2 * This is D3DES (V5.09) by Richard Outerbridge with the double and
3 * triple-length support removed for use in VNC. Also the bytebit[] array
4 * has been reversed so that the most significant bit in each byte of the
5 * key is ignored, not the least significant.
8 * Copyright (C) 1999 AT&T Laboratories Cambridge. All Rights Reserved.
10 * This software is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
17 * A portable, public domain, version of the Data Encryption Standard.
19 * Written with Symantec's THINK (Lightspeed) C by Richard Outerbridge.
20 * Thanks to: Dan Hoey for his excellent Initial and Inverse permutation
21 * code; Jim Gillogly & Phil Karn for the DES key schedule code; Dennis
22 * Ferguson, Eric Young and Dana How for comparing notes; and Ray Lau,
23 * for humouring me on.
25 * Copyright (c) 1988,1989,1990,1991,1992 by Richard Outerbridge.
26 * (GEnie : OUTER; CIS : [71755,204]) Graven Imagery, 1992.
29 #include "crypto/desrfb.h"
31 static void scrunch(unsigned char *, unsigned long *);
32 static void unscrun(unsigned long *, unsigned char *);
33 static void desfunc(unsigned long *, unsigned long *);
34 static void cookey(unsigned long *);
36 static unsigned long KnL
[32] = { 0L };
38 static const unsigned short bytebit
[8] = {
39 01, 02, 04, 010, 020, 040, 0100, 0200 };
41 static const unsigned long bigbyte
[24] = {
42 0x800000L
, 0x400000L
, 0x200000L
, 0x100000L
,
43 0x80000L
, 0x40000L
, 0x20000L
, 0x10000L
,
44 0x8000L
, 0x4000L
, 0x2000L
, 0x1000L
,
45 0x800L
, 0x400L
, 0x200L
, 0x100L
,
46 0x80L
, 0x40L
, 0x20L
, 0x10L
,
47 0x8L
, 0x4L
, 0x2L
, 0x1L
};
49 /* Use the key schedule specified in the Standard (ANSI X3.92-1981). */
51 static const unsigned char pc1
[56] = {
52 56, 48, 40, 32, 24, 16, 8, 0, 57, 49, 41, 33, 25, 17,
53 9, 1, 58, 50, 42, 34, 26, 18, 10, 2, 59, 51, 43, 35,
54 62, 54, 46, 38, 30, 22, 14, 6, 61, 53, 45, 37, 29, 21,
55 13, 5, 60, 52, 44, 36, 28, 20, 12, 4, 27, 19, 11, 3 };
57 static const unsigned char totrot
[16] = {
58 1,2,4,6,8,10,12,14,15,17,19,21,23,25,27,28 };
60 static const unsigned char pc2
[48] = {
61 13, 16, 10, 23, 0, 4, 2, 27, 14, 5, 20, 9,
62 22, 18, 11, 3, 25, 7, 15, 6, 26, 19, 12, 1,
63 40, 51, 30, 36, 46, 54, 29, 39, 50, 44, 32, 47,
64 43, 48, 38, 55, 33, 52, 45, 41, 49, 35, 28, 31 };
66 /* Thanks to James Gillogly & Phil Karn! */
67 void deskey(unsigned char *key
, int edf
)
69 register int i
, j
, l
, m
, n
;
70 unsigned char pc1m
[56], pcr
[56];
73 for ( j
= 0; j
< 56; j
++ ) {
76 pc1m
[j
] = (key
[l
>> 3] & bytebit
[m
]) ? 1 : 0;
78 for( i
= 0; i
< 16; i
++ ) {
79 if( edf
== DE1
) m
= (15 - i
) << 1;
