1 /* crypto/ripemd/rmd_dgst.c */
2 /* Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com)
5 * This package is an SSL implementation written
6 * by Eric Young (eay@cryptsoft.com).
7 * The implementation was written so as to conform with Netscapes SSL.
9 * This library is free for commercial and non-commercial use as long as
10 * the following conditions are aheared to. The following conditions
11 * apply to all code found in this distribution, be it the RC4, RSA,
12 * lhash, DES, etc., code; not just the SSL code. The SSL documentation
13 * included with this distribution is covered by the same copyright terms
14 * except that the holder is Tim Hudson (tjh@cryptsoft.com).
16 * Copyright remains Eric Young's, and as such any Copyright notices in
17 * the code are not to be removed.
18 * If this package is used in a product, Eric Young should be given attribution
19 * as the author of the parts of the library used.
20 * This can be in the form of a textual message at program startup or
21 * in documentation (online or textual) provided with the package.
23 * Redistribution and use in source and binary forms, with or without
24 * modification, are permitted provided that the following conditions
26 * 1. Redistributions of source code must retain the copyright
27 * notice, this list of conditions and the following disclaimer.
28 * 2. Redistributions in binary form must reproduce the above copyright
29 * notice, this list of conditions and the following disclaimer in the
30 * documentation and/or other materials provided with the distribution.
31 * 3. All advertising materials mentioning features or use of this software
32 * must display the following acknowledgement:
33 * "This product includes cryptographic software written by
34 * Eric Young (eay@cryptsoft.com)"
35 * The word 'cryptographic' can be left out if the rouines from the library
36 * being used are not cryptographic related :-).
37 * 4. If you include any Windows specific code (or a derivative thereof) from
38 * the apps directory (application code) you must include an acknowledgement:
39 * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
41 * THIS SOFTWARE IS PROVIDED BY ERIC YOUNG ``AS IS'' AND
42 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
