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rsalib.cxx
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1/* @(#)root/auth:$Id$ */
2/* Author: Martin Nicolay 22/11/1988 */
3
4/******************************************************************************
5Copyright (C) 2006 Martin Nicolay <m.nicolay@osm-gmbh.de>
6
7This library is free software; you can redistribute it and/or
8modify it under the terms of the GNU Lesser General Public
9License as published by the Free Software Foundation; either
10version 2.1 of the License, or (at your option) any later
11version.
12
13This library is distributed in the hope that it will be useful,
14but WITHOUT ANY WARRANTY; without even the implied warranty of
15MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16GNU Lesser General Public License for more details.
17
18You should have received a copy of the GNU Lesser General Public
19License along with this library; if not, write to the Free
20Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
21MA 02110-1301 USA
22******************************************************************************/
23
24/*******************************************************************************
25* *
26* Simple RSA public key code. *
27* Adaptation in library for ROOT by G. Ganis, July 2003 *
28* (gerardo.ganis@cern.ch) *
29* *
30*******************************************************************************/
31
32#include <stdio.h>
33#include <string.h>
34#include <ctype.h>
35#include <stdlib.h>
36#include <errno.h>
37
38#include "rsaaux.h"
39#include "rsalib.h"
40
41static int g_clear_siz; /* clear-text blocksize */
42static int g_enc_siz; /* encoded blocksize */
43 /* g_clear_siz < g_enc_siz */
44
45int gLog = 0;
46int kMAXT = 100;
47
48rsa_NUMBER rsa_genprim(int len, int prob)
49{
50 rsa_NUMBER a_three,a_four;
51 rsa_NUMBER prim;
52 int i;
53
54 a_add( &a_one, &a_two, &a_three );
55 a_add( &a_two, &a_two, &a_four );
56
57 /* This is done elsewhere to allow different initialization of
58 rand seed (GGa - Sep 15, 2003) */
59 /* init_rnd(); */
60
61 do {
62 gen_number( len, &prim );
63 } while ( !prim.n_len );
64
65 a_mult( &prim, &a_two, &prim );
66 a_mult( &prim, &a_three, &prim );
67 a_add( &prim, &a_one, &prim );
68
69 for (i=1 ;; i++) {
70
71 if (p_prim( &prim, prob ))
72 break;
73 if (i % 2)
74 a_add( &prim, &a_four, &prim );
75 else
76 a_add( &prim, &a_two, &prim );
77 }
78
79 return prim;
80}
81
82int rsa_genrsa(rsa_NUMBER p1, rsa_NUMBER p2, rsa_NUMBER *n, rsa_NUMBER *e, rsa_NUMBER *d)
83{
84 rsa_NUMBER phi, *max_p;
85 int len;
86 int ii, jj;
87
88 if ( !a_cmp( &p1, &p2) ) return 1;
89
90 if (a_cmp( &p1, &p2) > 0)
91 max_p = &p1;
92 else
93 max_p = &p2;
94
95
96 a_mult( &p1, &p2, n );
97 a_sub( &p1, &a_one, &phi );
98 a_sub( &p2, &a_one, e );
99 a_mult( &phi, e, &phi );
100
101 len = n_bitlen( &phi );
102 len = ( len + 3) / 4;
103
104 a_assign( &p1, &phi );
105 a_sub( &p1, &a_one, &p1 );
106
107 /* This is done elsewhere to allow different initialization of
108 rand seed (GGa - Sep 15, 2003) */
109 /* init_rnd(); */
110
111 ii = 0;
112 do {
113 ii++;
114 jj = 0;
115 do {
116 jj++;
117 gen_number( len, d );
118 } while (((a_cmp( d, max_p) <= 0 || a_cmp( d, &p1) >= 0)) && jj < kMAXT);
119
120 a_ggt( d, &phi, e );
121 } while ( a_cmp( e, &a_one) && ii < kMAXT);
122
123 if (ii >= kMAXT || jj >= kMAXT)
124 return 2;
125
126 inv( d, &phi, e );
127
128 return 0;
129
130}
131
132int rsa_encode_size(rsa_NUMBER n)
133{
