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      1 /* $OpenBSD: res_random.c,v 1.17 2008/04/13 00:28:35 djm Exp $ */
      2 
      3 /*
      4  * Copyright 1997 Niels Provos <provos (at) physnet.uni-hamburg.de>
      5  * Copyright 2008 Damien Miller <djm (at) openbsd.org>
      6  * Copyright 2008 Android Open Source Project (thread-safety)
      7  * All rights reserved.
      8  *
      9  * Theo de Raadt <deraadt (at) openbsd.org> came up with the idea of using
     10  * such a mathematical system to generate more random (yet non-repeating)
     11  * ids to solve the resolver/named problem.  But Niels designed the
     12  * actual system based on the constraints.
     13  *
     14  * Later modified by Damien Miller to wrap the LCG output in a 15-bit
     15  * permutation generator based on a Luby-Rackoff block cipher. This
     16  * ensures the output is non-repeating and preserves the MSB twiddle
     17  * trick, but makes it more resistant to LCG prediction.
     18  *
     19  * Redistribution and use in source and binary forms, with or without
     20  * modification, are permitted provided that the following conditions
     21  * are met:
     22  * 1. Redistributions of source code must retain the above copyright
     23  *    notice, this list of conditions and the following disclaimer.
     24  * 2. Redistributions in binary form must reproduce the above copyright
     25  *    notice, this list of conditions and the following disclaimer in the
     26  *    documentation and/or other materials provided with the distribution.
     27  *
     28  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     29  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     30  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     31  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     32  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     33  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     34  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     35  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     36  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     37  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     38  */
     39 
     40 /*
     41  * seed = random 15bit
     42  * n = prime, g0 = generator to n,
     43  * j = random so that gcd(j,n-1) == 1
     44  * g = g0^j mod n will be a generator again.
     45  *
     46  * X[0] = random seed.
     47  * X[n] = a*X[n-1]+b mod m is a Linear Congruential Generator
     48  * with a = 7^(even random) mod m,
     49  *      b = random with gcd(b,m) == 1
     50  *      m = 31104 and a maximal period of m-1.
     51  *
     52  * The transaction id is determined by:
     53  * id[n] = seed xor (g^X[n] mod n)
     54  *
     55  * Effectivly the id is restricted to the lower 15 bits, thus
     56  * yielding two different cycles by toggling the msb on and off.
     57  * This avoids reuse issues caused by reseeding.
     58  *
     59  * The output of this generator is then randomly permuted though a
     60  * custom 15 bit Luby-Rackoff block cipher.
     61  */
     62 
     63 #include <sys/types.h>
     64 #include <netinet/in.h>
     65 #include <sys/time.h>
     66 #include "resolv_private.h"
     67 
     68 #include <unistd.h>
     69 #include <stdlib.h>
     70 #include <string.h>
     71 
     72 /* BIONIC-BEGIN */
     73 static pthread_mutex_t         _res_random_lock = PTHREAD_MUTEX_INITIALIZER;
     74 #define  _RES_RANDOM_LOCK()    pthread_mutex_lock(&_res_random_lock)
     75 #define  _RES_RANDOM_UNLOCK()  pthread_mutex_unlock(&_res_random_lock)
     76 /* BIONIC-END */
     77 
     78 #define RU_OUT  	180	/* Time after wich will be reseeded */
     79 #define RU_MAX		30000	/* Uniq cycle, avoid blackjack prediction */
     80 #define RU_GEN		2	/* Starting generator */
     81 #define RU_N		32749	/* RU_N-1 = 2*2*3*2729 */
     82 #define RU_AGEN		7	/* determine ru_a as RU_AGEN^(2*rand) */
     83 #define RU_M		31104	/* RU_M = 2^7*3^5 - don't change */
     84 #define RU_ROUNDS	11	/* Number of rounds for permute (odd) */
     85 
     86 struct prf_ctx {
     87 	/* PRF lookup table for odd rounds (7 bits input to 8 bits output) */
     88 	u_char prf7[(RU_ROUNDS / 2) * (1 << 7)];
     89 
     90 	/* PRF lookup table for even rounds (8 bits input to 7 bits output) */
     91 	u_char prf8[((RU_ROUNDS + 1) / 2) * (1 << 8)];
     92 };
     93 
     94 #define PFAC_N 3
     95 const static u_int16_t pfacts[PFAC_N] = {
     96 	2,
     97 	3,
     98 	2729
     99 };
    100 
    101 static u_int16_t ru_x;
    102 static u_int16_t ru_seed, ru_seed2;
    103 static u_int16_t ru_a, ru_b;
    104 static u_int16_t ru_g;
    105 static u_int16_t ru_counter = 0;
    106 static u_int16_t ru_msb = 0;
    107 static struct prf_ctx *ru_prf = NULL;
    108 static long ru_reseed;
    109 
    110 static u_int16_t pmod(u_int16_t, u_int16_t, u_int16_t);
    111 static void res_initid(void);
    112 
    113 /*
    114  * Do a fast modular exponation, returned value will be in the range
    115  * of 0 - (mod-1)
    116  */
    117 static u_int16_t
    118 pmod(u_int16_t gen, u_int16_t exp, u_int16_t mod)
    119 {
    120 	u_int16_t s, t, u;
    121 
    122 	s = 1;
    123 	t = gen;
    124 	u = exp;
    125 
    126 	while (u) {
    127 		if (u & 1)
    128 			s = (s * t) % mod;
    129 		u >>= 1;
    130 		t = (t * t) % mod;
    131 	}
    132 	return (s);
    133 }
    134 
    135 /*
    136  * 15-bit permutation based on Luby-Rackoff block cipher
    137  */
    138 u_int
    139 permute15(u_int in)
    140 {
    141 	int i;
    142 	u_int left, right, tmp;
    143 
    144 	if (ru_prf == NULL)
    145 		return in;
    146 
    147 	left = (in >> 8) & 0x7f;
    148 	right = in & 0xff;
    149 
    150 	/*
    151 	 * Each round swaps the width of left and right. Even rounds have
    152 	 * a 7-bit left, odd rounds have an 8-bit left.	Since this uses an
    153 	 * odd number of rounds, left is always 8 bits wide at the end.
