1*ba1276acSMatthew Dillon /* $OpenBSD: moduli.c,v 1.39 2023/03/02 06:41:56 dtucker Exp $ */
218de8d7fSPeter Avalos /*
318de8d7fSPeter Avalos * Copyright 1994 Phil Karn <karn@qualcomm.com>
418de8d7fSPeter Avalos * Copyright 1996-1998, 2003 William Allen Simpson <wsimpson@greendragon.com>
518de8d7fSPeter Avalos * Copyright 2000 Niels Provos <provos@citi.umich.edu>
618de8d7fSPeter Avalos * All rights reserved.
718de8d7fSPeter Avalos *
818de8d7fSPeter Avalos * Redistribution and use in source and binary forms, with or without
918de8d7fSPeter Avalos * modification, are permitted provided that the following conditions
1018de8d7fSPeter Avalos * are met:
1118de8d7fSPeter Avalos * 1. Redistributions of source code must retain the above copyright
1218de8d7fSPeter Avalos * notice, this list of conditions and the following disclaimer.
1318de8d7fSPeter Avalos * 2. Redistributions in binary form must reproduce the above copyright
1418de8d7fSPeter Avalos * notice, this list of conditions and the following disclaimer in the
1518de8d7fSPeter Avalos * documentation and/or other materials provided with the distribution.
1618de8d7fSPeter Avalos *
1718de8d7fSPeter Avalos * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1818de8d7fSPeter Avalos * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1918de8d7fSPeter Avalos * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
2018de8d7fSPeter Avalos * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
2118de8d7fSPeter Avalos * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
2218de8d7fSPeter Avalos * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
2318de8d7fSPeter Avalos * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
2418de8d7fSPeter Avalos * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
2518de8d7fSPeter Avalos * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
2618de8d7fSPeter Avalos * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
2718de8d7fSPeter Avalos */
2818de8d7fSPeter Avalos
2918de8d7fSPeter Avalos /*
3018de8d7fSPeter Avalos * Two-step process to generate safe primes for DHGEX
3118de8d7fSPeter Avalos *
3218de8d7fSPeter Avalos * Sieve candidates for "safe" primes,
3318de8d7fSPeter Avalos * suitable for use as Diffie-Hellman moduli;
3418de8d7fSPeter Avalos * that is, where q = (p-1)/2 is also prime.
3518de8d7fSPeter Avalos *
3618de8d7fSPeter Avalos * First step: generate candidate primes (memory intensive)
3718de8d7fSPeter Avalos * Second step: test primes' safety (processor intensive)
3818de8d7fSPeter Avalos */
3918de8d7fSPeter Avalos
4018de8d7fSPeter Avalos #include "includes.h"
4118de8d7fSPeter Avalos
42e9778795SPeter Avalos #ifdef WITH_OPENSSL
43e9778795SPeter Avalos
4418de8d7fSPeter Avalos #include <sys/types.h>
4518de8d7fSPeter Avalos
4618de8d7fSPeter Avalos #include <openssl/bn.h>
4718de8d7fSPeter Avalos #include <openssl/dh.h>
4818de8d7fSPeter Avalos
4999e85e0dSPeter Avalos #include <errno.h>
5018de8d7fSPeter Avalos #include <stdio.h>
5118de8d7fSPeter Avalos #include <stdlib.h>
5218de8d7fSPeter Avalos #include <string.h>
5318de8d7fSPeter Avalos #include <stdarg.h>
5418de8d7fSPeter Avalos #include <time.h>
5599e85e0dSPeter Avalos #include <unistd.h>
56e9778795SPeter Avalos #include <limits.h>
5718de8d7fSPeter Avalos
5818de8d7fSPeter Avalos #include "xmalloc.h"
5918de8d7fSPeter Avalos #include "dh.h"
6018de8d7fSPeter Avalos #include "log.h"
6136e94dc5SPeter Avalos #include "misc.h"
6218de8d7fSPeter Avalos
639f304aafSPeter Avalos #include "openbsd-compat/openssl-compat.h"
649f304aafSPeter Avalos
6518de8d7fSPeter Avalos /*
6618de8d7fSPeter Avalos * File output defines
6718de8d7fSPeter Avalos */
6818de8d7fSPeter Avalos
6918de8d7fSPeter Avalos /* need line long enough for largest moduli plus headers */
7018de8d7fSPeter Avalos #define QLINESIZE (100+8192)
7118de8d7fSPeter Avalos
7218de8d7fSPeter Avalos /*
7318de8d7fSPeter Avalos * Size: decimal.
7418de8d7fSPeter Avalos * Specifies the number of the most significant bit (0 to M).
7518de8d7fSPeter Avalos * WARNING: internally, usually 1 to N.
7618de8d7fSPeter Avalos */
7718de8d7fSPeter Avalos #define QSIZE_MINIMUM (511)
7818de8d7fSPeter Avalos
7918de8d7fSPeter Avalos /*
8018de8d7fSPeter Avalos * Prime sieving defines
8118de8d7fSPeter Avalos */
8218de8d7fSPeter Avalos
8318de8d7fSPeter Avalos /* Constant: assuming 8 bit bytes and 32 bit words */
8418de8d7fSPeter Avalos #define SHIFT_BIT (3)
8518de8d7fSPeter Avalos #define SHIFT_BYTE (2)
8618de8d7fSPeter Avalos #define SHIFT_WORD (SHIFT_BIT+SHIFT_BYTE)
8718de8d7fSPeter Avalos #define SHIFT_MEGABYTE (20)
8818de8d7fSPeter Avalos #define SHIFT_MEGAWORD (SHIFT_MEGABYTE-SHIFT_BYTE)
8918de8d7fSPeter Avalos
9018de8d7fSPeter Avalos /*
9118de8d7fSPeter Avalos * Using virtual memory can cause thrashing. This should be the largest
9218de8d7fSPeter Avalos * number that is supported without a large amount of disk activity --
9318de8d7fSPeter Avalos * that would increase the run time from hours to days or weeks!
9418de8d7fSPeter Avalos */
9518de8d7fSPeter Avalos #define LARGE_MINIMUM (8UL) /* megabytes */
9618de8d7fSPeter Avalos
9718de8d7fSPeter Avalos /*
9818de8d7fSPeter Avalos * Do not increase this number beyond the unsigned integer bit size.
9918de8d7fSPeter Avalos * Due to a multiple of 4, it must be LESS than 128 (yielding 2**30 bits).
10018de8d7fSPeter Avalos */
10118de8d7fSPeter Avalos #define LARGE_MAXIMUM (127UL) /* megabytes */
10218de8d7fSPeter Avalos
10318de8d7fSPeter Avalos /*
10418de8d7fSPeter Avalos * Constant: when used with 32-bit integers, the largest sieve prime
10518de8d7fSPeter Avalos * has to be less than 2**32.