83 for( j
= 0; j
< 28; j
++ ) {
85 if( l
< 28 ) pcr
[j
] = pc1m
[l
];
86 else pcr
[j
] = pc1m
[l
- 28];
88 for( j
= 28; j
< 56; j
++ ) {
90 if( l
< 56 ) pcr
[j
] = pc1m
[l
];
91 else pcr
[j
] = pc1m
[l
- 28];
93 for( j
= 0; j
< 24; j
++ ) {
94 if( pcr
[pc2
[j
]] ) kn
[m
] |= bigbyte
[j
];
95 if( pcr
[pc2
[j
+24]] ) kn
[n
] |= bigbyte
[j
];
102 static void cookey(register unsigned long *raw1
)
104 register unsigned long *cook
, *raw0
;
105 unsigned long dough
[32];
109 for( i
= 0; i
< 16; i
++, raw1
++ ) {
111 *cook
= (*raw0
& 0x00fc0000L
) << 6;
112 *cook
|= (*raw0
& 0x00000fc0L
) << 10;
113 *cook
|= (*raw1
& 0x00fc0000L
) >> 10;
114 *cook
++ |= (*raw1
& 0x00000fc0L
) >> 6;
115 *cook
= (*raw0
& 0x0003f000L
) << 12;
116 *cook
|= (*raw0
& 0x0000003fL
) << 16;
117 *cook
|= (*raw1
& 0x0003f000L
) >> 4;
118 *cook
++ |= (*raw1
& 0x0000003fL
);
124 void usekey(register unsigned long *from
)
126 register unsigned long *to
, *endp
;
128 to
= KnL
, endp
= &KnL
[32];
129 while( to
< endp
) *to
++ = *from
++;
133 void des(unsigned char *inblock
, unsigned char *outblock
)
135 unsigned long work
[2];
137 scrunch(inblock
, work
);
139 unscrun(work
, outblock
);
143 static void scrunch(register unsigned char *outof
, register unsigned long *into
)
145 *into
= (*outof
++ & 0xffL
) << 24;
146 *into
|= (*outof
++ & 0xffL
) << 16;
147 *into
|= (*outof
++ & 0xffL
) << 8;
148 *into
++ |= (*outof
++ & 0xffL
);
149 *into
= (*outof
++ & 0xffL
) << 24;
150 *into
|= (*outof
++ & 0xffL
) << 16;
151 *into
|= (*outof
++ & 0xffL
) << 8;
152 *into
|= (*outof
& 0xffL
);
156 static void unscrun(register unsigned long *outof
, register unsigned char *into
)
158 *into
++ = (unsigned char)((*outof
>> 24) & 0xffL
);
159 *into
++ = (unsigned char)((*outof
>> 16) & 0xffL
);
160 *into
++ = (unsigned char)((*outof
>> 8) & 0xffL
);
161 *into
++ = (unsigned char)(*outof
++ & 0xffL
);
162 *into
++ = (unsigned char)((*outof
>> 24) & 0xffL
);
163 *into
++ = (unsigned char)((*outof
>> 16) & 0xffL
);
164 *into
++ = (unsigned char)((*outof
>> 8) & 0xffL
);
165 *into
= (unsigned char)(*outof
& 0xffL
);
169 static const unsigned long SP1
[64] = {
170 0x01010400L
, 0x00000000L
, 0x00010000L
, 0x01010404L
,
171 0x01010004L
, 0x00010404L
, 0x00000004L
, 0x00010000L
,
172 0x00000400L
, 0x01010400L
, 0x01010404L
, 0x00000400L
,
173 0x01000404L
, 0x01010004L
, 0x01000000L
, 0x00000004L
,
174 0x00000404L
, 0x01000400L
, 0x01000400L
, 0x00010400L
,
175 0x00010400L
, 0x01010000L
, 0x01010000L
, 0x01000404L
,
176 0x00010004L
, 0x01000004L
, 0x01000004L
, 0x00010004L
,
177 0x00000000L
, 0x00000404L
, 0x00010404L
, 0x01000000L
,
