test/lfsr.c - platform/external/libsrtp2 - Gitiles

 /*
  * lfsr.c
  *
  */


 #include <stdio.h>
 #include "datatypes.h"

 uint32_t
 parity(uint32_t x) {

   x ^= (x >> 16);
   x ^= (x >> 8);
   x ^= (x >> 4);
   x ^= (x >> 2);
   x ^= (x >> 1);

   return x & 1;
 }


 /* typedef struct { */
 /*   uint32_t register[8]; */
 /* } lfsr_t; */

 void
 compute_period(uint32_t feedback_polynomial) {
   int i;
   v32_t lfsr;
   v32_t mask;

   mask.value = feedback_polynomial;
   lfsr.value = 1;

   printf("polynomial: %s\t", v32_bit_string(mask));

   for (i=0; i < 256; i++) {
 /*     printf("%s\n", v32_bit_string(lfsr)); */
     if (parity(mask.value & lfsr.value))
       lfsr.value = ((lfsr.value << 1) | 1) & 0xff;
     else
       lfsr.value = (lfsr.value << 1) & 0xff;

     /* now halt if we're back at the initial state */
     if (lfsr.value == 1) {
       printf("period: %d\n", i);
       break;
     }
   }
 }

 uint32_t poly0 = 223;


 uint32_t polynomials[39] = {
 31,
 47,
 55,
 59,
 61,
 79,
 87,
 91,
 103,
 107,
 109,
 115,
 117,
 121,
 143,
 151,
 157,
 167,
 171,
 173,
 179,
 181,
 185,
 199,
 203,
 205,
 211,
 213,
 227,
 229,
 233,
 241,
 127,
 191,
 223,
 239,
 247,
 251,
 253
 };

 char binary_string[32];

 char *
 u32_bit_string(uint32_t x, unsigned int length) {
   unsigned int mask;
   int index;

   mask = 1 << length;
   index = 0;
   for (; mask > 0; mask >>= 1)
     if ((x & mask) == 0)
       binary_string[index++] = '0';
     else
       binary_string[index++] = '1';

   binary_string[index++] = 0;  /* NULL terminate string */
   return binary_string;
 }

 extern int octet_weight[256];

 unsigned int
 weight(uint32_t poly) {
   int wt = 0;

   /* note: endian-ness makes no difference */
   wt += octet_weight[poly        & 0xff];
   wt += octet_weight[(poly >> 8) & 0xff];
   wt += octet_weight[(poly >> 16) & 0xff];
   wt += octet_weight[(poly >> 24)];

   return wt;
 }

 #define MAX_PERIOD 65535

 #define debug_print 0

 int
 period(uint32_t poly) {
   int i;
   uint32_t x;


   /* set lfsr to 1 */
   x = 1;
 #if debug_print
   printf("%d:\t%s\n", 0, u32_bit_string(x,8));
 #endif
   for (i=1; i < MAX_PERIOD; i++) {
     if (x & 1)
       x = (x >> 1) ^ poly;
     else
       x = (x >> 1);

 #if debug_print
     /* print for a sanity check */
     printf("%d:\t%s\n", i, u32_bit_string(x,8));
 #endif

     /* check for return to original value */
     if (x == 1)
       return i;
   }
   return i;
 }

 /*
  * weight distribution computes the weight distribution of the
  * code generated by the polynomial poly
  */

 #define MAX_LEN    8
 #define MAX_WEIGHT (1 << MAX_LEN)

 int A[MAX_WEIGHT+1];

 void
 weight_distribution2(uint32_t poly, int *A) {
   int i;
   uint32_t x;

   /* zeroize array */
   for (i=0; i < MAX_WEIGHT+1; i++)
     A[i] = 0;

   /* loop over all input sequences */


   /* set lfsr to 1 */
   x = 1;
 #if debug_print
   printf("%d:\t%s\n", 0, u32_bit_string(x,8));
 #endif
   for (i=1; i < MAX_PERIOD; i++) {
     if (x & 1)
       x = (x >> 1) ^ poly;
     else
       x = (x >> 1);

 #if debug_print
     /* print for a sanity check */
     printf("%d:\t%s\n", i, u32_bit_string(x,8));
 #endif

     /* increment weight */
     wt += (x & 1);

     /* check for return to original value */
     if (x == 1)
       break;
   }

   /* set zero */
   A[0] = 0;
 }


 void
 weight_distribution(uint32_t poly, int *A) {
   int i;
   uint32_t x;

