int test_tostr(testspec_t *t, FILE *ofp) { mp_int in[2]; int radix; mp_result res, len; if(!parse_int_values(t, in, NULL, NULL)) return imath_errno = MP_BADARG, 0; if((res = mp_int_to_int(in[1], &radix)) != MP_OK) return imath_errno = MP_BADARG, 0; if(radix < MP_MIN_RADIX || radix > MP_MAX_RADIX) return imath_errno = MP_RANGE, 0; trim_line(t->output[0]); len = mp_int_string_len(in[0], radix); if((res = mp_int_to_string(in[0], radix, g_output, len)) != MP_OK) return imath_errno = res, 0; if(strcmp(t->output[0], g_output) != 0) return imath_errno = OTHER_ERROR, 0; return 1; }
void rsa_key_write(rsa_key *kp, FILE *ofp) { int len; char *obuf; len = mp_int_string_len(&(kp->n), 10); obuf = malloc(len); mp_int_to_string(&(kp->p), 10, obuf, len); fprintf(ofp, "p = %s\n", obuf); mp_int_to_string(&(kp->q), 10, obuf, len); fprintf(ofp, "q = %s\n", obuf); mp_int_to_string(&(kp->e), 10, obuf, len); fprintf(ofp, "e = %s\n", obuf); mp_int_to_string(&(kp->d), 10, obuf, len); fprintf(ofp, "d = %s\n", obuf); mp_int_to_string(&(kp->n), 10, obuf, len); fprintf(ofp, "n = %s\n", obuf); free(obuf); }
int main(int argc, char *argv[]) { mp_size radix = 10; /* Default output radix */ mpq_t value; mp_result res; char *endp; if(argc < 2) { fprintf(stderr, "Usage: input <value> [output-base]\n"); return 1; } if(argc > 2) { if((radix = atoi(argv[2])) < MP_MIN_RADIX || (radix > MP_MAX_RADIX)) { fprintf(stderr, "Error: Specified radix is out of range (%d)\n", radix); return 1; } } /* Initialize a new value, initially zero; illustrates how to check for errors (e.g., out of memory) and display a message. */ if((res = mp_rat_init(&value)) != MP_OK) { fprintf(stderr, "Error in mp_rat_init(): %s\n", mp_error_string(res)); return 1; } /* Read value in base 10 */ if((res = mp_rat_read_ustring(&value, 0, argv[1], &endp)) != MP_OK) { fprintf(stderr, "Error in mp_rat_read_ustring(): %s\n", mp_error_string(res)); if(res == MP_TRUNC) fprintf(stderr, " -- remaining input is: %s\n", endp); mp_rat_clear(&value); return 1; } printf("Here is your value in base %d\n", radix); { mp_result buf_size, res; char *obuf; if(mp_rat_is_integer(&value)) { /* Allocate a buffer big enough to hold the given value, including sign and zero terminator. */ buf_size = mp_int_string_len(MP_NUMER_P(&value), radix); obuf = malloc(buf_size); /* Convert the value to a string in the desired radix. */ if((res = mp_int_to_string(MP_NUMER_P(&value), radix, obuf, buf_size)) != MP_OK) { fprintf(stderr, "Converstion to base %d failed: %s\n", radix, mp_error_string(res)); mp_rat_clear(&value); return 1; } } else { /* Allocate a buffer big enough to hold the given value, including sign and zero terminator. */ buf_size = mp_rat_string_len(&value, radix); obuf = malloc(buf_size); /* Convert the value to a string in the desired radix. */ if((res = mp_rat_to_string(&value, radix, obuf, buf_size)) != MP_OK) { fprintf(stderr, "Conversion to base %d failed: %s\n", radix, mp_error_string(res)); mp_rat_clear(&value); return 1; } } fputs(obuf, stdout); fputc('\n', stdout); free(obuf); } /* When you are done with a value, it must be "cleared" to release the memory it occupies */ mp_rat_clear(&value); return 0; }
int main(int argc, char *argv[]) { int opt, modbits; FILE *ofp = stdout; mp_result res; find_f find_func = find_prime; char tag = 'p'; mpz_t value; /* Process command-line arguments */ while((opt = getopt(argc, argv, "s")) != EOF) { switch(opt) { case 's': find_func = find_strong_prime; tag = 'P'; break; default: fprintf(stderr, "Usage: randprime [-s] <bits> [<outfile>]\n"); return 1; } } if(optind >= argc) { fprintf(stderr, "Error: You must specify the number of significant bits.\n"); fprintf(stderr, "Usage: randprime [-s] <bits> [<outfile>]\n"); return 1; } modbits = (int) strtol(argv[optind++], NULL, 0); if(modbits < CHAR_BIT) { fprintf(stderr, "Error: Invalid value for number of significant bits.\n"); return 1; } if(modbits % 2 == 1) ++modbits; /* Check if output file is specified */ if(optind < argc) { if((ofp = fopen(argv[optind], "wt")) == NULL) { fprintf(stderr, "Error: Unable to open output file for writing.\n" " - Filename: %s\n" " - Error: %s\n", argv[optind], strerror(errno)); return 1; } } mp_int_init(&value); if ((res = mp_int_randomize(&value, modbits - 1)) != MP_OK) { fprintf(stderr, "Error: Unable to generate random start value.\n" " - %s (%d)\n", mp_error_string(res), res); goto EXIT; } fprintf(stderr, "%c: ", tag); find_func(&value, stderr); fputc('\n', stderr); /* Write the completed value to the specified output file */ { int len; char *obuf; len = mp_int_string_len(&value, 10); obuf = malloc(len); mp_int_to_string(&value, 10, obuf, len); fputs(obuf, ofp); fputc('\n', ofp); free(obuf); } EXIT: fclose(ofp); mp_int_clear(&value); return 0; }