178 0x00010000L
, 0x01010404L
, 0x00000004L
, 0x01010000L
,
179 0x01010400L
, 0x01000000L
, 0x01000000L
, 0x00000400L
,
180 0x01010004L
, 0x00010000L
, 0x00010400L
, 0x01000004L
,
181 0x00000400L
, 0x00000004L
, 0x01000404L
, 0x00010404L
,
182 0x01010404L
, 0x00010004L
, 0x01010000L
, 0x01000404L
,
183 0x01000004L
, 0x00000404L
, 0x00010404L
, 0x01010400L
,
184 0x00000404L
, 0x01000400L
, 0x01000400L
, 0x00000000L
,
185 0x00010004L
, 0x00010400L
, 0x00000000L
, 0x01010004L
};
187 static const unsigned long SP2
[64] = {
188 0x80108020L
, 0x80008000L
, 0x00008000L
, 0x00108020L
,
189 0x00100000L
, 0x00000020L
, 0x80100020L
, 0x80008020L
,
190 0x80000020L
, 0x80108020L
, 0x80108000L
, 0x80000000L
,
191 0x80008000L
, 0x00100000L
, 0x00000020L
, 0x80100020L
,
192 0x00108000L
, 0x00100020L
, 0x80008020L
, 0x00000000L
,
193 0x80000000L
, 0x00008000L
, 0x00108020L
, 0x80100000L
,
194 0x00100020L
, 0x80000020L
, 0x00000000L
, 0x00108000L
,
195 0x00008020L
, 0x80108000L
, 0x80100000L
, 0x00008020L
,
196 0x00000000L
, 0x00108020L
, 0x80100020L
, 0x00100000L
,
197 0x80008020L
, 0x80100000L
, 0x80108000L
, 0x00008000L
,
198 0x80100000L
, 0x80008000L
, 0x00000020L
, 0x80108020L
,
199 0x00108020L
, 0x00000020L
, 0x00008000L
, 0x80000000L
,
200 0x00008020L
, 0x80108000L
, 0x00100000L
, 0x80000020L
,
201 0x00100020L
, 0x80008020L
, 0x80000020L
, 0x00100020L
,
202 0x00108000L
, 0x00000000L
, 0x80008000L
, 0x00008020L
,
203 0x80000000L
, 0x80100020L
, 0x80108020L
, 0x00108000L
};
205 static const unsigned long SP3
[64] = {
206 0x00000208L
, 0x08020200L
, 0x00000000L
, 0x08020008L
,
207 0x08000200L
, 0x00000000L
, 0x00020208L
, 0x08000200L
,
208 0x00020008L
, 0x08000008L
, 0x08000008L
, 0x00020000L
,
209 0x08020208L
, 0x00020008L
, 0x08020000L
, 0x00000208L
,
210 0x08000000L
, 0x00000008L
, 0x08020200L
, 0x00000200L
,
211 0x00020200L
, 0x08020000L
, 0x08020008L
, 0x00020208L
,
212 0x08000208L
, 0x00020200L
, 0x00020000L
, 0x08000208L
,
213 0x00000008L
, 0x08020208L
, 0x00000200L
, 0x08000000L
,
214 0x08020200L
, 0x08000000L
, 0x00020008L
, 0x00000208L
,
215 0x00020000L
, 0x08020200L
, 0x08000200L
, 0x00000000L
,
216 0x00000200L
, 0x00020008L
, 0x08020208L
, 0x08000200L
,
217 0x08000008L
, 0x00000200L
, 0x00000000L
, 0x08020008L
,
218 0x08000208L
, 0x00020000L
, 0x08000000L
, 0x08020208L
,
219 0x00000008L
, 0x00020208L
, 0x00020200L
, 0x08000008L
,
220 0x08020000L
, 0x08000208L
, 0x00000208L
, 0x08020000L
,
221 0x00020208L
, 0x00000008L
, 0x08020008L
, 0x00020200L
};
223 static const unsigned long SP4
[64] = {
224 0x00802001L
, 0x00002081L
, 0x00002081L
, 0x00000080L
,
225 0x00802080L
, 0x00800081L