10618de8d7fSPeter Avalos */
10718de8d7fSPeter Avalos #define SMALL_MAXIMUM (0xffffffffUL)
10818de8d7fSPeter Avalos
10918de8d7fSPeter Avalos /* Constant: can sieve all primes less than 2**32, as 65537**2 > 2**32-1. */
11018de8d7fSPeter Avalos #define TINY_NUMBER (1UL<<16)
11118de8d7fSPeter Avalos
11218de8d7fSPeter Avalos /* Ensure enough bit space for testing 2*q. */
11318de8d7fSPeter Avalos #define TEST_MAXIMUM (1UL<<16)
11418de8d7fSPeter Avalos #define TEST_MINIMUM (QSIZE_MINIMUM + 1)
11518de8d7fSPeter Avalos /* real TEST_MINIMUM (1UL << (SHIFT_WORD - TEST_POWER)) */
11618de8d7fSPeter Avalos #define TEST_POWER (3) /* 2**n, n < SHIFT_WORD */
11718de8d7fSPeter Avalos
11818de8d7fSPeter Avalos /* bit operations on 32-bit words */
11918de8d7fSPeter Avalos #define BIT_CLEAR(a,n) ((a)[(n)>>SHIFT_WORD] &= ~(1L << ((n) & 31)))
12018de8d7fSPeter Avalos #define BIT_SET(a,n) ((a)[(n)>>SHIFT_WORD] |= (1L << ((n) & 31)))
12118de8d7fSPeter Avalos #define BIT_TEST(a,n) ((a)[(n)>>SHIFT_WORD] & (1L << ((n) & 31)))
12218de8d7fSPeter Avalos
12318de8d7fSPeter Avalos /*
12418de8d7fSPeter Avalos * Prime testing defines
12518de8d7fSPeter Avalos */
12618de8d7fSPeter Avalos
12718de8d7fSPeter Avalos /* Minimum number of primality tests to perform */
12818de8d7fSPeter Avalos #define TRIAL_MINIMUM (4)
12918de8d7fSPeter Avalos
13018de8d7fSPeter Avalos /*
13118de8d7fSPeter Avalos * Sieving data (XXX - move to struct)
13218de8d7fSPeter Avalos */
13318de8d7fSPeter Avalos
13418de8d7fSPeter Avalos /* sieve 2**16 */
13518de8d7fSPeter Avalos static u_int32_t *TinySieve, tinybits;
13618de8d7fSPeter Avalos
13718de8d7fSPeter Avalos /* sieve 2**30 in 2**16 parts */
13818de8d7fSPeter Avalos static u_int32_t *SmallSieve, smallbits, smallbase;
13918de8d7fSPeter Avalos
14018de8d7fSPeter Avalos /* sieve relative to the initial value */
14118de8d7fSPeter Avalos static u_int32_t *LargeSieve, largewords, largetries, largenumbers;
14218de8d7fSPeter Avalos static u_int32_t largebits, largememory; /* megabytes */
14318de8d7fSPeter Avalos static BIGNUM *largebase;
14418de8d7fSPeter Avalos
14518de8d7fSPeter Avalos int gen_candidates(FILE *, u_int32_t, u_int32_t, BIGNUM *);
14699e85e0dSPeter Avalos int prime_test(FILE *, FILE *, u_int32_t, u_int32_t, char *, unsigned long,
14799e85e0dSPeter Avalos unsigned long);
14818de8d7fSPeter Avalos
14918de8d7fSPeter Avalos /*
15018de8d7fSPeter Avalos * print moduli out in consistent form,
15118de8d7fSPeter Avalos */
15218de8d7fSPeter Avalos static int
qfileout(FILE * ofile,u_int32_t otype,u_int32_t otests,u_int32_t otries,u_int32_t osize,u_int32_t ogenerator,BIGNUM * omodulus)15318de8d7fSPeter Avalos qfileout(FILE * ofile, u_int32_t otype, u_int32_t otests, u_int32_t otries,
15418de8d7fSPeter Avalos u_int32_t osize, u_int32_t ogenerator, BIGNUM * omodulus)
15518de8d7fSPeter Avalos {
15618de8d7fSPeter Avalos struct tm *gtm;
15718de8d7fSPeter Avalos time_t time_now;
15818de8d7fSPeter Avalos int res;
15918de8d7fSPeter Avalos
16018de8d7fSPeter Avalos time(&time_now);
16118de8d7fSPeter Avalos gtm = gmtime(&time_now);
1620cbfa66cSDaniel Fojt if (gtm == NULL)
1630cbfa66cSDaniel Fojt return -1;
16418de8d7fSPeter Avalos
16518de8d7fSPeter Avalos res = fprintf(ofile, "%04d%02d%02d%02d%02d%02d %u %u %u %u %x ",
16618de8d7fSPeter Avalos gtm->tm_year + 1900, gtm->tm_mon + 1, gtm->tm_mday,
16718de8d7fSPeter Avalos gtm->tm_hour, gtm->tm_min, gtm->tm_sec,
16818de8d7fSPeter Avalos otype, otests, otries, osize, ogenerator);
16918de8d7fSPeter Avalos
17018de8d7fSPeter Avalos if (res < 0)
17118de8d7fSPeter Avalos return (-1);
17218de8d7fSPeter Avalos
17318de8d7fSPeter Avalos if (BN_print_fp(ofile, omodulus) < 1)
17418de8d7fSPeter Avalos return (-1);
17518de8d7fSPeter Avalos
17618de8d7fSPeter Avalos res = fprintf(ofile, "\n");
17718de8d7fSPeter Avalos fflush(ofile);
17818de8d7fSPeter Avalos
17918de8d7fSPeter Avalos return (res > 0 ? 0 : -1);
18018de8d7fSPeter Avalos }
18118de8d7fSPeter Avalos
18218de8d7fSPeter Avalos
18318de8d7fSPeter Avalos /*
18418de8d7fSPeter Avalos ** Sieve p's and q's with small factors
18518de8d7fSPeter Avalos */
18618de8d7fSPeter Avalos static void
sieve_large(u_int32_t s32)187ee116499SAntonio Huete Jimenez sieve_large(u_int32_t s32)
18818de8d7fSPeter Avalos {
189ee116499SAntonio Huete Jimenez u_int64_t r, u, s = s32;
19018de8d7fSPeter Avalos
191ee116499SAntonio Huete Jimenez debug3("sieve_large %u", s32);
19218de8d7fSPeter Avalos largetries++;
19318de8d7fSPeter Avalos /* r = largebase mod s */
194ee116499SAntonio Huete Jimenez r = BN_mod_word(largebase, s32);
19518de8d7fSPeter Avalos if (r == 0)
19618de8d7fSPeter Avalos u = 0; /* s divides into largebase exactly */