134 // Returns length unit block of output
135
136 return ( n_bitlen( &n) + 7) / 8;
137}
138
139int rsa_encode(char *bufin, int lin, rsa_NUMBER n, rsa_NUMBER e)
140{
141 /* Encodes plain string in 'bufin' (output in 'bufin')
142 Returns length of encoded string
143 (key validity is not checked) */
144
145 char buf[ rsa_STRLEN*2 ];
146 char bufout[ rsa_STRLEN*2 ];
147 int i, j, lout;
148 char *pout;
149
150 g_enc_siz = ( n_bitlen( &n) + 7) / 8;
151 g_clear_siz = g_enc_siz -1;
152 m_init( &n, rsa_NUM0P );
153
154 pout = bufout;
155 lout = 0;
156 for ( i = 0; i < lin; i += g_clear_siz) {
157
158 memcpy(buf,bufin+i,g_clear_siz);
159
160 j = ((lin-i) < g_clear_siz) ? lin-i : g_clear_siz;
161 memset(buf+j,0,(g_enc_siz-j));
162
163 do_crypt( buf, buf, g_enc_siz, &e );
164
165 memcpy(pout,buf,g_enc_siz);
166
167 pout += g_enc_siz;
168 lout += g_enc_siz;
169 }
170
171 memcpy(bufin,bufout,lout);
172
173 return lout;
174
175}
176
177int rsa_decode(char *bufin, int lin, rsa_NUMBER n, rsa_NUMBER e)
178{
179 /* Decodes string in 'bufin' (output in 'bufin')
180 Returns length of plaintext string
181 (key validity is not checked) */
182
183 char buf[ rsa_STRLEN*2 ];
184 char bufout[ rsa_STRLEN*2 ];
185 int i, lout;
186 char *pout;
187
188 g_enc_siz = ( n_bitlen( &n) + 7) / 8;
189 g_clear_siz = g_enc_siz -1;
190 m_init( &n, rsa_NUM0P );
191
192 pout = bufout;
193 lout = 0;
194 for ( i = 0; i < lin; i += g_enc_siz) {
195
196 memcpy(buf,bufin+i,g_enc_siz);
197
198 do_crypt( buf, buf, g_enc_siz, &e );
199
200 memcpy(pout,buf,g_clear_siz);
201
202 pout += g_clear_siz;
203 lout += g_clear_siz;
204 }
205
206 memcpy(bufin,bufout,lout);
207
208 return lout;
209
210}
211
212
213/*******************************************************************************
214 * *
215 * nio.c *
216 * *
217 ********************************************************************************/
218
219
220/*
221 * rsa_NUMBER io
222 */
223
224/*
225 * Funktionen
226 *
227 * int num_sput( n, s, l)
228 * rsa_NUMBER *n;
229 * char s[l];
230 * schreibt *n als Hex-Zahl in s
231 *
232 * int num_fput( n, f )
233 * rsa_NUMBER *n;
234 * FILE *f;
235 * schreibt *n als Hex-Zahl in File f
236 *
237 * int num_sget( n, s )
238 * rsa_NUMBER *n;
239 * char *s;
240 * liest Hex-Zahl s in *n ein
241 *
242 * int num_fget( n, f )
243 * rsa_NUMBER *n;
244 * FILE *f;
245 * liest eine Hex-Zahl von f in *n ein
246 *
247 */
248
249
250static const char *gHEX="0123456789ABCDEF";
251static const char *ghex="0123456789abcdef";
252
253static rsa_NUMBER gbits[9];
254static rsa_NUMBER gint16[16];
255
256static int ginit = 0;
257
258void num_init()
259{
260 int i;
261
262 if (ginit) return;
263
264 a_assign( &gbits[0], &a_one );
265 for ( i=1; i<9; i++)
266 a_add( &gbits[i-1], &gbits[i-1], &gbits[i] );
267
268 a_assign( &gint16[0], &a_one );
269 for ( i=1; i<16; i++)
270 a_add( &gint16[i-1], &a_one, &gint16[i] );
271
272 ginit = 1;
273}
274
275
276int rsa_num_sput(rsa_NUMBER *n, char *s, int l)
277{
278#if rsa_MAXINT == ( (1 << rsa_MAXBIT) - 1 )
279 rsa_INT *p;
280 int bi,ab,i;
281 long b;
282 int first = 1;
283
284 bi = rsa_MAXBIT * n->n_len;
285 ab = 4 - (bi + 3) % 4 -1;
286 p = &n->n_part[n->n_len -1];
287
288 if ( (bi+3) / 4 >= l )
289 return(EOF);
290
291 b = 0;
292 while (bi) {
293 b <<= (rsa_MAXBIT);
294 b |= (unsigned long)*p--;
295 bi -= rsa_MAXBIT;
296 ab += rsa_MAXBIT;
297 while (ab >= 4) {
298 i = (b >> (ab - 4));
299 b &= ( 1L << (ab - 4)) -1L;
300 ab -= 4;
301
302 if (first && !i)
