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1 /*
2  * EAP server/peer: EAP-EKE shared routines
3  * Copyright (c) 2011-2013, Jouni Malinen <j@w1.fi>
4  *
5  * This software may be distributed under the terms of the BSD license.
6  * See README for more details.
7  */
8 
9 #include "includes.h"
10 
11 #include "common.h"
12 #include "crypto/aes.h"
13 #include "crypto/aes_wrap.h"
14 #include "crypto/crypto.h"
15 #include "crypto/dh_groups.h"
16 #include "crypto/random.h"
17 #include "crypto/sha1.h"
18 #include "crypto/sha256.h"
19 #include "eap_common/eap_defs.h"
20 #include "eap_eke_common.h"
21 
22 
eap_eke_dh_len(u8 group)23 static int eap_eke_dh_len(u8 group)
24 {
25 	switch (group) {
26 	case EAP_EKE_DHGROUP_EKE_2:
27 		return 128;
28 	case EAP_EKE_DHGROUP_EKE_5:
29 		return 192;
30 	case EAP_EKE_DHGROUP_EKE_14:
31 		return 256;
32 	case EAP_EKE_DHGROUP_EKE_15:
33 		return 384;
34 	case EAP_EKE_DHGROUP_EKE_16:
35 		return 512;
36 	}
37 
38 	return -1;
39 }
40 
41 
eap_eke_dhcomp_len(u8 dhgroup,u8 encr)42 static int eap_eke_dhcomp_len(u8 dhgroup, u8 encr)
43 {
44 	int dhlen;
45 
46 	dhlen = eap_eke_dh_len(dhgroup);
47 	if (dhlen < 0 || encr != EAP_EKE_ENCR_AES128_CBC)
48 		return -1;
49 	return AES_BLOCK_SIZE + dhlen;
50 }
51 
52 
eap_eke_dh_group(u8 group)53 static const struct dh_group * eap_eke_dh_group(u8 group)
54 {
55 	switch (group) {
56 	case EAP_EKE_DHGROUP_EKE_2:
57 		return dh_groups_get(2);
58 	case EAP_EKE_DHGROUP_EKE_5:
59 		return dh_groups_get(5);
60 	case EAP_EKE_DHGROUP_EKE_14:
61 		return dh_groups_get(14);
62 	case EAP_EKE_DHGROUP_EKE_15:
63 		return dh_groups_get(15);
64 	case EAP_EKE_DHGROUP_EKE_16:
65 		return dh_groups_get(16);
66 	}
67 
68 	return NULL;
69 }
70 
71 
eap_eke_dh_generator(u8 group)72 static int eap_eke_dh_generator(u8 group)
73 {
74 	switch (group) {
75 	case EAP_EKE_DHGROUP_EKE_2:
76 		return 5;
77 	case EAP_EKE_DHGROUP_EKE_5:
78 		return 31;
79 	case EAP_EKE_DHGROUP_EKE_14:
80 		return 11;
81 	case EAP_EKE_DHGROUP_EKE_15:
82 		return 5;
83 	case EAP_EKE_DHGROUP_EKE_16:
84 		return 5;
85 	}
86 
87 	return -1;
88 }
89 
90 
eap_eke_pnonce_len(u8 mac)91 static int eap_eke_pnonce_len(u8 mac)
92 {
93 	int mac_len;
94 
95 	if (mac == EAP_EKE_MAC_HMAC_SHA1)
96 		mac_len = SHA1_MAC_LEN;
97 	else if (mac == EAP_EKE_MAC_HMAC_SHA2_256)
98 		mac_len = SHA256_MAC_LEN;
99 	else
100 		return -1;
101 
102 	return AES_BLOCK_SIZE + 16 + mac_len;
103 }
104 
105 
eap_eke_pnonce_ps_len(u8 mac)106 static int eap_eke_pnonce_ps_len(u8 mac)
107 {
108 	int mac_len;
109 
110 	if (mac == EAP_EKE_MAC_HMAC_SHA1)
111 		mac_len = SHA1_MAC_LEN;
112 	else if (mac == EAP_EKE_MAC_HMAC_SHA2_256)
113 		mac_len = SHA256_MAC_LEN;
114 	else
115 		return -1;
116 
117 	return AES_BLOCK_SIZE + 2 * 16 + mac_len;
118 }
119 
120 
eap_eke_prf_len(u8 prf)121 static int eap_eke_prf_len(u8 prf)
122 {