19718de8d7fSPeter Avalos else
19818de8d7fSPeter Avalos u = s - r; /* largebase+u is first entry divisible by s */
19918de8d7fSPeter Avalos
200ee116499SAntonio Huete Jimenez if (u < largebits * 2ULL) {
20118de8d7fSPeter Avalos /*
20218de8d7fSPeter Avalos * The sieve omits p's and q's divisible by 2, so ensure that
20318de8d7fSPeter Avalos * largebase+u is odd. Then, step through the sieve in
20418de8d7fSPeter Avalos * increments of 2*s
20518de8d7fSPeter Avalos */
20618de8d7fSPeter Avalos if (u & 0x1)
20718de8d7fSPeter Avalos u += s; /* Make largebase+u odd, and u even */
20818de8d7fSPeter Avalos
20918de8d7fSPeter Avalos /* Mark all multiples of 2*s */
21018de8d7fSPeter Avalos for (u /= 2; u < largebits; u += s)
21118de8d7fSPeter Avalos BIT_SET(LargeSieve, u);
21218de8d7fSPeter Avalos }
21318de8d7fSPeter Avalos
21418de8d7fSPeter Avalos /* r = p mod s */
21518de8d7fSPeter Avalos r = (2 * r + 1) % s;
21618de8d7fSPeter Avalos if (r == 0)
21718de8d7fSPeter Avalos u = 0; /* s divides p exactly */
21818de8d7fSPeter Avalos else
21918de8d7fSPeter Avalos u = s - r; /* p+u is first entry divisible by s */
22018de8d7fSPeter Avalos
221ee116499SAntonio Huete Jimenez if (u < largebits * 4ULL) {
22218de8d7fSPeter Avalos /*
22318de8d7fSPeter Avalos * The sieve omits p's divisible by 4, so ensure that
22418de8d7fSPeter Avalos * largebase+u is not. Then, step through the sieve in
22518de8d7fSPeter Avalos * increments of 4*s
22618de8d7fSPeter Avalos */
22718de8d7fSPeter Avalos while (u & 0x3) {
22818de8d7fSPeter Avalos if (SMALL_MAXIMUM - u < s)
22918de8d7fSPeter Avalos return;
23018de8d7fSPeter Avalos u += s;
23118de8d7fSPeter Avalos }
23218de8d7fSPeter Avalos
23318de8d7fSPeter Avalos /* Mark all multiples of 4*s */
23418de8d7fSPeter Avalos for (u /= 4; u < largebits; u += s)
23518de8d7fSPeter Avalos BIT_SET(LargeSieve, u);
23618de8d7fSPeter Avalos }
23718de8d7fSPeter Avalos }
23818de8d7fSPeter Avalos
23918de8d7fSPeter Avalos /*
24018de8d7fSPeter Avalos * list candidates for Sophie-Germain primes (where q = (p-1)/2)
24118de8d7fSPeter Avalos * to standard output.
24218de8d7fSPeter Avalos * The list is checked against small known primes (less than 2**30).
24318de8d7fSPeter Avalos */
24418de8d7fSPeter Avalos int
gen_candidates(FILE * out,u_int32_t memory,u_int32_t power,BIGNUM * start)24518de8d7fSPeter Avalos gen_candidates(FILE *out, u_int32_t memory, u_int32_t power, BIGNUM *start)
24618de8d7fSPeter Avalos {
24718de8d7fSPeter Avalos BIGNUM *q;
24818de8d7fSPeter Avalos u_int32_t j, r, s, t;
24918de8d7fSPeter Avalos u_int32_t smallwords = TINY_NUMBER >> 6;
25018de8d7fSPeter Avalos u_int32_t tinywords = TINY_NUMBER >> 6;
25118de8d7fSPeter Avalos time_t time_start, time_stop;
25218de8d7fSPeter Avalos u_int32_t i;
25318de8d7fSPeter Avalos int ret = 0;
25418de8d7fSPeter Avalos
25518de8d7fSPeter Avalos largememory = memory;
25618de8d7fSPeter Avalos
25718de8d7fSPeter Avalos if (memory != 0 &&
25818de8d7fSPeter Avalos (memory < LARGE_MINIMUM || memory > LARGE_MAXIMUM)) {
25918de8d7fSPeter Avalos error("Invalid memory amount (min %ld, max %ld)",
26018de8d7fSPeter Avalos LARGE_MINIMUM, LARGE_MAXIMUM);
26118de8d7fSPeter Avalos return (-1);
26218de8d7fSPeter Avalos }
26318de8d7fSPeter Avalos
26418de8d7fSPeter Avalos /*
26518de8d7fSPeter Avalos * Set power to the length in bits of the prime to be generated.
26618de8d7fSPeter Avalos * This is changed to 1 less than the desired safe prime moduli p.
26718de8d7fSPeter Avalos */
26818de8d7fSPeter Avalos if (power > TEST_MAXIMUM) {
26918de8d7fSPeter Avalos error("Too many bits: %u > %lu", power, TEST_MAXIMUM);
27018de8d7fSPeter Avalos return (-1);
27118de8d7fSPeter Avalos } else if (power < TEST_MINIMUM) {
27218de8d7fSPeter Avalos error("Too few bits: %u < %u", power, TEST_MINIMUM);
27318de8d7fSPeter Avalos return (-1);
27418de8d7fSPeter Avalos }
27518de8d7fSPeter Avalos power--; /* decrement before squaring */
27618de8d7fSPeter Avalos
27718de8d7fSPeter Avalos /*
27818de8d7fSPeter Avalos * The density of ordinary primes is on the order of 1/bits, so the
27918de8d7fSPeter Avalos * density of safe primes should be about (1/bits)**2. Set test range
28018de8d7fSPeter Avalos * to something well above bits**2 to be reasonably sure (but not
28118de8d7fSPeter Avalos * guaranteed) of catching at least one safe prime.
28218de8d7fSPeter Avalos */
28318de8d7fSPeter Avalos largewords = ((power * power) >> (SHIFT_WORD - TEST_POWER));
28418de8d7fSPeter Avalos
28518de8d7fSPeter Avalos /*
28618de8d7fSPeter Avalos * Need idea of how much memory is available. We don't have to use all
28718de8d7fSPeter Avalos * of it.
