From fba28f19754f62b5227650143d5441fc86d4c7d7 Mon Sep 17 00:00:00 2001 From: wolfbeast Date: Wed, 25 Apr 2018 21:33:33 +0200 Subject: Revert "Update NSS to 3.35-RTM" This reverts commit f1a0f0a56fdd0fc39f255174ce08c06b91c66c94. --- security/nss/lib/freebl/verified/FStar.c | 255 ------- security/nss/lib/freebl/verified/FStar.h | 69 -- security/nss/lib/freebl/verified/Hacl_Chacha20.c | 270 ------- security/nss/lib/freebl/verified/Hacl_Chacha20.h | 81 -- security/nss/lib/freebl/verified/Hacl_Curve25519.c | 845 --------------------- security/nss/lib/freebl/verified/Hacl_Curve25519.h | 57 -- .../nss/lib/freebl/verified/Hacl_Poly1305_64.c | 485 ------------ .../nss/lib/freebl/verified/Hacl_Poly1305_64.h | 99 --- security/nss/lib/freebl/verified/kremlib.h | 672 ---------------- security/nss/lib/freebl/verified/kremlib_base.h | 191 ----- .../nss/lib/freebl/verified/specs/Spec.CTR.fst | 98 --- .../lib/freebl/verified/specs/Spec.Chacha20.fst | 169 ----- .../lib/freebl/verified/specs/Spec.Curve25519.fst | 168 ---- .../lib/freebl/verified/specs/Spec.Poly1305.fst | 107 --- 14 files changed, 3566 deletions(-) delete mode 100644 security/nss/lib/freebl/verified/FStar.c delete mode 100644 security/nss/lib/freebl/verified/FStar.h delete mode 100644 security/nss/lib/freebl/verified/Hacl_Chacha20.c delete mode 100644 security/nss/lib/freebl/verified/Hacl_Chacha20.h delete mode 100644 security/nss/lib/freebl/verified/Hacl_Curve25519.c delete mode 100644 security/nss/lib/freebl/verified/Hacl_Curve25519.h delete mode 100644 security/nss/lib/freebl/verified/Hacl_Poly1305_64.c delete mode 100644 security/nss/lib/freebl/verified/Hacl_Poly1305_64.h delete mode 100644 security/nss/lib/freebl/verified/kremlib.h delete mode 100644 security/nss/lib/freebl/verified/kremlib_base.h delete mode 100644 security/nss/lib/freebl/verified/specs/Spec.CTR.fst delete mode 100644 security/nss/lib/freebl/verified/specs/Spec.Chacha20.fst delete mode 100644 security/nss/lib/freebl/verified/specs/Spec.Curve25519.fst delete mode 100644 security/nss/lib/freebl/verified/specs/Spec.Poly1305.fst (limited to 'security/nss/lib/freebl/verified') diff --git a/security/nss/lib/freebl/verified/FStar.c b/security/nss/lib/freebl/verified/FStar.c deleted file mode 100644 index 4e5f6d50d..000000000 --- a/security/nss/lib/freebl/verified/FStar.c +++ /dev/null @@ -1,255 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -/* This file was auto-generated by KreMLin! */ - -#include "FStar.h" - -static uint64_t -FStar_UInt128_constant_time_carry(uint64_t a, uint64_t b) -{ - return (a ^ ((a ^ b) | ((a - b) ^ b))) >> (uint32_t)63U; -} - -static uint64_t -FStar_UInt128_carry(uint64_t a, uint64_t b) -{ - return FStar_UInt128_constant_time_carry(a, b); -} - -FStar_UInt128_uint128 -FStar_UInt128_add(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ( - (FStar_UInt128_uint128){ - .low = a.low + b.low, - .high = a.high + b.high + FStar_UInt128_carry(a.low + b.low, b.low) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_add_mod(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ( - (FStar_UInt128_uint128){ - .low = a.low + b.low, - .high = a.high + b.high + FStar_UInt128_carry(a.low + b.low, b.low) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_sub(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ( - (FStar_UInt128_uint128){ - .low = a.low - b.low, - .high = a.high - b.high - FStar_UInt128_carry(a.low, a.low - b.low) }); -} - -static FStar_UInt128_uint128 -FStar_UInt128_sub_mod_impl(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ( - (FStar_UInt128_uint128){ - .low = a.low - b.low, - .high = a.high - b.high - FStar_UInt128_carry(a.low, a.low - b.low) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_sub_mod(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return FStar_UInt128_sub_mod_impl(a, b); -} - -FStar_UInt128_uint128 -FStar_UInt128_logand(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ((FStar_UInt128_uint128){.low = a.low & b.low, .high = a.high & b.high }); -} - -FStar_UInt128_uint128 -FStar_UInt128_logxor(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ((FStar_UInt128_uint128){.low = a.low ^ b.low, .high = a.high ^ b.high }); -} - -FStar_UInt128_uint128 -FStar_UInt128_logor(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ((FStar_UInt128_uint128){.low = a.low | b.low, .high = a.high | b.high }); -} - -FStar_UInt128_uint128 -FStar_UInt128_lognot(FStar_UInt128_uint128 a) -{ - return ((FStar_UInt128_uint128){.low = ~a.low, .high = ~a.high }); -} - -static uint32_t FStar_UInt128_u32_64 = (uint32_t)64U; - -static uint64_t -FStar_UInt128_add_u64_shift_left(uint64_t hi, uint64_t lo, uint32_t s) -{ - return (hi << s) + (lo >> (FStar_UInt128_u32_64 - s)); -} - -static uint64_t -FStar_UInt128_add_u64_shift_left_respec(uint64_t hi, uint64_t lo, uint32_t s) -{ - return FStar_UInt128_add_u64_shift_left(hi, lo, s); -} - -static FStar_UInt128_uint128 -FStar_UInt128_shift_left_small(FStar_UInt128_uint128 a, uint32_t s) -{ - if (s == (uint32_t)0U) - return a; - else - return ( - (FStar_UInt128_uint128){ - .low = a.low << s, - .high = FStar_UInt128_add_u64_shift_left_respec(a.high, a.low, s) }); -} - -static FStar_UInt128_uint128 -FStar_UInt128_shift_left_large(FStar_UInt128_uint128 a, uint32_t s) -{ - return ((FStar_UInt128_uint128){.low = (uint64_t)0U, .high = a.low << (s - FStar_UInt128_u32_64) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_shift_left(FStar_UInt128_uint128 a, uint32_t s) -{ - if (s < FStar_UInt128_u32_64) - return FStar_UInt128_shift_left_small(a, s); - else - return FStar_UInt128_shift_left_large(a, s); -} - -static uint64_t -FStar_UInt128_add_u64_shift_right(uint64_t hi, uint64_t lo, uint32_t s) -{ - return (lo >> s) + (hi << (FStar_UInt128_u32_64 - s)); -} - -static uint64_t -FStar_UInt128_add_u64_shift_right_respec(uint64_t hi, uint64_t lo, uint32_t s) -{ - return FStar_UInt128_add_u64_shift_right(hi, lo, s); -} - -static FStar_UInt128_uint128 -FStar_UInt128_shift_right_small(FStar_UInt128_uint128 a, uint32_t s) -{ - if (s == (uint32_t)0U) - return a; - else - return ( - (FStar_UInt128_uint128){ - .low = FStar_UInt128_add_u64_shift_right_respec(a.high, a.low, s), - .high = a.high >> s }); -} - -static FStar_UInt128_uint128 -FStar_UInt128_shift_right_large(FStar_UInt128_uint128 a, uint32_t s) -{ - return ((FStar_UInt128_uint128){.low = a.high >> (s - FStar_UInt128_u32_64), .high = (uint64_t)0U }); -} - -FStar_UInt128_uint128 -FStar_UInt128_shift_right(FStar_UInt128_uint128 a, uint32_t s) -{ - if (s < FStar_UInt128_u32_64) - return FStar_UInt128_shift_right_small(a, s); - else - return FStar_UInt128_shift_right_large(a, s); -} - -FStar_UInt128_uint128 -FStar_UInt128_eq_mask(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ( - (FStar_UInt128_uint128){ - .low = FStar_UInt64_eq_mask(a.low, b.low) & FStar_UInt64_eq_mask(a.high, b.high), - .high = FStar_UInt64_eq_mask(a.low, b.low) & FStar_UInt64_eq_mask(a.high, b.high) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_gte_mask(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) -{ - return ( - (FStar_UInt128_uint128){ - .low = (FStar_UInt64_gte_mask(a.high, b.high) & ~FStar_UInt64_eq_mask(a.high, b.high)) | (FStar_UInt64_eq_mask(a.high, b.high) & FStar_UInt64_gte_mask(a.low, b.low)), - .high = (FStar_UInt64_gte_mask(a.high, b.high) & ~FStar_UInt64_eq_mask(a.high, b.high)) | (FStar_UInt64_eq_mask(a.high, b.high) & FStar_UInt64_gte_mask(a.low, b.low)) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_uint64_to_uint128(uint64_t a) -{ - return ((FStar_UInt128_uint128){.low = a, .high = (uint64_t)0U }); -} - -uint64_t -FStar_UInt128_uint128_to_uint64(FStar_UInt128_uint128 a) -{ - return a.low; -} - -static uint64_t FStar_UInt128_u64_l32_mask = (uint64_t)0xffffffffU; - -static uint64_t -FStar_UInt128_u64_mod_32(uint64_t a) -{ - return a & FStar_UInt128_u64_l32_mask; -} - -static uint32_t FStar_UInt128_u32_32 = (uint32_t)32U; - -static K___uint64_t_uint64_t_uint64_t_uint64_t -FStar_UInt128_mul_wide_impl_t_(uint64_t x, uint64_t y) -{ - return ( - (K___uint64_t_uint64_t_uint64_t_uint64_t){ - .fst = FStar_UInt128_u64_mod_32(x), - .snd = FStar_UInt128_u64_mod_32(FStar_UInt128_u64_mod_32(x) * FStar_UInt128_u64_mod_32(y)), - .thd = x >> FStar_UInt128_u32_32, - .f3 = (x >> FStar_UInt128_u32_32) * FStar_UInt128_u64_mod_32(y) + (FStar_UInt128_u64_mod_32(x) * FStar_UInt128_u64_mod_32(y) >> FStar_UInt128_u32_32) }); -} - -static uint64_t -FStar_UInt128_u32_combine_(uint64_t hi, uint64_t lo) -{ - return lo + (hi << FStar_UInt128_u32_32); -} - -static FStar_UInt128_uint128 -FStar_UInt128_mul_wide_impl(uint64_t x, uint64_t y) -{ - K___uint64_t_uint64_t_uint64_t_uint64_t scrut = FStar_UInt128_mul_wide_impl_t_(x, y); - uint64_t u1 = scrut.fst; - uint64_t w3 = scrut.snd; - uint64_t x_ = scrut.thd; - uint64_t t_ = scrut.f3; - return ( - (FStar_UInt128_uint128){ - .low = FStar_UInt128_u32_combine_(u1 * (y >> FStar_UInt128_u32_32) + FStar_UInt128_u64_mod_32(t_), - w3), - .high = x_ * (y >> FStar_UInt128_u32_32) + (t_ >> FStar_UInt128_u32_32) + - ((u1 * (y >> FStar_UInt128_u32_32) + FStar_UInt128_u64_mod_32(t_)) >> FStar_UInt128_u32_32) }); -} - -FStar_UInt128_uint128 -FStar_UInt128_mul_wide(uint64_t x, uint64_t y) -{ - return FStar_UInt128_mul_wide_impl(x, y); -} diff --git a/security/nss/lib/freebl/verified/FStar.h b/security/nss/lib/freebl/verified/FStar.h deleted file mode 100644 index 7b105b8f2..000000000 --- a/security/nss/lib/freebl/verified/FStar.h +++ /dev/null @@ -1,69 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -/* This file was auto-generated by KreMLin! */ -#ifndef __FStar_H -#define __FStar_H - -#include "kremlib_base.h" - -typedef struct -{ - uint64_t low; - uint64_t high; -} FStar_UInt128_uint128; - -typedef FStar_UInt128_uint128 FStar_UInt128_t; - -extern void FStar_UInt128_constant_time_carry_ok(uint64_t x0, uint64_t x1); - -FStar_UInt128_uint128 FStar_UInt128_add(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_add_mod(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_sub(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_sub_mod(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_logand(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_logxor(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_logor(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_lognot(FStar_UInt128_uint128 a); - -FStar_UInt128_uint128 FStar_UInt128_shift_left(FStar_UInt128_uint128 a, uint32_t s); - -FStar_UInt128_uint128 FStar_UInt128_shift_right(FStar_UInt128_uint128 a, uint32_t s); - -FStar_UInt128_uint128 FStar_UInt128_eq_mask(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_gte_mask(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b); - -FStar_UInt128_uint128 FStar_UInt128_uint64_to_uint128(uint64_t a); - -uint64_t FStar_UInt128_uint128_to_uint64(FStar_UInt128_uint128 a); - -typedef struct -{ - uint64_t fst; - uint64_t snd; - uint64_t thd; - uint64_t f3; -} K___uint64_t_uint64_t_uint64_t_uint64_t; - -FStar_UInt128_uint128 FStar_UInt128_mul_wide(uint64_t x, uint64_t y); -#endif diff --git a/security/nss/lib/freebl/verified/Hacl_Chacha20.c b/security/nss/lib/freebl/verified/Hacl_Chacha20.c deleted file mode 100644 index 45a743035..000000000 --- a/security/nss/lib/freebl/verified/Hacl_Chacha20.c +++ /dev/null @@ -1,270 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include "Hacl_Chacha20.h" - -static void -Hacl_Lib_LoadStore32_uint32s_from_le_bytes(uint32_t *output, uint8_t *input, uint32_t len) -{ - for (uint32_t i = (uint32_t)0U; i < len; i = i + (uint32_t)1U) { - uint8_t *x0 = input + (uint32_t)4U * i; - uint32_t inputi = load32_le(x0); - output[i] = inputi; - } -} - -static void -Hacl_Lib_LoadStore32_uint32s_to_le_bytes(uint8_t *output, uint32_t *input, uint32_t len) -{ - for (uint32_t i = (uint32_t)0U; i < len; i = i + (uint32_t)1U) { - uint32_t hd1 = input[i]; - uint8_t *x0 = output + (uint32_t)4U * i; - store32_le(x0, hd1); - } -} - -inline static uint32_t -Hacl_Impl_Chacha20_rotate_left(uint32_t a, uint32_t s) -{ - return a << s | a >> ((uint32_t)32U - s); -} - -inline static void -Hacl_Impl_Chacha20_quarter_round(uint32_t *st, uint32_t a, uint32_t b, uint32_t c, uint32_t d) -{ - uint32_t sa = st[a]; - uint32_t sb0 = st[b]; - st[a] = sa + sb0; - uint32_t sd = st[d]; - uint32_t sa10 = st[a]; - uint32_t sda = sd ^ sa10; - st[d] = Hacl_Impl_Chacha20_rotate_left(sda, (uint32_t)16U); - uint32_t sa0 = st[c]; - uint32_t sb1 = st[d]; - st[c] = sa0 + sb1; - uint32_t sd0 = st[b]; - uint32_t sa11 = st[c]; - uint32_t sda0 = sd0 ^ sa11; - st[b] = Hacl_Impl_Chacha20_rotate_left(sda0, (uint32_t)12U); - uint32_t sa2 = st[a]; - uint32_t sb2 = st[b]; - st[a] = sa2 + sb2; - uint32_t sd1 = st[d]; - uint32_t sa12 = st[a]; - uint32_t sda1 = sd1 ^ sa12; - st[d] = Hacl_Impl_Chacha20_rotate_left(sda1, (uint32_t)8U); - uint32_t sa3 = st[c]; - uint32_t sb = st[d]; - st[c] = sa3 + sb; - uint32_t sd2 = st[b]; - uint32_t sa1 = st[c]; - uint32_t