43 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
44 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
45 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
46 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
47 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
48 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
49 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
50 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
53 * The licence and distribution terms for any publically available version or
54 * derivative of this code cannot be changed. i.e. this code cannot simply be
55 * copied and put under another distribution licence
56 * [including the GNU Public Licence.]
61 #include <openssl/opensslv.h>
62 #include <openssl/crypto.h>
64 const char RMD160_version
[]="RIPE-MD160" OPENSSL_VERSION_PTEXT
;
67 void ripemd160_block_x86(RIPEMD160_CTX
*c
, unsigned long *p
,size_t num
);
68 # define ripemd160_block ripemd160_block_x86
70 void ripemd160_block(RIPEMD160_CTX
*c
, unsigned long *p
,size_t num
);
73 fips_md_init(RIPEMD160
)
75 memset (c
,0,sizeof(*c
));
84 #ifndef ripemd160_block_data_order
88 void ripemd160_block_data_order (RIPEMD160_CTX
*ctx
, const void *p
, size_t num
)
90 const unsigned char *data
=p
;
91 register unsigned MD32_REG_T A
,B
,C
,D
,E
;
92 unsigned MD32_REG_T a
,b
,c
,d
,e
,l
;
94 /* See comment in crypto/sha/sha_locl.h for details. */
95 unsigned MD32_REG_T XX0
, XX1
, XX2
, XX3
, XX4
, XX5
, XX6
, XX7
,
96 XX8
, XX9
,XX10
,XX11
,XX12
,XX13
,XX14
,XX15
;
99 RIPEMD160_LONG XX
[16];
106 A
=ctx
->A
; B
=ctx
->B
; C
=ctx
->C
; D
=ctx
->D
; E
=ctx
->E
;
108 (void)HOST_c2l(data
,l
); X( 0)=l
;(void)HOST_c2l(data
,l
); X( 1)=l
;
109 RIP1(A
,B
,C
,D
,E
,WL00
,SL00
); (void)HOST_c2l(data
,l
); X( 2)=l
;
110 RIP1(E
,A
,B
,C
,D
,WL01
,SL01
); (void)HOST_c2l(data
,l
); X( 3)=l
;
111 RIP1(D
,E
,A
,B
,C
,WL02
,SL02
); (void)HOST_c2l(data
,l
); X( 4)=l
;
112 RIP1(C
,D
,E
,A
,B
,WL03
,SL03
); (void)HOST_c2l(data
,l
); X( 5)=l
;
113 RIP1(B
,C
,D
,E
,A
,WL04
,SL04
); (void)HOST_c2l(data
,l
); X( 6)=l
;
114 RIP1(A
,B
,C
,D
,E
,WL05
,SL05
); (void)HOST_c2l(data
,l
); X( 7)=l
;
115 RIP1(E
,A
,B
,C
,D
,WL06
,SL06
); (void)HOST_c2l(data
,l
); X( 8)=l
;
116 RIP1(D
,E
,A
,B
,C
,WL07
,SL07