123 	if (prf == EAP_EKE_PRF_HMAC_SHA1)
124 		return 20;
125 	if (prf == EAP_EKE_PRF_HMAC_SHA2_256)
126 		return 32;
127 	return -1;
128 }
129 
130 
eap_eke_nonce_len(u8 prf)131 static int eap_eke_nonce_len(u8 prf)
132 {
133 	int prf_len;
134 
135 	prf_len = eap_eke_prf_len(prf);
136 	if (prf_len < 0)
137 		return -1;
138 
139 	if (prf_len > 2 * 16)
140 		return (prf_len + 1) / 2;
141 
142 	return 16;
143 }
144 
145 
eap_eke_auth_len(u8 prf)146 static int eap_eke_auth_len(u8 prf)
147 {
148 	switch (prf) {
149 	case EAP_EKE_PRF_HMAC_SHA1:
150 		return SHA1_MAC_LEN;
151 	case EAP_EKE_PRF_HMAC_SHA2_256:
152 		return SHA256_MAC_LEN;
153 	}
154 
155 	return -1;
156 }
157 
158 
eap_eke_dh_init(u8 group,u8 * ret_priv,u8 * ret_pub)159 int eap_eke_dh_init(u8 group, u8 *ret_priv, u8 *ret_pub)
160 {
161 	int generator;
162 	u8 gen;
163 	const struct dh_group *dh;
164 
165 	generator = eap_eke_dh_generator(group);
166 	dh = eap_eke_dh_group(group);
167 	if (generator < 0 || generator > 255 || !dh)
168 		return -1;
169 	gen = generator;
170 
171 	if (crypto_dh_init(gen, dh->prime, dh->prime_len, ret_priv,
172 			   ret_pub) < 0)
173 		return -1;
174 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: DH private value",
175 			ret_priv, dh->prime_len);
176 	wpa_hexdump(MSG_DEBUG, "EAP-EKE: DH public value",
177 		    ret_pub, dh->prime_len);
178 
179 	return 0;
180 }
181 
182 
eap_eke_prf(u8 prf,const u8 * key,size_t key_len,const u8 * data,size_t data_len,const u8 * data2,size_t data2_len,u8 * res)183 static int eap_eke_prf(u8 prf, const u8 *key, size_t key_len, const u8 *data,
184 		       size_t data_len, const u8 *data2, size_t data2_len,
185 		       u8 *res)
186 {
187 	const u8 *addr[2];
188 	size_t len[2];
189 	size_t num_elem = 1;
190 
191 	addr[0] = data;
192 	len[0] = data_len;
193 	if (data2) {
194 		num_elem++;
195 		addr[1] = data2;
196 		len[1] = data2_len;
197 	}
198 
199 	if (prf == EAP_EKE_PRF_HMAC_SHA1)
200 		return hmac_sha1_vector(key, key_len, num_elem, addr, len, res);
201 	if (prf == EAP_EKE_PRF_HMAC_SHA2_256)
202 		return hmac_sha256_vector(key, key_len, num_elem, addr, len,
203 					  res);
204 	return -1;
205 }
206 
207 
eap_eke_prf_hmac_sha1(const u8 * key,size_t key_len,const u8 * data,size_t data_len,u8 * res,size_t len)208 static int eap_eke_prf_hmac_sha1(const u8 *key, size_t key_len, const u8 *data,
209 				 size_t data_len, u8 *res, size_t len)
210 {
211 	u8 hash[SHA1_MAC_LEN];
212 	u8 idx;
213 	const u8 *addr[3];
214 	size_t vlen[3];
215 	int ret;
216 
217 	idx = 0;
218 	addr[0] = hash;
219 	vlen[0] = SHA1_MAC_LEN;
220 	addr[1] = data;
221 	vlen[1] = data_len;
222 	addr[2] = &idx;
223 	vlen[2] = 1;
224 
225 	while (len > 0) {
226 		idx++;
227 		if (idx == 1)
228 			ret = hmac_sha1_vector(key, key_len, 2, &addr[1],
229 					       &vlen[1], hash);
230 		else
231 			ret = hmac_sha1_vector(key, key_len, 3, addr, vlen,