   /* zeroize array */
   for (i=0; i < MAX_WEIGHT+1; i++)
     A[i] = 0;

   /* set lfsr to 1 */
   x = 1;
 #if debug_print
   printf("%d:\t%s\n", 0, u32_bit_string(x,8));
 #endif
   for (i=1; i < MAX_PERIOD; i++) {
     if (x & 1)
       x = (x >> 1) ^ poly;
     else
       x = (x >> 1);

 #if debug_print
     /* print for a sanity check */
     printf("%d:\t%s\n", i, u32_bit_string(x,8));
 #endif

     /* compute weight, increment proper element */
     A[weight(x)]++;

     /* check for return to original value */
     if (x == 1)
       break;
   }

   /* set zero */
   A[0] = 0;
 }


 int
 main () {

   int i,j;
   v32_t x;
   v32_t p;

   /* originally 0xaf */
   p.value = 0x9;

   printf("polynomial: %s\tperiod: %d\n",
  	   u32_bit_string(p.value,8), period(p.value));

    /* compute weight distribution */
   weight_distribution(p.value, A);

   /* print weight distribution */
   for (i=0; i <= 8; i++) {
     printf("A[%d]: %d\n", i, A[i]);
   }

 #if 0
   for (i=0; i < 39; i++) {
      printf("polynomial: %s\tperiod: %d\n",
  	   u32_bit_string(polynomials[i],8), period(polynomials[i]));

      /* compute weight distribution */
      weight_distribution(p.value, A);

      /* print weight distribution */
      for (j=0; j <= 8; j++) {
        printf("A[%d]: %d\n", j, A[j]);
      }
   }
 #endif

   {
     int bits = 8;
     uint32_t y;
     for (y=0; y < (1 << bits); y++) {
       printf("polynomial: %s\tweight: %d\tperiod: %d\n",
 	     u32_bit_string(y,bits), weight(y), period(y));

       /* compute weight distribution */
       weight_distribution(y, A);

       /* print weight distribution */
       for (j=0; j <= 8; j++) {
 	printf("A[%d]: %d\n", j, A[j]);
       }
     }
   }

   return 0;
 }
	/*
	* lfsr.c
	*
	*/


	#include <stdio.h>
	#include "datatypes.h"

	uint32_t
	parity(uint32_t x) {

	x ^= (x >> 16);
	x ^= (x >> 8);
	x ^= (x >> 4);
	x ^= (x >> 2);
	x ^= (x >> 1);

	return x & 1;
	}


	/* typedef struct { */
	/* uint32_t register[8]; */
	/* } lfsr_t; */

	void
	compute_period(uint32_t feedback_polynomial) {
	int i;
	v32_t lfsr;
	v32_t mask;

	mask.value = feedback_polynomial;
	lfsr.value = 1;

	printf("polynomial: %s\t", v32_bit_string(mask));

	for (i=0; i < 256; i++) {
	/* printf("%s\n", v32_bit_string(lfsr)); */
	if (parity(mask.value & lfsr.value))
	lfsr.value = ((lfsr.value << 1) \| 1) & 0xff;
	else
	lfsr.value = (lfsr.value << 1) & 0xff;

	/* now halt if we're back at the initial state */
	if (lfsr.value == 1) {
	printf("period: %d\n", i);
	break;
	}
	}
	}

	uint32_t poly0 = 223;


	uint32_t polynomials[39] = {
	31,
	47,
	55,
	59,
	61,
	79,
	87,
	91,
	103,
	107,
	109,
	115,
	117,
	121,
	143,
	151,
	157,
	167,
	171,
	173,
	179,
	181,
	185,
	199,
	203,
	205,
	211,
	213,
	227,
	229,
	233,
	241,
	127,
	191,
	223,
	239,
	247,
	251,
	253
	};

	char binary_string[32];

	char *
	u32_bit_string(uint32_t x, unsigned int length) {
	unsigned int mask;
	int index;

	mask = 1 << length;
	index = 0;
	for (; mask > 0; mask >>= 1)
	if ((x & mask) == 0)
	binary_string[index++] = '0';
	else
	binary_string[index++] = '1';

	binary_string[index++] = 0; /* NULL terminate string */
	return binary_string;
	}

	extern int octet_weight[256];

	unsigned int
	weight(uint32_t poly) {
	int wt = 0;

