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Linus Torvalds1da177e2005-04-16 15:20:36 -07001#
2# Cryptographic API Configuration
3#
4
5menu "Cryptographic options"
6
7config CRYPTO
8 bool "Cryptographic API"
9 help
10 This option provides the core Cryptographic API.
11
12config CRYPTO_HMAC
13 bool "HMAC support"
14 depends on CRYPTO
15 help
16 HMAC: Keyed-Hashing for Message Authentication (RFC2104).
17 This is required for IPSec.
18
19config CRYPTO_NULL
20 tristate "Null algorithms"
21 depends on CRYPTO
22 help
23 These are 'Null' algorithms, used by IPsec, which do nothing.
24
25config CRYPTO_MD4
26 tristate "MD4 digest algorithm"
27 depends on CRYPTO
28 help
29 MD4 message digest algorithm (RFC1320).
30
31config CRYPTO_MD5
32 tristate "MD5 digest algorithm"
33 depends on CRYPTO
34 help
35 MD5 message digest algorithm (RFC1321).
36
37config CRYPTO_SHA1
38 tristate "SHA1 digest algorithm"
39 depends on CRYPTO
40 help
41 SHA-1 secure hash standard (FIPS 180-1/DFIPS 180-2).
42
Jan Glauberc1e26e12006-01-06 00:19:17 -080043config CRYPTO_SHA1_S390
44 tristate "SHA1 digest algorithm (s390)"
Linus Torvalds1da177e2005-04-16 15:20:36 -070045 depends on CRYPTO && ARCH_S390
46 help
47 SHA-1 secure hash standard (FIPS 180-1/DFIPS 180-2).
48
49config CRYPTO_SHA256
50 tristate "SHA256 digest algorithm"
51 depends on CRYPTO
52 help
53 SHA256 secure hash standard (DFIPS 180-2).
54
55 This version of SHA implements a 256 bit hash with 128 bits of
56 security against collision attacks.
57
58config CRYPTO_SHA512
59 tristate "SHA384 and SHA512 digest algorithms"
60 depends on CRYPTO
61 help
62 SHA512 secure hash standard (DFIPS 180-2).
63
64 This version of SHA implements a 512 bit hash with 256 bits of
65 security against collision attacks.
66
67 This code also includes SHA-384, a 384 bit hash with 192 bits
68 of security against collision attacks.
69
70config CRYPTO_WP512
71 tristate "Whirlpool digest algorithms"
72 depends on CRYPTO
73 help
74 Whirlpool hash algorithm 512, 384 and 256-bit hashes
75
76 Whirlpool-512 is part of the NESSIE cryptographic primitives.
77 Whirlpool will be part of the ISO/IEC 10118-3:2003(E) standard
78
79 See also:
80 <http://planeta.terra.com.br/informatica/paulobarreto/WhirlpoolPage.html>
81
82config CRYPTO_TGR192
83 tristate "Tiger digest algorithms"
84 depends on CRYPTO
85 help
86 Tiger hash algorithm 192, 160 and 128-bit hashes
87
88 Tiger is a hash function optimized for 64-bit processors while
89 still having decent performance on 32-bit processors.
90 Tiger was developed by Ross Anderson and Eli Biham.
91
92 See also:
93 <http://www.cs.technion.ac.il/~biham/Reports/Tiger/>.
94
95config CRYPTO_DES
96 tristate "DES and Triple DES EDE cipher algorithms"
97 depends on CRYPTO
98 help
99 DES cipher algorithm (FIPS 46-2), and Triple DES EDE (FIPS 46-3).
100
Jan Glauberc1e26e12006-01-06 00:19:17 -0800101config CRYPTO_DES_S390
102 tristate "DES and Triple DES cipher algorithms (s390)"
Linus Torvalds1da177e2005-04-16 15:20:36 -0700103 depends on CRYPTO && ARCH_S390
104 help
105 DES cipher algorithm (FIPS 46-2), and Triple DES EDE (FIPS 46-3).
106
107config CRYPTO_BLOWFISH
108 tristate "Blowfish cipher algorithm"
109 depends on CRYPTO
110 help
111 Blowfish cipher algorithm, by Bruce Schneier.
112
113 This is a variable key length cipher which can use keys from 32
114 bits to 448 bits in length. It's fast, simple and specifically
115 designed for use on "large microprocessors".