232 					       hash);
233 		if (ret < 0)
234 			return -1;
235 		if (len > SHA1_MAC_LEN) {
236 			os_memcpy(res, hash, SHA1_MAC_LEN);
237 			res += SHA1_MAC_LEN;
238 			len -= SHA1_MAC_LEN;
239 		} else {
240 			os_memcpy(res, hash, len);
241 			len = 0;
242 		}
243 	}
244 
245 	return 0;
246 }
247 
248 
eap_eke_prf_hmac_sha256(const u8 * key,size_t key_len,const u8 * data,size_t data_len,u8 * res,size_t len)249 static int eap_eke_prf_hmac_sha256(const u8 *key, size_t key_len, const u8 *data,
250 				   size_t data_len, u8 *res, size_t len)
251 {
252 	u8 hash[SHA256_MAC_LEN];
253 	u8 idx;
254 	const u8 *addr[3];
255 	size_t vlen[3];
256 	int ret;
257 
258 	idx = 0;
259 	addr[0] = hash;
260 	vlen[0] = SHA256_MAC_LEN;
261 	addr[1] = data;
262 	vlen[1] = data_len;
263 	addr[2] = &idx;
264 	vlen[2] = 1;
265 
266 	while (len > 0) {
267 		idx++;
268 		if (idx == 1)
269 			ret = hmac_sha256_vector(key, key_len, 2, &addr[1],
270 						 &vlen[1], hash);
271 		else
272 			ret = hmac_sha256_vector(key, key_len, 3, addr, vlen,
273 						 hash);
274 		if (ret < 0)
275 			return -1;
276 		if (len > SHA256_MAC_LEN) {
277 			os_memcpy(res, hash, SHA256_MAC_LEN);
278 			res += SHA256_MAC_LEN;
279 			len -= SHA256_MAC_LEN;
280 		} else {
281 			os_memcpy(res, hash, len);
282 			len = 0;
283 		}
284 	}
285 
286 	return 0;
287 }
288 
289 
eap_eke_prfplus(u8 prf,const u8 * key,size_t key_len,const u8 * data,size_t data_len,u8 * res,size_t len)290 static int eap_eke_prfplus(u8 prf, const u8 *key, size_t key_len,
291 			   const u8 *data, size_t data_len, u8 *res, size_t len)
292 {
293 	if (prf == EAP_EKE_PRF_HMAC_SHA1)
294 		return eap_eke_prf_hmac_sha1(key, key_len, data, data_len, res,
295 					     len);
296 	if (prf == EAP_EKE_PRF_HMAC_SHA2_256)
297 		return eap_eke_prf_hmac_sha256(key, key_len, data, data_len,
298 					       res, len);
299 	return -1;
300 }
301 
302 
eap_eke_derive_key(struct eap_eke_session * sess,const u8 * password,size_t password_len,const u8 * id_s,size_t id_s_len,const u8 * id_p,size_t id_p_len,u8 * key)303 int eap_eke_derive_key(struct eap_eke_session *sess,
304 		       const u8 *password, size_t password_len,
305 		       const u8 *id_s, size_t id_s_len, const u8 *id_p,
306 		       size_t id_p_len, u8 *key)
307 {
308 	u8 zeros[EAP_EKE_MAX_HASH_LEN];
309 	u8 temp[EAP_EKE_MAX_HASH_LEN];
310 	size_t key_len = 16; /* Only AES-128-CBC is used here */
311 	u8 *id;
312 
313 	/* temp = prf(0+, password) */
314 	os_memset(zeros, 0, sess->prf_len);
315 	if (eap_eke_prf(sess->prf, zeros, sess->prf_len,
316 			password, password_len, NULL, 0, temp) < 0)
317 		return -1;
318 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: temp = prf(0+, password)",
319 			temp, sess->prf_len);
320 
321 	/* key = prf+(temp, ID_S | ID_P) */
322 	id = os_malloc(id_s_len + id_p_len);
323 	if (id == NULL)
324 		return -1;