, 0x00800001L
, 0x00002001L
,
226 0x00000000L
, 0x00802000L
, 0x00802000L
, 0x00802081L
,
227 0x00000081L
, 0x00000000L
, 0x00800080L
, 0x00800001L
,
228 0x00000001L
, 0x00002000L
, 0x00800000L
, 0x00802001L
,
229 0x00000080L
, 0x00800000L
, 0x00002001L
, 0x00002080L
,
230 0x00800081L
, 0x00000001L
, 0x00002080L
, 0x00800080L
,
231 0x00002000L
, 0x00802080L
, 0x00802081L
, 0x00000081L
,
232 0x00800080L
, 0x00800001L
, 0x00802000L
, 0x00802081L
,
233 0x00000081L
, 0x00000000L
, 0x00000000L
, 0x00802000L
,
234 0x00002080L
, 0x00800080L
, 0x00800081L
, 0x00000001L
,
235 0x00802001L
, 0x00002081L
, 0x00002081L
, 0x00000080L
,
236 0x00802081L
, 0x00000081L
, 0x00000001L
, 0x00002000L
,
237 0x00800001L
, 0x00002001L
, 0x00802080L
, 0x00800081L
,
238 0x00002001L
, 0x00002080L
, 0x00800000L
, 0x00802001L
,
239 0x00000080L
, 0x00800000L
, 0x00002000L
, 0x00802080L
};
241 static const unsigned long SP5
[64] = {
242 0x00000100L
, 0x02080100L
, 0x02080000L
, 0x42000100L
,
243 0x00080000L
, 0x00000100L
, 0x40000000L
, 0x02080000L
,
244 0x40080100L
, 0x00080000L
, 0x02000100L
, 0x40080100L
,
245 0x42000100L
, 0x42080000L
, 0x00080100L
, 0x40000000L
,
246 0x02000000L
, 0x40080000L
, 0x40080000L
, 0x00000000L
,
247 0x40000100L
, 0x42080100L
, 0x42080100L
, 0x02000100L
,
248 0x42080000L
, 0x40000100L
, 0x00000000L
, 0x42000000L
,
249 0x02080100L
, 0x02000000L
, 0x42000000L
, 0x00080100L
,
250 0x00080000L
, 0x42000100L
, 0x00000100L
, 0x02000000L
,
251 0x40000000L
, 0x02080000L
, 0x42000100L
, 0x40080100L
,
252 0x02000100L
, 0x40000000L
, 0x42080000L
, 0x02080100L
,
253 0x40080100L
, 0x00000100L
, 0x02000000L
, 0x42080000L
,
254 0x42080100L
, 0x00080100L
, 0x42000000L
, 0x42080100L
,
255 0x02080000L
, 0x00000000L
, 0x40080000L
, 0x42000000L
,
256 0x00080100L
, 0x02000100L
, 0x40000100L
, 0x00080000L
,
257 0x00000000L
, 0x40080000L
, 0x02080100L
, 0x40000100L
};
259 static const unsigned long SP6
[64] = {
260 0x20000010L
, 0x20400000L
, 0x00004000L
, 0x20404010L
,
261 0x20400000L
, 0x00000010L
, 0x20404010L
, 0x00400000L
,
262 0x20004000L
, 0x00404010L
, 0x00400000L
, 0x20000010L
,
263 0x00400010L
, 0x20004000L
, 0x20000000L
, 0x00004010L
,
264 0x00000000L
, 0x00400010L
, 0x20004010L
, 0x00004000L
,
265 0x00404000L
, 0x20004010L
, 0x00000010L
, 0x20400010L
,
266 0x20400010L
, 0x00000000L
, 0x00404010L
, 0x20404000L
,
267 0x00004010L
, 0x00404000L
, 0x20404000L
, 0x20000000L
,
268 0x20004000L
, 0x00000010L
, 0x20400010L
, 0x00404000L
,
269 0x20404010L
, 0x00400000L
, 0x00004010L
, 0x20000010L
,
270 0x00400000L
, 0x20004000L
, 0x20000000L
, 0x00004010L
,
271 0x20000010L
, 0x20404010L