sda2 = sd2 ^ sa1; - st[b] = Hacl_Impl_Chacha20_rotate_left(sda2, (uint32_t)7U); -} - -inline static void -Hacl_Impl_Chacha20_double_round(uint32_t *st) -{ - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)0U, (uint32_t)4U, (uint32_t)8U, (uint32_t)12U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)1U, (uint32_t)5U, (uint32_t)9U, (uint32_t)13U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)2U, (uint32_t)6U, (uint32_t)10U, (uint32_t)14U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)3U, (uint32_t)7U, (uint32_t)11U, (uint32_t)15U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)0U, (uint32_t)5U, (uint32_t)10U, (uint32_t)15U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)1U, (uint32_t)6U, (uint32_t)11U, (uint32_t)12U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)2U, (uint32_t)7U, (uint32_t)8U, (uint32_t)13U); - Hacl_Impl_Chacha20_quarter_round(st, (uint32_t)3U, (uint32_t)4U, (uint32_t)9U, (uint32_t)14U); -} - -inline static void -Hacl_Impl_Chacha20_rounds(uint32_t *st) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)10U; i = i + (uint32_t)1U) - Hacl_Impl_Chacha20_double_round(st); -} - -inline static void -Hacl_Impl_Chacha20_sum_states(uint32_t *st, uint32_t *st_) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)16U; i = i + (uint32_t)1U) { - uint32_t xi = st[i]; - uint32_t yi = st_[i]; - st[i] = xi + yi; - } -} - -inline static void -Hacl_Impl_Chacha20_copy_state(uint32_t *st, uint32_t *st_) -{ - memcpy(st, st_, (uint32_t)16U * sizeof st_[0U]); -} - -inline static void -Hacl_Impl_Chacha20_chacha20_core(uint32_t *k, uint32_t *st, uint32_t ctr) -{ - st[12U] = ctr; - Hacl_Impl_Chacha20_copy_state(k, st); - Hacl_Impl_Chacha20_rounds(k); - Hacl_Impl_Chacha20_sum_states(k, st); -} - -inline static void -Hacl_Impl_Chacha20_chacha20_block(uint8_t *stream_block, uint32_t *st, uint32_t ctr) -{ - uint32_t st_[16U] = { 0U }; - Hacl_Impl_Chacha20_chacha20_core(st_, st, ctr); - Hacl_Lib_LoadStore32_uint32s_to_le_bytes(stream_block, st_, (uint32_t)16U); -} - -inline static void -Hacl_Impl_Chacha20_init(uint32_t *st, uint8_t *k, uint8_t *n1) -{ - uint32_t *stcst = st; - uint32_t *stk = st + (uint32_t)4U; - uint32_t *stc = st + (uint32_t)12U; - uint32_t *stn = st + (uint32_t)13U; - stcst[0U] = (uint32_t)0x61707865U; - stcst[1U] = (uint32_t)0x3320646eU; - stcst[2U] = (uint32_t)0x79622d32U; - stcst[3U] = (uint32_t)0x6b206574U; - Hacl_Lib_LoadStore32_uint32s_from_le_bytes(stk, k, (uint32_t)8U); - stc[0U] = (uint32_t)0U; - Hacl_Lib_LoadStore32_uint32s_from_le_bytes(stn, n1, (uint32_t)3U); -} - -static void -Hacl_Impl_Chacha20_update(uint8_t *output, uint8_t *plain, uint32_t *st, uint32_t ctr) -{ - uint32_t b[48U] = { 0U }; - uint32_t *k = b; - uint32_t *ib = b + (uint32_t)16U; - uint32_t *ob = b + (uint32_t)32U; - Hacl_Impl_Chacha20_chacha20_core(k, st, ctr); - Hacl_Lib_LoadStore32_uint32s_from_le_bytes(ib, plain, (uint32_t)16U); - for (uint32_t i = (uint32_t)0U; i < (uint32_t)16U; i = i + (uint32_t)1U) { - uint32_t xi = ib[i]; - uint32_t yi = k[i]; - ob[i] = xi ^ yi; - } - Hacl_Lib_LoadStore32_uint32s_to_le_bytes(output, ob, (uint32_t)16U); -} - -static void -Hacl_Impl_Chacha20_update_last( - uint8_t *output, - uint8_t *plain, - uint32_t len, - uint32_t *st, - uint32_t ctr) -{ - uint8_t block[64U] = { 0U }; - Hacl_Impl_Chacha20_chacha20_block(block, st, ctr); - uint8_t *mask = block; - for (uint32_t i = (uint32_t)0U; i < len; i = i + (uint32_t)1U) { - uint8_t xi = plain[i]; - uint8_t yi = mask[i]; - output[i] = xi ^ yi; - } -} - -static void -Hacl_Impl_Chacha20_chacha20_counter_mode_blocks( - uint8_t *output, - uint8_t *plain, - uint32_t num_blocks, - uint32_t *st, - uint32_t ctr) -{ - for (uint32_t i = (uint32_t)0U; i < num_blocks; i = i + (uint32_t)1U) { - uint8_t *b = plain + (uint32_t)64U * i; - uint8_t *o = output + (uint32_t)64U * i; - Hacl_Impl_Chacha20_update(o, b, st, ctr + i); - } -} - -static void -Hacl_Impl_Chacha20_chacha20_counter_mode( - uint8_t *output, - uint8_t *plain, - uint32_t len, - uint32_t *st, - uint32_t ctr) -{ - uint32_t blocks_len = len >> (uint32_t)6U; - uint32_t part_len = len & (uint32_t)0x3fU; - uint8_t *output_ = output; - uint8_t *plain_ = plain; - uint8_t *output__ = output + (uint32_t)64U * blocks_len; - uint8_t *plain__ = plain + (uint32_t)64U * blocks_len; - Hacl_Impl_Chacha20_chacha20_counter_mode_blocks(output_, plain_, blocks_len, st, ctr); - if (part_len > (uint32_t)0U) - Hacl_Impl_Chacha20_update_last(output__, plain__, part_len, st, ctr + blocks_len); -} - -static void -Hacl_Impl_Chacha20_chacha20( - uint8_t *output, - uint8_t *plain, - uint32_t len, - uint8_t *k, - uint8_t *n1, - uint32_t ctr) -{ - uint32_t buf[16U] = { 0U }; - uint32_t *st = buf; - Hacl_Impl_Chacha20_init(st, k, n1); - Hacl_Impl_Chacha20_chacha20_counter_mode(output, plain, len, st, ctr); -} - -void -Hacl_Chacha20_chacha20_key_block(uint8_t *block, uint8_t *k, uint8_t *n1, uint32_t ctr) -{ - uint32_t buf[16U] = { 0U }; - uint32_t *st = buf; - Hacl_Impl_Chacha20_init(st, k, n1); - Hacl_Impl_Chacha20_chacha20_block(block, st, ctr); -} - -/* - This function implements Chacha20 - - val chacha20 : - output:uint8_p -> - plain:uint8_p{ disjoint output plain } -> - len:uint32_t{ v len = length output /\ v len = length plain } -> - key:uint8_p{ length key = 32 } -> - nonce:uint8_p{ length nonce = 12 } -> - ctr:uint32_t{ v ctr + length plain / 64 < pow2 32 } -> - Stack unit - (requires - fun h -> live h output /\ live h plain /\ live h nonce /\ live h key) - (ensures - fun h0 _ h1 -> - live h1 output /\ live h0 plain /\ modifies_1 output h0 h1 /\ - live h0 nonce /\ - live h0 key /\ - h1.[ output ] == - chacha20_encrypt_bytes h0.[ key ] h0.[ nonce ] (v ctr) h0.[ plain ]) -*/ -void -Hacl_Chacha20_chacha20( - uint8_t *output, - uint8_t *plain, - uint32_t len, - uint8_t *k, - uint8_t *n1, - uint32_t ctr) -{ - Hacl_Impl_Chacha20_chacha20(output, plain, len, k, n1, ctr); -} diff --git a/security/nss/lib/freebl/verified/Hacl_Chacha20.h b/security/nss/lib/freebl/verified/Hacl_Chacha20.h deleted file mode 100644 index f97e44b74..000000000 --- a/security/nss/lib/freebl/verified/Hacl_Chacha20.h +++ /dev/null @@ -1,81 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include "kremlib.h" -#ifndef __Hacl_Chacha20_H -#define __Hacl_Chacha20_H - -typedef uint32_t Hacl_Impl_Xor_Lemmas_u32; - -typedef uint8_t Hacl_Impl_Xor_Lemmas_u8; - -typedef uint8_t *Hacl_Lib_LoadStore32_uint8_p; - -typedef uint32_t Hacl_Impl_Chacha20_u32; - -typedef uint32_t Hacl_Impl_Chacha20_h32; - -typedef uint8_t *Hacl_Impl_Chacha20_uint8_p; - -typedef uint32_t *Hacl_Impl_Chacha20_state; - -typedef uint32_t Hacl_Impl_Chacha20_idx; - -typedef struct -{ - void *k; - void *n; -} Hacl_Impl_Chacha20_log_t_; - -typedef void *Hacl_Impl_Chacha20_log_t; - -typedef uint32_t Hacl_Lib_Create_h32; - -typedef uint8_t *Hacl_Chacha20_uint8_p; - -typedef uint32_t Hacl_Chacha20_uint32_t; - -void Hacl_Chacha20_chacha20_key_block(uint8_t *block, uint8_t *k, uint8_t *n1, uint32_t ctr); - -/* - This function implements Chacha20 - - val chacha20 : - output:uint8_p -> - plain:uint8_p{ disjoint output plain } -> - len:uint32_t{ v len = length output /\ v len = length plain } -> - key:uint8_p{ length key = 32 } -> - nonce:uint8_p{ length nonce = 12 } -> - ctr:uint32_t{ v ctr + length plain / 64 < pow2 32 } -> - Stack unit - (requires - fun h -> live h output /\ live h plain /\ live h nonce /\ live h key) - (ensures - fun h0 _ h1 -> - live h1 output /\ live h0 plain /\ modifies_1 output h0 h1 /\ - live h0 nonce /\ - live h0 key /\ - h1.[ output ] == - chacha20_encrypt_bytes h0.[ key ] h0.[ nonce ] (v ctr) h0.[ plain ]) -*/ -void -Hacl_Chacha20_chacha20( - uint8_t *output, - uint8_t *plain, - uint32_t len, - uint8_t *k, - uint8_t *n1, - uint32_t ctr); -#endif diff --git a/security/nss/lib/freebl/verified/Hacl_Curve25519.c b/security/nss/lib/freebl/verified/Hacl_Curve25519.c deleted file mode 100644 index f2dcddc57..000000000 --- a/security/nss/lib/freebl/verified/Hacl_Curve25519.c +++ /dev/null @@ -1,845 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include "Hacl_Curve25519.h" - -static void -Hacl_Bignum_Modulo_carry_top(uint64_t *b) -{ - uint64_t b4 = b[4U]; - uint64_t b0 = b[0U]; - uint64_t b4_ = b4 & (uint64_t)0x7ffffffffffffU; - uint64_t b0_ = b0 + (uint64_t)19U * (b4 >> (uint32_t)51U); - b[4U] = b4_; - b[0U] = b0_; -} - -inline static void -Hacl_Bignum_Fproduct_copy_from_wide_(uint64_t *output, FStar_UInt128_t *input) -{ - { - FStar_UInt128_t xi = input[0U]; - output[0U] = FStar_UInt128_uint128_to_uint64(xi); - } - { - FStar_UInt128_t xi = input[1U]; - output[1U] = FStar_UInt128_uint128_to_uint64(xi); - } - { - FStar_UInt128_t xi = input[2U]; - output[2U] = FStar_UInt128_uint128_to_uint64(xi); - } - { - FStar_UInt128_t xi = input[3U]; - output[3U] = FStar_UInt128_uint128_to_uint64(xi); - } - { - FStar_UInt128_t xi = input[4U]; - output[4U] = FStar_UInt128_uint128_to_uint64(xi); - } -} - -inline static void -Hacl_Bignum_Fproduct_sum_scalar_multiplication_( - FStar_UInt128_t *output, - uint64_t *input, - uint64_t s) -{ - { - FStar_UInt128_t xi = output[0U]; - uint64_t yi = input[0U]; - output[0U] = FStar_UInt128_add_mod(xi, FStar_UInt128_mul_wide(yi, s)); - } - { - FStar_UInt128_t xi = output[1U]; - uint64_t yi = input[1U]; - output[1U] = FStar_UInt128_add_mod(xi, FStar_UInt128_mul_wide(yi, s)); - } - { - FStar_UInt128_t xi = output[2U]; - uint64_t yi = input[2U]; - output[2U] = FStar_UInt128_add_mod(xi, FStar_UInt128_mul_wide(yi, s)); - } - { - FStar_UInt128_t xi = output[3U]; - uint64_t yi = input[3U]; - output[3U] = FStar_UInt128_add_mod(xi, FStar_UInt128_mul_wide(yi, s)); - } - { - FStar_UInt128_t xi = output[4U]; - uint64_t yi = input[4U]; - output[4U] = FStar_UInt128_add_mod(xi, FStar_UInt128_mul_wide(yi, s)); - } -} - -inline static void -Hacl_Bignum_Fproduct_carry_wide_(FStar_UInt128_t *tmp) -{ - { - uint32_t ctr = (uint32_t)0U; - FStar_UInt128_t tctr = tmp[ctr]; - FStar_UInt128_t tctrp1 = tmp[ctr + (uint32_t)1U]; - uint64_t r0 = FStar_UInt128_uint128_to_uint64(tctr) & (uint64_t)0x7ffffffffffffU; - FStar_UInt128_t c = FStar_UInt128_shift_right(tctr, (uint32_t)51U); - tmp[ctr] = FStar_UInt128_uint64_to_uint128(r0); - tmp[ctr + (uint32_t)1U] = FStar_UInt128_add(tctrp1, c); - } - { - uint32_t ctr = (uint32_t)1U; - FStar_UInt128_t tctr = tmp[ctr]; - FStar_UInt128_t tctrp1 = tmp[ctr + (uint32_t)1U]; - uint64_t r0 = FStar_UInt128_uint128_to_uint64(tctr) & (uint64_t)0x7ffffffffffffU; - FStar_UInt128_t c = FStar_UInt128_shift_right(tctr, (uint32_t)51U); - tmp[ctr] = FStar_UInt128_uint64_to_uint128(r0); - tmp[ctr + (uint32_t)1U] = FStar_UInt128_add(tctrp1, c); - } - { - uint32_t ctr = (uint32_t)2U; - FStar_UInt128_t tctr = tmp[ctr]; - FStar_UInt128_t tctrp1 = tmp[ctr + (uint32_t)1U]; - uint64_t r0 = FStar_UInt128_uint128_to_uint64(tctr) & (uint64_t)0x7ffffffffffffU; - FStar_UInt128_t c = FStar_UInt128_shift_right(tctr, (uint32_t)51U); - tmp[ctr] = FStar_UInt128_uint64_to_uint128(r0); - tmp[ctr + (uint32_t)1U] = FStar_UInt128_add(tctrp1, c); - } - { - uint32_t ctr = (uint32_t)3U; - FStar_UInt128_t tctr = tmp[ctr]; - FStar_UInt128_t tctrp1 = tmp[ctr + (uint32_t)1U]; - uint64_t r0 = FStar_UInt128_uint128_to_uint64(tctr) & (uint64_t)0x7ffffffffffffU; - FStar_UInt128_t c = FStar_UInt128_shift_right(tctr, (uint32_t)51U); - tmp[ctr] = FStar_UInt128_uint64_to_uint128(r0); - tmp[ctr + (uint32_t)1U] = FStar_UInt128_add(tctrp1, c); - } -} - -inline static void -Hacl_Bignum_Fmul_shift_reduce(uint64_t *output) -{ - uint64_t tmp = output[4U]; - { - uint32_t ctr = (uint32_t)5U - (uint32_t)0U - (uint32_t)1U; - uint64_t z = output[ctr - (uint32_t)1U]; - output[ctr] = z; - } - { - uint32_t ctr = (uint32_t)5U - (uint32_t)1U - (uint32_t)1U; - uint64_t z = output[ctr - (uint32_t)1U]; - output[ctr] = z; - } - { - uint32_t ctr = (uint32_t)5U - (uint32_t)2U - (uint32_t)1U; - uint64_t z = output[ctr - (uint32_t)1U]; - output[ctr] = z; - } - { - uint32_t ctr = (uint32_t)5U - (uint32_t)3U - (uint32_t)1U; - uint64_t z = output[ctr - (uint32_t)1U]; - output[ctr] = z; - } - output[0U] = tmp; - uint64_t b0 = output[0U]; - output[0U] = (uint64_t)19U * b0; -} - -static void -Hacl_Bignum_Fmul_mul_shift_reduce_(FStar_UInt128_t *output, uint64_t *input, uint64_t *input21) -{ - { - uint64_t input2i = input21[0U]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); - Hacl_Bignum_Fmul_shift_reduce(input); - } - { - uint64_t input2i = input21[1U]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); - Hacl_Bignum_Fmul_shift_reduce(input); - } - { - uint64_t input2i = input21[2U]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); - Hacl_Bignum_Fmul_shift_reduce(input); - } - { - uint64_t input2i = input21[3U]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); - Hacl_Bignum_Fmul_shift_reduce(input); - } - uint32_t i = (uint32_t)4U; - uint64_t input2i = input21[i]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); -} - -inline static void -Hacl_Bignum_Fmul_fmul(uint64_t *output, uint64_t *input, uint64_t *input21) -{ - uint64_t tmp[5U] = { 0U }; - memcpy(tmp, input, (uint32_t)5U * sizeof input[0U]); - KRML_CHECK_SIZE(FStar_UInt128_uint64_to_uint128((uint64_t)0U), (uint32_t)5U); - FStar_UInt128_t t[5U]; - for (uint32_t _i = 0U; _i < (uint32_t)5U; ++_i) - t[_i] = FStar_UInt128_uint64_to_uint128((uint64_t)0U); - Hacl_Bignum_Fmul_mul_shift_reduce_(t, tmp, input21); - Hacl_Bignum_Fproduct_carry_wide_(t); - FStar_UInt128_t b4 = t[4U]; - FStar_UInt128_t b0 = t[0U]; - FStar_UInt128_t - b4_ = FStar_UInt128_logand(b4, FStar_UInt128_uint64_to_uint128((uint64_t)0x7ffffffffffffU)); - FStar_UInt128_t - b0_ = - FStar_UInt128_add(b0, - FStar_UInt128_mul_wide((uint64_t)19U, - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(b4, (uint32_t)51U)))); - t[4U] = b4_; - t[0U] = b0_; - Hacl_Bignum_Fproduct_copy_from_wide_(output, t); - uint64_t i0 = output[0U]; - uint64_t i1 = output[1U]; - uint64_t i0_ = i0 & (uint64_t)0x7ffffffffffffU; - uint64_t i1_ = i1 + (i0 >> (uint32_t)51U); - output[0U] = i0_; - output[1U] = i1_; -} - -inline static void -Hacl_Bignum_Fsquare_fsquare__(FStar_UInt128_t *tmp, uint64_t *output) -{ - uint64_t r0 = output[0U]; - uint64_t r1 = output[1U]; - uint64_t r2 = output[2U]; - uint64_t r3 = output[3U]; - uint64_t r4 = output[4U]; - uint64_t d0 = r0 * (uint64_t)2U; - uint64_t d1 = r1 * (uint64_t)2U; - uint64_t d2 = r2 * (uint64_t)2U * (uint64_t)19U; - uint64_t d419 = r4 * (uint64_t)19U; - uint64_t d4 = d419 * (uint64_t)2U; - FStar_UInt128_t - s0 = - FStar_UInt128_add(FStar_UInt128_add(FStar_UInt128_mul_wide(r0, r0), - FStar_UInt128_mul_wide(d4, r1)), - FStar_UInt128_mul_wide(d2, r3)); - FStar_UInt128_t - s1 = - FStar_UInt128_add(FStar_UInt128_add(FStar_UInt128_mul_wide(d0, r1), - FStar_UInt128_mul_wide(d4, r2)), - FStar_UInt128_mul_wide(r3 * (uint64_t)19U, r3)); - FStar_UInt128_t - s2 = - FStar_UInt128_add(FStar_UInt128_add(FStar_UInt128_mul_wide(d0, r2), - FStar_UInt128_mul_wide(r1, r1)), - FStar_UInt128_mul_wide(d4, r3)); - FStar_UInt128_t - s3 = - FStar_UInt128_add(FStar_UInt128_add(FStar_UInt128_mul_wide(d0, r3), - FStar_UInt128_mul_wide(d1, r2)), - FStar_UInt128_mul_wide(r4, d419)); - FStar_UInt128_t - s4 = - FStar_UInt128_add(FStar_UInt128_add(FStar_UInt128_mul_wide(d0, r4), - FStar_UInt128_mul_wide(d1, r3)), - FStar_UInt128_mul_wide(r2, r2)); - tmp[0U] = s0; - tmp[1U] = s1; - tmp[2U] = s2; - tmp[3U] = s3; - tmp[4U] = s4; -} - -inline static void -Hacl_Bignum_Fsquare_fsquare_(FStar_UInt128_t *tmp, uint64_t *output) -{ - Hacl_Bignum_Fsquare_fsquare__(tmp, output); - Hacl_Bignum_Fproduct_carry_wide_(tmp); - FStar_UInt128_t b4 = tmp[4U]; - FStar_UInt128_t b0 = tmp[0U]; - FStar_UInt128_t - b4_ = FStar_UInt128_logand(b4, FStar_UInt128_uint64_to_uint128((uint64_t)0x7ffffffffffffU)); - FStar_UInt128_t - b0_ = - FStar_UInt128_add(b0, - FStar_UInt128_mul_wide((uint64_t)19U, - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(b4, (uint32_t)51U)))); - tmp[4U] = b4_; - tmp[0U] = b0_; - Hacl_Bignum_Fproduct_copy_from_wide_(output, tmp); - uint64_t i0 = output[0U]; - uint64_t i1 = output[1U]; - uint64_t i0_ = i0 & (uint64_t)0x7ffffffffffffU; - uint64_t i1_ = i1 + (i0 >> (uint32_t)51U); - output[0U] = i0_; - output[1U] = i1_; -} - -static void -Hacl_Bignum_Fsquare_fsquare_times_(uint64_t *input, FStar_UInt128_t *tmp, uint32_t count1) -{ - Hacl_Bignum_Fsquare_fsquare_(tmp, input); - for (uint32_t i = (uint32_t)1U; i < count1; i = i + (uint32_t)1U) - Hacl_Bignum_Fsquare_fsquare_(tmp, input); -} - -inline static void -Hacl_Bignum_Fsquare_fsquare_times(uint64_t *output, uint64_t *input, uint32_t count1) -{ - KRML_CHECK_SIZE(FStar_UInt128_uint64_to_uint128((uint64_t)0U), (uint32_t)5U); - FStar_UInt128_t t[5U]; - for (uint32_t _i = 0U; _i < (uint32_t)5U; ++_i) - t[_i] = FStar_UInt128_uint64_to_uint128((uint64_t)0U); - memcpy(output, input, (uint32_t)5U * sizeof input[0U]); - Hacl_Bignum_Fsquare_fsquare_times_(output, t, count1); -} - -inline static void -Hacl_Bignum_Fsquare_fsquare_times_inplace(uint64_t *output, uint32_t count1) -{ - KRML_CHECK_SIZE(FStar_UInt128_uint64_to_uint128((uint64_t)0U), (uint32_t)5U); - FStar_UInt128_t t[5U]; - for (uint32_t _i = 0U; _i < (uint32_t)5U; ++_i) - t[_i] = FStar_UInt128_uint64_to_uint128((uint64_t)0U); - Hacl_Bignum_Fsquare_fsquare_times_(output, t, count1); -} - -inline static void -Hacl_Bignum_Crecip_crecip(uint64_t *out, uint64_t *z) -{ - uint64_t buf[20U] = { 0U }; - uint64_t *a = buf; - uint64_t *t00 = buf + (uint32_t)5U; - uint64_t *b0 = buf + (uint32_t)10U; - Hacl_Bignum_Fsquare_fsquare_times(a, z, (uint32_t)1U); - Hacl_Bignum_Fsquare_fsquare_times(t00, a, (uint32_t)2U); - Hacl_Bignum_Fmul_fmul(b0, t00, z); - Hacl_Bignum_Fmul_fmul(a, b0, a); - Hacl_Bignum_Fsquare_fsquare_times(t00, a, (uint32_t)1U); - Hacl_Bignum_Fmul_fmul(b0, t00, b0); - Hacl_Bignum_Fsquare_fsquare_times(t00, b0, (uint32_t)5U); - uint64_t *t01 = buf + (uint32_t)5U; - uint64_t *b1 = buf + (uint32_t)10U; - uint64_t *c0 = buf + (uint32_t)15U; - Hacl_Bignum_Fmul_fmul(b1, t01, b1); - Hacl_Bignum_Fsquare_fsquare_times(t01, b1, (uint32_t)10U); - Hacl_Bignum_Fmul_fmul(c0, t01, b1); - Hacl_Bignum_Fsquare_fsquare_times(t01, c0, (uint32_t)20U); - Hacl_Bignum_Fmul_fmul(t01, t01, c0); - Hacl_Bignum_Fsquare_fsquare_times_inplace(t01, (uint32_t)10U); - Hacl_Bignum_Fmul_fmul(b1, t01, b1); - Hacl_Bignum_Fsquare_fsquare_times(t01, b1, (uint32_t)50U); - uint64_t *a0 = buf; - uint64_t *t0 = buf + (uint32_t)5U; - uint64_t *b = buf + (uint32_t)10U; - uint64_t *c = buf + (uint32_t)15U; - Hacl_Bignum_Fmul_fmul(c, t0, b); - Hacl_Bignum_Fsquare_fsquare_times(t0, c, (uint32_t)100U); - Hacl_Bignum_Fmul_fmul(t0, t0, c); - Hacl_Bignum_Fsquare_fsquare_times_inplace(t0, (uint32_t)50U); - Hacl_Bignum_Fmul_fmul(t0, t0, b); - Hacl_Bignum_Fsquare_fsquare_times_inplace(t0, (uint32_t)5U); - Hacl_Bignum_Fmul_fmul(out, t0, a0); -} - -inline static void -Hacl_Bignum_fsum(uint64_t *a, uint64_t *b) -{ - { - uint64_t xi = a[0U]; - uint64_t yi = b[0U]; - a[0U] = xi + yi; - } - { - uint64_t xi = a[1U]; - uint64_t yi = b[1U]; - a[1U] = xi + yi; - } - { - uint64_t xi = a[2U]; - uint64_t yi = b[2U]; - a[2U] = xi + yi; - } - { - uint64_t xi = a[3U]; - uint64_t yi = b[3U]; - a[3U] = xi + yi; - } - { - uint64_t xi = a[4U]; - uint64_t yi = b[4U]; - a[4U] = xi + yi; - } -} - -inline static void -Hacl_Bignum_fdifference(uint64_t *a, uint64_t *b) -{ - uint64_t tmp[5U] = { 0U }; - memcpy(tmp, b, (uint32_t)5U * sizeof b[0U]); - uint64_t b0 = tmp[0U]; - uint64_t b1 = tmp[1U]; - uint64_t b2 = tmp[2U]; - uint64_t b3 = tmp[3U]; - uint64_t b4 = tmp[4U]; - tmp[0U] = b0 + (uint64_t)0x3fffffffffff68U; - tmp[1U] = b1 + (uint64_t)0x3ffffffffffff8U; - tmp[2U] = b2 + (uint64_t)0x3ffffffffffff8U; - tmp[3U] = b3 + (uint64_t)0x3ffffffffffff8U; - tmp[4U] = b4 + (uint64_t)0x3ffffffffffff8U; - { - uint64_t xi = a[0U]; - uint64_t yi = tmp[0U]; - a[0U] = yi - xi; - } - { - uint64_t xi = a[1U]; - uint64_t yi = tmp[1U]; - a[1U] = yi - xi; - } - { - uint64_t xi = a[2U]; - uint64_t yi = tmp[2U]; - a[2U] = yi - xi; - } - { - uint64_t xi = a[3U]; - uint64_t yi = tmp[3U]; - a[3U] = yi - xi; - } - { - uint64_t xi = a[4U]; - uint64_t yi = tmp[4U]; - a[4U] = yi - xi; - } -} - -inline static void -Hacl_Bignum_fscalar(uint64_t *output, uint64_t *b, uint64_t s) -{ - KRML_CHECK_SIZE(FStar_UInt128_uint64_to_uint128((uint64_t)0U), (uint32_t)5U); - FStar_UInt128_t tmp[5U]; - for (uint32_t _i = 0U; _i < (uint32_t)5U; ++_i) - tmp[_i] = FStar_UInt128_uint64_to_uint128((uint64_t)0U); - { - uint64_t xi = b[0U]; - tmp[0U] = FStar_UInt128_mul_wide(xi, s); - } - { - uint64_t xi = b[1U]; - tmp[1U] = FStar_UInt128_mul_wide(xi, s); - } - { - uint64_t xi = b[2U]; - tmp[2U] = FStar_UInt128_mul_wide(xi, s); - } - { - uint64_t xi = b[3U]; - tmp[3U] = FStar_UInt128_mul_wide(xi, s); - } - { - uint64_t xi = b[4U]; - tmp[4U] = FStar_UInt128_mul_wide(xi, s); - } - Hacl_Bignum_Fproduct_carry_wide_(tmp); - FStar_UInt128_t b4 = tmp[4U]; - FStar_UInt128_t b0 = tmp[0U]; - FStar_UInt128_t - b4_ = FStar_UInt128_logand(b4, FStar_UInt128_uint64_to_uint128((uint64_t)0x7ffffffffffffU)); - FStar_UInt128_t - b0_ = - FStar_UInt128_add(b0, - FStar_UInt128_mul_wide((uint64_t)19U, - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(b4, (uint32_t)51U)))); - tmp[4U] = b4_; - tmp[0U] = b0_; - Hacl_Bignum_Fproduct_copy_from_wide_(output, tmp); -} - -inline static void -Hacl_Bignum_fmul(uint64_t *output, uint64_t *a, uint64_t *b) -{ - Hacl_Bignum_Fmul_fmul(output, a, b); -} - -inline static void -Hacl_Bignum_crecip(uint64_t *output, uint64_t *input) -{ - Hacl_Bignum_Crecip_crecip(output, input); -} - -static void -Hacl_EC_Point_swap_conditional_step(uint64_t *a, uint64_t *b, uint64_t swap1, uint32_t ctr) -{ - uint32_t i = ctr - (uint32_t)1U; - uint64_t ai = a[i]; - uint64_t bi = b[i]; - uint64_t x = swap1 & (ai ^ bi); - uint64_t ai1 = ai ^ x; - uint64_t bi1 = bi ^ x; - a[i] = ai1; - b[i] = bi1; -} - -static void -Hacl_EC_Point_swap_conditional_(uint64_t *a, uint64_t *b, uint64_t swap1, uint32_t ctr) -{ - if (!(ctr == (uint32_t)0U)) { - Hacl_EC_Point_swap_conditional_step(a, b, swap1, ctr); - uint32_t i = ctr - (uint32_t)1U; - Hacl_EC_Point_swap_conditional_(a, b, swap1, i); - } -} - -static void -Hacl_EC_Point_swap_conditional(uint64_t *a, uint64_t *b, uint64_t iswap) -{ - uint64_t swap1 = (uint64_t)0U - iswap; - Hacl_EC_Point_swap_conditional_(a, b, swap1, (uint32_t)5U); - Hacl_EC_Point_swap_conditional_(a + (uint32_t)5U, b + (uint32_t)5U, swap1, (uint32_t)5U); -} - -static void -Hacl_EC_Point_copy(uint64_t *output, uint64_t *input) -{ - memcpy(output, input, (uint32_t)5U * sizeof input[0U]); - memcpy(output + (uint32_t)5U, - input + (uint32_t)5U, - (uint32_t)5U * sizeof(input + (uint32_t)5U)[0U]); -} - -static void -Hacl_EC_AddAndDouble_fmonty( - uint64_t *pp, - uint64_t *ppq, - uint64_t *p, - uint64_t *pq, - uint64_t *qmqp) -{ - uint64_t *qx = qmqp; - uint64_t *x2 = pp; - uint64_t *z2 = pp + (uint32_t)5U; - uint64_t *x3 = ppq; - uint64_t *z3 = ppq + (uint32_t)5U; - uint64_t *x = p; - uint64_t *z = p + (uint32_t)5U; - uint64_t *xprime = pq; - uint64_t *zprime = pq + (uint32_t)5U; - uint64_t buf[40U] = { 0U }; - uint64_t *origx = buf; - uint64_t *origxprime = buf + (uint32_t)5U; - uint64_t *xxprime0 = buf + (uint32_t)25U; - uint64_t *zzprime0 = buf + (uint32_t)30U; - memcpy(origx, x, (uint32_t)5U * sizeof x[0U]); - Hacl_Bignum_fsum(x, z); - Hacl_Bignum_fdifference(z, origx); - memcpy(origxprime, xprime, (uint32_t)5U * sizeof xprime[0U]); - Hacl_Bignum_fsum(xprime, zprime); - Hacl_Bignum_fdifference(zprime, origxprime); - Hacl_Bignum_fmul(xxprime0, xprime, z); - Hacl_Bignum_fmul(zzprime0, x, zprime); - uint64_t *origxprime0 = buf + (uint32_t)5U; - uint64_t *xx0 = buf + (uint32_t)15U; - uint64_t *zz0 = buf + (uint32_t)20U; - uint64_t *xxprime = buf + (uint32_t)25U; - uint64_t *zzprime = buf + (uint32_t)30U; - uint64_t *zzzprime = buf + (uint32_t)35U; - memcpy(origxprime0, xxprime, (uint32_t)5U * sizeof xxprime[0U]); - Hacl_Bignum_fsum(xxprime, zzprime); - Hacl_Bignum_fdifference(zzprime, origxprime0); - Hacl_Bignum_Fsquare_fsquare_times(x3, xxprime, (uint32_t)1U); - Hacl_Bignum_Fsquare_fsquare_times(zzzprime, zzprime, (uint32_t)1U); - Hacl_Bignum_fmul(z3, zzzprime, qx); - Hacl_Bignum_Fsquare_fsquare_times(xx0, x, (uint32_t)1U); - Hacl_Bignum_Fsquare_fsquare_times(zz0, z, (uint32_t)1U); - uint64_t *zzz = buf + (uint32_t)10U; - uint64_t *xx = buf + (uint32_t)15U; - uint64_t *zz = buf + (uint32_t)20U; - Hacl_Bignum_fmul(x2, xx, zz); - Hacl_Bignum_fdifference(zz, xx); - uint64_t scalar = (uint64_t)121665U; - Hacl_Bignum_fscalar(zzz, zz, scalar); - Hacl_Bignum_fsum(zzz, xx); - Hacl_Bignum_fmul(z2, zzz, zz); -} - -static void -Hacl_EC_Ladder_SmallLoop_cmult_small_loop_step( - uint64_t *nq, - uint64_t *nqpq, - uint64_t *nq2, - uint64_t *nqpq2, - uint64_t *q, - uint8_t byt) -{ - uint64_t bit = (uint64_t)(byt >> (uint32_t)7U); - Hacl_EC_Point_swap_conditional(nq, nqpq, bit); - Hacl_EC_AddAndDouble_fmonty(nq2, nqpq2, nq, nqpq, q); - uint64_t bit0 = (uint64_t)(byt >> (uint32_t)7U); - Hacl_EC_Point_swap_conditional(nq2, nqpq2, bit0); -} - -static void -Hacl_EC_Ladder_SmallLoop_cmult_small_loop_double_step( - uint64_t *nq, - uint64_t *nqpq, - uint64_t *nq2, - uint64_t *nqpq2, - uint64_t *q, - uint8_t byt) -{ - Hacl_EC_Ladder_SmallLoop_cmult_small_loop_step(nq, nqpq, nq2, nqpq2, q, byt); - uint8_t byt1 = byt << (uint32_t)1U; - Hacl_EC_Ladder_SmallLoop_cmult_small_loop_step(nq2, nqpq2, nq, nqpq, q, byt1); -} - -static void -Hacl_EC_Ladder_SmallLoop_cmult_small_loop( - uint64_t *nq, - uint64_t *nqpq, - uint64_t *nq2, - uint64_t *nqpq2, - uint64_t *q, - uint8_t byt, - uint32_t i) -{ - if (!(i == (uint32_t)0U)) { - uint32_t i_ = i - (uint32_t)1U; - Hacl_EC_Ladder_SmallLoop_cmult_small_loop_double_step(nq, nqpq, nq2, nqpq2, q, byt); - uint8_t byt_ = byt << (uint32_t)2U; - Hacl_EC_Ladder_SmallLoop_cmult_small_loop(nq, nqpq, nq2, nqpq2, q, byt_, i_); - } -} - -static void -Hacl_EC_Ladder_BigLoop_cmult_big_loop( - uint8_t *n1, - uint64_t *nq, - uint64_t *nqpq, - uint64_t *nq2, - uint64_t *nqpq2, - uint64_t *q, - uint32_t i) -{ - if (!