xref: /freebsd/sys/contrib/openzfs/module/zfs/hkdf.c (revision 25ecdc7d52770caf1c9b44b5ec11f468f6b636f3)
1 /*
2  * CDDL HEADER START
3  *
4  * This file and its contents are supplied under the terms of the
5  * Common Development and Distribution License ("CDDL"), version 1.0.
6  * You may only use this file in accordance with the terms of version
7  * 1.0 of the CDDL.
8  *
9  * A full copy of the text of the CDDL should have accompanied this
10  * source.  A copy of the CDDL is also available via the Internet at
11  * http://www.illumos.org/license/CDDL.
12  *
13  * CDDL HEADER END
14  */
15 
16 /*
17  * Copyright (c) 2017, Datto, Inc. All rights reserved.
18  */
19 
20 #include <sys/crypto/api.h>
21 #include <sys/sha2.h>
22 #include <sys/hkdf.h>
23 
24 static int
25 hkdf_sha512_extract(uint8_t *salt, uint_t salt_len, uint8_t *key_material,
26     uint_t km_len, uint8_t *out_buf)
27 {
28 	int ret;
29 	crypto_mechanism_t mech;
30 	crypto_key_t key;
31 	crypto_data_t input_cd, output_cd;
32 
33 	/* initialize HMAC mechanism */
34 	mech.cm_type = crypto_mech2id(SUN_CKM_SHA512_HMAC);
35 	mech.cm_param = NULL;
36 	mech.cm_param_len = 0;
37 
38 	/* initialize the salt as a crypto key */
39 	key.ck_format = CRYPTO_KEY_RAW;
40 	key.ck_length = CRYPTO_BYTES2BITS(salt_len);
41 	key.ck_data = salt;
42 
43 	/* initialize crypto data for the input and output data */
44 	input_cd.cd_format = CRYPTO_DATA_RAW;
45 	input_cd.cd_offset = 0;
46 	input_cd.cd_length = km_len;
47 	input_cd.cd_raw.iov_base = (char *)key_material;
48 	input_cd.cd_raw.iov_len = input_cd.cd_length;
49 
50 	output_cd.cd_format = CRYPTO_DATA_RAW;
51 	output_cd.cd_offset = 0;
52 	output_cd.cd_length = SHA512_DIGEST_LENGTH;
53 	output_cd.cd_raw.iov_base = (char *)out_buf;
54 	output_cd.cd_raw.iov_len = output_cd.cd_length;
55 
56 	ret = crypto_mac(&mech, &input_cd, &key, NULL, &output_cd, NULL);
57 	if (ret != CRYPTO_SUCCESS)
58 		return (SET_ERROR(EIO));
59 
60 	return (0);
61 }
62 
63 static int
64 hkdf_sha512_expand(uint8_t *extract_key, uint8_t *info, uint_t info_len,
65     uint8_t *out_buf, uint_t out_len)
66 {
67 	int ret;
68 	crypto_mechanism_t mech;
69 	crypto_context_t ctx;
70 	crypto_key_t key;
71 	crypto_data_t T_cd, info_cd, c_cd;
72 	uint_t i, T_len = 0, pos = 0;
73 	uint8_t c;
74 	uint_t N = (out_len + SHA512_DIGEST_LENGTH) / SHA512_DIGEST_LENGTH;
75 	uint8_t T[SHA512_DIGEST_LENGTH];
76 
77 	if (N > 255)
78 		return (SET_ERROR(EINVAL));
79 
80 	/* initialize HMAC mechanism */
81 	mech.cm_type = crypto_mech2id(SUN_CKM_SHA512_HMAC);
82 	mech.cm_param = NULL;
83 	mech.cm_param_len = 0;
84 
85 	/* initialize the salt as a crypto key */
86 	key.ck_format = CRYPTO_KEY_RAW;
87 	key.ck_length = CRYPTO_BYTES2BITS(SHA512_DIGEST_LENGTH);
88 	key.ck_data = extract_key;
89 
90 	/* initialize crypto data for the input and output data */
91 	T_cd.cd_format = CRYPTO_DATA_RAW;
92 	T_cd.cd_offset = 0;
93 	T_cd.cd_raw.iov_base = (char *)T;
94 
95 	c_cd.cd_format = CRYPTO_DATA_RAW;
96 	c_cd.cd_offset = 0;
97 	c_cd.cd_length = 1;
98 	c_cd.cd_raw.iov_base = (char *)&c;
99 	c_cd.cd_raw.iov_len = c_cd.cd_length;
100 
101 	info_cd.cd_format = CRYPTO_DATA_RAW;
102 	info_cd.cd_offset = 0;
103 	info_cd.cd_length = info_len;
104 	info_cd.cd_raw.iov_base = (char *)info;
105 	info_cd.cd_raw.iov_len = info_cd.cd_length;
106 
107 	for (i = 1; i <= N; i++) {
108 		c = i;
109 
110 		T_cd.cd_length = T_len;
111 		T_cd.cd_raw.iov_len = T_cd.cd_length;
112 
113 		ret = crypto_mac_init(&mech, &key, NULL, &ctx, NULL);
114 		if (ret != CRYPTO_SUCCESS)
115 			return (SET_ERROR(EIO));
116 
117 		ret = crypto_mac_update(ctx, &T_cd, NULL);
118 		if (ret != CRYPTO_SUCCESS)
119 			return (SET_ERROR(EIO));
120 
121 		ret = crypto_mac_update(ctx, &info_cd, NULL);
122 		if (ret != CRYPTO_SUCCESS)
123 			return (SET_ERROR(EIO));
124 
125 		ret = crypto_mac_update(ctx, &c_cd, NULL);
126 		if (ret != CRYPTO_SUCCESS)
127 			return (SET_ERROR(EIO));
128 
129 		T_len = SHA512_DIGEST_LENGTH;
130 		T_cd.cd_length = T_len;
131 		T_cd.cd_raw.iov_len = T_cd.cd_length;
132 
133 		ret = crypto_mac_final(ctx, &T_cd, NULL);
134 		if (ret != CRYPTO_SUCCESS)
135 			return (SET_ERROR(EIO));
136 
137 		bcopy(T, out_buf + pos,
138 		    (i != N) ? SHA512_DIGEST_LENGTH : (out_len - pos));
139 		pos += SHA512_DIGEST_LENGTH;
140 	}
141 
142 	return (0);
143 }
144 
145 /*
146  * HKDF is designed to be a relatively fast function for deriving keys from a
147  * master key + a salt. We use this function to generate new encryption keys
148  * so as to avoid hitting the cryptographic limits of the underlying
149  * encryption modes. Note that, for the sake of deriving encryption keys, the
150  * info parameter is called the "salt" everywhere else in the code.
151  */
152 int
153 hkdf_sha512(uint8_t *key_material, uint_t km_len, uint8_t *salt,
154     uint_t salt_len, uint8_t *info, uint_t info_len, uint8_t *output_key,
155     uint_t out_len)
156 {
157 	int ret;
158 	uint8_t extract_key[SHA512_DIGEST_LENGTH];
159 
160 	ret = hkdf_sha512_extract(salt, salt_len, key_material, km_len,
161 	    extract_key);
162 	if (ret != 0)
163 		return (ret);
164 
165 	ret = hkdf_sha512_expand(extract_key, info, info_len, output_key,
166 	    out_len);
167 	if (ret != 0)
168 		return (ret);
169 
170 	return (0);
171 }
172