28818de8d7fSPeter Avalos */
28918de8d7fSPeter Avalos if (largememory > LARGE_MAXIMUM) {
29018de8d7fSPeter Avalos logit("Limited memory: %u MB; limit %lu MB",
29118de8d7fSPeter Avalos largememory, LARGE_MAXIMUM);
29218de8d7fSPeter Avalos largememory = LARGE_MAXIMUM;
29318de8d7fSPeter Avalos }
29418de8d7fSPeter Avalos
29518de8d7fSPeter Avalos if (largewords <= (largememory << SHIFT_MEGAWORD)) {
29618de8d7fSPeter Avalos logit("Increased memory: %u MB; need %u bytes",
29718de8d7fSPeter Avalos largememory, (largewords << SHIFT_BYTE));
29818de8d7fSPeter Avalos largewords = (largememory << SHIFT_MEGAWORD);
29918de8d7fSPeter Avalos } else if (largememory > 0) {
30018de8d7fSPeter Avalos logit("Decreased memory: %u MB; want %u bytes",
30118de8d7fSPeter Avalos largememory, (largewords << SHIFT_BYTE));
30218de8d7fSPeter Avalos largewords = (largememory << SHIFT_MEGAWORD);
30318de8d7fSPeter Avalos }
30418de8d7fSPeter Avalos
30518de8d7fSPeter Avalos TinySieve = xcalloc(tinywords, sizeof(u_int32_t));
30618de8d7fSPeter Avalos tinybits = tinywords << SHIFT_WORD;
30718de8d7fSPeter Avalos
30818de8d7fSPeter Avalos SmallSieve = xcalloc(smallwords, sizeof(u_int32_t));
30918de8d7fSPeter Avalos smallbits = smallwords << SHIFT_WORD;
31018de8d7fSPeter Avalos
31118de8d7fSPeter Avalos /*
31218de8d7fSPeter Avalos * dynamically determine available memory
31318de8d7fSPeter Avalos */
31418de8d7fSPeter Avalos while ((LargeSieve = calloc(largewords, sizeof(u_int32_t))) == NULL)
31518de8d7fSPeter Avalos largewords -= (1L << (SHIFT_MEGAWORD - 2)); /* 1/4 MB chunks */
31618de8d7fSPeter Avalos
31718de8d7fSPeter Avalos largebits = largewords << SHIFT_WORD;
31818de8d7fSPeter Avalos largenumbers = largebits * 2; /* even numbers excluded */
31918de8d7fSPeter Avalos
32018de8d7fSPeter Avalos /* validation check: count the number of primes tried */
32118de8d7fSPeter Avalos largetries = 0;
32218de8d7fSPeter Avalos if ((q = BN_new()) == NULL)
32318de8d7fSPeter Avalos fatal("BN_new failed");
32418de8d7fSPeter Avalos
32518de8d7fSPeter Avalos /*
32618de8d7fSPeter Avalos * Generate random starting point for subprime search, or use
32718de8d7fSPeter Avalos * specified parameter.
32818de8d7fSPeter Avalos */
32918de8d7fSPeter Avalos if ((largebase = BN_new()) == NULL)
33018de8d7fSPeter Avalos fatal("BN_new failed");
33118de8d7fSPeter Avalos if (start == NULL) {
33218de8d7fSPeter Avalos if (BN_rand(largebase, power, 1, 1) == 0)
33318de8d7fSPeter Avalos fatal("BN_rand failed");
33418de8d7fSPeter Avalos } else {
33518de8d7fSPeter Avalos if (BN_copy(largebase, start) == NULL)
33618de8d7fSPeter Avalos fatal("BN_copy: failed");
33718de8d7fSPeter Avalos }
33818de8d7fSPeter Avalos
33918de8d7fSPeter Avalos /* ensure odd */
34018de8d7fSPeter Avalos if (BN_set_bit(largebase, 0) == 0)
34118de8d7fSPeter Avalos fatal("BN_set_bit: failed");
34218de8d7fSPeter Avalos
34318de8d7fSPeter Avalos time(&time_start);
34418de8d7fSPeter Avalos
34518de8d7fSPeter Avalos logit("%.24s Sieve next %u plus %u-bit", ctime(&time_start),
34618de8d7fSPeter Avalos largenumbers, power);
34718de8d7fSPeter Avalos debug2("start point: 0x%s", BN_bn2hex(largebase));
34818de8d7fSPeter Avalos
34918de8d7fSPeter Avalos /*
35018de8d7fSPeter Avalos * TinySieve
35118de8d7fSPeter Avalos */
35218de8d7fSPeter Avalos for (i = 0; i < tinybits; i++) {
35318de8d7fSPeter Avalos if (BIT_TEST(TinySieve, i))
35418de8d7fSPeter Avalos continue; /* 2*i+3 is composite */
35518de8d7fSPeter Avalos
35618de8d7fSPeter Avalos /* The next tiny prime */
35718de8d7fSPeter Avalos t = 2 * i + 3;
35818de8d7fSPeter Avalos
35918de8d7fSPeter Avalos /* Mark all multiples of t */
36018de8d7fSPeter Avalos for (j = i + t; j < tinybits; j += t)
36118de8d7fSPeter Avalos BIT_SET(TinySieve, j);
36218de8d7fSPeter Avalos
36318de8d7fSPeter Avalos sieve_large(t);
36418de8d7fSPeter Avalos }
36518de8d7fSPeter Avalos
36618de8d7fSPeter Avalos /*
36718de8d7fSPeter Avalos * Start the small block search at the next possible prime. To avoid
36818de8d7fSPeter Avalos * fencepost errors, the last pass is skipped.
36918de8d7fSPeter Avalos */
37018de8d7fSPeter Avalos for (smallbase = TINY_NUMBER + 3;
37118de8d7fSPeter Avalos smallbase < (SMALL_MAXIMUM - TINY_NUMBER);
37218de8d7fSPeter Avalos smallbase += TINY_NUMBER) {
37318de8d7fSPeter Avalos for (i = 0; i < tinybits; i++) {
37418de8d7fSPeter Avalos if (BIT_TEST(TinySieve, i))
37518de8d7fSPeter Avalos continue; /* 2*i+3 is composite */
37618de8d7fSPeter Avalos
37718de8d7fSPeter Avalos /* The next tiny prime */
37818de8d7fSPeter Avalos t = 2 * i + 3;
37918de8d7fSPeter Avalos r = smallbase % t;
38018de8d7fSPeter Avalos
38118de8d7fSPeter Avalos if (r == 0) {
38218de8d7fSPeter Avalos s = 0; /* t divides into smallbase exactly */
38318de8d7fSPeter Avalos } else {
38418de8d7fSPeter Avalos /* smallbase+s is first entry divisible by t */
38518de8d7fSPeter Avalos s = t - r;
38618de8d7fSPeter Avalos }
38718de8d7fSPeter Avalos
38818de8d7fSPeter Avalos /*
38918de8d7fSPeter Avalos * The sieve omits even numbers, so ensure that
39018de8d7fSPeter Avalos * smallbase+s is odd. Then, step through the sieve