303 continue;
304 first = 0;
305 *s++ = gHEX[ i ];
306 }
307 }
308 if (b)
309 abort();
310 *s = '\0';
311
312 return (0);
313#else
314 rsa_NUMBER r,q;
315 int i,b,p,len,low,high;
316 char *np;
317
318 if (! ginit)
319 num_init();
320
321 a_assign( &q, n);
322 len = l;
323 np = s + l;
324
325 for (; q.n_len && len > 1; len --) {
326 a_div( &q, &gbits[4], &q, &r );
327 for (p=8, b=0, i=3; i >= 0; i--, p /= 2) {
328 if ( a_cmp( &r, &gbits[i]) >= 0) {
329 a_sub( &r, &gbits[i], &r );
330 b += p;
331 }
332 }
333 *--np = gHEX[ b ];
334 }
335 if (q.n_len)
336 return(EOF);
337
338 l -= len;
339 len = l;
340 for (; l--; )
341 *s++ = *np++;
342
343 *s = '\0';
344
345 return (0);
346#endif
347}
348
349
350int rsa_num_fput(rsa_NUMBER *n, FILE *f)
351{
352 int j;
353 char *np;
354 char n_print[ rsa_STRLEN + 1 ];
355
356 if ( rsa_num_sput( n, n_print, sizeof( n_print) ) == EOF )
357 return(EOF);
358
359 for (j=0, np=n_print; *np ; np++, j++) {
360 if (j==64) {
361 fputs("\n",f);
362 j = 0;
363 }
364 putc((int)*np,f);
365 }
366
367 if (j)
368 putc('\n',f);
369
370 return(0);
371}
372
373
374int rsa_num_sget(rsa_NUMBER *n, char *s)
375{
376#if rsa_MAXINT == ( (1 << rsa_MAXBIT) - 1 )
377 rsa_INT *p;
378 const char *hp;
379 int bi,ab,i;
380 long b;
381 int first = 1;
382
383 bi = 4 * strlen(s);
384 ab = rsa_MAXBIT - (bi + rsa_MAXBIT -1) % rsa_MAXBIT -1;
385 i = (bi + rsa_MAXBIT-1) / rsa_MAXBIT;
386 p = &n->n_part[ i -1 ];
387 n->n_len = i;
388
389 if ( i > rsa_MAXLEN )
390 return(EOF);
391
392 b = 0;
393 while (bi > 0) {
394 if ( (hp = strchr( gHEX, *s )) )
395 i = hp - gHEX;
396 else if ((hp = strchr( ghex, *s )) )
397 i = hp - ghex;
398 else
399 return(EOF);
400 s++;
401
402 b <<= 4;
403 b |= (unsigned long)i;
404 bi -= 4;
405 ab += 4;
406 while (ab >= rsa_MAXBIT) {
407 i = (b >> (ab - rsa_MAXBIT));
408 b &= ( 1L << (ab - rsa_MAXBIT)) -1L;
409 ab -= rsa_MAXBIT;
410 if (first && !i) {
411 p--;
412 n->n_len--;
413 }
414 else {
415 first = 0;
416 *p-- = i;
417 }
418 }
419 }
420 if (b)
421 abort();
422 *s = '\0';
423
424 return (0);
425#else
426 char *p;
427 int i,c;
428
429 if (! ginit)
430 num_init();
431
432 n->n_len = 0;
433 while ( (c = *s++ & 0xFF)) {
434 if ( p= strchr( gHEX, c) )
435 i = p - gHEX;
436 else if ( p= strchr( ghex, c) )
437 i = p - ghex;
438 else
439 return(EOF);
440
441 a_mult( n, &gbits[4], n );
442 if (i)
443 a_add( n, &gint16[i-1], n );
444 }
445
446 return(0);
447#endif
448}
449
450int rsa_num_fget(rsa_NUMBER *n, FILE *f)
451{
452 int j,c;
453 char *np;
454 char n_print[ rsa_STRLEN + 1 ];
455
456 np = n_print;
457 j = sizeof(n_print);
458 while ( (c=getc(f)) != EOF && ( isxdigit(c) || isspace(c)) ) {
459 if (isspace(c))
460 continue;
461 if (! --j)
462 return(EOF);
463 *np++ = (char)c;
464 }
465 *np = '\0';
466
467 if (c != EOF)
468 ungetc(c,f);
469
470 if ( rsa_num_sget( n, n_print) == EOF )
471 return( EOF );
472
473 return(0);
474}
475
476int rsa_cmp(rsa_NUMBER *c1, rsa_NUMBER *c2)
477{
478 int l;
479 /* bei verschiedener Laenge klar*/
480 if ( (l=c1->n_len) != c2->n_len)
481 return( l - c2->n_len);
482
483 /* vergleiche als arrays */
484 return( n_cmp( c1->n_part, c2->n_part, l) );
485}
486
487void rsa_assign(rsa_NUMBER *d, rsa_NUMBER *s)
488{
489 int l;
490
491 if (s == d) /* nichts zu kopieren */
492 return;
493
494 if ((l=s->n_len))
495 memcpy( d->n_part, s->n_part, sizeof(rsa_INT)*l);
496
497 d->n_len = l;
498}
long
long
Definition Converters.cxx:858
r
ROOT::R::TRInterface & r
Definition Object.C:4