325 	os_memcpy(id, id_s, id_s_len);
326 	os_memcpy(id + id_s_len, id_p, id_p_len);
327 	wpa_hexdump_ascii(MSG_DEBUG, "EAP-EKE: ID_S | ID_P",
328 			  id, id_s_len + id_p_len);
329 	if (eap_eke_prfplus(sess->prf, temp, sess->prf_len,
330 			    id, id_s_len + id_p_len, key, key_len) < 0) {
331 		os_free(id);
332 		return -1;
333 	}
334 	os_free(id);
335 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: key = prf+(temp, ID_S | ID_P)",
336 			key, key_len);
337 
338 	return 0;
339 }
340 
341 
eap_eke_dhcomp(struct eap_eke_session * sess,const u8 * key,const u8 * dhpub,u8 * ret_dhcomp)342 int eap_eke_dhcomp(struct eap_eke_session *sess, const u8 *key, const u8 *dhpub,
343 		   u8 *ret_dhcomp)
344 {
345 	u8 pub[EAP_EKE_MAX_DH_LEN];
346 	int dh_len;
347 	u8 iv[AES_BLOCK_SIZE];
348 
349 	dh_len = eap_eke_dh_len(sess->dhgroup);
350 	if (dh_len < 0)
351 		return -1;
352 
353 	/*
354 	 * DHComponent = Encr(key, y)
355 	 *
356 	 * All defined DH groups use primes that have length devisible by 16, so
357 	 * no need to do extra padding for y (= pub).
358 	 */
359 	if (sess->encr != EAP_EKE_ENCR_AES128_CBC)
360 		return -1;
361 	if (random_get_bytes(iv, AES_BLOCK_SIZE))
362 		return -1;
363 	wpa_hexdump(MSG_DEBUG, "EAP-EKE: IV for Encr(key, y)",
364 		    iv, AES_BLOCK_SIZE);
365 	os_memcpy(pub, dhpub, dh_len);
366 	if (aes_128_cbc_encrypt(key, iv, pub, dh_len) < 0)
367 		return -1;
368 	os_memcpy(ret_dhcomp, iv, AES_BLOCK_SIZE);
369 	os_memcpy(ret_dhcomp + AES_BLOCK_SIZE, pub, dh_len);
370 	wpa_hexdump(MSG_DEBUG, "EAP-EKE: DHComponent = Encr(key, y)",
371 		    ret_dhcomp, AES_BLOCK_SIZE + dh_len);
372 
373 	return 0;
374 }
375 
376 
eap_eke_shared_secret(struct eap_eke_session * sess,const u8 * key,const u8 * dhpriv,const u8 * peer_dhcomp)377 int eap_eke_shared_secret(struct eap_eke_session *sess, const u8 *key,
378 			  const u8 *dhpriv, const u8 *peer_dhcomp)
379 {
380 	u8 zeros[EAP_EKE_MAX_HASH_LEN];
381 	u8 peer_pub[EAP_EKE_MAX_DH_LEN];
382 	u8 modexp[EAP_EKE_MAX_DH_LEN];
383 	size_t len;
384 	const struct dh_group *dh;
385 
386 	dh = eap_eke_dh_group(sess->dhgroup);
387 	if (sess->encr != EAP_EKE_ENCR_AES128_CBC || !dh)
388 		return -1;
389 
390 	/* Decrypt peer DHComponent */
391 	os_memcpy(peer_pub, peer_dhcomp + AES_BLOCK_SIZE, dh->prime_len);
392 	if (aes_128_cbc_decrypt(key, peer_dhcomp, peer_pub, dh->prime_len) < 0) {
393 		wpa_printf(MSG_INFO, "EAP-EKE: Failed to decrypt DHComponent");
394 		return -1;
395 	}
396 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: Decrypted peer DH pubkey",
397 			peer_pub, dh->prime_len);
398 
399 	/* SharedSecret = prf(0+, g ^ (x_s * x_p) (mod p)) */
400 	len = dh->prime_len;
401 	if (crypto_dh_derive_secret(*dh->generator, dh->prime, dh->prime_len,
402 				    NULL, 0, dhpriv, dh->prime_len, peer_pub,
403 				    dh->prime_len, modexp, &len) < 0)
404 		return -1;