39118de8d7fSPeter Avalos * in increments of 2*t
39218de8d7fSPeter Avalos */
39318de8d7fSPeter Avalos if (s & 1)
39418de8d7fSPeter Avalos s += t; /* Make smallbase+s odd, and s even */
39518de8d7fSPeter Avalos
39618de8d7fSPeter Avalos /* Mark all multiples of 2*t */
39718de8d7fSPeter Avalos for (s /= 2; s < smallbits; s += t)
39818de8d7fSPeter Avalos BIT_SET(SmallSieve, s);
39918de8d7fSPeter Avalos }
40018de8d7fSPeter Avalos
40118de8d7fSPeter Avalos /*
40218de8d7fSPeter Avalos * SmallSieve
40318de8d7fSPeter Avalos */
40418de8d7fSPeter Avalos for (i = 0; i < smallbits; i++) {
40518de8d7fSPeter Avalos if (BIT_TEST(SmallSieve, i))
40618de8d7fSPeter Avalos continue; /* 2*i+smallbase is composite */
40718de8d7fSPeter Avalos
40818de8d7fSPeter Avalos /* The next small prime */
40918de8d7fSPeter Avalos sieve_large((2 * i) + smallbase);
41018de8d7fSPeter Avalos }
41118de8d7fSPeter Avalos
41218de8d7fSPeter Avalos memset(SmallSieve, 0, smallwords << SHIFT_BYTE);
41318de8d7fSPeter Avalos }
41418de8d7fSPeter Avalos
41518de8d7fSPeter Avalos time(&time_stop);
41618de8d7fSPeter Avalos
417664f4763Szrj logit("%.24s Sieved with %u small primes in %lld seconds",
418664f4763Szrj ctime(&time_stop), largetries, (long long)(time_stop - time_start));
41918de8d7fSPeter Avalos
42018de8d7fSPeter Avalos for (j = r = 0; j < largebits; j++) {
42118de8d7fSPeter Avalos if (BIT_TEST(LargeSieve, j))
42218de8d7fSPeter Avalos continue; /* Definitely composite, skip */
42318de8d7fSPeter Avalos
42418de8d7fSPeter Avalos debug2("test q = largebase+%u", 2 * j);
42518de8d7fSPeter Avalos if (BN_set_word(q, 2 * j) == 0)
42618de8d7fSPeter Avalos fatal("BN_set_word failed");
42718de8d7fSPeter Avalos if (BN_add(q, q, largebase) == 0)
42818de8d7fSPeter Avalos fatal("BN_add failed");
42918de8d7fSPeter Avalos if (qfileout(out, MODULI_TYPE_SOPHIE_GERMAIN,
43018de8d7fSPeter Avalos MODULI_TESTS_SIEVE, largetries,
43118de8d7fSPeter Avalos (power - 1) /* MSB */, (0), q) == -1) {
43218de8d7fSPeter Avalos ret = -1;
43318de8d7fSPeter Avalos break;
43418de8d7fSPeter Avalos }
43518de8d7fSPeter Avalos
43618de8d7fSPeter Avalos r++; /* count q */
43718de8d7fSPeter Avalos }
43818de8d7fSPeter Avalos
43918de8d7fSPeter Avalos time(&time_stop);
44018de8d7fSPeter Avalos
44136e94dc5SPeter Avalos free(LargeSieve);
44236e94dc5SPeter Avalos free(SmallSieve);
44336e94dc5SPeter Avalos free(TinySieve);
44418de8d7fSPeter Avalos
44518de8d7fSPeter Avalos logit("%.24s Found %u candidates", ctime(&time_stop), r);
44618de8d7fSPeter Avalos
44718de8d7fSPeter Avalos return (ret);
44818de8d7fSPeter Avalos }
44918de8d7fSPeter Avalos
45099e85e0dSPeter Avalos static void
write_checkpoint(char * cpfile,u_int32_t lineno)45199e85e0dSPeter Avalos write_checkpoint(char *cpfile, u_int32_t lineno)
45299e85e0dSPeter Avalos {
45399e85e0dSPeter Avalos FILE *fp;
454e9778795SPeter Avalos char tmp[PATH_MAX];
455*ba1276acSMatthew Dillon int r, writeok, closeok;
45699e85e0dSPeter Avalos
45799e85e0dSPeter Avalos r = snprintf(tmp, sizeof(tmp), "%s.XXXXXXXXXX", cpfile);
4580cbfa66cSDaniel Fojt if (r < 0 || r >= PATH_MAX) {
45999e85e0dSPeter Avalos logit("write_checkpoint: temp pathname too long");
46099e85e0dSPeter Avalos return;
46199e85e0dSPeter Avalos }
46299e85e0dSPeter Avalos if ((r = mkstemp(tmp)) == -1) {
46399e85e0dSPeter Avalos logit("mkstemp(%s): %s", tmp, strerror(errno));
46499e85e0dSPeter Avalos return;
46599e85e0dSPeter Avalos }
46699e85e0dSPeter Avalos if ((fp = fdopen(r, "w")) == NULL) {
46799e85e0dSPeter Avalos logit("write_checkpoint: fdopen: %s", strerror(errno));
468e9778795SPeter Avalos unlink(tmp);
46999e85e0dSPeter Avalos close(r);
47099e85e0dSPeter Avalos return;
47199e85e0dSPeter Avalos }
472*ba1276acSMatthew Dillon writeok = (fprintf(fp, "%lu\n", (unsigned long)lineno) > 0);
473*ba1276acSMatthew Dillon closeok = (fclose(fp) == 0);
474*ba1276acSMatthew Dillon if (writeok && closeok && rename(tmp, cpfile) == 0) {
47599e85e0dSPeter Avalos debug3("wrote checkpoint line %lu to '%s'",
47699e85e0dSPeter Avalos (unsigned long)lineno, cpfile);
477*ba1276acSMatthew Dillon } else {
47899e85e0dSPeter Avalos logit("failed to write to checkpoint file '%s': %s", cpfile,
47999e85e0dSPeter Avalos strerror(errno));
480*ba1276acSMatthew Dillon (void)unlink(tmp);
481*ba1276acSMatthew Dillon }
48299e85e0dSPeter Avalos }
48399e85e0dSPeter Avalos
48499e85e0dSPeter Avalos static unsigned long
read_checkpoint(char * cpfile)48599e85e0dSPeter Avalos read_checkpoint(char *cpfile)
48699e85e0dSPeter Avalos {
48799e85e0dSPeter Avalos FILE *fp;
48899e85e0dSPeter Avalos unsigned long lineno = 0;
48999e85e0dSPeter Avalos
49099e85e0dSPeter Avalos if ((fp = fopen(cpfile, "r")) == NULL)
49199e85e0dSPeter Avalos return 0;
49299e85e0dSPeter Avalos if (fscanf(fp, "%lu\n", &lineno) < 1)
49399e85e0dSPeter Avalos logit("Failed to load checkpoint from '%s'", cpfile);
49499e85e0dSPeter Avalos else
49599e85e0dSPeter Avalos logit("Loaded checkpoint from '%s' line %lu", cpfile, lineno);
49699e85e0dSPeter Avalos fclose(fp);
49799e85e0dSPeter Avalos return lineno;
49899e85e0dSPeter Avalos }
49999e85e0dSPeter Avalos