); (void)HOST_c2l(data
,l
); X( 9)=l
;
117 RIP1(C
,D
,E
,A
,B
,WL08
,SL08
); (void)HOST_c2l(data
,l
); X(10)=l
;
118 RIP1(B
,C
,D
,E
,A
,WL09
,SL09
); (void)HOST_c2l(data
,l
); X(11)=l
;
119 RIP1(A
,B
,C
,D
,E
,WL10
,SL10
); (void)HOST_c2l(data
,l
); X(12)=l
;
120 RIP1(E
,A
,B
,C
,D
,WL11
,SL11
); (void)HOST_c2l(data
,l
); X(13)=l
;
121 RIP1(D
,E
,A
,B
,C
,WL12
,SL12
); (void)HOST_c2l(data
,l
); X(14)=l
;
122 RIP1(C
,D
,E
,A
,B
,WL13
,SL13
); (void)HOST_c2l(data
,l
); X(15)=l
;
123 RIP1(B
,C
,D
,E
,A
,WL14
,SL14
);
124 RIP1(A
,B
,C
,D
,E
,WL15
,SL15
);
126 RIP2(E
,A
,B
,C
,D
,WL16
,SL16
,KL1
);
127 RIP2(D
,E
,A
,B
,C
,WL17
,SL17
,KL1
);
128 RIP2(C
,D
,E
,A
,B
,WL18
,SL18
,KL1
);
129 RIP2(B
,C
,D
,E
,A
,WL19
,SL19
,KL1
);
130 RIP2(A
,B
,C
,D
,E
,WL20
,SL20
,KL1
);
131 RIP2(E
,A
,B
,C
,D
,WL21
,SL21
,KL1
);
132 RIP2(D
,E
,A
,B
,C
,WL22
,SL22
,KL1
);
133 RIP2(C
,D
,E
,A
,B
,WL23
,SL23
,KL1
);
134 RIP2(B
,C
,D
,E
,A
,WL24
,SL24
,KL1
);
135 RIP2(A
,B
,C
,D
,E
,WL25
,SL25
,KL1
);
136 RIP2(E
,A
,B
,C
,D
,WL26
,SL26
,KL1
);
137 RIP2(D
,E
,A
,B
,C
,WL27
,SL27
,KL1
);
138 RIP2(C
,D
,E
,A
,B
,WL28
,SL28
,KL1
);
139 RIP2(B
,C
,D
,E
,A
,WL29
,SL29
,KL1
);
140 RIP2(A
,B
,C
,D
,E
,WL30
,SL30
,KL1
);
141 RIP2(E
,A
,B
,C
,D
,WL31
,SL31
,KL1
);
143 RIP3(D
,E
,A
,B
,C
,WL32
,SL32
,KL2
);
144 RIP3(C
,D
,E
,A
,B
,WL33
,SL33
,KL2
);
145 RIP3(B
,C
,D
,E
,A
,WL34
,SL34
,KL2
);
146 RIP3(A
,B
,C
,D
,E
,WL35
,SL35
,KL2
);
147 RIP3(E
,A
,B
,C
,D
,WL36
,SL36
,KL2
);
148 RIP3(D
,E
,A
,B
,C
,WL37
,SL37
,KL2
);
149 RIP3(C
,D
,E
,A
,B
,WL38
,SL38
,KL2
);
150 RIP3(B
,C
,D
,E
,A
,WL39
,SL39
,KL2
);
151 RIP3(A
,B
,C
,D
,E
,WL40
,SL40
,KL2
);
152 RIP3(E
,A
,B
,C
,D
,WL41
,SL41
,KL2
);
153 RIP3(D
,E
,A
,B
,C
,WL42
,SL42
,KL2
);
154 RIP3(C
,D
,E
,A
,B
,WL43
,SL43
,KL2
);
155 RIP3(B
,C
,D
,E
,A
,WL44
,SL44
,KL2
);
156 RIP3(A
,B
,C
,D
,E
,WL45
,SL45
,KL2
);
157 RIP3(E
,A
,B
,C
,D
,WL46
,SL46
,KL2
);
158 RIP3(D
,E
,A
,B
,C
,WL47
,SL47
,KL2
);
160 RIP4(C
,D
,E
,A
,B
,WL48
,SL48
,KL3
);
161 RIP4(B
,C
,D
,E
,A
,WL49
,SL49
,KL3
);
162 RIP4(A
,B
,C
,D
,E
,WL50
,SL50
,KL3
);
163 RIP4(E
,A
,B
,C
,D
,WL51
,SL51
,KL3
);
164 RIP4(D
,E
,A
,B
,C
,WL52
,SL52
,KL3
);
165 RIP4(C
,D
,E
,A
,B
,WL53
,SL53
,KL3
);
166 RIP4(B
,C
,D
,E
,A
,WL54
,SL54
,KL3
);
167 RIP4(A
,B
,C
,D
,E