405 	if (len < dh->prime_len) {
406 		size_t pad = dh->prime_len - len;
407 		os_memmove(modexp + pad, modexp, len);
408 		os_memset(modexp, 0, pad);
409 	}
410 
411 	os_memset(zeros, 0, sess->auth_len);
412 	if (eap_eke_prf(sess->prf, zeros, sess->auth_len, modexp, dh->prime_len,
413 			NULL, 0, sess->shared_secret) < 0)
414 		return -1;
415 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: SharedSecret",
416 			sess->shared_secret, sess->auth_len);
417 
418 	return 0;
419 }
420 
421 
eap_eke_derive_ke_ki(struct eap_eke_session * sess,const u8 * id_s,size_t id_s_len,const u8 * id_p,size_t id_p_len)422 int eap_eke_derive_ke_ki(struct eap_eke_session *sess,
423 			 const u8 *id_s, size_t id_s_len,
424 			 const u8 *id_p, size_t id_p_len)
425 {
426 	u8 buf[EAP_EKE_MAX_KE_LEN + EAP_EKE_MAX_KI_LEN];
427 	size_t ke_len, ki_len;
428 	u8 *data;
429 	size_t data_len;
430 	const char *label = "EAP-EKE Keys";
431 	size_t label_len;
432 
433 	/*
434 	 * Ke | Ki = prf+(SharedSecret, "EAP-EKE Keys" | ID_S | ID_P)
435 	 * Ke = encryption key
436 	 * Ki = integrity protection key
437 	 * Length of each key depends on the selected algorithms.
438 	 */
439 
440 	if (sess->encr == EAP_EKE_ENCR_AES128_CBC)
441 		ke_len = 16;
442 	else
443 		return -1;
444 
445 	if (sess->mac == EAP_EKE_PRF_HMAC_SHA1)
446 		ki_len = 20;
447 	else if (sess->mac == EAP_EKE_PRF_HMAC_SHA2_256)
448 		ki_len = 32;
449 	else
450 		return -1;
451 
452 	label_len = os_strlen(label);
453 	data_len = label_len + id_s_len + id_p_len;
454 	data = os_malloc(data_len);
455 	if (data == NULL)
456 		return -1;
457 	os_memcpy(data, label, label_len);
458 	os_memcpy(data + label_len, id_s, id_s_len);
459 	os_memcpy(data + label_len + id_s_len, id_p, id_p_len);
460 	if (eap_eke_prfplus(sess->prf, sess->shared_secret, sess->prf_len,
461 			    data, data_len, buf, ke_len + ki_len) < 0) {
462 		os_free(data);
463 		return -1;
464 	}
465 
466 	os_memcpy(sess->ke, buf, ke_len);
467 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: Ke", sess->ke, ke_len);
468 	os_memcpy(sess->ki, buf + ke_len, ki_len);
469 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: Ki", sess->ki, ki_len);
470 
471 	os_free(data);
472 	return 0;
473 }
474 
475 
eap_eke_derive_ka(struct eap_eke_session * sess,const u8 * id_s,size_t id_s_len,const u8 * id_p,size_t id_p_len,const u8 * nonce_p,const u8 * nonce_s)476 int eap_eke_derive_ka(struct eap_eke_session *sess,
477 		      const u8 *id_s, size_t id_s_len,
478 		      const u8 *id_p, size_t id_p_len,
479 		      const u8 *nonce_p, const u8 *nonce_s)
480 {
481 	u8 *data, *pos;
482 	size_t data_len;
483 	const char *label = "EAP-EKE Ka";
484 	size_t label_len;
485 
486 	/*
487 	 * Ka = prf+(SharedSecret, "EAP-EKE Ka" | ID_S | ID_P | Nonce_P |
488 	 *	     Nonce_S)
489 	 * Ka = authentication key
490 	 * Length of the key depends on the selected algorithms.