	/* note: endian-ness makes no difference */
	wt += octet_weight[poly & 0xff];
	wt += octet_weight[(poly >> 8) & 0xff];
	wt += octet_weight[(poly >> 16) & 0xff];
	wt += octet_weight[(poly >> 24)];

	return wt;
	}

	#define MAX_PERIOD 65535

	#define debug_print 0

	int
	period(uint32_t poly) {
	int i;
	uint32_t x;


	/* set lfsr to 1 */
	x = 1;
	#if debug_print
	printf("%d:\t%s\n", 0, u32_bit_string(x,8));
	#endif
	for (i=1; i < MAX_PERIOD; i++) {
	if (x & 1)
	x = (x >> 1) ^ poly;
	else
	x = (x >> 1);

	#if debug_print
	/* print for a sanity check */
	printf("%d:\t%s\n", i, u32_bit_string(x,8));
	#endif

	/* check for return to original value */
	if (x == 1)
	return i;
	}
	return i;
	}

	/*
	* weight distribution computes the weight distribution of the
	* code generated by the polynomial poly
	*/

	#define MAX_LEN 8
	#define MAX_WEIGHT (1 << MAX_LEN)

	int A[MAX_WEIGHT+1];

	void
	weight_distribution2(uint32_t poly, int *A) {
	int i;
	uint32_t x;

	/* zeroize array */
	for (i=0; i < MAX_WEIGHT+1; i++)
	A[i] = 0;

	/* loop over all input sequences */


	/* set lfsr to 1 */
	x = 1;
	#if debug_print
	printf("%d:\t%s\n", 0, u32_bit_string(x,8));
	#endif
	for (i=1; i < MAX_PERIOD; i++) {
	if (x & 1)
	x = (x >> 1) ^ poly;
	else
	x = (x >> 1);

	#if debug_print
	/* print for a sanity check */
	printf("%d:\t%s\n", i, u32_bit_string(x,8));
	#endif

	/* increment weight */
	wt += (x & 1);

	/* check for return to original value */
	if (x == 1)
	break;
	}

	/* set zero */
	A[0] = 0;
	}


	void
	weight_distribution(uint32_t poly, int *A) {
	int i;
	uint32_t x;

	/* zeroize array */
	for (i=0; i < MAX_WEIGHT+1; i++)
	A[i] = 0;

	/* set lfsr to 1 */
	x = 1;
	#if debug_print
	printf("%d:\t%s\n", 0, u32_bit_string(x,8));
	#endif
	for (i=1; i < MAX_PERIOD; i++) {
	if (x & 1)
	x = (x >> 1) ^ poly;
	else
	x = (x >> 1);

	#if debug_print
	/* print for a sanity check */
	printf("%d:\t%s\n", i, u32_bit_string(x,8));
	#endif

	/* compute weight, increment proper element */
	A[weight(x)]++;

	/* check for return to original value */
	if (x == 1)
	break;
	}

	/* set zero */
	A[0] = 0;
	}




	int
	main () {

	int i,j;
	v32_t x;
	v32_t p;

	/* originally 0xaf */
	p.value = 0x9;

	printf("polynomial: %s\tperiod: %d\n",
	u32_bit_string(p.value,8), period(p.value));

	/* compute weight distribution */
	weight_distribution(p.value, A);

	/* print weight distribution */
	for (i=0; i <= 8; i++) {
	printf("A[%d]: %d\n", i, A[i]);
	}

	#if 0
	for (i=0; i < 39; i++) {
	printf("polynomial: %s\tperiod: %d\n",
	u32_bit_string(polynomials[i],8), period(polynomials[i]));

	/* compute weight distribution */
	weight_distribution(p.value, A);

	/* print weight distribution */
	for (j=0; j <= 8; j++) {
	printf("A[%d]: %d\n", j, A[j]);
	}
	}
	#endif

	{
	int bits = 8;
	uint32_t y;
	for (y=0; y < (1 << bits); y++) {
	printf("polynomial: %s\tweight: %d\tperiod: %d\n",
	u32_bit_string(y,bits), weight(y), period(y));

	/* compute weight distribution */
	weight_distribution(y, A);

	/* print weight distribution */
	for (j=0; j <= 8; j++) {
	printf("A[%d]: %d\n", j, A[j]);
	}
	}
	}

	return 0;
	}