/* * Copyright (C) 2014 FH Bielefeld * * This file is part of a FH Bielefeld project. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301 USA */ /** * @file ntru_poly_ascii.c * This file allows to convert polynomials to * ascii strings, including base64 encoded. * @brief polynomials to acii */ #include "ntru_poly_ascii.h" #include "ntru_common.h" #include "ntru_mem.h" #include "ntru_params.h" #include "ntru_poly.h" #include "ntru_string.h" #include #include #include #include #include #include /** * Converts a binary representation of multiple concatenated * integers to the corresponding array of ascii chars, which * is NULL-terminated. * * It reads in 8bit chunks, as in: * * 10110101|00111100|01011001 => 90|60|89 => "Zptr = int_string; result->len = i; free(int_arr); return result; } /*------------------------------------------------------------------------*/ string * bin_poly_to_ascii(const fmpz_poly_t poly, const ntru_params *params) { string *result_string = ntru_malloc(sizeof(*result_string)); char *binary_rep = ntru_malloc(CHAR_SIZE * (params->N)); uint32_t i = 0; for (i = 0; i < params->N; i++) { fmpz *coeff = fmpz_poly_get_coeff_ptr(poly, i); if (coeff) { if (!fmpz_cmp_si(coeff, 1)) binary_rep[i] = '1'; else if (!fmpz_cmp_si(coeff, -1)) binary_rep[i] = '0'; } else { break; } } result_string->ptr = binary_rep; result_string->len = i; return result_string; } /*------------------------------------------------------------------------*/ string * bin_poly_arr_to_ascii(const fmpz_poly_t **bin_poly_arr, const uint32_t poly_c, const ntru_params *params) { char *binary_rep = NULL; size_t string_len = 0; string *ascii_string = NULL; /* * parse the polynomial coefficients into a string */ binary_rep = ntru_malloc(CHAR_SIZE * (params->N * poly_c + 1)); for (uint32_t i = 0; i < poly_c; i++) { string *single_poly_string = NULL; single_poly_string = bin_poly_to_ascii(*bin_poly_arr[i], params); memcpy(binary_rep + string_len, single_poly_string->ptr, single_poly_string->len); string_len += single_poly_string->len; string_delete(single_poly_string); } binary_rep[string_len] = '\0'; ascii_string = get_bin_arr_to_ascii(binary_rep); free(binary_rep); return ascii_string; } /*------------------------------------------------------------------------*/ string * poly_to_ascii(const fmpz_poly_t poly, const ntru_params *params) { string *result_string = ntru_malloc(sizeof(*result_string)); char *string_rep = ntru_malloc(CHAR_SIZE * (params->N)); for (uint32_t j = 0; j < params->N; j++) { uint8_t coeff = fmpz_poly_get_coeff_ui(poly, j); if (coeff == params->q) string_rep[j] = '\0'; else string_rep[j] = (char)coeff; } result_string->ptr = string_rep; result_string->len = params->N; return result_string; } /*------------------------------------------------------------------------*/ string * poly_arr_to_ascii(const fmpz_poly_t **poly_array, const uint32_t poly_c, const ntru_params *params) { char *string_rep = NULL; size_t string_len = 0; string *result_string = ntru_malloc(sizeof(*result_string)); /* * parse the polynomial coefficients into a string */ string_rep = ntru_malloc(CHAR_SIZE * (params->N * poly_c + 1)); for (uint32_t i = 0; i < poly_c; i++) { string *poly_str; poly_str = poly_to_ascii(*poly_array[i], params); memcpy(string_rep + string_len, poly_str->ptr, poly_str->len); string_len += poly_str->len; string_delete(poly_str); } result_string->ptr = string_rep; result_string->len = string_len; return result_string; } /*------------------------------------------------------------------------*/ string * poly_to_base64(const fmpz_poly_t poly, const ntru_params *params) { string *result_string = ntru_malloc(sizeof(*result_string)); string *string_rep = NULL; gchar *base64_string = NULL; string_rep = poly_to_ascii(poly, params); base64_string = g_base64_encode((const guchar *)string_rep->ptr, string_rep->len); result_string->ptr = base64_string; result_string->len = strlen(base64_string); string_delete(string_rep); return result_string; } /*------------------------------------------------------------------------*/ string * poly_arr_to_base64(const fmpz_poly_t **poly_array, const uint32_t poly_c, const ntru_params *params) { string *string_rep; string *result_string = ntru_malloc(sizeof(*result_string)); gchar *base64_string = NULL; string_rep = poly_arr_to_ascii(poly_array, poly_c, params); base64_string = g_base64_encode((const guchar *)string_rep->ptr, string_rep->len); result_string->ptr = base64_string; result_string->len = strlen(base64_string); string_delete(string_rep); return result_string; } /*------------------------------------------------------------------------*/