491 	 */
492 
493 	label_len = os_strlen(label);
494 	data_len = label_len + id_s_len + id_p_len + 2 * sess->nonce_len;
495 	data = os_malloc(data_len);
496 	if (data == NULL)
497 		return -1;
498 	pos = data;
499 	os_memcpy(pos, label, label_len);
500 	pos += label_len;
501 	os_memcpy(pos, id_s, id_s_len);
502 	pos += id_s_len;
503 	os_memcpy(pos, id_p, id_p_len);
504 	pos += id_p_len;
505 	os_memcpy(pos, nonce_p, sess->nonce_len);
506 	pos += sess->nonce_len;
507 	os_memcpy(pos, nonce_s, sess->nonce_len);
508 	if (eap_eke_prfplus(sess->prf, sess->shared_secret, sess->prf_len,
509 			    data, data_len, sess->ka, sess->prf_len) < 0) {
510 		os_free(data);
511 		return -1;
512 	}
513 	os_free(data);
514 
515 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: Ka", sess->ka, sess->prf_len);
516 
517 	return 0;
518 }
519 
520 
eap_eke_derive_msk(struct eap_eke_session * sess,const u8 * id_s,size_t id_s_len,const u8 * id_p,size_t id_p_len,const u8 * nonce_p,const u8 * nonce_s,u8 * msk,u8 * emsk)521 int eap_eke_derive_msk(struct eap_eke_session *sess,
522 		       const u8 *id_s, size_t id_s_len,
523 		       const u8 *id_p, size_t id_p_len,
524 		       const u8 *nonce_p, const u8 *nonce_s,
525 		       u8 *msk, u8 *emsk)
526 {
527 	u8 *data, *pos;
528 	size_t data_len;
529 	const char *label = "EAP-EKE Exported Keys";
530 	size_t label_len;
531 	u8 buf[EAP_MSK_LEN + EAP_EMSK_LEN];
532 
533 	/*
534 	 * MSK | EMSK = prf+(SharedSecret, "EAP-EKE Exported Keys" | ID_S |
535 	 *		     ID_P | Nonce_P | Nonce_S)
536 	 */
537 
538 	label_len = os_strlen(label);
539 	data_len = label_len + id_s_len + id_p_len + 2 * sess->nonce_len;
540 	data = os_malloc(data_len);
541 	if (data == NULL)
542 		return -1;
543 	pos = data;
544 	os_memcpy(pos, label, label_len);
545 	pos += label_len;
546 	os_memcpy(pos, id_s, id_s_len);
547 	pos += id_s_len;
548 	os_memcpy(pos, id_p, id_p_len);
549 	pos += id_p_len;
550 	os_memcpy(pos, nonce_p, sess->nonce_len);
551 	pos += sess->nonce_len;
552 	os_memcpy(pos, nonce_s, sess->nonce_len);
553 	if (eap_eke_prfplus(sess->prf, sess->shared_secret, sess->prf_len,
554 			    data, data_len, buf, EAP_MSK_LEN + EAP_EMSK_LEN) <
555 	    0) {
556 		os_free(data);
557 		return -1;
558 	}
559 	os_free(data);
560 
561 	os_memcpy(msk, buf, EAP_MSK_LEN);
562 	os_memcpy(emsk, buf + EAP_MSK_LEN, EAP_EMSK_LEN);
563 	os_memset(buf, 0, sizeof(buf));
564 
565 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: MSK", msk, EAP_MSK_LEN);
566 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: EMSK", msk, EAP_EMSK_LEN);
567 
568 	return 0;
569 }
570 
571 
