* isaac - A fast, high-quality pseudo-random number generator.
*
* ISAAC (Indirect, Shift, Accumulate, Add, and Count) is the most advanced of
- * a series of pseudo-random number generators designed by Robert J. Jenkins
- * Jr. in 1996: http://www.burtleburtle.net/bob/rand/isaac.html
+ * a series of pseudo-random number generators designed by Robert J. Jenkins
+ * Jr. in 1996: http://www.burtleburtle.net/bob/rand/isaac.html
+ *
* To quote:
* No efficient method is known for deducing their internal states.
* ISAAC requires an amortized 18.75 instructions to produce a 32-bit value.
* The expected cycle length is 2**8295 values.
* ...
* ISAAC-64 generates a different sequence than ISAAC, but it uses the same
- * principles.
+ * principles.
* It uses 64-bit arithmetic.
* It generates a 64-bit result every 19 instructions.
* All cycles are at least 2**72 values, and the average cycle length is
* 2**16583.
+ *
* An additional, important comment from Bob Jenkins in 2006:
+ *
* Seeding a random number generator is essentially the same problem as
- * encrypting the seed with a block cipher.
+ * encrypting the seed with a block cipher.
* ISAAC should be initialized with the encryption of the seed by some
- * secure cipher.
+ * secure cipher.
* I've provided a seeding routine in my implementations, which nobody has
- * broken so far, but I have less faith in that initialization routine than
- * I have in ISAAC.
+ * broken so far, but I have less faith in that initialization routine than
+ * I have in ISAAC.
*
* A number of attacks on ISAAC have been published.
+ *
* [Pudo01] can recover the entire internal state and has expected running time
- * less than the square root of the number of states, or 2**4121 (4.67E+1240).
- * [Auma06] reveals a large set of weak states, consisting of those for which
- * the first value is repeated one or more times elsewhere in the state
- * vector.
- * These induce a bias in the output relative to the repeated value.
- * The seed values used as input below are scrambled before being used, so any
- * duplicates in them do not imply duplicates in the resulting internal state,
- * however the chances of some duplicate existing elsewhere in a random state
- * are just over 255/2**32, or merely 1 in 16 million.
- * Such states are, of course, much rarer in ISAAC-64.
- * It is not clear if an attacker can tell from just the output if ISAAC is in
- * a weak state, or deduce the full internal state in any case except that
- * where all or almost all of the entries in the state vector are identical.
+ * less than the square root of the number of states, or 2**4121 (4.67E+1240).
+ *
* @MISC{Pudo01,
* author="Marina Pudovkina",
* title="A Known Plaintext Attack on the {ISAAC} Keystream Generator",
* year=2001,
* note="\url{http://eprint.iacr.org/2001/049}",
* }
+ *
+ * [Auma06] reveals a large set of weak states, consisting of those for which
+ * the first value is repeated one or more times elsewhere in the state
+ * vector.
+ *
* @MISC{Auma06,
* author="Jean-Philippe Aumasson",
* title="On the Pseudo-Random Generator {ISAAC}",
* note="\url{http://eprint.iacr.org/2006/438}",
* }
*
+ * These induce a bias in the output relative to the repeated value.
+ *
+ * The seed values used as input below are scrambled before being used, so any
+ * duplicates in them do not imply duplicates in the resulting internal state,
+ * however the chances of some duplicate existing elsewhere in a random state
+ * are just over 255/2**32, or merely 1 in 16 million.
+ *
+ * Such states are, of course, much rarer in ISAAC-64.
+ *
+ * It is not clear if an attacker can tell from just the output if ISAAC is in
+ * a weak state, or deduce the full internal state in any case except that
+ * where all or almost all of the entries in the state vector are identical.
+ *
* Even if one does not trust the security of this PRNG (and, without a good
- * source of entropy to seed it, one should not), ISAAC is an excellent source
- * of high-quality random numbers for Monte Carlo simulations, etc.
+ * source of entropy to seed it, one should not), ISAAC is an excellent source
+ * of high-quality random numbers for Monte Carlo simulations, etc.
+ *
* It is the fastest 32-bit generator among all of those that pass the
- * statistical tests in the recent survey
- * http://www.iro.umontreal.ca/~simardr/testu01/tu01.html, with the exception
- * of Marsa-LFIB4, and it is quite competitive on 64-bit archtectures.
+ * statistical tests in the recent survey
+ * http://www.iro.umontreal.ca/~simardr/testu01/tu01.html, with the exception
+ * of Marsa-LFIB4, and it is quite competitive on 64-bit archtectures.
+ *
* Unlike Marsa-LFIB4 (and all other LFib generators), there are no linear
- * dependencies between successive values, and unlike many generators found in
- * libc implementations, there are no small periods in the least significant
- * bits, or seeds which lead to very small periods in general.
+ * dependencies between successive values, and unlike many generators found in
+ * libc implementations, there are no small periods in the least significant
+ * bits, or seeds which lead to very small periods in general.
*
* Example:
* #include <stdio.h>
* return 0;
* }
*
- * License: Public Domain
+ * License: CC0 (Public domain)
+ * Ccanlint:
+ * // We actually depend on the LGPL ilog routines, so not PD :(
+ * license_depends_compat FAIL
*/
+#include "config.h"
#include <string.h>
#include <stdio.h>
-#include "config.h"
int main(int _argc,const char *_argv[]){
/*Expect exactly one argument.*/