50036e94dc5SPeter Avalos static unsigned long
count_lines(FILE * f)50136e94dc5SPeter Avalos count_lines(FILE *f)
50236e94dc5SPeter Avalos {
50336e94dc5SPeter Avalos unsigned long count = 0;
50436e94dc5SPeter Avalos char lp[QLINESIZE + 1];
50536e94dc5SPeter Avalos
50636e94dc5SPeter Avalos if (fseek(f, 0, SEEK_SET) != 0) {
50736e94dc5SPeter Avalos debug("input file is not seekable");
50836e94dc5SPeter Avalos return ULONG_MAX;
50936e94dc5SPeter Avalos }
51036e94dc5SPeter Avalos while (fgets(lp, QLINESIZE + 1, f) != NULL)
51136e94dc5SPeter Avalos count++;
51236e94dc5SPeter Avalos rewind(f);
51336e94dc5SPeter Avalos debug("input file has %lu lines", count);
51436e94dc5SPeter Avalos return count;
51536e94dc5SPeter Avalos }
51636e94dc5SPeter Avalos
51736e94dc5SPeter Avalos static char *
fmt_time(time_t seconds)51836e94dc5SPeter Avalos fmt_time(time_t seconds)
51936e94dc5SPeter Avalos {
52036e94dc5SPeter Avalos int day, hr, min;
52136e94dc5SPeter Avalos static char buf[128];
52236e94dc5SPeter Avalos
52336e94dc5SPeter Avalos min = (seconds / 60) % 60;
52436e94dc5SPeter Avalos hr = (seconds / 60 / 60) % 24;
52536e94dc5SPeter Avalos day = seconds / 60 / 60 / 24;
52636e94dc5SPeter Avalos if (day > 0)
52736e94dc5SPeter Avalos snprintf(buf, sizeof buf, "%dd %d:%02d", day, hr, min);
52836e94dc5SPeter Avalos else
52936e94dc5SPeter Avalos snprintf(buf, sizeof buf, "%d:%02d", hr, min);
53036e94dc5SPeter Avalos return buf;
53136e94dc5SPeter Avalos }
53236e94dc5SPeter Avalos
53336e94dc5SPeter Avalos static void
print_progress(unsigned long start_lineno,unsigned long current_lineno,unsigned long end_lineno)53436e94dc5SPeter Avalos print_progress(unsigned long start_lineno, unsigned long current_lineno,
53536e94dc5SPeter Avalos unsigned long end_lineno)
53636e94dc5SPeter Avalos {
53736e94dc5SPeter Avalos static time_t time_start, time_prev;
53836e94dc5SPeter Avalos time_t time_now, elapsed;
53936e94dc5SPeter Avalos unsigned long num_to_process, processed, remaining, percent, eta;
54036e94dc5SPeter Avalos double time_per_line;
54136e94dc5SPeter Avalos char *eta_str;
54236e94dc5SPeter Avalos
54336e94dc5SPeter Avalos time_now = monotime();
54436e94dc5SPeter Avalos if (time_start == 0) {
54536e94dc5SPeter Avalos time_start = time_prev = time_now;
54636e94dc5SPeter Avalos return;
54736e94dc5SPeter Avalos }
54836e94dc5SPeter Avalos /* print progress after 1m then once per 5m */
54936e94dc5SPeter Avalos if (time_now - time_prev < 5 * 60)
55036e94dc5SPeter Avalos return;
55136e94dc5SPeter Avalos time_prev = time_now;
55236e94dc5SPeter Avalos elapsed = time_now - time_start;
55336e94dc5SPeter Avalos processed = current_lineno - start_lineno;
55436e94dc5SPeter Avalos remaining = end_lineno - current_lineno;
55536e94dc5SPeter Avalos num_to_process = end_lineno - start_lineno;
55636e94dc5SPeter Avalos time_per_line = (double)elapsed / processed;
55736e94dc5SPeter Avalos /* if we don't know how many we're processing just report count+time */
55836e94dc5SPeter Avalos time(&time_now);
55936e94dc5SPeter Avalos if (end_lineno == ULONG_MAX) {
56036e94dc5SPeter Avalos logit("%.24s processed %lu in %s", ctime(&time_now),
56136e94dc5SPeter Avalos processed, fmt_time(elapsed));
56236e94dc5SPeter Avalos return;
56336e94dc5SPeter Avalos }
56436e94dc5SPeter Avalos percent = 100 * processed / num_to_process;
56536e94dc5SPeter Avalos eta = time_per_line * remaining;
56636e94dc5SPeter Avalos eta_str = xstrdup(fmt_time(eta));
56736e94dc5SPeter Avalos logit("%.24s processed %lu of %lu (%lu%%) in %s, ETA %s",
56836e94dc5SPeter Avalos ctime(&time_now), processed, num_to_process, percent,
56936e94dc5SPeter Avalos fmt_time(elapsed), eta_str);
57036e94dc5SPeter Avalos free(eta_str);
57136e94dc5SPeter Avalos }
57236e94dc5SPeter Avalos
57318de8d7fSPeter Avalos /*
57418de8d7fSPeter Avalos * perform a Miller-Rabin primality test
57518de8d7fSPeter Avalos * on the list of candidates
57618de8d7fSPeter Avalos * (checking both q and p)
57718de8d7fSPeter Avalos * The result is a list of so-call "safe" primes
57818de8d7fSPeter Avalos */
57918de8d7fSPeter Avalos int
prime_test(FILE * in,FILE * out,u_int32_t trials,u_int32_t generator_wanted,char * checkpoint_file,unsigned long start_lineno,unsigned long num_lines)58099e85e0dSPeter Avalos prime_test(FILE *in, FILE *out, u_int32_t trials, u_int32_t generator_wanted,
58199e85e0dSPeter Avalos char *checkpoint_file, unsigned long start_lineno, unsigned long num_lines)
58218de8d7fSPeter Avalos {
58318de8d7fSPeter Avalos BIGNUM *q, *p, *a;
58418de8d7fSPeter Avalos char *cp, *lp;
58518de8d7fSPeter Avalos u_int32_t count_in = 0, count_out = 0, count_possible = 0;
58618de8d7fSPeter Avalos u_int32_t generator_known, in_tests, in_tries, in_type, in_size;
58799e85e0dSPeter Avalos unsigned long last_processed = 0, end_lineno;
58818de8d7fSPeter Avalos time_t time_start, time_stop;
589664f4763Szrj int res, is_prime;
59018de8d7fSPeter Avalos
59118de8d7fSPeter Avalos if (trials < TRIAL_MINIMUM) {
59218de8d7fSPeter Avalos error("Minimum primality trials is %d", TRIAL_MINIMUM);
59318de8d7fSPeter Avalos return (-1);
