculate NTLMv2 response
1464 * @param key the ntlm key
1465 * @param len length of key
1466 * @param username name of the user, as sent in the message, assumed to be in UTF8.
1467 * @param target the name of the target, assumed to be in UTF8.
1468 * @param serverchallenge challenge as sent by the server in the type2 message.
1469 * @param infotarget infotarget as sent by the server in the type2 message.
1470 * @param ntlmv2 calculated session key
1471 * @param answer ntlm response answer, should be freed with heim_ntlm_free_buf().
1473 * @return In case of success 0 is return, an errors, a errno in what
1474 * went wrong.
1476 * @ingroup ntlm_core
1480 heim_ntlm_calculate_ntlm2(const void *key, size_t len,
1481 const char *username,
1482 const char *target,
1483 const unsigned char serverchallenge[8],
1484 const struct ntlm_buf *infotarget,
1485 unsigned char ntlmv2[16],
1486 struct ntlm_buf *answer)
1488 krb5_error_code ret;
1489 krb5_data data;
1490 unsigned char ntlmv2answer[16];
1491 krb5_storage *sp;
1492 unsigned char clientchallenge[8];
1493 uint64_t t;
1495 t = unix2nttime(time(NULL));
1497 if (RAND_bytes(clientchallenge, sizeof(clientchallenge)) != 1)
1498 return HNTLM_ERR_RAND;
1500 /* calculate ntlmv2 key */
1502 heim_ntlm_ntlmv2_key(key, len, username, target, ntlmv2);
1504 /* calculate and build ntlmv2 answer */
1506 sp = krb5_storage_emem();
1507 if (sp == NULL)
1508 return ENOMEM;
1509 krb5_storage_set_flags(sp, KRB5_STORAGE_BYTEORDER_LE);
1511 CHECK(krb5_store_uint32(sp, 0x00000101), 0);
1512 CHECK(krb5_store_uint32(sp, 0), 0);
1513 /* timestamp le 64 bit ts */
1514 CHECK(krb5_store_uint32(sp, t & 0xffffffff), 0);
1515 CHECK(krb5_store_uint32(sp, t >> 32), 0);
1517 CHECK(krb5_storage_write(sp, clientchallenge, 8), 8);
1519 CHECK(krb5_store_uint32(sp, 0), 0); /* unknown but zero will work */
1520 CHECK(krb5_storage_write(sp, infotarget->data, infotarget->length),
1521 infotarget->length);
1522 CHECK(krb5_store_uint32(sp, 0), 0); /* unknown but zero will work */
1524 CHECK(krb5_storage_to_data(sp, &data), 0);
1525 krb5_storage_free(sp);
1526 sp = NULL;
1528 heim_ntlm_derive_ntlm2_sess(ntlmv2, data.data, data.length, serverchallenge, ntlmv2answer);
1530 sp = krb5_storage_emem();
1531 if (sp == NULL) {
1532 krb5_data_free(&data);
1533 return ENOMEM;
1536 CHECK(krb5_storage_write(sp, ntlmv2answer, 16), 16);
1537 CHECK(krb5_storage_write(sp, data.data, data.length), data.length);
1538 krb5_data_free(&data);
1540 CHECK(krb5_storage_to_data(sp, &data), 0);
1541 krb5_storage_free(sp);
1542 sp = NULL;
1544 answer->data = data.data;
1545 answer->length = data.length;
1547 return 0;
1548 out:
1549 if (sp)
1550 krb5_storage_free(sp);
1551 return ret;
1554 static const int authtimediff = 3600 * 2; /* 2 hours */
1557 * Verify NTLMv2 response.
1559 * @param key the ntlm key
1560 * @param len length of key
1561 * @param username name of the user, as sent in the message, assumed to be in UTF8.
1562 * @param target the name of the target, assumed to be in UTF8.
1563 * @param now the time now (0 if the library should pick it up itself)
1564 * @param serverchallenge challenge as sent by the server in the type2 message.
1565 * @param answer ntlm response answer, should be freed with heim_ntlm_free_buf().
1566 * @param infotarget infotarget as sent by the server in the type2 message.
