/* * lfsr.c * */ #include #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; }