116
117 See also:
118 <http://www.schneier.com/blowfish.html>
119
120config CRYPTO_TWOFISH
121 tristate "Twofish cipher algorithm"
122 depends on CRYPTO
123 help
124 Twofish cipher algorithm.
125
126 Twofish was submitted as an AES (Advanced Encryption Standard)
127 candidate cipher by researchers at CounterPane Systems. It is a
128 16 round block cipher supporting key sizes of 128, 192, and 256
129 bits.
130
131 See also:
132 <http://www.schneier.com/twofish.html>
133
134config CRYPTO_SERPENT
135 tristate "Serpent cipher algorithm"
136 depends on CRYPTO
137 help
138 Serpent cipher algorithm, by Anderson, Biham & Knudsen.
139
140 Keys are allowed to be from 0 to 256 bits in length, in steps
141 of 8 bits. Also includes the 'Tnepres' algorithm, a reversed
142 variant of Serpent for compatibility with old kerneli code.
143
144 See also:
145 <http://www.cl.cam.ac.uk/~rja14/serpent.html>
146
147config CRYPTO_AES
148 tristate "AES cipher algorithms"
Andreas Steinmetza2a892a2005-07-06 13:55:00 -0700149 depends on CRYPTO && !(X86 || UML_X86)
Linus Torvalds1da177e2005-04-16 15:20:36 -0700150 help
151 AES cipher algorithms (FIPS-197). AES uses the Rijndael
152 algorithm.
153
154 Rijndael appears to be consistently a very good performer in
155 both hardware and software across a wide range of computing
156 environments regardless of its use in feedback or non-feedback
157 modes. Its key setup time is excellent, and its key agility is
158 good. Rijndael's very low memory requirements make it very well
159 suited for restricted-space environments, in which it also
160 demonstrates excellent performance. Rijndael's operations are
161 among the easiest to defend against power and timing attacks.
162
163 The AES specifies three key sizes: 128, 192 and 256 bits
164
165 See <http://csrc.nist.gov/CryptoToolkit/aes/> for more information.
166
167config CRYPTO_AES_586
168 tristate "AES cipher algorithms (i586)"
Paolo 'Blaisorblade' Giarrussoc45166be32005-05-01 08:58:54 -0700169 depends on CRYPTO && ((X86 || UML_X86) && !64BIT)
Linus Torvalds1da177e2005-04-16 15:20:36 -0700170 help
171 AES cipher algorithms (FIPS-197). AES uses the Rijndael
172 algorithm.
173
174 Rijndael appears to be consistently a very good performer in
175 both hardware and software across a wide range of computing
176 environments regardless of its use in feedback or non-feedback
177 modes. Its key setup time is excellent, and its key agility is
178 good. Rijndael's very low memory requirements make it very well
179 suited for restricted-space environments, in which it also
180 demonstrates excellent performance. Rijndael's operations are
181 among the easiest to defend against power and timing attacks.
182
183 The AES specifies three key sizes: 128, 192 and 256 bits
184
185 See <http://csrc.nist.gov/encryption/aes/> for more information.
186
Andreas Steinmetza2a892a2005-07-06 13:55:00 -0700187config CRYPTO_AES_X86_64
188 tristate "AES cipher algorithms (x86_64)"
189 depends on CRYPTO && ((X86 || UML_X86) && 64BIT)
190 help
191 AES cipher algorithms (FIPS-197). AES uses the Rijndael
192 algorithm.
193
194 Rijndael appears to be consistently a very good performer in
195 both hardware and software across a wide range of computing
196 environments regardless of its use in feedback or non-feedback
197 modes. Its key setup time is excellent, and its key agility is
198 good. Rijndael's very low memory requirements make it very well
199 suited for restricted-space environments, in which it also
200 demonstrates excellent performance. Rijndael's operations are
201 among the easiest to defend against power and timing attacks.