,WL55
,SL55
,KL3
);
168 RIP4(E
,A
,B
,C
,D
,WL56
,SL56
,KL3
);
169 RIP4(D
,E
,A
,B
,C
,WL57
,SL57
,KL3
);
170 RIP4(C
,D
,E
,A
,B
,WL58
,SL58
,KL3
);
171 RIP4(B
,C
,D
,E
,A
,WL59
,SL59
,KL3
);
172 RIP4(A
,B
,C
,D
,E
,WL60
,SL60
,KL3
);
173 RIP4(E
,A
,B
,C
,D
,WL61
,SL61
,KL3
);
174 RIP4(D
,E
,A
,B
,C
,WL62
,SL62
,KL3
);
175 RIP4(C
,D
,E
,A
,B
,WL63
,SL63
,KL3
);
177 RIP5(B
,C
,D
,E
,A
,WL64
,SL64
,KL4
);
178 RIP5(A
,B
,C
,D
,E
,WL65
,SL65
,KL4
);
179 RIP5(E
,A
,B
,C
,D
,WL66
,SL66
,KL4
);
180 RIP5(D
,E
,A
,B
,C
,WL67
,SL67
,KL4
);
181 RIP5(C
,D
,E
,A
,B
,WL68
,SL68
,KL4
);
182 RIP5(B
,C
,D
,E
,A
,WL69
,SL69
,KL4
);
183 RIP5(A
,B
,C
,D
,E
,WL70
,SL70
,KL4
);
184 RIP5(E
,A
,B
,C
,D
,WL71
,SL71
,KL4
);
185 RIP5(D
,E
,A
,B
,C
,WL72
,SL72
,KL4
);
186 RIP5(C
,D
,E
,A
,B
,WL73
,SL73
,KL4
);
187 RIP5(B
,C
,D
,E
,A
,WL74
,SL74
,KL4
);
188 RIP5(A
,B
,C
,D
,E
,WL75
,SL75
,KL4
);
189 RIP5(E
,A
,B
,C
,D
,WL76
,SL76
,KL4
);
190 RIP5(D
,E
,A
,B
,C
,WL77
,SL77
,KL4
);
191 RIP5(C
,D
,E
,A
,B
,WL78
,SL78
,KL4
);
192 RIP5(B
,C
,D
,E
,A
,WL79
,SL79
,KL4
);
194 a
=A
; b
=B
; c
=C
; d
=D
; e
=E
;
196 A
=ctx
->A
; B
=ctx
->B
; C
=ctx
->C
; D
=ctx
->D
; E
=ctx
->E
;
198 RIP5(A
,B
,C
,D
,E
,WR00
,SR00
,KR0
);
199 RIP5(E
,A
,B
,C
,D
,WR01
,SR01
,KR0
);
200 RIP5(D
,E
,A
,B
,C
,WR02
,SR02
,KR0
);
201 RIP5(C
,D
,E
,A
,B
,WR03
,SR03
,KR0
);
202 RIP5(B
,C
,D
,E
,A
,WR04
,SR04
,KR0
);
203 RIP5(A
,B
,C
,D
,E
,WR05
,SR05
,KR0
);
204 RIP5(E
,A
,B
,C
,D
,WR06
,SR06
,KR0
);
205 RIP5(D
,E
,A
,B
,C
,WR07
,SR07
,KR0
);
206 RIP5(C
,D
,E
,A
,B
,WR08
,SR08
,KR0
);
207 RIP5(B
,C
,D
,E
,A
,WR09
,SR09
,KR0
);
208 RIP5(A
,B
,C
,D
,E
,WR10
,SR10
,KR0
);
209 RIP5(E
,A
,B
,C
,D
,WR11
,SR11
,KR0
);
210 RIP5(D
,E
,A
,B
,C
,WR12
,SR12
,KR0
);
211 RIP5(C
,D
,E
,A
,B
,WR13
,SR13
,KR0
);
212 RIP5(B
,C
,D
,E
,A
,WR14
,SR14
,KR0
);
213 RIP5(A
,B
,C
,D
,E
,WR15
,SR15
,KR0
);
215 RIP4(E
,A
,B
,C
,D
,WR16
,SR16
,KR1
);
216 RIP4(D
,E
,A
,B
,C
,WR17
,SR17
,KR1
);
217 RIP4(C
,D
,E
,A
,B
,WR18
,SR18
,KR1
);
218 RIP4(B
,C
,D
,E
,A
,WR19
,SR19
,KR1
);
219 RIP4(A
,B
,C
,D
,E
,WR20
,SR20
,KR1
);
220 RIP4(E
,A
,B
,C
,D
,WR21
,SR21
,KR1
);
221 RIP4(D
,E
,A
,B
,C
,WR22
,SR22
,KR1
);
222 RIP4(C
,D
,E
,A
,B
,WR23
,SR23
,KR1
);
223 RIP4(B
,C
,D
,E
,A
,WR24
,SR24
,KR1
);
224 RIP4(A
,B
,C
,D
,E