(i == (uint32_t)0U)) { - uint32_t i1 = i - (uint32_t)1U; - uint8_t byte = n1[i1]; - Hacl_EC_Ladder_SmallLoop_cmult_small_loop(nq, nqpq, nq2, nqpq2, q, byte, (uint32_t)4U); - Hacl_EC_Ladder_BigLoop_cmult_big_loop(n1, nq, nqpq, nq2, nqpq2, q, i1); - } -} - -static void -Hacl_EC_Ladder_cmult(uint64_t *result, uint8_t *n1, uint64_t *q) -{ - uint64_t point_buf[40U] = { 0U }; - uint64_t *nq = point_buf; - uint64_t *nqpq = point_buf + (uint32_t)10U; - uint64_t *nq2 = point_buf + (uint32_t)20U; - uint64_t *nqpq2 = point_buf + (uint32_t)30U; - Hacl_EC_Point_copy(nqpq, q); - nq[0U] = (uint64_t)1U; - Hacl_EC_Ladder_BigLoop_cmult_big_loop(n1, nq, nqpq, nq2, nqpq2, q, (uint32_t)32U); - Hacl_EC_Point_copy(result, nq); -} - -static void -Hacl_EC_Format_fexpand(uint64_t *output, uint8_t *input) -{ - uint64_t i0 = load64_le(input); - uint8_t *x00 = input + (uint32_t)6U; - uint64_t i1 = load64_le(x00); - uint8_t *x01 = input + (uint32_t)12U; - uint64_t i2 = load64_le(x01); - uint8_t *x02 = input + (uint32_t)19U; - uint64_t i3 = load64_le(x02); - uint8_t *x0 = input + (uint32_t)24U; - uint64_t i4 = load64_le(x0); - uint64_t output0 = i0 & (uint64_t)0x7ffffffffffffU; - uint64_t output1 = i1 >> (uint32_t)3U & (uint64_t)0x7ffffffffffffU; - uint64_t output2 = i2 >> (uint32_t)6U & (uint64_t)0x7ffffffffffffU; - uint64_t output3 = i3 >> (uint32_t)1U & (uint64_t)0x7ffffffffffffU; - uint64_t output4 = i4 >> (uint32_t)12U & (uint64_t)0x7ffffffffffffU; - output[0U] = output0; - output[1U] = output1; - output[2U] = output2; - output[3U] = output3; - output[4U] = output4; -} - -static void -Hacl_EC_Format_fcontract_first_carry_pass(uint64_t *input) -{ - uint64_t t0 = input[0U]; - uint64_t t1 = input[1U]; - uint64_t t2 = input[2U]; - uint64_t t3 = input[3U]; - uint64_t t4 = input[4U]; - uint64_t t1_ = t1 + (t0 >> (uint32_t)51U); - uint64_t t0_ = t0 & (uint64_t)0x7ffffffffffffU; - uint64_t t2_ = t2 + (t1_ >> (uint32_t)51U); - uint64_t t1__ = t1_ & (uint64_t)0x7ffffffffffffU; - uint64_t t3_ = t3 + (t2_ >> (uint32_t)51U); - uint64_t t2__ = t2_ & (uint64_t)0x7ffffffffffffU; - uint64_t t4_ = t4 + (t3_ >> (uint32_t)51U); - uint64_t t3__ = t3_ & (uint64_t)0x7ffffffffffffU; - input[0U] = t0_; - input[1U] = t1__; - input[2U] = t2__; - input[3U] = t3__; - input[4U] = t4_; -} - -static void -Hacl_EC_Format_fcontract_first_carry_full(uint64_t *input) -{ - Hacl_EC_Format_fcontract_first_carry_pass(input); - Hacl_Bignum_Modulo_carry_top(input); -} - -static void -Hacl_EC_Format_fcontract_second_carry_pass(uint64_t *input) -{ - uint64_t t0 = input[0U]; - uint64_t t1 = input[1U]; - uint64_t t2 = input[2U]; - uint64_t t3 = input[3U]; - uint64_t t4 = input[4U]; - uint64_t t1_ = t1 + (t0 >> (uint32_t)51U); - uint64_t t0_ = t0 & (uint64_t)0x7ffffffffffffU; - uint64_t t2_ = t2 + (t1_ >> (uint32_t)51U); - uint64_t t1__ = t1_ & (uint64_t)0x7ffffffffffffU; - uint64_t t3_ = t3 + (t2_ >> (uint32_t)51U); - uint64_t t2__ = t2_ & (uint64_t)0x7ffffffffffffU; - uint64_t t4_ = t4 + (t3_ >> (uint32_t)51U); - uint64_t t3__ = t3_ & (uint64_t)0x7ffffffffffffU; - input[0U] = t0_; - input[1U] = t1__; - input[2U] = t2__; - input[3U] = t3__; - input[4U] = t4_; -} - -static void -Hacl_EC_Format_fcontract_second_carry_full(uint64_t *input) -{ - Hacl_EC_Format_fcontract_second_carry_pass(input); - Hacl_Bignum_Modulo_carry_top(input); - uint64_t i0 = input[0U]; - uint64_t i1 = input[1U]; - uint64_t i0_ = i0 & (uint64_t)0x7ffffffffffffU; - uint64_t i1_ = i1 + (i0 >> (uint32_t)51U); - input[0U] = i0_; - input[1U] = i1_; -} - -static void -Hacl_EC_Format_fcontract_trim(uint64_t *input) -{ - uint64_t a0 = input[0U]; - uint64_t a1 = input[1U]; - uint64_t a2 = input[2U]; - uint64_t a3 = input[3U]; - uint64_t a4 = input[4U]; - uint64_t mask0 = FStar_UInt64_gte_mask(a0, (uint64_t)0x7ffffffffffedU); - uint64_t mask1 = FStar_UInt64_eq_mask(a1, (uint64_t)0x7ffffffffffffU); - uint64_t mask2 = FStar_UInt64_eq_mask(a2, (uint64_t)0x7ffffffffffffU); - uint64_t mask3 = FStar_UInt64_eq_mask(a3, (uint64_t)0x7ffffffffffffU); - uint64_t mask4 = FStar_UInt64_eq_mask(a4, (uint64_t)0x7ffffffffffffU); - uint64_t mask = (((mask0 & mask1) & mask2) & mask3) & mask4; - uint64_t a0_ = a0 - ((uint64_t)0x7ffffffffffedU & mask); - uint64_t a1_ = a1 - ((uint64_t)0x7ffffffffffffU & mask); - uint64_t a2_ = a2 - ((uint64_t)0x7ffffffffffffU & mask); - uint64_t a3_ = a3 - ((uint64_t)0x7ffffffffffffU & mask); - uint64_t a4_ = a4 - ((uint64_t)0x7ffffffffffffU & mask); - input[0U] = a0_; - input[1U] = a1_; - input[2U] = a2_; - input[3U] = a3_; - input[4U] = a4_; -} - -static void -Hacl_EC_Format_fcontract_store(uint8_t *output, uint64_t *input) -{ - uint64_t t0 = input[0U]; - uint64_t t1 = input[1U]; - uint64_t t2 = input[2U]; - uint64_t t3 = input[3U]; - uint64_t t4 = input[4U]; - uint64_t o0 = t1 << (uint32_t)51U | t0; - uint64_t o1 = t2 << (uint32_t)38U | t1 >> (uint32_t)13U; - uint64_t o2 = t3 << (uint32_t)25U | t2 >> (uint32_t)26U; - uint64_t o3 = t4 << (uint32_t)12U | t3 >> (uint32_t)39U; - uint8_t *b0 = output; - uint8_t *b1 = output + (uint32_t)8U; - uint8_t *b2 = output + (uint32_t)16U; - uint8_t *b3 = output + (uint32_t)24U; - store64_le(b0, o0); - store64_le(b1, o1); - store64_le(b2, o2); - store64_le(b3, o3); -} - -static void -Hacl_EC_Format_fcontract(uint8_t *output, uint64_t *input) -{ - Hacl_EC_Format_fcontract_first_carry_full(input); - Hacl_EC_Format_fcontract_second_carry_full(input); - Hacl_EC_Format_fcontract_trim(input); - Hacl_EC_Format_fcontract_store(output, input); -} - -static void -Hacl_EC_Format_scalar_of_point(uint8_t *scalar, uint64_t *point) -{ - uint64_t *x = point; - uint64_t *z = point + (uint32_t)5U; - uint64_t buf[10U] = { 0U }; - uint64_t *zmone = buf; - uint64_t *sc = buf + (uint32_t)5U; - Hacl_Bignum_crecip(zmone, z); - Hacl_Bignum_fmul(sc, x, zmone); - Hacl_EC_Format_fcontract(scalar, sc); -} - -void -Hacl_EC_crypto_scalarmult(uint8_t *mypublic, uint8_t *secret, uint8_t *basepoint) -{ - uint64_t buf0[10U] = { 0U }; - uint64_t *x0 = buf0; - uint64_t *z = buf0 + (uint32_t)5U; - Hacl_EC_Format_fexpand(x0, basepoint); - z[0U] = (uint64_t)1U; - uint64_t *q = buf0; - uint8_t e[32U] = { 0U }; - memcpy(e, secret, (uint32_t)32U * sizeof secret[0U]); - uint8_t e0 = e[0U]; - uint8_t e31 = e[31U]; - uint8_t e01 = e0 & (uint8_t)248U; - uint8_t e311 = e31 & (uint8_t)127U; - uint8_t e312 = e311 | (uint8_t)64U; - e[0U] = e01; - e[31U] = e312; - uint8_t *scalar = e; - uint64_t buf[15U] = { 0U }; - uint64_t *nq = buf; - uint64_t *x = nq; - x[0U] = (uint64_t)1U; - Hacl_EC_Ladder_cmult(nq, scalar, q); - Hacl_EC_Format_scalar_of_point(mypublic, nq); -} - -void -Hacl_Curve25519_crypto_scalarmult(uint8_t *mypublic, uint8_t *secret, uint8_t *basepoint) -{ - Hacl_EC_crypto_scalarmult(mypublic, secret, basepoint); -} diff --git a/security/nss/lib/freebl/verified/Hacl_Curve25519.h b/security/nss/lib/freebl/verified/Hacl_Curve25519.h deleted file mode 100644 index 0e443f177..000000000 --- a/security/nss/lib/freebl/verified/Hacl_Curve25519.h +++ /dev/null @@ -1,57 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include "kremlib.h" -#ifndef __Hacl_Curve25519_H -#define __Hacl_Curve25519_H - -typedef uint64_t Hacl_Bignum_Constants_limb; - -typedef FStar_UInt128_t Hacl_Bignum_Constants_wide; - -typedef uint64_t Hacl_Bignum_Parameters_limb; - -typedef FStar_UInt128_t Hacl_Bignum_Parameters_wide; - -typedef uint32_t Hacl_Bignum_Parameters_ctr; - -typedef uint64_t *Hacl_Bignum_Parameters_felem; - -typedef FStar_UInt128_t *Hacl_Bignum_Parameters_felem_wide; - -typedef void *Hacl_Bignum_Parameters_seqelem; - -typedef void *Hacl_Bignum_Parameters_seqelem_wide; - -typedef FStar_UInt128_t Hacl_Bignum_Wide_t; - -typedef uint64_t Hacl_Bignum_Limb_t; - -extern void Hacl_Bignum_lemma_diff(Prims_int x0, Prims_int x1, Prims_pos x2); - -typedef uint64_t *Hacl_EC_Point_point; - -typedef uint8_t *Hacl_EC_Ladder_SmallLoop_uint8_p; - -typedef uint8_t *Hacl_EC_Ladder_uint8_p; - -typedef uint8_t *Hacl_EC_Format_uint8_p; - -void Hacl_EC_crypto_scalarmult(uint8_t *mypublic, uint8_t *secret, uint8_t *basepoint); - -typedef uint8_t *Hacl_Curve25519_uint8_p; - -void Hacl_Curve25519_crypto_scalarmult(uint8_t *mypublic, uint8_t *secret, uint8_t *basepoint); -#endif diff --git a/security/nss/lib/freebl/verified/Hacl_Poly1305_64.c b/security/nss/lib/freebl/verified/Hacl_Poly1305_64.c deleted file mode 100644 index 984031ae2..000000000 --- a/security/nss/lib/freebl/verified/Hacl_Poly1305_64.c +++ /dev/null @@ -1,485 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include "Hacl_Poly1305_64.h" - -inline static void -Hacl_Bignum_Modulo_reduce(uint64_t *b) -{ - uint64_t b0 = b[0U]; - b[0U] = (b0 << (uint32_t)4U) + (b0 << (uint32_t)2U); -} - -inline static void -Hacl_Bignum_Modulo_carry_top(uint64_t *b) -{ - uint64_t b2 = b[2U]; - uint64_t b0 = b[0U]; - uint64_t b2_42 = b2 >> (uint32_t)42U; - b[2U] = b2 & (uint64_t)0x3ffffffffffU; - b[0U] = (b2_42 << (uint32_t)2U) + b2_42 + b0; -} - -inline static void -Hacl_Bignum_Modulo_carry_top_wide(FStar_UInt128_t *b) -{ - FStar_UInt128_t b2 = b[2U]; - FStar_UInt128_t b0 = b[0U]; - FStar_UInt128_t - b2_ = FStar_UInt128_logand(b2, FStar_UInt128_uint64_to_uint128((uint64_t)0x3ffffffffffU)); - uint64_t b2_42 = FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(b2, (uint32_t)42U)); - FStar_UInt128_t - b0_ = FStar_UInt128_add(b0, FStar_UInt128_uint64_to_uint128((b2_42 << (uint32_t)2U) + b2_42)); - b[2U] = b2_; - b[0U] = b0_; -} - -inline static void -Hacl_Bignum_Fproduct_copy_from_wide_(uint64_t *output, FStar_UInt128_t *input) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)3U; i = i + (uint32_t)1U) { - FStar_UInt128_t xi = input[i]; - output[i] = FStar_UInt128_uint128_to_uint64(xi); - } -} - -inline static void -Hacl_Bignum_Fproduct_sum_scalar_multiplication_( - FStar_UInt128_t *output, - uint64_t *input, - uint64_t s) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)3U; i = i + (uint32_t)1U) { - FStar_UInt128_t xi = output[i]; - uint64_t yi = input[i]; - output[i] = FStar_UInt128_add_mod(xi, FStar_UInt128_mul_wide(yi, s)); - } -} - -inline static void -Hacl_Bignum_Fproduct_carry_wide_(FStar_UInt128_t *tmp) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)2U; i = i + (uint32_t)1U) { - uint32_t ctr = i; - FStar_UInt128_t tctr = tmp[ctr]; - FStar_UInt128_t tctrp1 = tmp[ctr + (uint32_t)1U]; - uint64_t r0 = FStar_UInt128_uint128_to_uint64(tctr) & (uint64_t)0xfffffffffffU; - FStar_UInt128_t c = FStar_UInt128_shift_right(tctr, (uint32_t)44U); - tmp[ctr] = FStar_UInt128_uint64_to_uint128(r0); - tmp[ctr + (uint32_t)1U] = FStar_UInt128_add(tctrp1, c); - } -} - -inline static void -Hacl_Bignum_Fproduct_carry_limb_(uint64_t *tmp) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)2U; i = i + (uint32_t)1U) { - uint32_t ctr = i; - uint64_t tctr = tmp[ctr]; - uint64_t tctrp1 = tmp[ctr + (uint32_t)1U]; - uint64_t r0 = tctr & (uint64_t)0xfffffffffffU; - uint64_t c = tctr >> (uint32_t)44U; - tmp[ctr] = r0; - tmp[ctr + (uint32_t)1U] = tctrp1 + c; - } -} - -inline static void -Hacl_Bignum_Fmul_shift_reduce(uint64_t *output) -{ - uint64_t tmp = output[2U]; - for (uint32_t i = (uint32_t)0U; i < (uint32_t)2U; i = i + (uint32_t)1U) { - uint32_t ctr = (uint32_t)3U - i - (uint32_t)1U; - uint64_t z = output[ctr - (uint32_t)1U]; - output[ctr] = z; - } - output[0U] = tmp; - Hacl_Bignum_Modulo_reduce(output); -} - -static void -Hacl_Bignum_Fmul_mul_shift_reduce_(FStar_UInt128_t *output, uint64_t *input, uint64_t *input2) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)2U; i = i + (uint32_t)1U) { - uint64_t input2i = input2[i]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); - Hacl_Bignum_Fmul_shift_reduce(input); - } - uint32_t i = (uint32_t)2U; - uint64_t input2i = input2[i]; - Hacl_Bignum_Fproduct_sum_scalar_multiplication_(output, input, input2i); -} - -inline static void -Hacl_Bignum_Fmul_fmul(uint64_t *output, uint64_t *input, uint64_t *input2) -{ - uint64_t tmp[3U] = { 0U }; - memcpy(tmp, input, (uint32_t)3U * sizeof input[0U]); - KRML_CHECK_SIZE(FStar_UInt128_uint64_to_uint128((uint64_t)0U), (uint32_t)3U); - FStar_UInt128_t t[3U]; - for (uint32_t _i = 0U; _i < (uint32_t)3U; ++_i) - t[_i] = FStar_UInt128_uint64_to_uint128((uint64_t)0U); - Hacl_Bignum_Fmul_mul_shift_reduce_(t, tmp, input2); - Hacl_Bignum_Fproduct_carry_wide_(t); - Hacl_Bignum_Modulo_carry_top_wide(t); - Hacl_Bignum_Fproduct_copy_from_wide_(output, t); - uint64_t i0 = output[0U]; - uint64_t i1 = output[1U]; - uint64_t i0_ = i0 & (uint64_t)0xfffffffffffU; - uint64_t i1_ = i1 + (i0 >> (uint32_t)44U); - output[0U] = i0_; - output[1U] = i1_; -} - -inline static void -Hacl_Bignum_AddAndMultiply_add_and_multiply(uint64_t *acc, uint64_t *block, uint64_t *r) -{ - for (uint32_t i = (uint32_t)0U; i < (uint32_t)3U; i = i + (uint32_t)1U) { - uint64_t