59418de8d7fSPeter Avalos }
59518de8d7fSPeter Avalos
59636e94dc5SPeter Avalos if (num_lines == 0)
59736e94dc5SPeter Avalos end_lineno = count_lines(in);
59836e94dc5SPeter Avalos else
59936e94dc5SPeter Avalos end_lineno = start_lineno + num_lines;
60036e94dc5SPeter Avalos
60118de8d7fSPeter Avalos time(&time_start);
60218de8d7fSPeter Avalos
60318de8d7fSPeter Avalos if ((p = BN_new()) == NULL)
60418de8d7fSPeter Avalos fatal("BN_new failed");
60518de8d7fSPeter Avalos if ((q = BN_new()) == NULL)
60618de8d7fSPeter Avalos fatal("BN_new failed");
60718de8d7fSPeter Avalos
60818de8d7fSPeter Avalos debug2("%.24s Final %u Miller-Rabin trials (%x generator)",
60918de8d7fSPeter Avalos ctime(&time_start), trials, generator_wanted);
61018de8d7fSPeter Avalos
61199e85e0dSPeter Avalos if (checkpoint_file != NULL)
61299e85e0dSPeter Avalos last_processed = read_checkpoint(checkpoint_file);
613ce74bacaSMatthew Dillon last_processed = start_lineno = MAXIMUM(last_processed, start_lineno);
61436e94dc5SPeter Avalos if (end_lineno == ULONG_MAX)
61536e94dc5SPeter Avalos debug("process from line %lu from pipe", last_processed);
61699e85e0dSPeter Avalos else
61736e94dc5SPeter Avalos debug("process from line %lu to line %lu", last_processed,
61836e94dc5SPeter Avalos end_lineno);
61999e85e0dSPeter Avalos
62018de8d7fSPeter Avalos res = 0;
62118de8d7fSPeter Avalos lp = xmalloc(QLINESIZE + 1);
62299e85e0dSPeter Avalos while (fgets(lp, QLINESIZE + 1, in) != NULL && count_in < end_lineno) {
62318de8d7fSPeter Avalos count_in++;
62499e85e0dSPeter Avalos if (count_in <= last_processed) {
62536e94dc5SPeter Avalos debug3("skipping line %u, before checkpoint or "
62636e94dc5SPeter Avalos "specified start line", count_in);
62799e85e0dSPeter Avalos continue;
62899e85e0dSPeter Avalos }
62936e94dc5SPeter Avalos if (checkpoint_file != NULL)
63099e85e0dSPeter Avalos write_checkpoint(checkpoint_file, count_in);
63136e94dc5SPeter Avalos print_progress(start_lineno, count_in, end_lineno);
63218de8d7fSPeter Avalos if (strlen(lp) < 14 || *lp == '!' || *lp == '#') {
63318de8d7fSPeter Avalos debug2("%10u: comment or short line", count_in);
63418de8d7fSPeter Avalos continue;
63518de8d7fSPeter Avalos }
63618de8d7fSPeter Avalos
63718de8d7fSPeter Avalos /* XXX - fragile parser */
63818de8d7fSPeter Avalos /* time */
63918de8d7fSPeter Avalos cp = &lp[14]; /* (skip) */
64018de8d7fSPeter Avalos
64118de8d7fSPeter Avalos /* type */
64218de8d7fSPeter Avalos in_type = strtoul(cp, &cp, 10);
64318de8d7fSPeter Avalos
64418de8d7fSPeter Avalos /* tests */
64518de8d7fSPeter Avalos in_tests = strtoul(cp, &cp, 10);
64618de8d7fSPeter Avalos
64718de8d7fSPeter Avalos if (in_tests & MODULI_TESTS_COMPOSITE) {
64818de8d7fSPeter Avalos debug2("%10u: known composite", count_in);
64918de8d7fSPeter Avalos continue;
65018de8d7fSPeter Avalos }
65118de8d7fSPeter Avalos
65218de8d7fSPeter Avalos /* tries */
65318de8d7fSPeter Avalos in_tries = strtoul(cp, &cp, 10);
65418de8d7fSPeter Avalos
65518de8d7fSPeter Avalos /* size (most significant bit) */
65618de8d7fSPeter Avalos in_size = strtoul(cp, &cp, 10);
65718de8d7fSPeter Avalos
65818de8d7fSPeter Avalos /* generator (hex) */
65918de8d7fSPeter Avalos generator_known = strtoul(cp, &cp, 16);
66018de8d7fSPeter Avalos
66118de8d7fSPeter Avalos /* Skip white space */
66218de8d7fSPeter Avalos cp += strspn(cp, " ");
66318de8d7fSPeter Avalos
66418de8d7fSPeter Avalos /* modulus (hex) */
66518de8d7fSPeter Avalos switch (in_type) {
66618de8d7fSPeter Avalos case MODULI_TYPE_SOPHIE_GERMAIN:
66718de8d7fSPeter Avalos debug2("%10u: (%u) Sophie-Germain", count_in, in_type);
66818de8d7fSPeter Avalos a = q;
66918de8d7fSPeter Avalos if (BN_hex2bn(&a, cp) == 0)
67018de8d7fSPeter Avalos fatal("BN_hex2bn failed");
67118de8d7fSPeter Avalos /* p = 2*q + 1 */
67218de8d7fSPeter Avalos if (BN_lshift(p, q, 1) == 0)
67318de8d7fSPeter Avalos fatal("BN_lshift failed");
67418de8d7fSPeter Avalos if (BN_add_word(p, 1) == 0)
67518de8d7fSPeter Avalos fatal("BN_add_word failed");
67618de8d7fSPeter Avalos in_size += 1;
67718de8d7fSPeter Avalos generator_known = 0;
67818de8d7fSPeter Avalos break;
67918de8d7fSPeter Avalos case MODULI_TYPE_UNSTRUCTURED:
68018de8d7fSPeter Avalos case MODULI_TYPE_SAFE:
68118de8d7fSPeter Avalos case MODULI_TYPE_SCHNORR:
68218de8d7fSPeter Avalos case MODULI_TYPE_STRONG:
68318de8d7fSPeter Avalos case MODULI_TYPE_UNKNOWN:
68418de8d7fSPeter Avalos debug2("%10u: (%u)", count_in, in_type);
68518de8d7fSPeter Avalos a = p;
68618de8d7fSPeter Avalos if (BN_hex2bn(&a, cp) == 0)
68718de8d7fSPeter Avalos fatal("BN_hex2bn failed");
68818de8d7fSPeter Avalos /* q = (p-1) / 2 */
68918de8d7fSPeter Avalos if (BN_rshift(q, p, 1) == 0)
69018de8d7fSPeter Avalos fatal("BN_rshift failed");
69118de8d7fSPeter Avalos break;
69218de8d7fSPeter Avalos default:
69318de8d7fSPeter Avalos debug2("Unknown prime type");
69418de8d7fSPeter Avalos break;
69518de8d7fSPeter Avalos }
69618de8d7fSPeter Avalos
69718de8d7fSPeter Avalos /*
69818de8d7fSPeter Avalos * due to earlier inconsistencies in interpretation, check
69918de8d7fSPeter Avalos * the proposed bit size.