, 0x00404000L
, 0x20400000L
,
272 0x00404010L
, 0x20404000L
, 0x00000000L
, 0x20400010L
,
273 0x00000010L
, 0x00004000L
, 0x20400000L
, 0x00404010L
,
274 0x00004000L
, 0x00400010L
, 0x20004010L
, 0x00000000L
,
275 0x20404000L
, 0x20000000L
, 0x00400010L
, 0x20004010L
};
277 static const unsigned long SP7
[64] = {
278 0x00200000L
, 0x04200002L
, 0x04000802L
, 0x00000000L
,
279 0x00000800L
, 0x04000802L
, 0x00200802L
, 0x04200800L
,
280 0x04200802L
, 0x00200000L
, 0x00000000L
, 0x04000002L
,
281 0x00000002L
, 0x04000000L
, 0x04200002L
, 0x00000802L
,
282 0x04000800L
, 0x00200802L
, 0x00200002L
, 0x04000800L
,
283 0x04000002L
, 0x04200000L
, 0x04200800L
, 0x00200002L
,
284 0x04200000L
, 0x00000800L
, 0x00000802L
, 0x04200802L
,
285 0x00200800L
, 0x00000002L
, 0x04000000L
, 0x00200800L
,
286 0x04000000L
, 0x00200800L
, 0x00200000L
, 0x04000802L
,
287 0x04000802L
, 0x04200002L
, 0x04200002L
, 0x00000002L
,
288 0x00200002L
, 0x04000000L
, 0x04000800L
, 0x00200000L
,
289 0x04200800L
, 0x00000802L
, 0x00200802L
, 0x04200800L
,
290 0x00000802L
, 0x04000002L
, 0x04200802L
, 0x04200000L
,
291 0x00200800L
, 0x00000000L
, 0x00000002L
, 0x04200802L
,
292 0x00000000L
, 0x00200802L
, 0x04200000L
, 0x00000800L
,
293 0x04000002L
, 0x04000800L
, 0x00000800L
, 0x00200002L
};
295 static const unsigned long SP8
[64] = {
296 0x10001040L
, 0x00001000L
, 0x00040000L
, 0x10041040L
,
297 0x10000000L
, 0x10001040L
, 0x00000040L
, 0x10000000L
,
298 0x00040040L
, 0x10040000L
, 0x10041040L
, 0x00041000L
,
299 0x10041000L
, 0x00041040L
, 0x00001000L
, 0x00000040L
,
300 0x10040000L
, 0x10000040L
, 0x10001000L
, 0x00001040L
,
301 0x00041000L
, 0x00040040L
, 0x10040040L
, 0x10041000L
,
302 0x00001040L
, 0x00000000L
, 0x00000000L
, 0x10040040L
,
303 0x10000040L
, 0x10001000L
, 0x00041040L
, 0x00040000L
,
304 0x00041040L
, 0x00040000L
, 0x10041000L
, 0x00001000L
,
305 0x00000040L
, 0x10040040L
, 0x00001000L
, 0x00041040L
,
306 0x10001000L
, 0x00000040L
, 0x10000040L
, 0x10040000L
,
307 0x10040040L
, 0x10000000L
, 0x00040000L
, 0x10001040L
,
308 0x00000000L
, 0x10041040L
, 0x00040040L
, 0x10000040L
,
309 0x10040000L
, 0x10001000L
, 0x10001040L
, 0x00000000L
,
310 0x10041040L
, 0x00041000L
, 0x00041000L
, 0x00001040L
,
311 0x00001040L
, 0x00040040L
, 0x10000000L
, 0x10041000L
};
313 static void desfunc(register unsigned long *block
, register unsigned long *keys
)
315 register unsigned long fval
, work
, right
, leftt
;
320 work
= ((leftt
>> 4) ^ right
) & 0x0f0f0f0fL
;
322 leftt
^= (work
<< 4);
323 work
= ((leftt
>> 16) ^ right
) & 0x0000ffffL
;
325 leftt
^= (work
<< 16);
326 work
= ((right
>> 2) ^ leftt
) & 0x33333333L