xi = acc[i]; - uint64_t yi = block[i]; - acc[i] = xi + yi; - } - Hacl_Bignum_Fmul_fmul(acc, acc, r); -} - -inline static void -Hacl_Impl_Poly1305_64_poly1305_update( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m) -{ - Hacl_Impl_Poly1305_64_State_poly1305_state scrut0 = st; - uint64_t *h = scrut0.h; - uint64_t *acc = h; - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *r = scrut.r; - uint64_t *r3 = r; - uint64_t tmp[3U] = { 0U }; - FStar_UInt128_t m0 = load128_le(m); - uint64_t r0 = FStar_UInt128_uint128_to_uint64(m0) & (uint64_t)0xfffffffffffU; - uint64_t - r1 = - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(m0, (uint32_t)44U)) & (uint64_t)0xfffffffffffU; - uint64_t r2 = FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(m0, (uint32_t)88U)); - tmp[0U] = r0; - tmp[1U] = r1; - tmp[2U] = r2; - uint64_t b2 = tmp[2U]; - uint64_t b2_ = (uint64_t)0x10000000000U | b2; - tmp[2U] = b2_; - Hacl_Bignum_AddAndMultiply_add_and_multiply(acc, tmp, r3); -} - -inline static void -Hacl_Impl_Poly1305_64_poly1305_process_last_block_( - uint8_t *block, - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint64_t rem_) -{ - uint64_t tmp[3U] = { 0U }; - FStar_UInt128_t m0 = load128_le(block); - uint64_t r0 = FStar_UInt128_uint128_to_uint64(m0) & (uint64_t)0xfffffffffffU; - uint64_t - r1 = - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(m0, (uint32_t)44U)) & (uint64_t)0xfffffffffffU; - uint64_t r2 = FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(m0, (uint32_t)88U)); - tmp[0U] = r0; - tmp[1U] = r1; - tmp[2U] = r2; - Hacl_Impl_Poly1305_64_State_poly1305_state scrut0 = st; - uint64_t *h = scrut0.h; - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *r = scrut.r; - Hacl_Bignum_AddAndMultiply_add_and_multiply(h, tmp, r); -} - -inline static void -Hacl_Impl_Poly1305_64_poly1305_process_last_block( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint64_t rem_) -{ - uint8_t zero1 = (uint8_t)0U; - KRML_CHECK_SIZE(zero1, (uint32_t)16U); - uint8_t block[16U]; - for (uint32_t _i = 0U; _i < (uint32_t)16U; ++_i) - block[_i] = zero1; - uint32_t i0 = (uint32_t)rem_; - uint32_t i = (uint32_t)rem_; - memcpy(block, m, i * sizeof m[0U]); - block[i0] = (uint8_t)1U; - Hacl_Impl_Poly1305_64_poly1305_process_last_block_(block, st, m, rem_); -} - -static void -Hacl_Impl_Poly1305_64_poly1305_last_pass(uint64_t *acc) -{ - Hacl_Bignum_Fproduct_carry_limb_(acc); - Hacl_Bignum_Modulo_carry_top(acc); - uint64_t a0 = acc[0U]; - uint64_t a10 = acc[1U]; - uint64_t a20 = acc[2U]; - uint64_t a0_ = a0 & (uint64_t)0xfffffffffffU; - uint64_t r0 = a0 >> (uint32_t)44U; - uint64_t a1_ = (a10 + r0) & (uint64_t)0xfffffffffffU; - uint64_t r1 = (a10 + r0) >> (uint32_t)44U; - uint64_t a2_ = a20 + r1; - acc[0U] = a0_; - acc[1U] = a1_; - acc[2U] = a2_; - Hacl_Bignum_Modulo_carry_top(acc); - uint64_t i0 = acc[0U]; - uint64_t i1 = acc[1U]; - uint64_t i0_ = i0 & (uint64_t)0xfffffffffffU; - uint64_t i1_ = i1 + (i0 >> (uint32_t)44U); - acc[0U] = i0_; - acc[1U] = i1_; - uint64_t a00 = acc[0U]; - uint64_t a1 = acc[1U]; - uint64_t a2 = acc[2U]; - uint64_t mask0 = FStar_UInt64_gte_mask(a00, (uint64_t)0xffffffffffbU); - uint64_t mask1 = FStar_UInt64_eq_mask(a1, (uint64_t)0xfffffffffffU); - uint64_t mask2 = FStar_UInt64_eq_mask(a2, (uint64_t)0x3ffffffffffU); - uint64_t mask = (mask0 & mask1) & mask2; - uint64_t a0_0 = a00 - ((uint64_t)0xffffffffffbU & mask); - uint64_t a1_0 = a1 - ((uint64_t)0xfffffffffffU & mask); - uint64_t a2_0 = a2 - ((uint64_t)0x3ffffffffffU & mask); - acc[0U] = a0_0; - acc[1U] = a1_0; - acc[2U] = a2_0; -} - -static Hacl_Impl_Poly1305_64_State_poly1305_state -Hacl_Impl_Poly1305_64_mk_state(uint64_t *r, uint64_t *h) -{ - return ((Hacl_Impl_Poly1305_64_State_poly1305_state){.r = r, .h = h }); -} - -static void -Hacl_Standalone_Poly1305_64_poly1305_blocks( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint64_t len1) -{ - if (!(len1 == (uint64_t)0U)) { - uint8_t *block = m; - uint8_t *tail1 = m + (uint32_t)16U; - Hacl_Impl_Poly1305_64_poly1305_update(st, block); - uint64_t len2 = len1 - (uint64_t)1U; - Hacl_Standalone_Poly1305_64_poly1305_blocks(st, tail1, len2); - } -} - -static void -Hacl_Standalone_Poly1305_64_poly1305_partial( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *input, - uint64_t len1, - uint8_t *kr) -{ - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *r = scrut.r; - uint64_t *x0 = r; - FStar_UInt128_t k1 = load128_le(kr); - FStar_UInt128_t - k_clamped = - FStar_UInt128_logand(k1, - FStar_UInt128_logor(FStar_UInt128_shift_left(FStar_UInt128_uint64_to_uint128((uint64_t)0x0ffffffc0ffffffcU), - (uint32_t)64U), - FStar_UInt128_uint64_to_uint128((uint64_t)0x0ffffffc0fffffffU))); - uint64_t r0 = FStar_UInt128_uint128_to_uint64(k_clamped) & (uint64_t)0xfffffffffffU; - uint64_t - r1 = - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(k_clamped, (uint32_t)44U)) & (uint64_t)0xfffffffffffU; - uint64_t - r2 = FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(k_clamped, (uint32_t)88U)); - x0[0U] = r0; - x0[1U] = r1; - x0[2U] = r2; - Hacl_Impl_Poly1305_64_State_poly1305_state scrut0 = st; - uint64_t *h = scrut0.h; - uint64_t *x00 = h; - x00[0U] = (uint64_t)0U; - x00[1U] = (uint64_t)0U; - x00[2U] = (uint64_t)0U; - Hacl_Standalone_Poly1305_64_poly1305_blocks(st, input, len1); -} - -static void -Hacl_Standalone_Poly1305_64_poly1305_complete( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint64_t len1, - uint8_t *k1) -{ - uint8_t *kr = k1; - uint64_t len16 = len1 >> (uint32_t)4U; - uint64_t rem16 = len1 & (uint64_t)0xfU; - uint8_t *part_input = m; - uint8_t *last_block = m + (uint32_t)((uint64_t)16U * len16); - Hacl_Standalone_Poly1305_64_poly1305_partial(st, part_input, len16, kr); - if (!(rem16 == (uint64_t)0U)) - Hacl_Impl_Poly1305_64_poly1305_process_last_block(st, last_block, rem16); - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *h = scrut.h; - uint64_t *acc = h; - Hacl_Impl_Poly1305_64_poly1305_last_pass(acc); -} - -static void -Hacl_Standalone_Poly1305_64_crypto_onetimeauth_( - uint8_t *output, - uint8_t *input, - uint64_t len1, - uint8_t *k1) -{ - uint64_t buf[6U] = { 0U }; - uint64_t *r = buf; - uint64_t *h = buf + (uint32_t)3U; - Hacl_Impl_Poly1305_64_State_poly1305_state st = Hacl_Impl_Poly1305_64_mk_state(r, h); - uint8_t *key_s = k1 + (uint32_t)16U; - Hacl_Standalone_Poly1305_64_poly1305_complete(st, input, len1, k1); - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *h3 = scrut.h; - uint64_t *acc = h3; - FStar_UInt128_t k_ = load128_le(key_s); - uint64_t h0 = acc[0U]; - uint64_t h1 = acc[1U]; - uint64_t h2 = acc[2U]; - FStar_UInt128_t - acc_ = - FStar_UInt128_logor(FStar_UInt128_shift_left(FStar_UInt128_uint64_to_uint128(h2 - << (uint32_t)24U | - h1 >> (uint32_t)20U), - (uint32_t)64U), - FStar_UInt128_uint64_to_uint128(h1 << (uint32_t)44U | h0)); - FStar_UInt128_t mac_ = FStar_UInt128_add_mod(acc_, k_); - store128_le(output, mac_); -} - -static void -Hacl_Standalone_Poly1305_64_crypto_onetimeauth( - uint8_t *output, - uint8_t *input, - uint64_t len1, - uint8_t *k1) -{ - Hacl_Standalone_Poly1305_64_crypto_onetimeauth_(output, input, len1, k1); -} - -Hacl_Impl_Poly1305_64_State_poly1305_state -Hacl_Poly1305_64_mk_state(uint64_t *r, uint64_t *acc) -{ - return Hacl_Impl_Poly1305_64_mk_state(r, acc); -} - -void -Hacl_Poly1305_64_init(Hacl_Impl_Poly1305_64_State_poly1305_state st, uint8_t *k1) -{ - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *r = scrut.r; - uint64_t *x0 = r; - FStar_UInt128_t k10 = load128_le(k1); - FStar_UInt128_t - k_clamped = - FStar_UInt128_logand(k10, - FStar_UInt128_logor(FStar_UInt128_shift_left(FStar_UInt128_uint64_to_uint128((uint64_t)0x0ffffffc0ffffffcU), - (uint32_t)64U), - FStar_UInt128_uint64_to_uint128((uint64_t)0x0ffffffc0fffffffU))); - uint64_t r0 = FStar_UInt128_uint128_to_uint64(k_clamped) & (uint64_t)0xfffffffffffU; - uint64_t - r1 = - FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(k_clamped, (uint32_t)44U)) & (uint64_t)0xfffffffffffU; - uint64_t - r2 = FStar_UInt128_uint128_to_uint64(FStar_UInt128_shift_right(k_clamped, (uint32_t)88U)); - x0[0U] = r0; - x0[1U] = r1; - x0[2U] = r2; - Hacl_Impl_Poly1305_64_State_poly1305_state scrut0 = st; - uint64_t *h = scrut0.h; - uint64_t *x00 = h; - x00[0U] = (uint64_t)0U; - x00[1U] = (uint64_t)0U; - x00[2U] = (uint64_t)0U; -} - -void -Hacl_Poly1305_64_update_block(Hacl_Impl_Poly1305_64_State_poly1305_state st, uint8_t *m) -{ - Hacl_Impl_Poly1305_64_poly1305_update(st, m); -} - -void -Hacl_Poly1305_64_update( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint32_t num_blocks) -{ - if (!(num_blocks == (uint32_t)0U)) { - uint8_t *block = m; - uint8_t *m_ = m + (uint32_t)16U; - uint32_t n1 = num_blocks - (uint32_t)1U; - Hacl_Poly1305_64_update_block(st, block); - Hacl_Poly1305_64_update(st, m_, n1); - } -} - -void -Hacl_Poly1305_64_update_last( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint32_t len1) -{ - if (!((uint64_t)len1 == (uint64_t)0U)) - Hacl_Impl_Poly1305_64_poly1305_process_last_block(st, m, (uint64_t)len1); - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *h = scrut.h; - uint64_t *acc = h; - Hacl_Impl_Poly1305_64_poly1305_last_pass(acc); -} - -void -Hacl_Poly1305_64_finish( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *mac, - uint8_t *k1) -{ - Hacl_Impl_Poly1305_64_State_poly1305_state scrut = st; - uint64_t *h = scrut.h; - uint64_t *acc = h; - FStar_UInt128_t k_ = load128_le(k1); - uint64_t h0 = acc[0U]; - uint64_t h1 = acc[1U]; - uint64_t h2 = acc[2U]; - FStar_UInt128_t - acc_ = - FStar_UInt128_logor(FStar_UInt128_shift_left(FStar_UInt128_uint64_to_uint128(h2 - << (uint32_t)24U | - h1 >> (uint32_t)20U), - (uint32_t)64U), - FStar_UInt128_uint64_to_uint128(h1 << (uint32_t)44U | h0)); - FStar_UInt128_t mac_ = FStar_UInt128_add_mod(acc_, k_); - store128_le(mac, mac_); -} - -void -Hacl_Poly1305_64_crypto_onetimeauth( - uint8_t *output, - uint8_t *input, - uint64_t len1, - uint8_t *k1) -{ - Hacl_Standalone_Poly1305_64_crypto_onetimeauth(output, input, len1, k1); -} diff --git a/security/nss/lib/freebl/verified/Hacl_Poly1305_64.h b/security/nss/lib/freebl/verified/Hacl_Poly1305_64.h deleted file mode 100644 index 0aa9a0de3..000000000 --- a/security/nss/lib/freebl/verified/Hacl_Poly1305_64.h +++ /dev/null @@ -1,99 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include "kremlib.h" -#ifndef __Hacl_Poly1305_64_H -#define __Hacl_Poly1305_64_H - -typedef uint64_t Hacl_Bignum_Constants_limb; - -typedef FStar_UInt128_t Hacl_Bignum_Constants_wide; - -typedef FStar_UInt128_t Hacl_Bignum_Wide_t; - -typedef uint64_t Hacl_Bignum_Limb_t; - -typedef void *Hacl_Impl_Poly1305_64_State_log_t; - -typedef uint8_t *Hacl_Impl_Poly1305_64_State_uint8_p; - -typedef uint64_t *Hacl_Impl_Poly1305_64_State_bigint; - -typedef void *Hacl_Impl_Poly1305_64_State_seqelem; - -typedef uint64_t *Hacl_Impl_Poly1305_64_State_elemB; - -typedef uint8_t *Hacl_Impl_Poly1305_64_State_wordB; - -typedef uint8_t *Hacl_Impl_Poly1305_64_State_wordB_16; - -typedef struct -{ - uint64_t *r; - uint64_t *h; -} Hacl_Impl_Poly1305_64_State_poly1305_state; - -typedef void *Hacl_Impl_Poly1305_64_log_t; - -typedef uint64_t *Hacl_Impl_Poly1305_64_bigint; - -typedef uint8_t *Hacl_Impl_Poly1305_64_uint8_p; - -typedef uint64_t *Hacl_Impl_Poly1305_64_elemB; - -typedef uint8_t *Hacl_Impl_Poly1305_64_wordB; - -typedef uint8_t *Hacl_Impl_Poly1305_64_wordB_16; - -typedef uint8_t *Hacl_Poly1305_64_uint8_p; - -typedef uint64_t Hacl_Poly1305_64_uint64_t; - -typedef uint8_t *Hacl_Poly1305_64_key; - -typedef Hacl_Impl_Poly1305_64_State_poly1305_state Hacl_Poly1305_64_state; - -Hacl_Impl_Poly1305_64_State_poly1305_state -Hacl_Poly1305_64_mk_state(uint64_t *r, uint64_t *acc); - -void Hacl_Poly1305_64_init(Hacl_Impl_Poly1305_64_State_poly1305_state st, uint8_t *k1); - -void Hacl_Poly1305_64_update_block(Hacl_Impl_Poly1305_64_State_poly1305_state st, uint8_t *m); - -void -Hacl_Poly1305_64_update( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint32_t num_blocks); - -void -Hacl_Poly1305_64_update_last( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *m, - uint32_t len1); - -void -Hacl_Poly1305_64_finish( - Hacl_Impl_Poly1305_64_State_poly1305_state st, - uint8_t *mac, - uint8_t *k1); - -void -Hacl_Poly1305_64_crypto_onetimeauth( - uint8_t *output, - uint8_t *input, - uint64_t len1, - uint8_t *k1); -#endif diff --git a/security/nss/lib/freebl/verified/kremlib.h b/security/nss/lib/freebl/verified/kremlib.h deleted file mode 100644 index c12164e74..000000000 --- a/security/nss/lib/freebl/verified/kremlib.h +++ /dev/null @@ -1,672 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#ifndef __KREMLIB_H -#define __KREMLIB_H - -#include "kremlib_base.h" - -/* For tests only: we might need this function to be forward-declared, because - * the dependency on WasmSupport appears very late, after SimplifyWasm, and - * sadly, after the topological order has been done. */ -void WasmSupport_check_buffer_size(uint32_t