70018de8d7fSPeter Avalos */
70118de8d7fSPeter Avalos if ((u_int32_t)BN_num_bits(p) != (in_size + 1)) {
70218de8d7fSPeter Avalos debug2("%10u: bit size %u mismatch", count_in, in_size);
70318de8d7fSPeter Avalos continue;
70418de8d7fSPeter Avalos }
70518de8d7fSPeter Avalos if (in_size < QSIZE_MINIMUM) {
70618de8d7fSPeter Avalos debug2("%10u: bit size %u too short", count_in, in_size);
70718de8d7fSPeter Avalos continue;
70818de8d7fSPeter Avalos }
70918de8d7fSPeter Avalos
71018de8d7fSPeter Avalos if (in_tests & MODULI_TESTS_MILLER_RABIN)
71118de8d7fSPeter Avalos in_tries += trials;
71218de8d7fSPeter Avalos else
71318de8d7fSPeter Avalos in_tries = trials;
71418de8d7fSPeter Avalos
71518de8d7fSPeter Avalos /*
71618de8d7fSPeter Avalos * guess unknown generator
71718de8d7fSPeter Avalos */
71818de8d7fSPeter Avalos if (generator_known == 0) {
71918de8d7fSPeter Avalos if (BN_mod_word(p, 24) == 11)
72018de8d7fSPeter Avalos generator_known = 2;
72118de8d7fSPeter Avalos else {
72218de8d7fSPeter Avalos u_int32_t r = BN_mod_word(p, 10);
72318de8d7fSPeter Avalos
72418de8d7fSPeter Avalos if (r == 3 || r == 7)
72518de8d7fSPeter Avalos generator_known = 5;
72618de8d7fSPeter Avalos }
72718de8d7fSPeter Avalos }
72818de8d7fSPeter Avalos /*
72918de8d7fSPeter Avalos * skip tests when desired generator doesn't match
73018de8d7fSPeter Avalos */
73118de8d7fSPeter Avalos if (generator_wanted > 0 &&
73218de8d7fSPeter Avalos generator_wanted != generator_known) {
73318de8d7fSPeter Avalos debug2("%10u: generator %d != %d",
73418de8d7fSPeter Avalos count_in, generator_known, generator_wanted);
73518de8d7fSPeter Avalos continue;
73618de8d7fSPeter Avalos }
73718de8d7fSPeter Avalos
73818de8d7fSPeter Avalos /*
73918de8d7fSPeter Avalos * Primes with no known generator are useless for DH, so
74018de8d7fSPeter Avalos * skip those.
74118de8d7fSPeter Avalos */
74218de8d7fSPeter Avalos if (generator_known == 0) {
74318de8d7fSPeter Avalos debug2("%10u: no known generator", count_in);
74418de8d7fSPeter Avalos continue;
74518de8d7fSPeter Avalos }
74618de8d7fSPeter Avalos
74718de8d7fSPeter Avalos count_possible++;
74818de8d7fSPeter Avalos
74918de8d7fSPeter Avalos /*
75018de8d7fSPeter Avalos * The (1/4)^N performance bound on Miller-Rabin is
75118de8d7fSPeter Avalos * extremely pessimistic, so don't spend a lot of time
75218de8d7fSPeter Avalos * really verifying that q is prime until after we know
75318de8d7fSPeter Avalos * that p is also prime. A single pass will weed out the
75418de8d7fSPeter Avalos * vast majority of composite q's.
75518de8d7fSPeter Avalos */
7560cbfa66cSDaniel Fojt is_prime = BN_is_prime_ex(q, 1, NULL, NULL);
757664f4763Szrj if (is_prime < 0)
758664f4763Szrj fatal("BN_is_prime_ex failed");
759664f4763Szrj if (is_prime == 0) {
76018de8d7fSPeter Avalos debug("%10u: q failed first possible prime test",
76118de8d7fSPeter Avalos count_in);
76218de8d7fSPeter Avalos continue;
76318de8d7fSPeter Avalos }
76418de8d7fSPeter Avalos
76518de8d7fSPeter Avalos /*
76618de8d7fSPeter Avalos * q is possibly prime, so go ahead and really make sure
76718de8d7fSPeter Avalos * that p is prime. If it is, then we can go back and do
76818de8d7fSPeter Avalos * the same for q. If p is composite, chances are that
76918de8d7fSPeter Avalos * will show up on the first Rabin-Miller iteration so it
77018de8d7fSPeter Avalos * doesn't hurt to specify a high iteration count.
77118de8d7fSPeter Avalos */
7720cbfa66cSDaniel Fojt is_prime = BN_is_prime_ex(p, trials, NULL, NULL);
773664f4763Szrj if (is_prime < 0)
774664f4763Szrj fatal("BN_is_prime_ex failed");
775664f4763Szrj if (is_prime == 0) {
77618de8d7fSPeter Avalos debug("%10u: p is not prime", count_in);
77718de8d7fSPeter Avalos continue;
77818de8d7fSPeter Avalos }
77918de8d7fSPeter Avalos debug("%10u: p is almost certainly prime", count_in);
78018de8d7fSPeter Avalos
78118de8d7fSPeter Avalos /* recheck q more rigorously */
7820cbfa66cSDaniel Fojt is_prime = BN_is_prime_ex(q, trials - 1, NULL, NULL);
783664f4763Szrj if (is_prime < 0)
784664f4763Szrj fatal("BN_is_prime_ex failed");
785664f4763Szrj if (is_prime == 0) {
78618de8d7fSPeter Avalos debug("%10u: q is not prime", count_in);
78718de8d7fSPeter Avalos continue;
78818de8d7fSPeter Avalos }
78918de8d7fSPeter Avalos debug("%10u: q is almost certainly prime", count_in);
79018de8d7fSPeter Avalos
79118de8d7fSPeter Avalos if (qfileout(out, MODULI_TYPE_SAFE,
79218de8d7fSPeter Avalos in_tests | MODULI_TESTS_MILLER_RABIN,
79318de8d7fSPeter Avalos in_tries, in_size, generator_known, p)) {
79418de8d7fSPeter Avalos res = -1;
79518de8d7fSPeter Avalos break;
79618de8d7fSPeter Avalos }
79718de8d7fSPeter Avalos
79818de8d7fSPeter Avalos count_out++;
79918de8d7fSPeter Avalos }
80018de8d7fSPeter Avalos
80118de8d7fSPeter Avalos time(&time_stop);
80236e94dc5SPeter Avalos free(lp);
80318de8d7fSPeter Avalos BN_free(p);
80418de8d7fSPeter Avalos BN_free(q);
80518de8d7fSPeter Avalos
80699e85e0dSPeter Avalos if (checkpoint_file != NULL)
80799e85e0dSPeter Avalos unlink(checkpoint_file);
80899e85e0dSPeter Avalos
80918de8d7fSPeter Avalos logit("%.24s Found %u safe primes of %u candidates in %ld seconds",
81018de8d7fSPeter Avalos ctime(&time_stop), count_out, count_possible,
81118de8d7fSPeter Avalos (long) (time_stop - time_start));
81218de8d7fSPeter Avalos
81318de8d7fSPeter Avalos return (res);
81418de8d7fSPeter Avalos }
815e9778795SPeter Avalos
816e9778795SPeter Avalos #endif /* WITH_OPENSSL */
817