202
203 The AES specifies three key sizes: 128, 192 and 256 bits
204
205 See <http://csrc.nist.gov/encryption/aes/> for more information.
206
Linus Torvalds1da177e2005-04-16 15:20:36 -0700207config CRYPTO_CAST5
208 tristate "CAST5 (CAST-128) cipher algorithm"
209 depends on CRYPTO
210 help
211 The CAST5 encryption algorithm (synonymous with CAST-128) is
212 described in RFC2144.
213
214config CRYPTO_CAST6
215 tristate "CAST6 (CAST-256) cipher algorithm"
216 depends on CRYPTO
217 help
218 The CAST6 encryption algorithm (synonymous with CAST-256) is
219 described in RFC2612.
220
221config CRYPTO_TEA
Aaron Grothefb4f10e2005-09-01 17:42:46 -0700222 tristate "TEA, XTEA and XETA cipher algorithms"
Linus Torvalds1da177e2005-04-16 15:20:36 -0700223 depends on CRYPTO
224 help
225 TEA cipher algorithm.
226
227 Tiny Encryption Algorithm is a simple cipher that uses
228 many rounds for security. It is very fast and uses
229 little memory.
230
231 Xtendend Tiny Encryption Algorithm is a modification to
232 the TEA algorithm to address a potential key weakness
233 in the TEA algorithm.
234
Aaron Grothefb4f10e2005-09-01 17:42:46 -0700235 Xtendend Encryption Tiny Algorithm is a mis-implementation
236 of the XTEA algorithm for compatibility purposes.
237
Linus Torvalds1da177e2005-04-16 15:20:36 -0700238config CRYPTO_ARC4
239 tristate "ARC4 cipher algorithm"
240 depends on CRYPTO
241 help
242 ARC4 cipher algorithm.
243
244 ARC4 is a stream cipher using keys ranging from 8 bits to 2048
245 bits in length. This algorithm is required for driver-based
246 WEP, but it should not be for other purposes because of the
247 weakness of the algorithm.
248
249config CRYPTO_KHAZAD
250 tristate "Khazad cipher algorithm"
251 depends on CRYPTO
252 help
253 Khazad cipher algorithm.
254
255 Khazad was a finalist in the initial NESSIE competition. It is
256 an algorithm optimized for 64-bit processors with good performance
257 on 32-bit processors. Khazad uses an 128 bit key size.
258
259 See also:
260 <http://planeta.terra.com.br/informatica/paulobarreto/KhazadPage.html>
261
262config CRYPTO_ANUBIS
263 tristate "Anubis cipher algorithm"
264 depends on CRYPTO
265 help
266 Anubis cipher algorithm.
267
268 Anubis is a variable key length cipher which can use keys from
269 128 bits to 320 bits in length. It was evaluated as a entrant
270 in the NESSIE competition.
271
272 See also:
273 <https://www.cosic.esat.kuleuven.ac.be/nessie/reports/>
274 <http://planeta.terra.com.br/informatica/paulobarreto/AnubisPage.html>
275
276
277config CRYPTO_DEFLATE
278 tristate "Deflate compression algorithm"
279 depends on CRYPTO
280 select ZLIB_INFLATE
281 select ZLIB_DEFLATE
282 help
283 This is the Deflate algorithm (RFC1951), specified for use in
284 IPSec with the IPCOMP protocol (RFC3173, RFC2394).
285
286 You will most probably want this if using IPSec.
287
288config CRYPTO_MICHAEL_MIC
289 tristate "Michael MIC keyed digest algorithm"
290 depends on CRYPTO
291 help
292 Michael MIC is used for message integrity protection in TKIP
293 (IEEE 802.11i). This algorithm is required for TKIP, but it
294 should not be used for other purposes because of the weakness
295 of the algorithm.
296
297config CRYPTO_CRC32C
298 tristate "CRC32c CRC algorithm"
299 depends on CRYPTO
300 select LIBCRC32C
301 help
302 Castagnoli, et al Cyclic Redundancy-Check Algorithm. Used
303 by iSCSI for header and data digests and by others.
304 See Castagnoli93. This implementation uses lib/libcrc32c.
305 Module will be crc32c.
306
307config CRYPTO_TEST
308 tristate "Testing module"
309 depends on CRYPTO
310 help
311 Quick & dirty crypto test module.
312
313source "drivers/crypto/Kconfig"
314endmenu
315