s); - -/******************************************************************************/ -/* Stubs to ease compilation of non-Low* code */ -/******************************************************************************/ - -/* Some types that KreMLin has no special knowledge of; many of them appear in - * signatures of ghost functions, meaning that it suffices to give them (any) - * definition. */ -typedef void *FStar_Seq_Base_seq, *Prims_prop, *FStar_HyperStack_mem, - *FStar_Set_set, *Prims_st_pre_h, *FStar_Heap_heap, *Prims_all_pre_h, - *FStar_TSet_set, *Prims_list, *FStar_Map_t, *FStar_UInt63_t_, - *FStar_Int63_t_, *FStar_UInt63_t, *FStar_Int63_t, *FStar_UInt_uint_t, - *FStar_Int_int_t, *FStar_HyperStack_stackref, *FStar_Bytes_bytes, - *FStar_HyperHeap_rid, *FStar_Heap_aref, *FStar_Monotonic_Heap_heap, - *FStar_Monotonic_Heap_aref, *FStar_Monotonic_HyperHeap_rid, - *FStar_Monotonic_HyperStack_mem, *FStar_Char_char_; - -typedef const char *Prims_string; - -/* For "bare" targets that do not have a C stdlib, the user might want to use - * [-add-include '"mydefinitions.h"'] and override these. */ -#ifndef KRML_HOST_PRINTF -#define KRML_HOST_PRINTF printf -#endif - -#ifndef KRML_HOST_EXIT -#define KRML_HOST_EXIT exit -#endif - -#ifndef KRML_HOST_MALLOC -#define KRML_HOST_MALLOC malloc -#endif - -/* In statement position, exiting is easy. */ -#define KRML_EXIT \ - do { \ - KRML_HOST_PRINTF("Unimplemented function at %s:%d\n", __FILE__, __LINE__); \ - KRML_HOST_EXIT(254); \ - } while (0) - -/* In expression position, use the comma-operator and a malloc to return an - * expression of the right size. KreMLin passes t as the parameter to the macro. - */ -#define KRML_EABORT(t, msg) \ - (KRML_HOST_PRINTF("KreMLin abort at %s:%d\n%s\n", __FILE__, __LINE__, msg), \ - KRML_HOST_EXIT(255), *((t *)KRML_HOST_MALLOC(sizeof(t)))) - -/* In FStar.Buffer.fst, the size of arrays is uint32_t, but it's a number of - * *elements*. Do an ugly, run-time check (some of which KreMLin can eliminate). - */ -#define KRML_CHECK_SIZE(elt, size) \ - if (((size_t)size) > SIZE_MAX / sizeof(elt)) { \ - KRML_HOST_PRINTF( \ - "Maximum allocatable size exceeded, aborting before overflow at " \ - "%s:%d\n", \ - __FILE__, __LINE__); \ - KRML_HOST_EXIT(253); \ - } - -/* A series of GCC atrocities to trace function calls (kremlin's [-d c-calls] - * option). Useful when trying to debug, say, Wasm, to compare traces. */ -/* clang-format off */ -#ifdef __GNUC__ -#define KRML_FORMAT(X) _Generic((X), \ - uint8_t : "0x%08" PRIx8, \ - uint16_t: "0x%08" PRIx16, \ - uint32_t: "0x%08" PRIx32, \ - uint64_t: "0x%08" PRIx64, \ - int8_t : "0x%08" PRIx8, \ - int16_t : "0x%08" PRIx16, \ - int32_t : "0x%08" PRIx32, \ - int64_t : "0x%08" PRIx64, \ - default : "%s") - -#define KRML_FORMAT_ARG(X) _Generic((X), \ - uint8_t : X, \ - uint16_t: X, \ - uint32_t: X, \ - uint64_t: X, \ - int8_t : X, \ - int16_t : X, \ - int32_t : X, \ - int64_t : X, \ - default : "unknown") -/* clang-format on */ - -#define KRML_DEBUG_RETURN(X) \ - ({ \ - __auto_type _ret = (X); \ - KRML_HOST_PRINTF("returning: "); \ - KRML_HOST_PRINTF(KRML_FORMAT(_ret), KRML_FORMAT_ARG(_ret)); \ - KRML_HOST_PRINTF(" \n"); \ - _ret; \ - }) -#endif - -#define FStar_Buffer_eqb(b1, b2, n) \ - (memcmp((b1), (b2), (n) * sizeof((b1)[0])) == 0) - -/* Stubs to make ST happy. Important note: you must generate a use of the macro - * argument, otherwise, you may have FStar_ST_recall(f) as the only use of f; - * KreMLin will think that this is a valid use, but then the C compiler, after - * macro expansion, will error out. */ -#define FStar_HyperHeap_root 0 -#define FStar_Pervasives_Native_fst(x) (x).fst -#define FStar_Pervasives_Native_snd(x) (x).snd -#define FStar_Seq_Base_createEmpty(x) 0 -#define FStar_Seq_Base_create(len, init) 0 -#define FStar_Seq_Base_upd(s, i, e) 0 -#define FStar_Seq_Base_eq(l1, l2) 0 -#define FStar_Seq_Base_length(l1) 0 -#define FStar_Seq_Base_append(x, y) 0 -#define FStar_Seq_Base_slice(x, y, z) 0 -#define FStar_Seq_Properties_snoc(x, y) 0 -#define FStar_Seq_Properties_cons(x, y) 0 -#define FStar_Seq_Base_index(x, y) 0 -#define FStar_HyperStack_is_eternal_color(x) 0 -#define FStar_Monotonic_HyperHeap_root 0 -#define FStar_Buffer_to_seq_full(x) 0 -#define FStar_Buffer_recall(x) -#define FStar_HyperStack_ST_op_Colon_Equals(x, v) KRML_EXIT -#define FStar_HyperStack_ST_op_Bang(x) 0 -#define FStar_HyperStack_ST_salloc(x) 0 -#define FStar_HyperStack_ST_ralloc(x, y) 0 -#define FStar_HyperStack_ST_new_region(x) (0) -#define FStar_Monotonic_RRef_m_alloc(x) \ - { \ - 0 \ - } - -#define FStar_HyperStack_ST_recall(x) \ - do { \ - (void)(x); \ - } while (0) - -#define FStar_HyperStack_ST_recall_region(x) \ - do { \ - (void)(x); \ - } while (0) - -#define FStar_Monotonic_RRef_m_recall(x1, x2) \ - do { \ - (void)(x1); \ - (void)(x2); \ - } while (0) - -#define FStar_Monotonic_RRef_m_write(x1, x2, x3, x4, x5) \ - do { \ - (void)(x1); \ - (void)(x2); \ - (void)(x3); \ - (void)(x4); \ - (void)(x5); \ - } while (0) - -/******************************************************************************/ -/* Endian-ness macros that can only be implemented in C */ -/******************************************************************************/ - -/* ... for Linux */ -#if defined(__linux__) || defined(__CYGWIN__) -#include - -/* ... for OSX */ -#elif defined(__APPLE__) -#include -#define htole64(x) OSSwapHostToLittleInt64(x) -#define le64toh(x) OSSwapLittleToHostInt64(x) -#define htobe64(x) OSSwapHostToBigInt64(x) -#define be64toh(x) OSSwapBigToHostInt64(x) - -#define htole16(x) OSSwapHostToLittleInt16(x) -#define le16toh(x) OSSwapLittleToHostInt16(x) -#define htobe16(x) OSSwapHostToBigInt16(x) -#define be16toh(x) OSSwapBigToHostInt16(x) - -#define htole32(x) OSSwapHostToLittleInt32(x) -#define le32toh(x) OSSwapLittleToHostInt32(x) -#define htobe32(x) OSSwapHostToBigInt32(x) -#define be32toh(x) OSSwapBigToHostInt32(x) - -/* ... for Solaris */ -#elif defined(__sun__) -#include -#define htole64(x) LE_64(x) -#define le64toh(x) LE_64(x) -#define htobe64(x) BE_64(x) -#define be64toh(x) BE_64(x) - -#define htole16(x) LE_16(x) -#define le16toh(x) LE_16(x) -#define htobe16(x) BE_16(x) -#define be16toh(x) BE_16(x) - -#define htole32(x) LE_32(x) -#define le32toh(x) LE_32(x) -#define htobe32(x) BE_32(x) -#define be32toh(x) BE_32(x) - -/* ... for the BSDs */ -#elif defined(__FreeBSD__) || defined(__NetBSD__) || defined(__DragonFly__) -#include -#elif defined(__OpenBSD__) -#include - -/* ... for Windows (MSVC)... not targeting XBOX 360! */ -#elif defined(_MSC_VER) - -#include -#define htobe16(x) _byteswap_ushort(x) -#define htole16(x) (x) -#define be16toh(x) _byteswap_ushort(x) -#define le16toh(x) (x) - -#define htobe32(x) _byteswap_ulong(x) -#define htole32(x) (x) -#define be32toh(x) _byteswap_ulong(x) -#define le32toh(x) (x) - -#define htobe64(x) _byteswap_uint64(x) -#define htole64(x) (x) -#define be64toh(x) _byteswap_uint64(x) -#define le64toh(x) (x) - -/* ... for Windows (GCC-like, e.g. mingw or clang) */ -#elif (defined(_WIN32) || defined(_WIN64)) && \ - (defined(__GNUC__) || defined(__clang__)) - -#define htobe16(x) __builtin_bswap16(x) -#define htole16(x) (x) -#define be16toh(x) __builtin_bswap16(x) -#define le16toh(x) (x) - -#define htobe32(x) __builtin_bswap32(x) -#define htole32(x) (x) -#define be32toh(x) __builtin_bswap32(x) -#define le32toh(x) (x) - -#define htobe64(x) __builtin_bswap64(x) -#define htole64(x) (x) -#define be64toh(x) __builtin_bswap64(x) -#define le64toh(x) (x) - -/* ... generic big-endian fallback code */ -#elif defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__ - -/* byte swapping code inspired by: - * https://github.com/rweather/arduinolibs/blob/master/libraries/Crypto/utility/EndianUtil.h - * */ - -#define htobe32(x) (x) -#define be32toh(x) (x) -#define htole32(x) \ - (__extension__({ \ - uint32_t _temp = (x); \ - ((_temp >> 24) & 0x000000FF) | ((_temp >> 8) & 0x0000FF00) | \ - ((_temp << 8) & 0x00FF0000) | ((_temp << 24) & 0xFF000000); \ - })) -#define le32toh(x) (htole32((x))) - -#define htobe64(x) (x) -#define be64toh(x) (x) -#define htole64(x) \ - (__extension__({ \ - uint64_t __temp = (x); \ - uint32_t __low = htobe32((uint32_t)__temp); \ - uint32_t __high = htobe32((uint32_t)(__temp >> 32)); \ - (((uint64_t)__low) << 32) | __high; \ - })) -#define le64toh(x) (htole64((x))) - -/* ... generic little-endian fallback code */ -#elif defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ - -#define htole32(x) (x) -#define le32toh(x) (x) -#define htobe32(x) \ - (__extension__({ \ - uint32_t _temp = (x); \ - ((_temp >> 24) & 0x000000FF) | ((_temp >> 8) & 0x0000FF00) | \ - ((_temp << 8) & 0x00FF0000) | ((_temp << 24) & 0xFF000000); \ - })) -#define be32toh(x) (htobe32((x))) - -#define htole64(x) (x) -#define le64toh(x) (x) -#define htobe64(x) \ - (__extension__({ \ - uint64_t __temp = (x); \ - uint32_t __low = htobe32((uint32_t)__temp); \ - uint32_t __high = htobe32((uint32_t)(__temp >> 32)); \ - (((uint64_t)__low) << 32) | __high; \ - })) -#define be64toh(x) (htobe64((x))) - -/* ... couldn't determine endian-ness of the target platform */ -#else -#error "Please define __BYTE_ORDER__!" - -#endif /* defined(__linux__) || ... */ - -/* Loads and stores. These avoid undefined behavior due to unaligned memory - * accesses, via memcpy. */ - -inline static uint16_t -load16(uint8_t *b) -{ - uint16_t x; - memcpy(&x, b, 2); - return x; -} - -inline static uint32_t -load32(uint8_t *b) -{ - uint32_t x; - memcpy(&x, b, 4); - return x; -} - -inline static uint64_t -load64(uint8_t *b) -{ - uint64_t x; - memcpy(&x, b, 8); - return x; -} - -inline static void -store16(uint8_t *b, uint16_t i) -{ - memcpy(b, &i, 2); -} - -inline static void -store32(uint8_t *b, uint32_t i) -{ - memcpy(b, &i, 4); -} - -inline static void -store64(uint8_t *b, uint64_t i) -{ - memcpy(b, &i, 8); -} - -#define load16_le(b) (le16toh(load16(b))) -#define store16_le(b, i) (store16(b, htole16(i))) -#define load16_be(b) (be16toh(load16(b))) -#define store16_be(b, i) (store16(b, htobe16(i))) - -#define load32_le(b) (le32toh(load32(b))) -#define store32_le(b, i) (store32(b, htole32(i))) -#define load32_be(b) (be32toh(load32(b))) -#define store32_be(b, i) (store32(b, htobe32(i))) - -#define load64_le(b) (le64toh(load64(b))) -#define store64_le(b, i) (store64(b, htole64(i))) -#define load64_be(b) (be64toh(load64(b))) -#define store64_be(b, i) (store64(b, htobe64(i))) - -/******************************************************************************/ -/* Checked integers to ease the compilation of non-Low* code */ -/******************************************************************************/ - -typedef int32_t Prims_pos, Prims_nat, Prims_nonzero, Prims_int, - krml_checked_int_t; - -inline static bool -Prims_op_GreaterThanOrEqual(int32_t x, int32_t y) -{ - return x >= y; -} - -inline static bool -Prims_op_LessThanOrEqual(int32_t x, int32_t y) -{ - return x <= y; -} - -inline static bool -Prims_op_GreaterThan(int32_t x, int32_t y) -{ - return x > y; -} - -inline static bool -Prims_op_LessThan(int32_t x, int32_t y) -{ - return x < y; -} - -#define RETURN_OR(x) \ - do { \ - int64_t __ret = x; \ - if (__ret < INT32_MIN || INT32_MAX < __ret) { \ - KRML_HOST_PRINTF("Prims.