From 6fbafbb3a90a5491103e0044042bfc726b9eab7b Mon Sep 17 00:00:00 2001 From: Jason Gross Date: Wed, 30 Jan 2019 23:04:35 -0500 Subject: Address code review comments to improve docstrings --- p256_32.c | 24 ++++++++++++------------ 1 file changed, 12 insertions(+), 12 deletions(-) (limited to 'p256_32.c') diff --git a/p256_32.c b/p256_32.c index ef038ddfa..27c1983df 100644 --- a/p256_32.c +++ b/p256_32.c @@ -17,7 +17,7 @@ typedef signed char fiat_p256_int1; /* - * The function fiat_p256_addcarryx_u32 is an add with carry. + * The function fiat_p256_addcarryx_u32 is an addition with carry. * out1 = (arg1 + arg2 + arg3) mod 2^32 * ∧ out2 = ⌊(arg1 + arg2 + arg3) / 2^32⌋ * Input Bounds: @@ -37,7 +37,7 @@ static void fiat_p256_addcarryx_u32(uint32_t* out1, fiat_p256_uint1* out2, fiat_ } /* - * The function fiat_p256_subborrowx_u32 is a sub with borrow. + * The function fiat_p256_subborrowx_u32 is a subtraction with borrow. * out1 = (-arg1 + arg2 + -arg3) mod 2^32 * ∧ out2 = -⌊(-arg1 + arg2 + -arg3) / 2^32⌋ * Input Bounds: @@ -93,7 +93,7 @@ static void fiat_p256_cmovznz_u32(uint32_t* out1, fiat_p256_uint1 arg1, uint32_t } /* - * The function fiat_p256_mul does stuff. + * The function fiat_p256_mul multiplies two field elements in the Montgomery domain. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * arg2 = map (λ x, ⌊eval arg2 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg2 < m → * eval (fiat_p256_from_montgomery out1) mod m = (eval (fiat_p256_from_montgomery arg1) * eval (fiat_p256_from_montgomery arg2)) mod m @@ -1149,7 +1149,7 @@ static void fiat_p256_mul(uint32_t out1[8], const uint32_t arg1[8], const uint32 } /* - * The function fiat_p256_square does stuff. + * The function fiat_p256_square squares a field element in the Montgomery domain. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * eval (fiat_p256_from_montgomery out1) mod m = (eval (fiat_p256_from_montgomery arg1) * eval (fiat_p256_from_montgomery arg1)) mod m * ∧ out1 = map (λ x, ⌊eval out1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] @@ -2203,7 +2203,7 @@ static void fiat_p256_square(uint32_t out1[8], const uint32_t arg1[8]) { } /* - * The function fiat_p256_add does stuff. + * The function fiat_p256_add adds two field elements in the Montgomery domain. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * arg2 = map (λ x, ⌊eval arg2 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg2 < m → * eval (fiat_p256_from_montgomery out1) mod m = (eval (fiat_p256_from_montgomery arg1) + eval (fiat_p256_from_montgomery arg2)) mod m @@ -2294,7 +2294,7 @@ static void fiat_p256_add(uint32_t out1[8], const uint32_t arg1[8], const uint32 } /* - * The function fiat_p256_sub does stuff. + * The function fiat_p256_sub subtracts two field elements in the Montgomery domain. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * arg2 = map (λ x, ⌊eval arg2 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg2 < m → * eval (fiat_p256_from_montgomery out1) mod m = (eval (fiat_p256_from_montgomery arg1) - eval (fiat_p256_from_montgomery arg2)) mod m @@ -2368,7 +2368,7 @@ static void fiat_p256_sub(uint32_t out1[8], const uint32_t arg1[8], const uint32 } /* - * The function fiat_p256_opp does stuff. + * The function fiat_p256_opp negates a field element in the Montgomery domain. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * eval (fiat_p256_from_montgomery out1) mod m = -eval (fiat_p256_from_montgomery arg1) mod m * ∧ out1 = map (λ x, ⌊eval out1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] @@ -2440,9 +2440,9 @@ static void fiat_p256_opp(uint32_t out1[8], const uint32_t arg1[8]) { } /* - * The function fiat_p256_from_montgomery does stuff. + * The function fiat_p256_from_montgomery translates a field element out of the Montgomery domain. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → - * eval out1 mod m = (eval arg1 * 26959946660873538060741835960514744168633162839172946800369217830912^8) mod m + * eval out1 mod m = (eval arg1 * ((2^32)⁻¹ mod m)^8) mod m * ∧ out1 = map (λ x, ⌊eval out1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] * ∧ 0 ≤ eval out1 < m * Input Bounds: @@ -3049,7 +3049,7 @@ static void fiat_p256_from_montgomery(uint32_t out1[8], const uint32_t arg1[8]) } /* - * The function fiat_p256_nonzero does stuff. + * The function fiat_p256_nonzero outputs a single non-zero word if the input is non-zero and zero otherwise. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * out1 = 0 ↔ eval (fiat_p256_from_montgomery arg1) mod m = 0 * Input Bounds: @@ -3100,7 +3100,7 @@ static void fiat_p256_selectznz(uint32_t out1[8], fiat_p256_uint1 arg1, const ui } /* - * The function fiat_p256_to_bytes does stuff. + * The function fiat_p256_to_bytes serializes a field element in the Montgomery domain to bytes in little-endian order. * arg1 = map (λ x, ⌊eval arg1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] ∧ 0 ≤ eval arg1 < m → * out1 = map (λ x, ⌊(eval arg1 mod m) mod 2^(8 * (x + 1)) / 2^(8 * x)⌋) [0..31] * Input Bounds: @@ -3207,7 +3207,7 @@ static void fiat_p256_to_bytes(uint8_t out1[32], const uint32_t arg1[8]) { } /* - * The function fiat_p256_from_bytes does stuff. + * The function fiat_p256_from_bytes deserializes a field element in the Montgomery domain from bytes in little-endian order. * arg1 = map (λ x, ⌊bytes_eval arg1 mod 2^(8 * (x + 1)) / 2^(8 * x)⌋) [0..31] ∧ 0 ≤ bytes_eval arg1 < m → * eval out1 mod m = bytes_eval arg1 mod m * ∧ out1 = map (λ x, ⌊eval out1 mod 2^(32 * (x + 1)) / 2^(32 * x)⌋) [0..7] -- cgit v1.2.3