1567 * @param ntlmv2 calculated session key
1569 * @return In case of success 0 is return, an errors, a errno in what
1570 * went wrong.
1572 * @ingroup ntlm_core
1576 heim_ntlm_verify_ntlm2(const void *key, size_t len,
1577 const char *username,
1578 const char *target,
1579 time_t now,
1580 const unsigned char serverchallenge[8],
1581 const struct ntlm_buf *answer,
1582 struct ntlm_buf *infotarget,
1583 unsigned char ntlmv2[16])
1585 krb5_error_code ret;
1586 unsigned char clientanswer[16];
1587 unsigned char clientnonce[8];
1588 unsigned char serveranswer[16];
1589 krb5_storage *sp;
1590 time_t authtime;
1591 uint32_t temp;
1592 uint64_t t;
1594 infotarget->length = 0;
1595 infotarget->data = NULL;
1597 if (answer->length < 16)
1598 return HNTLM_ERR_INVALID_LENGTH;
1600 if (now == 0)
1601 now = time(NULL);
1603 /* calculate ntlmv2 key */
1605 heim_ntlm_ntlmv2_key(key, len, username, target, ntlmv2);
1607 /* calculate and build ntlmv2 answer */
1609 sp = krb5_storage_from_readonly_mem(answer->data, answer->length);
1610 if (sp == NULL)
1611 return ENOMEM;
1612 krb5_storage_set_flags(sp, KRB5_STORAGE_BYTEORDER_LE);
1614 CHECK(krb5_storage_read(sp, clientanswer, 16), 16);
1616 CHECK(krb5_ret_uint32(sp, &temp), 0);
1617 CHECK(temp, 0x00000101);
1618 CHECK(krb5_ret_uint32(sp, &temp), 0);
1619 CHECK(temp, 0);
1620 /* timestamp le 64 bit ts */
1621 CHECK(krb5_ret_uint32(sp, &temp), 0);
1622 t = temp;
1623 CHECK(krb5_ret_uint32(sp, &temp), 0);
1624 t |= ((uint64_t)temp)<< 32;
1626 authtime = nt2unixtime(t);
1628 if (abs((int)(authtime - now)) > authtimediff) {
1629 ret = HNTLM_ERR_TIME_SKEW;
1630 goto out;
1633 /* client challenge */
1634 CHECK(krb5_storage_read(sp, clientnonce, 8), 8);
1636 CHECK(krb5_ret_uint32(sp, &temp), 0); /* unknown */
1638 /* should really unparse the infotarget, but lets pick up everything */
1639 infotarget->length = answer->length - krb5_storage_seek(sp, 0, SEEK_CUR);
1640 infotarget->data = malloc(infotarget->length);
1641 if (infotarget->data == NULL) {
1642 ret = ENOMEM;
1643 goto out;
1645 CHECK(krb5_storage_read(sp, infotarget->data, infotarget->length),
1646 infotarget->length);
1647 /* XXX remove the unknown ?? */
1648 krb5_storage_free(sp);
1649 sp = NULL;
1651 if (answer->length < 16) {
1652 ret = HNTLM_ERR_INVALID_LENGTH;
1653 goto out;
1656 heim_ntlm_derive_ntlm2_sess(ntlmv2,
1657 ((unsigned char *)answer->data) + 16, answer->length - 16,
1658 serverchallenge,
1659 serveranswer);
1661 if (memcmp(serveranswer, clientanswer, 16) != 0) {
1662 heim_ntlm_free_buf(infotarget);
1663 return HNTLM_ERR_AUTH;
1666 return 0;
1667 out:
1668 heim_ntlm_free_buf(infotarget);
1669 if (sp)
1670 krb5_storage_free(sp);
1671 return ret;
1676 * Calculate the NTLM2 Session Response
1678 * @param clnt_nonce client nonce
1679 * @param svr_chal server challage
1680 * @param ntlm2_hash ntlm hash
1681 * @param lm The LM response, should be freed with heim_ntlm_free_buf().
1682 * @param ntlm The NTLM response, should be freed with heim_ntlm_free_buf().