eap_eke_mac(u8 mac,const u8 * key,const u8 * data,size_t data_len,u8 * res)572 static int eap_eke_mac(u8 mac, const u8 *key, const u8 *data, size_t data_len,
573 		       u8 *res)
574 {
575 	if (mac == EAP_EKE_MAC_HMAC_SHA1)
576 		return hmac_sha1(key, SHA1_MAC_LEN, data, data_len, res);
577 	if (mac == EAP_EKE_MAC_HMAC_SHA2_256)
578 		return hmac_sha256(key, SHA256_MAC_LEN, data, data_len, res);
579 	return -1;
580 }
581 
582 
eap_eke_prot(struct eap_eke_session * sess,const u8 * data,size_t data_len,u8 * prot,size_t * prot_len)583 int eap_eke_prot(struct eap_eke_session *sess,
584 		 const u8 *data, size_t data_len,
585 		 u8 *prot, size_t *prot_len)
586 {
587 	size_t block_size, icv_len, pad;
588 	u8 *pos, *iv, *e;
589 
590 	if (sess->encr == EAP_EKE_ENCR_AES128_CBC)
591 		block_size = AES_BLOCK_SIZE;
592 	else
593 		return -1;
594 
595 	if (sess->mac == EAP_EKE_PRF_HMAC_SHA1)
596 		icv_len = SHA1_MAC_LEN;
597 	else if (sess->mac == EAP_EKE_PRF_HMAC_SHA2_256)
598 		icv_len = SHA256_MAC_LEN;
599 	else
600 		return -1;
601 
602 	pad = data_len % block_size;
603 	if (pad)
604 		pad = block_size - pad;
605 
606 	if (*prot_len < block_size + data_len + pad + icv_len) {
607 		wpa_printf(MSG_INFO, "EAP-EKE: Not enough room for Prot() data");
608 		return -1;
609 	}
610 	pos = prot;
611 
612 	if (random_get_bytes(pos, block_size))
613 		return -1;
614 	iv = pos;
615 	wpa_hexdump(MSG_DEBUG, "EAP-EKE: IV for Prot()", iv, block_size);
616 	pos += block_size;
617 
618 	e = pos;
619 	os_memcpy(pos, data, data_len);
620 	pos += data_len;
621 	if (pad) {
622 		if (random_get_bytes(pos, pad))
623 			return -1;
624 		pos += pad;
625 	}
626 
627 	if (aes_128_cbc_encrypt(sess->ke, iv, e, data_len + pad) < 0 ||
628 	    eap_eke_mac(sess->mac, sess->ki, e, data_len + pad, pos) < 0)
629 		return -1;
630 	pos += icv_len;
631 
632 	*prot_len = pos - prot;
633 	return 0;
634 }
635 
636 
eap_eke_decrypt_prot(struct eap_eke_session * sess,const u8 * prot,size_t prot_len,u8 * data,size_t * data_len)637 int eap_eke_decrypt_prot(struct eap_eke_session *sess,
638 			 const u8 *prot, size_t prot_len,
639 			 u8 *data, size_t *data_len)
640 {
641 	size_t block_size, icv_len;
642 	u8 icv[EAP_EKE_MAX_HASH_LEN];
643 
644 	if (sess->encr == EAP_EKE_ENCR_AES128_CBC)
645 		block_size = AES_BLOCK_SIZE;
646 	else
647 		return -1;
648 
649 	if (sess->mac == EAP_EKE_PRF_HMAC_SHA1)
650 		icv_len = SHA1_MAC_LEN;
651 	else if (sess->mac == EAP_EKE_PRF_HMAC_SHA2_256)
652 		icv_len = SHA256_MAC_LEN;
653 	else
654 		return -1;
655 
656 	if (prot_len < 2 * block_size + icv_len ||
657 	    (prot_len - icv_len) % block_size)
658 		return -1;
659 
