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https://github.com/topjohnwu/ndk-busybox.git
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ac03a40cba
function old new delta next_random 113 119 +6 Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
161 lines
4.1 KiB
C
161 lines
4.1 KiB
C
/* vi: set sw=4 ts=4: */
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/*
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* $RANDOM support.
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*
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* Copyright (C) 2009 Denys Vlasenko
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*
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* Licensed under GPLv2, see file LICENSE in this source tree.
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*/
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/* For testing against dieharder, you need only random.{c,h}
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* Howto:
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* gcc -O2 -Wall -DRANDTEST random.c -o random
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* ./random | dieharder -g 200 -a
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*/
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#if !defined RANDTEST
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# include "libbb.h"
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# include "random.h"
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# define RAND_BASH_MASK 0x7fff
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#else
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# include <stdint.h>
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# include <unistd.h>
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# include <stdio.h>
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# include <time.h>
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# define FAST_FUNC /* nothing */
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# define PUSH_AND_SET_FUNCTION_VISIBILITY_TO_HIDDEN /* nothing */
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# define POP_SAVED_FUNCTION_VISIBILITY /* nothing */
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# define monotonic_us() time(NULL)
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# include "random.h"
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# define RAND_BASH_MASK 0xffffffff /* off */
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#endif
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uint32_t FAST_FUNC
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next_random(random_t *rnd)
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{
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/* Galois LFSR parameter:
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* Taps at 32 31 29 1:
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*/
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enum { MASK = 0x8000000b };
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/* Another example - taps at 32 31 30 10: */
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/* enum { MASK = 0x00400007 }; */
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/* Xorshift parameters:
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* Choices for a,b,c: 10,13,10; 8,9,22; 2,7,3; 23,3,24
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* (given by algorithm author)
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*/
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enum {
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a = 2,
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b = 7,
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c = 3,
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};
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uint32_t t;
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if (UNINITED_RANDOM_T(rnd)) {
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/* Can use monotonic_ns() for better randomness but for now
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* it is not used anywhere else in busybox... so avoid bloat
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*/
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INIT_RANDOM_T(rnd, getpid(), monotonic_us());
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}
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/* LCG: period of 2^32, but quite weak:
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* bit 0 alternates beetween 0 and 1 (pattern of length 2)
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* bit 1 has a repeating pattern of length 4
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* bit 2 has a repeating pattern of length 8
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* etc...
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*/
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rnd->LCG = 1664525 * rnd->LCG + 1013904223;
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/* Galois LFSR:
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* period of 2^32-1 = 3 * 5 * 17 * 257 * 65537.
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* Successive values are right-shifted one bit
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* and possibly xored with a sparse constant.
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*/
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t = (rnd->galois_LFSR << 1);
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if (rnd->galois_LFSR < 0) /* if we just shifted 1 out of msb... */
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t ^= MASK;
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rnd->galois_LFSR = t;
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/* http://en.wikipedia.org/wiki/Xorshift
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* Moderately good statistical properties:
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* fails the following "dieharder -g 200 -a" tests:
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* diehard_operm5| 0
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* diehard_oqso| 0
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* diehard_count_1s_byt| 0
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* diehard_3dsphere| 3
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* diehard_squeeze| 0
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* diehard_runs| 0
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* diehard_runs| 0
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* diehard_craps| 0
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* diehard_craps| 0
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* rgb_minimum_distance| 3
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* rgb_minimum_distance| 4
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* rgb_minimum_distance| 5
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* rgb_permutations| 3
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* rgb_permutations| 4
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* rgb_permutations| 5
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* dab_filltree| 32
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* dab_filltree| 32
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* dab_monobit2| 12
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*/
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again:
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t = rnd->xs64_x ^ (rnd->xs64_x << a);
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rnd->xs64_x = rnd->xs64_y;
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rnd->xs64_y = rnd->xs64_y ^ (rnd->xs64_y >> c) ^ t ^ (t >> b);
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/*
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* Period 2^64-1 = 2^32+1 * 2^32-1 has a common divisor with Galois LFSR.
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* By skipping two possible states (0x1 and 0x2) we reduce period to
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* 2^64-3 = 13 * 3889 * 364870227143809 which has no common divisors:
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*/
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if (rnd->xs64_y == 0 && rnd->xs64_x <= 2)
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goto again;
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/* Combined LCG + Galois LFSR rng has 2^32 * 2^32-1 period.
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* Strength:
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* individually, both are extremely weak cryptographycally;
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* when combined, they fail the following "dieharder -g 200 -a" tests:
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* diehard_rank_6x8| 0
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* diehard_oqso| 0
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* diehard_dna| 0
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* diehard_count_1s_byt| 0
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* rgb_bitdist| 2
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* dab_monobit2| 12
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*
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* Combining them with xorshift-64 increases period to
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* 2^32 * 2^32-1 * 2^64-3
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* which is about 2^128, or in base 10 ~3.40*10^38.
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* Strength of the combination:
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* passes all "dieharder -g 200 -a" tests.
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*
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* Combining with subtraction and addition is just for fun.
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* It does not add meaningful strength, could use xor operation instead.
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*/
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t = rnd->galois_LFSR - rnd->LCG + rnd->xs64_y;
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/* bash compat $RANDOM range: */
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return t & RAND_BASH_MASK;
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}
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#ifdef RANDTEST
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static random_t rnd;
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int main(int argc, char **argv)
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{
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int i;
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uint32_t buf[4096];
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for (;;) {
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for (i = 0; i < sizeof(buf) / sizeof(buf[0]); i++) {
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buf[i] = next_random(&rnd);
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}
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write(1, buf, sizeof(buf));
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}
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return 0;
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}
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#endif
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