1684 * @return In case of success 0 is return, an errors, a errno in what
1685 * went wrong.
1687 * @ingroup ntlm_core
1691 heim_ntlm_calculate_ntlm2_sess(const unsigned char clnt_nonce[8],
1692 const unsigned char svr_chal[8],
1693 const unsigned char ntlm_hash[16],
1694 struct ntlm_buf *lm,
1695 struct ntlm_buf *ntlm)
1697 unsigned char ntlm2_sess_hash[8];
1698 unsigned char res[21], *resp;
1699 int code;
1701 code = heim_ntlm_calculate_ntlm2_sess_hash(clnt_nonce, svr_chal,
1702 ntlm2_sess_hash);
1703 if (code) {
1704 return code;
1707 lm->data = malloc(24);
1708 if (lm->data == NULL) {
1709 return ENOMEM;
1711 lm->length = 24;
1713 ntlm->data = malloc(24);
1714 if (ntlm->data == NULL) {
1715 free(lm->data);
1716 lm->data = NULL;
1717 return ENOMEM;
1719 ntlm->length = 24;
1721 /* first setup the lm resp */
1722 memset(lm->data, 0, 24);
1723 memcpy(lm->data, clnt_nonce, 8);
1725 memset(res, 0, sizeof(res));
1726 memcpy(res, ntlm_hash, 16);
1728 resp = ntlm->data;
1729 splitandenc(&res[0], ntlm2_sess_hash, resp + 0);
1730 splitandenc(&res[7], ntlm2_sess_hash, resp + 8);
1731 splitandenc(&res[14], ntlm2_sess_hash, resp + 16);
1733 return 0;
1738 * Calculate the NTLM2 Session "Verifier"
1740 * @param clnt_nonce client nonce
1741 * @param svr_chal server challage
1742 * @param hash The NTLM session verifier
1744 * @return In case of success 0 is return, an errors, a errno in what
1745 * went wrong.
1747 * @ingroup ntlm_core
1751 heim_ntlm_calculate_ntlm2_sess_hash(const unsigned char clnt_nonce[8],
1752 const unsigned char svr_chal[8],
1753 unsigned char verifier[8])
1755 unsigned char ntlm2_sess_hash[MD5_DIGEST_LENGTH];
1756 EVP_MD_CTX *m;
1758 m = EVP_MD_CTX_create();
1759 if (m == NULL)
1760 return ENOMEM;
1762 EVP_DigestInit_ex(m, EVP_md5(), NULL);
1763 EVP_DigestUpdate(m, svr_chal, 8); /* session nonce part 1 */
1764 EVP_DigestUpdate(m, clnt_nonce, 8); /* session nonce part 2 */
1765 EVP_DigestFinal_ex(m, ntlm2_sess_hash, NULL); /* will only use first 8 bytes */
1766 EVP_MD_CTX_destroy(m);
1768 memcpy(verifier, ntlm2_sess_hash, 8);
1770 return 0;
1775 * Derive a NTLM2 session key
1777 * @param sessionkey session key from domain controller
1778 * @param clnt_nonce client nonce
1779 * @param svr_chal server challenge
1780 * @param derivedkey salted session key
1782 * @return In case of success 0 is return, an errors, a errno in what
1783 * went wrong.
1785 * @ingroup ntlm_core
1788 void
1789 heim_ntlm_derive_ntlm2_sess(const unsigned char sessionkey[16],
1790 const unsigned char *clnt_nonce, size_t clnt_nonce_length,
1791 const unsigned char svr_chal[8],
1792 unsigned char derivedkey[16])
1794 unsigned int hmaclen;
1795 HMAC_CTX c;
1797 /* HMAC(Ksession, serverchallenge || clientchallenge) */
1798 HMAC_CTX_init(&c);
1799 HMAC_Init_ex(&c, sessionkey, 16, EVP_md5(), NULL);
1800 HMAC_Update(&c, svr_chal, 8);
1801 HMAC_Update(&c, clnt_nonce, clnt_nonce_length);
1802 HMAC_Final(&c, derivedkey, &hmaclen);
1803 HMAC_CTX_cleanup(&c);