{int,nat,pos} integer overflow at %s:%d\n", \ - __FILE__, __LINE__); \ - KRML_HOST_EXIT(252); \ - } \ - return (int32_t)__ret; \ - } while (0) - -inline static int32_t -Prims_pow2(int32_t x) -{ - RETURN_OR((int64_t)1 << (int64_t)x); -} - -inline static int32_t -Prims_op_Multiply(int32_t x, int32_t y) -{ - RETURN_OR((int64_t)x * (int64_t)y); -} - -inline static int32_t -Prims_op_Addition(int32_t x, int32_t y) -{ - RETURN_OR((int64_t)x + (int64_t)y); -} - -inline static int32_t -Prims_op_Subtraction(int32_t x, int32_t y) -{ - RETURN_OR((int64_t)x - (int64_t)y); -} - -inline static int32_t -Prims_op_Division(int32_t x, int32_t y) -{ - RETURN_OR((int64_t)x / (int64_t)y); -} - -inline static int32_t -Prims_op_Modulus(int32_t x, int32_t y) -{ - RETURN_OR((int64_t)x % (int64_t)y); -} - -inline static int8_t -FStar_UInt8_uint_to_t(int8_t x) -{ - return x; -} -inline static int16_t -FStar_UInt16_uint_to_t(int16_t x) -{ - return x; -} -inline static int32_t -FStar_UInt32_uint_to_t(int32_t x) -{ - return x; -} -inline static int64_t -FStar_UInt64_uint_to_t(int64_t x) -{ - return x; -} - -inline static int8_t -FStar_UInt8_v(int8_t x) -{ - return x; -} -inline static int16_t -FStar_UInt16_v(int16_t x) -{ - return x; -} -inline static int32_t -FStar_UInt32_v(int32_t x) -{ - return x; -} -inline static int64_t -FStar_UInt64_v(int64_t x) -{ - return x; -} - -/* Platform-specific 128-bit arithmetic. These are static functions in a header, - * so that each translation unit gets its own copy and the C compiler can - * optimize. */ -#ifndef KRML_NOUINT128 -typedef unsigned __int128 FStar_UInt128_t, FStar_UInt128_t_, uint128_t; - -static inline void -print128(const char *where, uint128_t n) -{ - KRML_HOST_PRINTF("%s: [%" PRIu64 ",%" PRIu64 "]\n", where, - (uint64_t)(n >> 64), (uint64_t)n); -} - -static inline uint128_t -load128_le(uint8_t *b) -{ - uint128_t l = (uint128_t)load64_le(b); - uint128_t h = (uint128_t)load64_le(b + 8); - return (h << 64 | l); -} - -static inline void -store128_le(uint8_t *b, uint128_t n) -{ - store64_le(b, (uint64_t)n); - store64_le(b + 8, (uint64_t)(n >> 64)); -} - -static inline uint128_t -load128_be(uint8_t *b) -{ - uint128_t h = (uint128_t)load64_be(b); - uint128_t l = (uint128_t)load64_be(b + 8); - return (h << 64 | l); -} - -static inline void -store128_be(uint8_t *b, uint128_t n) -{ - store64_be(b, (uint64_t)(n >> 64)); - store64_be(b + 8, (uint64_t)n); -} - -#define FStar_UInt128_add(x, y) ((x) + (y)) -#define FStar_UInt128_mul(x, y) ((x) * (y)) -#define FStar_UInt128_add_mod(x, y) ((x) + (y)) -#define FStar_UInt128_sub(x, y) ((x) - (y)) -#define FStar_UInt128_sub_mod(x, y) ((x) - (y)) -#define FStar_UInt128_logand(x, y) ((x) & (y)) -#define FStar_UInt128_logor(x, y) ((x) | (y)) -#define FStar_UInt128_logxor(x, y) ((x) ^ (y)) -#define FStar_UInt128_lognot(x) (~(x)) -#define FStar_UInt128_shift_left(x, y) ((x) << (y)) -#define FStar_UInt128_shift_right(x, y) ((x) >> (y)) -#define FStar_UInt128_uint64_to_uint128(x) ((uint128_t)(x)) -#define FStar_UInt128_uint128_to_uint64(x) ((uint64_t)(x)) -#define FStar_UInt128_mul_wide(x, y) ((uint128_t)(x) * (y)) -#define FStar_UInt128_op_Hat_Hat(x, y) ((x) ^ (y)) - -static inline uint128_t -FStar_UInt128_eq_mask(uint128_t x, uint128_t y) -{ - uint64_t mask = - FStar_UInt64_eq_mask((uint64_t)(x >> 64), (uint64_t)(y >> 64)) & - FStar_UInt64_eq_mask(x, y); - return ((uint128_t)mask) << 64 | mask; -} - -static inline uint128_t -FStar_UInt128_gte_mask(uint128_t x, uint128_t y) -{ - uint64_t mask = - (FStar_UInt64_gte_mask(x >> 64, y >> 64) & - ~(FStar_UInt64_eq_mask(x >> 64, y >> 64))) | - (FStar_UInt64_eq_mask(x >> 64, y >> 64) & FStar_UInt64_gte_mask(x, y)); - return ((uint128_t)mask) << 64 | mask; -} - -#else /* !defined(KRML_NOUINT128) */ - -/* This is a bad circular dependency... should fix it properly. */ -#include "FStar.h" - -typedef FStar_UInt128_uint128 FStar_UInt128_t_, uint128_t; - -/* A series of definitions written using pointers. */ -static inline void -print128_(const char *where, uint128_t *n) -{ - KRML_HOST_PRINTF("%s: [0x%08" PRIx64 ",0x%08" PRIx64 "]\n", where, n->high, n->low); -} - -static inline void -load128_le_(uint8_t *b, uint128_t *r) -{ - r->low = load64_le(b); - r->high = load64_le(b + 8); -} - -static inline void -store128_le_(uint8_t *b, uint128_t *n) -{ - store64_le(b, n->low); - store64_le(b + 8, n->high); -} - -static inline void -load128_be_(uint8_t *b, uint128_t *r) -{ - r->high = load64_be(b); - r->low = load64_be(b + 8); -} - -static inline void -store128_be_(uint8_t *b, uint128_t *n) -{ - store64_be(b, n->high); - store64_be(b + 8, n->low); -} - -#ifndef KRML_NOSTRUCT_PASSING - -static inline void -print128(const char *where, uint128_t n) -{ - print128_(where, &n); -} - -static inline uint128_t -load128_le(uint8_t *b) -{ - uint128_t r; - load128_le_(b, &r); - return r; -} - -static inline void -store128_le(uint8_t *b, uint128_t n) -{ - store128_le_(b, &n); -} - -static inline uint128_t -load128_be(uint8_t *b) -{ - uint128_t r; - load128_be_(b, &r); - return r; -} - -static inline void -store128_be(uint8_t *b, uint128_t n) -{ - store128_be_(b, &n); -} - -#else /* !defined(KRML_STRUCT_PASSING) */ - -#define print128 print128_ -#define load128_le load128_le_ -#define store128_le store128_le_ -#define load128_be load128_be_ -#define store128_be store128_be_ - -#endif /* KRML_STRUCT_PASSING */ -#endif /* KRML_UINT128 */ -#endif /* __KREMLIB_H */ diff --git a/security/nss/lib/freebl/verified/kremlib_base.h b/security/nss/lib/freebl/verified/kremlib_base.h deleted file mode 100644 index 61bac11d4..000000000 --- a/security/nss/lib/freebl/verified/kremlib_base.h +++ /dev/null @@ -1,191 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#ifndef __KREMLIB_BASE_H -#define __KREMLIB_BASE_H - -#include -#include -#include -#include -#include -#include - -/******************************************************************************/ -/* Some macros to ease compatibility */ -/******************************************************************************/ - -/* Define __cdecl and friends when using GCC, so that we can safely compile code - * that contains __cdecl on all platforms. Note that this is in a separate - * header so that Dafny-generated code can include just this file. */ -#ifndef _MSC_VER -/* Use the gcc predefined macros if on a platform/architectures that set them. - * Otherwise define them to be empty. */ -#ifndef __cdecl -#define __cdecl -#endif -#ifndef __stdcall -#define __stdcall -#endif -#ifndef __fastcall -#define __fastcall -#endif -#endif - -#ifdef __GNUC__ -#define inline __inline__ -#endif - -/* GCC-specific attribute syntax; everyone else gets the standard C inline - * attribute. */ -#ifdef __GNU_C__ -#ifndef __clang__ -#define force_inline inline __attribute__((always_inline)) -#else -#define force_inline inline -#endif -#else -#define force_inline inline -#endif - -/******************************************************************************/ -/* Implementing C.fst */ -/******************************************************************************/ - -/* Uppercase issue; we have to define lowercase versions of the C macros (as we - * have no way to refer to an uppercase *variable* in F*). */ -extern int exit_success; -extern int exit_failure; - -/* This one allows the user to write C.EXIT_SUCCESS. */ -typedef int exit_code; - -void print_string(const char *s); -void print_bytes(uint8_t *b, uint32_t len); - -/* The universal null pointer defined in C.Nullity.fst */ -#define C_Nullity_null(X) 0 - -/* If some globals need to be initialized before the main, then kremlin will - * generate and try to link last a function with this type: */ -void kremlinit_globals(void); - -/******************************************************************************/ -/* Implementation of machine integers (possibly of 128-bit integers) */ -/******************************************************************************/ - -/* Integer types */ -typedef uint64_t FStar_UInt64_t, FStar_UInt64_t_; -typedef int64_t FStar_Int64_t, FStar_Int64_t_; -typedef uint32_t FStar_UInt32_t, FStar_UInt32_t_; -typedef int32_t FStar_Int32_t, FStar_Int32_t_; -typedef uint16_t FStar_UInt16_t, FStar_UInt16_t_; -typedef int16_t FStar_Int16_t, FStar_Int16_t_; -typedef uint8_t FStar_UInt8_t, FStar_UInt8_t_; -typedef int8_t FStar_Int8_t, FStar_Int8_t_; - -static inline uint32_t -rotate32_left(uint32_t x, uint32_t n) -{ - /* assert (n<32); */ - return (x << n) | (x >> (32 - n)); -} -static inline uint32_t -rotate32_right(uint32_t x, uint32_t n) -{ - /* assert (n<32); */ - return (x >> n) | (x << (32 - n)); -} - -/* Constant time comparisons */ -static inline uint8_t -FStar_UInt8_eq_mask(uint8_t x, uint8_t y) -{ - x = ~(x ^ y); - x &= x << 4; - x &= x << 2; - x &= x << 1; - return (int8_t)x >> 7; -} - -static inline uint8_t -FStar_UInt8_gte_mask(uint8_t x, uint8_t y) -{ - return ~(uint8_t)(((int32_t)x - y) >> 31); -} - -static inline uint16_t -FStar_UInt16_eq_mask(uint16_t x, uint16_t y) -{ - x = ~(x ^ y); - x &= x << 8; - x &= x << 4; - x &= x << 2; - x &= x << 1; - return (int16_t)x >> 15; -} - -static inline uint16_t -FStar_UInt16_gte_mask(uint16_t x, uint16_t y) -{ - return ~(uint16_t)(((int32_t)x - y) >> 31); -} - -static inline uint32_t -FStar_UInt32_eq_mask(uint32_t x, uint32_t y) -{ - x = ~(x ^ y); - x &= x << 16; - x &= x << 8; - x &= x << 4; - x &= x << 2; - x &= x << 1; - return ((int32_t)x) >> 31; -} - -static inline uint32_t -FStar_UInt32_gte_mask(uint32_t x, uint32_t y) -{ - return ~((uint32_t)(((int64_t)x - y) >> 63)); -} - -static inline uint64_t -FStar_UInt64_eq_mask(uint64_t x, uint64_t y) -{ - x = ~(x ^ y); - x &= x << 32; - x &= x << 16; - x &= x << 8; - x &= x << 4; - x &= x << 2; - x &= x << 1; - return ((int64_t)x) >> 63; -} - -static inline uint64_t -FStar_UInt64_gte_mask(uint64_t x, uint64_t y) -{ - uint64_t low63 = - ~((uint64_t)((int64_t)((int64_t)(x & UINT64_C(0x7fffffffffffffff)) - - (int64_t)(y & UINT64_C(0x7fffffffffffffff))) >> - 63)); - uint64_t high_bit = - ~((uint64_t)((int64_t)((int64_t)(x & UINT64_C(0x8000000000000000)) - - (int64_t)(y & UINT64_C(0x8000000000000000))) >> - 63)); - return low63 & high_bit; -} - -#endif diff --git a/security/nss/lib/freebl/verified/specs/Spec.CTR.fst b/security/nss/lib/freebl/verified/specs/Spec.CTR.fst deleted file mode 100644 index e411cd353..000000000 --- a/security/nss/lib/freebl/verified/specs/Spec.CTR.fst +++ /dev/null @@ -1,98 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -module Spec.CTR - -module ST = FStar.HyperStack.ST - -open FStar.Mul -open FStar.Seq -open Spec.Lib - -#reset-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0" - -type block_cipher_ctx = { - keylen: nat ; - blocklen: (x:nat{x>0}); - noncelen: nat; - counterbits: nat; - incr: pos} - -type key (c:block_cipher_ctx) = lbytes c.keylen -type nonce (c:block_cipher_ctx) = lbytes c.noncelen -type block (c:block_cipher_ctx) = lbytes (c.blocklen*c.incr) -type counter (c:block_cipher_ctx) = UInt.uint_t c.counterbits -type block_cipher (c:block_cipher_ctx) = key c -> nonce c -> counter c -> block c - -val xor: #len:nat -> x:lbytes len -> y:lbytes len -> Tot (lbytes len) -let xor #len x y = map2 FStar.UInt8.(fun x y -> x ^^ y) x y - - -val counter_mode_blocks: - ctx: block_cipher_ctx -> - bc: block_cipher ctx -> - k:key ctx -> n:nonce ctx -> c:counter ctx -> - plain:seq UInt8.t{c + ctx.incr * (length plain / ctx.blocklen) < pow2 ctx.counterbits /\ - length plain % (ctx.blocklen * ctx.incr) = 0} -> - Tot (lbytes (length plain)) - (decreases (length plain)) -#reset-options "--z3rlimit 200 --max_fuel 0" -let rec counter_mode_blocks ctx block_enc key nonce counter plain = - let len = length plain in - let len' = len / (ctx.blocklen * ctx.incr) in - Math.Lemmas.lemma_div_mod len (ctx.blocklen * ctx.incr) ; - if len = 0 then Seq.createEmpty #UInt8.t - else ( - let prefix, block = split plain (len - ctx.blocklen * ctx.incr) in - (* TODO: move to a single lemma for clarify *) - Math.Lemmas.lemma_mod_plus (length prefix) 1 (ctx.blocklen * ctx.incr); - Math.Lemmas.lemma_div_le (length prefix) len ctx.blocklen; - Spec.CTR.Lemmas.lemma_div len (ctx.blocklen * ctx.incr); - (* End TODO *) - let cipher = counter_mode_blocks ctx block_enc key nonce counter prefix in - let mask = block_enc key nonce (counter + (len / ctx.blocklen - 1) * ctx.incr) in - let eb = xor block mask in - cipher @| eb - ) - - -val counter_mode: - ctx: block_cipher_ctx -> - bc: block_cipher ctx -> - k:key ctx -> n:nonce ctx -> c:counter ctx -> - plain:seq UInt8.t{c + ctx.incr * (length plain / ctx.blocklen) < pow2 ctx.counterbits} -> - Tot (lbytes (length plain)) - (decreases (length plain)) -#reset-options "--z3rlimit 200 --max_fuel 0" -let counter_mode ctx block_enc key nonce counter plain = - let len = length plain in - let blocks_len = (ctx.incr * ctx.blocklen) * (len / (ctx.blocklen * ctx.incr)) in - let part_len = len % (ctx.blocklen * ctx.incr) in - (* TODO: move to a single lemma for clarify *) - Math.Lemmas.lemma_div_mod len (ctx.blocklen * ctx.incr); - Math.Lemmas.multiple_modulo_lemma (len / (ctx.blocklen * ctx.incr)) (ctx.blocklen * ctx.incr); - Math.Lemmas.lemma_div_le (blocks_len) len ctx.blocklen; - (* End TODO *) - let blocks, last_block = split plain blocks_len in - let cipher_blocks = counter_mode_blocks ctx block_enc key nonce counter blocks in - let cipher_last_block = - if part_len > 0 - then (* encrypt final partial block(s) *) - let mask = block_enc key nonce (counter+ctx.incr*(length plain / ctx.blocklen)) in - let mask = slice mask 0 part_len in - assert(length last_block = part_len); - xor #part_len last_block mask - else createEmpty in - cipher_blocks @| cipher_last_block diff --git a/security/nss/lib/freebl/verified/specs/Spec.Chacha20.fst b/security/nss/lib/freebl/verified/specs/Spec.Chacha20.fst deleted file mode 100644 index 0bdc69725..000000000 --- a/security/nss/lib/freebl/verified/specs/Spec.Chacha20.fst +++ /dev/null @@ -1,169 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -module Spec.Chacha20 - -module ST = FStar.HyperStack.ST - -open FStar.Mul -open FStar.Seq -open FStar.UInt32 -open FStar.Endianness -open Spec.Lib -open Spec.Chacha20.Lemmas -open Seq.Create - -#set-options "--max_fuel 0 --z3rlimit 100" - -(* Constants *) -let keylen = 32 (* in bytes *) -let blocklen = 64 (* in bytes *) -let noncelen = 12 (* in bytes *) - -type key = lbytes keylen -type block = lbytes blocklen -type nonce = lbytes noncelen -type counter = UInt.uint_t 32 - -// using @ as a functional substitute for ; -// internally, blocks are represented as 16 x 4-byte integers -type state = m:seq UInt32.t {length m = 16} -type idx = n:nat{n < 16} -type shuffle = state -> Tot state - -let line (a:idx) (b:idx) (d:idx) (s:t{0 < v s /\ v s < 32}) (m:state) : Tot state = - let m = m.