;
328 right
^= (work
<< 2);
329 work
= ((right
>> 8) ^ leftt
) & 0x00ff00ffL
;
331 right
^= (work
<< 8);
332 right
= ((right
<< 1) | ((right
>> 31) & 1L)) & 0xffffffffL
;
333 work
= (leftt
^ right
) & 0xaaaaaaaaL
;
336 leftt
= ((leftt
<< 1) | ((leftt
>> 31) & 1L)) & 0xffffffffL
;
338 for( round
= 0; round
< 8; round
++ ) {
339 work
= (right
<< 28) | (right
>> 4);
341 fval
= SP7
[ work
& 0x3fL
];
342 fval
|= SP5
[(work
>> 8) & 0x3fL
];
343 fval
|= SP3
[(work
>> 16) & 0x3fL
];
344 fval
|= SP1
[(work
>> 24) & 0x3fL
];
345 work
= right
^ *keys
++;
346 fval
|= SP8
[ work
& 0x3fL
];
347 fval
|= SP6
[(work
>> 8) & 0x3fL
];
348 fval
|= SP4
[(work
>> 16) & 0x3fL
];
349 fval
|= SP2
[(work
>> 24) & 0x3fL
];
351 work
= (leftt
<< 28) | (leftt
>> 4);
353 fval
= SP7
[ work
& 0x3fL
];
354 fval
|= SP5
[(work
>> 8) & 0x3fL
];
355 fval
|= SP3
[(work
>> 16) & 0x3fL
];
356 fval
|= SP1
[(work
>> 24) & 0x3fL
];
357 work
= leftt
^ *keys
++;
358 fval
|= SP8
[ work
& 0x3fL
];
359 fval
|= SP6
[(work
>> 8) & 0x3fL
];
360 fval
|= SP4
[(work
>> 16) & 0x3fL
];
361 fval
|= SP2
[(work
>> 24) & 0x3fL
];
365 right
= (right
<< 31) | (right
>> 1);
366 work
= (leftt
^ right
) & 0xaaaaaaaaL
;
369 leftt
= (leftt
<< 31) | (leftt
>> 1);
370 work
= ((leftt
>> 8) ^ right
) & 0x00ff00ffL
;
372 leftt
^= (work
<< 8);
373 work
= ((leftt
>> 2) ^ right
) & 0x33333333L
;
375 leftt
^= (work
<< 2);
376 work
= ((right
>> 16) ^ leftt
) & 0x0000ffffL
;
378 right
^= (work
<< 16);
379 work
= ((right
>> 4) ^ leftt
) & 0x0f0f0f0fL
;
381 right
^= (work
<< 4);
389 * Single-length key, single-length plaintext -
390 * Key : 0123 4567 89ab cdef
391 * Plain : 0123 4567 89ab cde7
392 * Cipher : c957 4425 6a5e d31d
394 * Double-length key, single-length plaintext -
395 * Key : 0123 4567 89ab cdef fedc ba98 7654 3210
396 * Plain : 0123 4567 89ab cde7
397 * Cipher : 7f1d 0a77 826b 8aff
399 * Double-length key, double-length plaintext -
400 * Key : 0123 4567 89ab cdef fedc ba98 7654 3210
401 * Plain : 0123 4567 89ab cdef 0123 4567 89ab cdff
402 * Cipher : 27a0 8440 406a df60 278f 47cf 42d6 15d7
404 * Triple-length key, single-length plaintext -
405 * Key : 0123 4567 89ab cdef fedc ba98 7654 3210 89ab cdef 0123 4567
406 * Plain : 0123 4567 89ab cde7
407 * Cipher : de0b 7c06 ae5e 0ed5
409 * Triple-length key, double-length plaintext -
410 * Key : 0123 4567 89ab cdef fedc ba98 7654 3210 89ab cdef 0123 4567
411 * Plain : 0123 4567 89ab cdef 0123 4567 89ab cdff
412 * Cipher : ad0d 1b30 ac17 cf07 0ed1 1c63 81e4 4de5
414 * d3des V5.0a rwo 9208.07 18:44 Graven Imagery
415 **********************************************************************/