172 lines
6.8 KiB
C
172 lines
6.8 KiB
C
/* Copyright 2015, Kenneth MacKay. Licensed under the BSD 2-clause license. */
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#ifndef _UECC_VLI_H_
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#define _UECC_VLI_H_
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#include "uECC.h"
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#include "types.h"
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/* Functions for raw large-integer manipulation. These are only available
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if uECC.c is compiled with uECC_ENABLE_VLI_API defined to 1. */
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#ifndef uECC_ENABLE_VLI_API
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#define uECC_ENABLE_VLI_API 0
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#endif
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#ifdef __cplusplus
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extern "C"
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{
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#endif
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#if uECC_ENABLE_VLI_API
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void uECC_vli_clear(uECC_word_t *vli, wordcount_t num_words);
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/* Constant-time comparison to zero - secure way to compare long integers */
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/* Returns 1 if vli == 0, 0 otherwise. */
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uECC_word_t uECC_vli_isZero(const uECC_word_t *vli, wordcount_t num_words);
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/* Returns nonzero if bit 'bit' of vli is set. */
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uECC_word_t uECC_vli_testBit(const uECC_word_t *vli, bitcount_t bit);
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/* Counts the number of bits required to represent vli. */
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bitcount_t uECC_vli_numBits(const uECC_word_t *vli, const wordcount_t max_words);
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/* Sets dest = src. */
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void uECC_vli_set(uECC_word_t *dest, const uECC_word_t *src, wordcount_t num_words);
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/* Constant-time comparison function - secure way to compare long integers */
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/* Returns one if left == right, zero otherwise */
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uECC_word_t uECC_vli_equal(const uECC_word_t *left,
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const uECC_word_t *right,
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wordcount_t num_words);
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/* Constant-time comparison function - secure way to compare long integers */
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/* Returns sign of left - right, in constant time. */
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cmpresult_t uECC_vli_cmp(const uECC_word_t *left, const uECC_word_t *right, wordcount_t num_words);
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/* Computes vli = vli >> 1. */
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void uECC_vli_rshift1(uECC_word_t *vli, wordcount_t num_words);
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/* Computes result = left + right, returning carry. Can modify in place. */
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uECC_word_t uECC_vli_add(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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wordcount_t num_words);
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/* Computes result = left - right, returning borrow. Can modify in place. */
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uECC_word_t uECC_vli_sub(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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wordcount_t num_words);
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/* Computes result = left * right. Result must be 2 * num_words long. */
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void uECC_vli_mult(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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wordcount_t num_words);
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/* Computes result = left^2. Result must be 2 * num_words long. */
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void uECC_vli_square(uECC_word_t *result, const uECC_word_t *left, wordcount_t num_words);
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/* Computes result = (left + right) % mod.
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Assumes that left < mod and right < mod, and that result does not overlap mod. */
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void uECC_vli_modAdd(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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const uECC_word_t *mod,
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wordcount_t num_words);
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/* Computes result = (left - right) % mod.
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Assumes that left < mod and right < mod, and that result does not overlap mod. */
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void uECC_vli_modSub(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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const uECC_word_t *mod,
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wordcount_t num_words);
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/* Computes result = product % mod, where product is 2N words long.
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Currently only designed to work for mod == curve->p or curve_n. */
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void uECC_vli_mmod(uECC_word_t *result,
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uECC_word_t *product,
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const uECC_word_t *mod,
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wordcount_t num_words);
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/* Calculates result = product (mod curve->p), where product is up to
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2 * curve->num_words long. */
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void uECC_vli_mmod_fast(uECC_word_t *result, uECC_word_t *product, uECC_Curve curve);
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/* Computes result = (left * right) % mod.
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Currently only designed to work for mod == curve->p or curve_n. */
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void uECC_vli_modMult(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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const uECC_word_t *mod,
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wordcount_t num_words);
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/* Computes result = (left * right) % curve->p. */
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void uECC_vli_modMult_fast(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *right,
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uECC_Curve curve);
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/* Computes result = left^2 % mod.
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Currently only designed to work for mod == curve->p or curve_n. */
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void uECC_vli_modSquare(uECC_word_t *result,
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const uECC_word_t *left,
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const uECC_word_t *mod,
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wordcount_t num_words);
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/* Computes result = left^2 % curve->p. */
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void uECC_vli_modSquare_fast(uECC_word_t *result, const uECC_word_t *left, uECC_Curve curve);
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/* Computes result = (1 / input) % mod.*/
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void uECC_vli_modInv(uECC_word_t *result,
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const uECC_word_t *input,
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const uECC_word_t *mod,
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wordcount_t num_words);
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#if uECC_SUPPORT_COMPRESSED_POINT
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/* Calculates a = sqrt(a) (mod curve->p) */
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void uECC_vli_mod_sqrt(uECC_word_t *a, uECC_Curve curve);
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#endif
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/* Converts an integer in uECC native format to big-endian bytes. */
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void uECC_vli_nativeToBytes(uint8_t *bytes, int num_bytes, const uECC_word_t *native);
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/* Converts big-endian bytes to an integer in uECC native format. */
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void uECC_vli_bytesToNative(uECC_word_t *native, const uint8_t *bytes, int num_bytes);
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unsigned uECC_curve_num_words(uECC_Curve curve);
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unsigned uECC_curve_num_bytes(uECC_Curve curve);
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unsigned uECC_curve_num_bits(uECC_Curve curve);
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unsigned uECC_curve_num_n_words(uECC_Curve curve);
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unsigned uECC_curve_num_n_bytes(uECC_Curve curve);
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unsigned uECC_curve_num_n_bits(uECC_Curve curve);
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const uECC_word_t *uECC_curve_p(uECC_Curve curve);
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const uECC_word_t *uECC_curve_n(uECC_Curve curve);
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const uECC_word_t *uECC_curve_G(uECC_Curve curve);
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const uECC_word_t *uECC_curve_b(uECC_Curve curve);
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int uECC_valid_point(const uECC_word_t *point, uECC_Curve curve);
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/* Multiplies a point by a scalar. Points are represented by the X coordinate followed by
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the Y coordinate in the same array, both coordinates are curve->num_words long. Note
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that scalar must be curve->num_n_words long (NOT curve->num_words). */
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void uECC_point_mult(uECC_word_t *result,
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const uECC_word_t *point,
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const uECC_word_t *scalar,
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uECC_Curve curve);
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/* Generates a random integer in the range 0 < random < top.
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Both random and top have num_words words. */
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int uECC_generate_random_int(uECC_word_t *random,
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const uECC_word_t *top,
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wordcount_t num_words);
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#endif /* uECC_ENABLE_VLI_API */
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#ifdef __cplusplus
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} /* end of extern "C" */
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#endif
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#endif /* _UECC_VLI_H_ */
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