    154 	 */
    155 	for (i = 0; i < RU_ROUNDS; i++) {
    156 		if ((i & 1) == 0)
    157 			tmp = ru_prf->prf8[(i << (8 - 1)) | right] & 0x7f;
    158 		else
    159 			tmp = ru_prf->prf7[((i - 1) << (7 - 1)) | right];
    160 		tmp ^= left;
    161 		left = right;
    162 		right = tmp;
    163 	}
    164 
    165 	return (right << 8) | left;
    166 }
    167 
    168 /*
    169  * Initializes the seed and chooses a suitable generator. Also toggles
    170  * the msb flag. The msb flag is used to generate two distinct
    171  * cycles of random numbers and thus avoiding reuse of ids.
    172  *
    173  * This function is called from res_randomid() when needed, an
    174  * application does not have to worry about it.
    175  */
    176 static void
    177 res_initid(void)
    178 {
    179 	u_int16_t j, i;
    180 	u_int32_t tmp;
    181 	int noprime = 1;
    182 	struct timeval tv;
    183 
    184 	ru_x = arc4random_uniform(RU_M);
    185 
    186 	/* 15 bits of random seed */
    187 	tmp = arc4random();
    188 	ru_seed = (tmp >> 16) & 0x7FFF;
    189 	ru_seed2 = tmp & 0x7FFF;
    190 
    191 	/* Determine the LCG we use */
    192 	tmp = arc4random();
    193 	ru_b = (tmp & 0xfffe) | 1;
    194 	ru_a = pmod(RU_AGEN, (tmp >> 16) & 0xfffe, RU_M);
    195 	while (ru_b % 3 == 0)
    196 		ru_b += 2;
    197 
    198 	j = arc4random_uniform(RU_N);
    199 
    200 	/*
    201 	 * Do a fast gcd(j,RU_N-1), so we can find a j with
    202 	 * gcd(j, RU_N-1) == 1, giving a new generator for
    203 	 * RU_GEN^j mod RU_N
    204 	 */
    205 
    206 	while (noprime) {
    207 		for (i = 0; i < PFAC_N; i++)
    208 			if (j % pfacts[i] == 0)
    209 				break;
    210 
    211 		if (i >= PFAC_N)
    212 			noprime = 0;
    213 		else
    214 			j = (j + 1) % RU_N;
    215 	}
    216 
    217 	ru_g = pmod(RU_GEN, j, RU_N);
    218 	ru_counter = 0;
    219 
    220 	/* Initialise PRF for Luby-Rackoff permutation */
    221 	if (ru_prf == NULL)
    222 		ru_prf = malloc(sizeof(*ru_prf));
    223 	if (ru_prf != NULL)
    224 		arc4random_buf(ru_prf, sizeof(*ru_prf));
    225 
    226 	gettimeofday(&tv, NULL);
    227 	ru_reseed = tv.tv_sec + RU_OUT;
    228 	ru_msb = ru_msb == 0x8000 ? 0 : 0x8000;
    229 }
    230 
    231 u_int
    232 res_randomid(void)
    233 {
    234 	struct timeval tv;
    235         u_int  result;
    236 
    237         _RES_RANDOM_LOCK()
    238 	gettimeofday(&tv, NULL);
    239 	if (ru_counter >= RU_MAX || tv.tv_sec > ru_reseed)
    240 		res_initid();
    241 
    242 	/* Linear Congruential Generator */
    243 	ru_x = (ru_a * ru_x + ru_b) % RU_M;
    244 	ru_counter++;
    245 
    246 	result = permute15(ru_seed ^ pmod(ru_g, ru_seed2 + ru_x, RU_N)) | ru_msb;
    247         _RES_RANDOM_UNLOCK()
    248         return result;
    249 }
    250 
    251 #if 0
    252 int
    253 main(int argc, char **argv)
    254 {
    255 	int i, n;
    256 	u_int16_t wert;
    257 
    258 	res_initid();
    259 
    260 	printf("Generator: %u\n", ru_g);
    261 	printf("Seed: %u\n", ru_seed);
    262 	printf("Reseed at %ld\n", ru_reseed);
    263 	printf("Ru_X: %u\n", ru_x);
    264 	printf("Ru_A: %u\n", ru_a);
    265 	printf("Ru_B: %u\n", ru_b);
    266 
    267 	n = argc > 1 ? atoi(argv[1]) : 60001;
    268 	for (i=0;i<n;i++) {
    269 		wert = res_randomid();
    270 		printf("%u\n", wert);
    271 	}
    272 	return 0;
    273 }
    274 #endif
    275 
    276