[a] <- (m.[a] +%^ m.[b]) in - let m = m.[d] <- ((m.[d] ^^ m.[a]) <<< s) in m - -let quarter_round a b c d : shuffle = - line a b d 16ul @ - line c d b 12ul @ - line a b d 8ul @ - line c d b 7ul - -let column_round : shuffle = - quarter_round 0 4 8 12 @ - quarter_round 1 5 9 13 @ - quarter_round 2 6 10 14 @ - quarter_round 3 7 11 15 - -let diagonal_round : shuffle = - quarter_round 0 5 10 15 @ - quarter_round 1 6 11 12 @ - quarter_round 2 7 8 13 @ - quarter_round 3 4 9 14 - -let double_round: shuffle = - column_round @ diagonal_round (* 2 rounds *) - -let rounds : shuffle = - iter 10 double_round (* 20 rounds *) - -let chacha20_core (s:state) : Tot state = - let s' = rounds s in - Spec.Loops.seq_map2 (fun x y -> x +%^ y) s' s - -(* state initialization *) -let c0 = 0x61707865ul -let c1 = 0x3320646eul -let c2 = 0x79622d32ul -let c3 = 0x6b206574ul - -let setup (k:key) (n:nonce) (c:counter): Tot state = - create_4 c0 c1 c2 c3 @| - uint32s_from_le 8 k @| - create_1 (UInt32.uint_to_t c) @| - uint32s_from_le 3 n - -let chacha20_block (k:key) (n:nonce) (c:counter): Tot block = - let st = setup k n c in - let st' = chacha20_core st in - uint32s_to_le 16 st' - -let chacha20_ctx: Spec.CTR.block_cipher_ctx = - let open Spec.CTR in - { - keylen = keylen; - blocklen = blocklen; - noncelen = noncelen; - counterbits = 32; - incr = 1 - } - -let chacha20_cipher: Spec.CTR.block_cipher chacha20_ctx = chacha20_block - -let chacha20_encrypt_bytes key nonce counter m = - Spec.CTR.counter_mode chacha20_ctx chacha20_cipher key nonce counter m - - -unfold let test_plaintext = [ - 0x4cuy; 0x61uy; 0x64uy; 0x69uy; 0x65uy; 0x73uy; 0x20uy; 0x61uy; - 0x6euy; 0x64uy; 0x20uy; 0x47uy; 0x65uy; 0x6euy; 0x74uy; 0x6cuy; - 0x65uy; 0x6duy; 0x65uy; 0x6euy; 0x20uy; 0x6fuy; 0x66uy; 0x20uy; - 0x74uy; 0x68uy; 0x65uy; 0x20uy; 0x63uy; 0x6cuy; 0x61uy; 0x73uy; - 0x73uy; 0x20uy; 0x6fuy; 0x66uy; 0x20uy; 0x27uy; 0x39uy; 0x39uy; - 0x3auy; 0x20uy; 0x49uy; 0x66uy; 0x20uy; 0x49uy; 0x20uy; 0x63uy; - 0x6fuy; 0x75uy; 0x6cuy; 0x64uy; 0x20uy; 0x6fuy; 0x66uy; 0x66uy; - 0x65uy; 0x72uy; 0x20uy; 0x79uy; 0x6fuy; 0x75uy; 0x20uy; 0x6fuy; - 0x6euy; 0x6cuy; 0x79uy; 0x20uy; 0x6fuy; 0x6euy; 0x65uy; 0x20uy; - 0x74uy; 0x69uy; 0x70uy; 0x20uy; 0x66uy; 0x6fuy; 0x72uy; 0x20uy; - 0x74uy; 0x68uy; 0x65uy; 0x20uy; 0x66uy; 0x75uy; 0x74uy; 0x75uy; - 0x72uy; 0x65uy; 0x2cuy; 0x20uy; 0x73uy; 0x75uy; 0x6euy; 0x73uy; - 0x63uy; 0x72uy; 0x65uy; 0x65uy; 0x6euy; 0x20uy; 0x77uy; 0x6fuy; - 0x75uy; 0x6cuy; 0x64uy; 0x20uy; 0x62uy; 0x65uy; 0x20uy; 0x69uy; - 0x74uy; 0x2euy -] - -unfold let test_ciphertext = [ - 0x6euy; 0x2euy; 0x35uy; 0x9auy; 0x25uy; 0x68uy; 0xf9uy; 0x80uy; - 0x41uy; 0xbauy; 0x07uy; 0x28uy; 0xdduy; 0x0duy; 0x69uy; 0x81uy; - 0xe9uy; 0x7euy; 0x7auy; 0xecuy; 0x1duy; 0x43uy; 0x60uy; 0xc2uy; - 0x0auy; 0x27uy; 0xafuy; 0xccuy; 0xfduy; 0x9fuy; 0xaeuy; 0x0buy; - 0xf9uy; 0x1buy; 0x65uy; 0xc5uy; 0x52uy; 0x47uy; 0x33uy; 0xabuy; - 0x8fuy; 0x59uy; 0x3duy; 0xabuy; 0xcduy; 0x62uy; 0xb3uy; 0x57uy; - 0x16uy; 0x39uy; 0xd6uy; 0x24uy; 0xe6uy; 0x51uy; 0x52uy; 0xabuy; - 0x8fuy; 0x53uy; 0x0cuy; 0x35uy; 0x9fuy; 0x08uy; 0x61uy; 0xd8uy; - 0x07uy; 0xcauy; 0x0duy; 0xbfuy; 0x50uy; 0x0duy; 0x6auy; 0x61uy; - 0x56uy; 0xa3uy; 0x8euy; 0x08uy; 0x8auy; 0x22uy; 0xb6uy; 0x5euy; - 0x52uy; 0xbcuy; 0x51uy; 0x4duy; 0x16uy; 0xccuy; 0xf8uy; 0x06uy; - 0x81uy; 0x8cuy; 0xe9uy; 0x1auy; 0xb7uy; 0x79uy; 0x37uy; 0x36uy; - 0x5auy; 0xf9uy; 0x0buy; 0xbfuy; 0x74uy; 0xa3uy; 0x5buy; 0xe6uy; - 0xb4uy; 0x0buy; 0x8euy; 0xeduy; 0xf2uy; 0x78uy; 0x5euy; 0x42uy; - 0x87uy; 0x4duy -] - -unfold let test_key = [ - 0uy; 1uy; 2uy; 3uy; 4uy; 5uy; 6uy; 7uy; - 8uy; 9uy; 10uy; 11uy; 12uy; 13uy; 14uy; 15uy; - 16uy; 17uy; 18uy; 19uy; 20uy; 21uy; 22uy; 23uy; - 24uy; 25uy; 26uy; 27uy; 28uy; 29uy; 30uy; 31uy - ] -unfold let test_nonce = [ - 0uy; 0uy; 0uy; 0uy; 0uy; 0uy; 0uy; 0x4auy; 0uy; 0uy; 0uy; 0uy - ] - -unfold let test_counter = 1 - -let test() = - assert_norm(List.Tot.length test_plaintext = 114); - assert_norm(List.Tot.length test_ciphertext = 114); - assert_norm(List.Tot.length test_key = 32); - assert_norm(List.Tot.length test_nonce = 12); - let test_plaintext = createL test_plaintext in - let test_ciphertext = createL test_ciphertext in - let test_key = createL test_key in - let test_nonce = createL test_nonce in - chacha20_encrypt_bytes test_key test_nonce test_counter test_plaintext - = test_ciphertext diff --git a/security/nss/lib/freebl/verified/specs/Spec.Curve25519.fst b/security/nss/lib/freebl/verified/specs/Spec.Curve25519.fst deleted file mode 100644 index af4035b09..000000000 --- a/security/nss/lib/freebl/verified/specs/Spec.Curve25519.fst +++ /dev/null @@ -1,168 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -module Spec.Curve25519 - -module ST = FStar.HyperStack.ST - -open FStar.Mul -open FStar.Seq -open FStar.UInt8 -open FStar.Endianness -open Spec.Lib -open Spec.Curve25519.Lemmas - -#reset-options "--initial_fuel 0 --max_fuel 0 --z3rlimit 20" - -(* Field types and parameters *) -let prime = pow2 255 - 19 -type elem : Type0 = e:int{e >= 0 /\ e < prime} -let fadd e1 e2 = (e1 + e2) % prime -let fsub e1 e2 = (e1 - e2) % prime -let fmul e1 e2 = (e1 * e2) % prime -let zero : elem = 0 -let one : elem = 1 -let ( +@ ) = fadd -let ( *@ ) = fmul - -(** Exponentiation *) -let rec ( ** ) (e:elem) (n:pos) : Tot elem (decreases n) = - if n = 1 then e - else - if n % 2 = 0 then op_Star_Star (e `fmul` e) (n / 2) - else e `fmul` (op_Star_Star (e `fmul` e) ((n-1)/2)) - -(* Type aliases *) -type scalar = lbytes 32 -type serialized_point = lbytes 32 -type proj_point = | Proj: x:elem -> z:elem -> proj_point - -let decodeScalar25519 (k:scalar) = - let k = k.[0] <- (k.[0] &^ 248uy) in - let k = k.[31] <- ((k.[31] &^ 127uy) |^ 64uy) in k - -let decodePoint (u:serialized_point) = - (little_endian u % pow2 255) % prime - -let add_and_double qx nq nqp1 = - let x_1 = qx in - let x_2, z_2 = nq.x, nq.z in - let x_3, z_3 = nqp1.x, nqp1.z in - let a = x_2 `fadd` z_2 in - let aa = a**2 in - let b = x_2 `fsub` z_2 in - let bb = b**2 in - let e = aa `fsub` bb in - let c = x_3 `fadd` z_3 in - let d = x_3 `fsub` z_3 in - let da = d `fmul` a in - let cb = c `fmul` b in - let x_3 = (da `fadd` cb)**2 in - let z_3 = x_1 `fmul` ((da `fsub` cb)**2) in - let x_2 = aa `fmul` bb in - let z_2 = e `fmul` (aa `fadd` (121665 `fmul` e)) in - Proj x_2 z_2, Proj x_3 z_3 - -let ith_bit (k:scalar) (i:nat{i < 256}) = - let q = i / 8 in let r = i % 8 in - (v (k.[q]) / pow2 r) % 2 - -let rec montgomery_ladder_ (init:elem) x xp1 (k:scalar) (ctr:nat{ctr<=256}) - : Tot proj_point (decreases ctr) = - if ctr = 0 then x - else ( - let ctr' = ctr - 1 in - let (x', xp1') = - if ith_bit k ctr' = 1 then ( - let nqp2, nqp1 = add_and_double init xp1 x in - nqp1, nqp2 - ) else add_and_double init x xp1 in - montgomery_ladder_ init x' xp1' k ctr' - ) - -let montgomery_ladder (init:elem) (k:scalar) : Tot proj_point = - montgomery_ladder_ init (Proj one zero) (Proj init one) k 256 - -let encodePoint (p:proj_point) : Tot serialized_point = - let p = p.x `fmul` (p.z ** (prime - 2)) in - little_bytes 32ul p - -let scalarmult (k:scalar) (u:serialized_point) : Tot serialized_point = - let k = decodeScalar25519 k in - let u = decodePoint u in - let res = montgomery_ladder u k in - encodePoint res - - -(* ********************* *) -(* RFC 7748 Test Vectors *) -(* ********************* *) - -let scalar1 = [ - 0xa5uy; 0x46uy; 0xe3uy; 0x6buy; 0xf0uy; 0x52uy; 0x7cuy; 0x9duy; - 0x3buy; 0x16uy; 0x15uy; 0x4buy; 0x82uy; 0x46uy; 0x5euy; 0xdduy; - 0x62uy; 0x14uy; 0x4cuy; 0x0auy; 0xc1uy; 0xfcuy; 0x5auy; 0x18uy; - 0x50uy; 0x6auy; 0x22uy; 0x44uy; 0xbauy; 0x44uy; 0x9auy; 0xc4uy -] - -let scalar2 = [ - 0x4buy; 0x66uy; 0xe9uy; 0xd4uy; 0xd1uy; 0xb4uy; 0x67uy; 0x3cuy; - 0x5auy; 0xd2uy; 0x26uy; 0x91uy; 0x95uy; 0x7duy; 0x6auy; 0xf5uy; - 0xc1uy; 0x1buy; 0x64uy; 0x21uy; 0xe0uy; 0xeauy; 0x01uy; 0xd4uy; - 0x2cuy; 0xa4uy; 0x16uy; 0x9euy; 0x79uy; 0x18uy; 0xbauy; 0x0duy -] - -let input1 = [ - 0xe6uy; 0xdbuy; 0x68uy; 0x67uy; 0x58uy; 0x30uy; 0x30uy; 0xdbuy; - 0x35uy; 0x94uy; 0xc1uy; 0xa4uy; 0x24uy; 0xb1uy; 0x5fuy; 0x7cuy; - 0x72uy; 0x66uy; 0x24uy; 0xecuy; 0x26uy; 0xb3uy; 0x35uy; 0x3buy; - 0x10uy; 0xa9uy; 0x03uy; 0xa6uy; 0xd0uy; 0xabuy; 0x1cuy; 0x4cuy -] - -let input2 = [ - 0xe5uy; 0x21uy; 0x0fuy; 0x12uy; 0x78uy; 0x68uy; 0x11uy; 0xd3uy; - 0xf4uy; 0xb7uy; 0x95uy; 0x9duy; 0x05uy; 0x38uy; 0xaeuy; 0x2cuy; - 0x31uy; 0xdbuy; 0xe7uy; 0x10uy; 0x6fuy; 0xc0uy; 0x3cuy; 0x3euy; - 0xfcuy; 0x4cuy; 0xd5uy; 0x49uy; 0xc7uy; 0x15uy; 0xa4uy; 0x93uy -] - -let expected1 = [ - 0xc3uy; 0xdauy; 0x55uy; 0x37uy; 0x9duy; 0xe9uy; 0xc6uy; 0x90uy; - 0x8euy; 0x94uy; 0xeauy; 0x4duy; 0xf2uy; 0x8duy; 0x08uy; 0x4fuy; - 0x32uy; 0xecuy; 0xcfuy; 0x03uy; 0x49uy; 0x1cuy; 0x71uy; 0xf7uy; - 0x54uy; 0xb4uy; 0x07uy; 0x55uy; 0x77uy; 0xa2uy; 0x85uy; 0x52uy -] -let expected2 = [ - 0x95uy; 0xcbuy; 0xdeuy; 0x94uy; 0x76uy; 0xe8uy; 0x90uy; 0x7duy; - 0x7auy; 0xaduy; 0xe4uy; 0x5cuy; 0xb4uy; 0xb8uy; 0x73uy; 0xf8uy; - 0x8buy; 0x59uy; 0x5auy; 0x68uy; 0x79uy; 0x9fuy; 0xa1uy; 0x52uy; - 0xe6uy; 0xf8uy; 0xf7uy; 0x64uy; 0x7auy; 0xacuy; 0x79uy; 0x57uy -] - -let test () = - assert_norm(List.Tot.length scalar1 = 32); - assert_norm(List.Tot.length scalar2 = 32); - assert_norm(List.Tot.length input1 = 32); - assert_norm(List.Tot.length input2 = 32); - assert_norm(List.Tot.length expected1 = 32); - assert_norm(List.Tot.length expected2 = 32); - let scalar1 = createL scalar1 in - let scalar2 = createL scalar2 in - let input1 = createL input1 in - let input2 = createL input2 in - let expected1 = createL expected1 in - let expected2 = createL expected2 in - scalarmult scalar1 input1 = expected1 - && scalarmult scalar2 input2 = expected2 diff --git a/security/nss/lib/freebl/verified/specs/Spec.Poly1305.fst b/security/nss/lib/freebl/verified/specs/Spec.Poly1305.fst deleted file mode 100644 index f9d8a4cb2..000000000 --- a/security/nss/lib/freebl/verified/specs/Spec.Poly1305.fst +++ /dev/null @@ -1,107 +0,0 @@ -/* Copyright 2016-2017 INRIA and Microsoft Corporation - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -module Spec.Poly1305 - -module ST = FStar.HyperStack.ST - -open FStar.Math.Lib -open FStar.Mul -open FStar.Seq -open FStar.UInt8 -open FStar.Endianness -open Spec.Poly1305.Lemmas - -#set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0" - -(* Field types and parameters *) -let prime = pow2 130 - 5 -type elem = e:int{e >= 0 /\ e < prime} -let fadd (e1:elem) (e2:elem) = (e1 + e2) % prime -let fmul (e1:elem) (e2:elem) = (e1 * e2) % prime -let zero : elem = 0 -let one : elem = 1 -let op_Plus_At = fadd -let op_Star_At = fmul -(* Type aliases *) -let op_Amp_Bar = UInt.logand #128 -type word = w:bytes{length w <= 16} -type word_16 = w:bytes{length w = 16} -type tag = word_16 -type key = lbytes 32 -type text = seq word - -(* Specification code *) -let encode (w:word) = - (pow2 (8 * length w)) `fadd` (little_endian w) - -let rec poly (txt:text) (r:e:elem) : Tot elem (decreases (length txt)) = - if length txt = 0 then zero - else - let a = poly (Seq.tail txt) r in - let n = encode (Seq.head txt) in - (n `fadd` a) `fmul` r - -let encode_r (rb:word_16) = - (little_endian rb) &| 0x0ffffffc0ffffffc0ffffffc0fffffff - -let finish (a:elem) (s:word_16) : Tot tag = - let n = (a + little_endian s) % pow2 128 in - little_bytes 16ul n - -let rec encode_bytes (txt:bytes) : Tot text (decreases (length txt)) = - if length txt = 0 then createEmpty - else - let w, txt = split txt (min (length txt) 16) in - append_last (encode_bytes txt) w - -let poly1305 (msg:bytes) (k:key) : Tot tag = - let text = encode_bytes msg in - let r = encode_r (slice k 0 16) in - let s = slice k 16 32 in - finish (poly text r) s - - -(* ********************* *) -(* RFC 7539 Test Vectors *) -(* ********************* *) - -#reset-options "--initial_fuel 0 --max_fuel 0 --z3rlimit 20" - -unfold let msg = [ - 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; - 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; - 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; - 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; - 0x75uy; 0x70uy ] - -unfold let k = [ - 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; - 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; - 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; - 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy ] - -unfold let expected = [ - 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; - 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy ] - -let test () : Tot bool = - assert_norm(List.Tot.length msg = 34); - assert_norm(List.Tot.length k = 32); - assert_norm(List.Tot.length expected = 16); - let msg = createL msg in - let k = createL k in - let expected = createL expected in - poly1305 msg k = expected -- cgit v1.2.3