d
#define d(i)
Definition RSha256.hxx:102
b
#define b(i)
Definition RSha256.hxx:100
f
#define f(i)
Definition RSha256.hxx:104
c
#define c(i)
Definition RSha256.hxx:101
e
#define e(i)
Definition RSha256.hxx:103
q
float * q
Definition THbookFile.cxx:89
c1
return c1
Definition legend1.C:41
n
const Int_t n
Definition legend1.C:16
c2
return c2
Definition legend2.C:14
first
Definition first.py:1
a_cmp
int a_cmp(rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:233
n_bitlen
int n_bitlen(rsa_NUMBER *)
Definition rsaaux.cxx:721
inv
void inv(rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:949
p_prim
int p_prim(rsa_NUMBER *, int)
Definition rsaaux.cxx:884
a_sub
void a_sub(rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:369
a_ggt
void a_ggt(rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:668
n_cmp
int n_cmp(rsa_INT *, rsa_INT *, int)
Definition rsaaux.cxx:218
a_one
rsa_NUMBER a_one
Definition rsaaux.cxx:199
a_assign
void a_assign(rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:247
do_crypt
void do_crypt(char *, char *, int, rsa_NUMBER *)
Definition rsaaux.cxx:1092
m_init
void m_init(rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:616
a_mult
void a_mult(rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:414
a_two
rsa_NUMBER a_two
Definition rsaaux.h:39
gen_number
void gen_number(int, rsa_NUMBER *)
Definition rsaaux.cxx:994
a_add
void a_add(rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:263
a_div
void a_div(rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *, rsa_NUMBER *)
Definition rsaaux.cxx:540
rsa_NUM0P
#define rsa_NUM0P
Definition rsadef.h:109
rsa_MAXLEN
#define rsa_MAXLEN
Definition rsadef.h:86
rsa_INT
unsigned short rsa_INT
Definition rsadef.h:37
rsa_STRLEN
#define rsa_STRLEN
Definition rsadef.h:87
rsa_genprim
static TRSA_fun g_rsa_init & rsa_genprim
Definition rsafun.cxx:68
g_clear_siz
static int g_clear_siz
Definition rsalib.cxx:41
rsa_genrsa
int rsa_genrsa(rsa_NUMBER p1, rsa_NUMBER p2, rsa_NUMBER *n, rsa_NUMBER *e, rsa_NUMBER *d)
Definition rsalib.cxx:82
rsa_num_fget
int rsa_num_fget(rsa_NUMBER *n, FILE *f)
Definition rsalib.cxx:450
rsa_num_sput
int rsa_num_sput(rsa_NUMBER *n, char *s, int l)
Definition rsalib.cxx:276
rsa_decode
int rsa_decode(char *bufin, int lin, rsa_NUMBER n, rsa_NUMBER e)
Definition rsalib.cxx:177
kMAXT
int kMAXT
Definition rsalib.cxx:46
rsa_cmp
int rsa_cmp(rsa_NUMBER *c1, rsa_NUMBER *c2)
Definition rsalib.cxx:476
rsa_num_fput
int rsa_num_fput(rsa_NUMBER *n, FILE *f)
Definition rsalib.cxx:350
rsa_assign
void rsa_assign(rsa_NUMBER *d, rsa_NUMBER *s)
Definition rsalib.cxx:487
ginit
static int ginit
Definition rsalib.cxx:256
gLog
int gLog
Definition rsalib.cxx:45
num_init
void num_init()
Definition rsalib.cxx:258
gHEX
static const char * gHEX
Definition rsalib.cxx:250
ghex
static const char * ghex
Definition rsalib.cxx:251
rsa_encode_size
int rsa_encode_size(rsa_NUMBER n)
Definition rsalib.cxx:132
gbits
static rsa_NUMBER gbits[9]
Definition rsalib.cxx:253
rsa_num_sget
int rsa_num_sget(rsa_NUMBER *n, char *s)
Definition rsalib.cxx:374
rsa_encode
int rsa_encode(char *bufin, int lin, rsa_NUMBER n, rsa_NUMBER e)
Definition rsalib.cxx:139
gint16
static rsa_NUMBER gint16[16]
Definition rsalib.cxx:254
g_enc_siz
static int g_enc_siz
Definition rsalib.cxx:42
rsa_NUMBER
Definition rsadef.h:104
rsa_NUMBER::n_len
int n_len
Definition rsadef.h:105
rsa_NUMBER::n_part
rsa_INT n_part[rsa_MAXLEN]
Definition rsadef.h:106
l
auto * l
Definition textangle.C:4