,WR25
,SR25
,KR1
);
225 RIP4(E
,A
,B
,C
,D
,WR26
,SR26
,KR1
);
226 RIP4(D
,E
,A
,B
,C
,WR27
,SR27
,KR1
);
227 RIP4(C
,D
,E
,A
,B
,WR28
,SR28
,KR1
);
228 RIP4(B
,C
,D
,E
,A
,WR29
,SR29
,KR1
);
229 RIP4(A
,B
,C
,D
,E
,WR30
,SR30
,KR1
);
230 RIP4(E
,A
,B
,C
,D
,WR31
,SR31
,KR1
);
232 RIP3(D
,E
,A
,B
,C
,WR32
,SR32
,KR2
);
233 RIP3(C
,D
,E
,A
,B
,WR33
,SR33
,KR2
);
234 RIP3(B
,C
,D
,E
,A
,WR34
,SR34
,KR2
);
235 RIP3(A
,B
,C
,D
,E
,WR35
,SR35
,KR2
);
236 RIP3(E
,A
,B
,C
,D
,WR36
,SR36
,KR2
);
237 RIP3(D
,E
,A
,B
,C
,WR37
,SR37
,KR2
);
238 RIP3(C
,D
,E
,A
,B
,WR38
,SR38
,KR2
);
239 RIP3(B
,C
,D
,E
,A
,WR39
,SR39
,KR2
);
240 RIP3(A
,B
,C
,D
,E
,WR40
,SR40
,KR2
);
241 RIP3(E
,A
,B
,C
,D
,WR41
,SR41
,KR2
);
242 RIP3(D
,E
,A
,B
,C
,WR42
,SR42
,KR2
);
243 RIP3(C
,D
,E
,A
,B
,WR43
,SR43
,KR2
);
244 RIP3(B
,C
,D
,E
,A
,WR44
,SR44
,KR2
);
245 RIP3(A
,B
,C
,D
,E
,WR45
,SR45
,KR2
);
246 RIP3(E
,A
,B
,C
,D
,WR46
,SR46
,KR2
);
247 RIP3(D
,E
,A
,B
,C
,WR47
,SR47
,KR2
);
249 RIP2(C
,D
,E
,A
,B
,WR48
,SR48
,KR3
);
250 RIP2(B
,C
,D
,E
,A
,WR49
,SR49
,KR3
);
251 RIP2(A
,B
,C
,D
,E
,WR50
,SR50
,KR3
);
252 RIP2(E
,A
,B
,C
,D
,WR51
,SR51
,KR3
);
253 RIP2(D
,E
,A
,B
,C
,WR52
,SR52
,KR3
);
254 RIP2(C
,D
,E
,A
,B
,WR53
,SR53
,KR3
);
255 RIP2(B
,C
,D
,E
,A
,WR54
,SR54
,KR3
);
256 RIP2(A
,B
,C
,D
,E
,WR55
,SR55
,KR3
);
257 RIP2(E
,A
,B
,C
,D
,WR56
,SR56
,KR3
);
258 RIP2(D
,E
,A
,B
,C
,WR57
,SR57
,KR3
);
259 RIP2(C
,D
,E
,A
,B
,WR58
,SR58
,KR3
);
260 RIP2(B
,C
,D
,E
,A
,WR59
,SR59
,KR3
);
261 RIP2(A
,B
,C
,D
,E
,WR60
,SR60
,KR3
);
262 RIP2(E
,A
,B
,C
,D
,WR61
,SR61
,KR3
);
263 RIP2(D
,E
,A
,B
,C
,WR62
,SR62
,KR3
);
264 RIP2(C
,D
,E
,A
,B
,WR63
,SR63
,KR3
);
266 RIP1(B
,C
,D
,E
,A
,WR64
,SR64
);
267 RIP1(A
,B
,C
,D
,E
,WR65
,SR65
);
268 RIP1(E
,A
,B
,C
,D
,WR66
,SR66
);
269 RIP1(D
,E
,A
,B
,C
,WR67
,SR67
);
270 RIP1(C
,D
,E
,A
,B
,WR68
,SR68
);
271 RIP1(B
,C
,D
,E
,A
,WR69
,SR69
);
272 RIP1(A
,B
,C
,D
,E
,WR70
,SR70
);
273 RIP1(E
,A
,B
,C
,D
,WR71
,SR71
);
274 RIP1(D
,E
,A
,B
,C
,WR72
,SR72
);
275 RIP1(C
,D
,E
,A
,B
,WR73
,SR73
);
276 RIP1(B
,C
,D
,E
,A
,WR74
,SR74
);
277 RIP1(A
,B
,C
,D
,E
,WR75
,SR75
);
278 RIP1(E
,A
,B
,C
,D
,WR76
,SR76
);
279 RIP1(D
,E
,A
,B
,C
,WR77
,SR77
);
280 RIP1(C
,D
,E
,A
,B
,WR78
,SR78
);
281 RIP1(B
,C
,D
,E
,A
,WR79
,SR79
);