660 	if (eap_eke_mac(sess->mac, sess->ki, prot + block_size,
661 			prot_len - block_size - icv_len, icv) < 0)
662 		return -1;
663 	if (os_memcmp_const(icv, prot + prot_len - icv_len, icv_len) != 0) {
664 		wpa_printf(MSG_INFO, "EAP-EKE: ICV mismatch in Prot() data");
665 		return -1;
666 	}
667 
668 	if (*data_len < prot_len - block_size - icv_len) {
669 		wpa_printf(MSG_INFO, "EAP-EKE: Not enough room for decrypted Prot() data");
670 		return -1;
671 	}
672 
673 	*data_len = prot_len - block_size - icv_len;
674 	os_memcpy(data, prot + block_size, *data_len);
675 	if (aes_128_cbc_decrypt(sess->ke, prot, data, *data_len) < 0) {
676 		wpa_printf(MSG_INFO, "EAP-EKE: Failed to decrypt Prot() data");
677 		return -1;
678 	}
679 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: Decrypted Prot() data",
680 			data, *data_len);
681 
682 	return 0;
683 }
684 
685 
eap_eke_auth(struct eap_eke_session * sess,const char * label,const struct wpabuf * msgs,u8 * auth)686 int eap_eke_auth(struct eap_eke_session *sess, const char *label,
687 		 const struct wpabuf *msgs, u8 *auth)
688 {
689 	wpa_printf(MSG_DEBUG, "EAP-EKE: Auth(%s)", label);
690 	wpa_hexdump_key(MSG_DEBUG, "EAP-EKE: Ka for Auth",
691 			sess->ka, sess->auth_len);
692 	wpa_hexdump_buf(MSG_MSGDUMP, "EAP-EKE: Messages for Auth", msgs);
693 	return eap_eke_prf(sess->prf, sess->ka, sess->auth_len,
694 			   (const u8 *) label, os_strlen(label),
695 			   wpabuf_head(msgs), wpabuf_len(msgs), auth);
696 }
697 
698 
eap_eke_session_init(struct eap_eke_session * sess,u8 dhgroup,u8 encr,u8 prf,u8 mac)699 int eap_eke_session_init(struct eap_eke_session *sess, u8 dhgroup, u8 encr,
700 			 u8 prf, u8 mac)
701 {
702 	sess->dhgroup = dhgroup;
703 	sess->encr = encr;
704 	sess->prf = prf;
705 	sess->mac = mac;
706 
707 	sess->prf_len = eap_eke_prf_len(prf);
708 	sess->nonce_len = eap_eke_nonce_len(prf);
709 	sess->auth_len = eap_eke_auth_len(prf);
710 	sess->dhcomp_len = eap_eke_dhcomp_len(sess->dhgroup, sess->encr);
711 	sess->pnonce_len = eap_eke_pnonce_len(sess->mac);
712 	sess->pnonce_ps_len = eap_eke_pnonce_ps_len(sess->mac);
713 	if (sess->prf_len < 0 || sess->nonce_len < 0 || sess->auth_len < 0 ||
714 	    sess->dhcomp_len < 0 || sess->pnonce_len < 0 ||
715 	    sess->pnonce_ps_len < 0)
716 		return -1;
717 
718 	return 0;
719 }
720 
721 
eap_eke_session_clean(struct eap_eke_session * sess)722 void eap_eke_session_clean(struct eap_eke_session *sess)
723 {
724 	os_memset(sess->shared_secret, 0, EAP_EKE_MAX_HASH_LEN);
725 	os_memset(sess->ke, 0, EAP_EKE_MAX_KE_LEN);
726 	os_memset(sess->ki, 0, EAP_EKE_MAX_KI_LEN);
727 	os_memset(sess->ka, 0, EAP_EKE_MAX_KA_LEN);
728 }
729