diff options
Diffstat (limited to '')
| -rw-r--r-- | security/nss/lib/freebl/verified/Hacl_Hash_SHA3.c | 713 |
1 files changed, 713 insertions, 0 deletions
diff --git a/security/nss/lib/freebl/verified/Hacl_Hash_SHA3.c b/security/nss/lib/freebl/verified/Hacl_Hash_SHA3.c new file mode 100644 index 0000000000..3cd1091267 --- /dev/null +++ b/security/nss/lib/freebl/verified/Hacl_Hash_SHA3.c @@ -0,0 +1,713 @@ +/* MIT License + * + * Copyright (c) 2016-2022 INRIA, CMU and Microsoft Corporation + * Copyright (c) 2022-2023 HACL* Contributors + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to deal + * in the Software without restriction, including without limitation the rights + * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + * copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in all + * copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + */ + +#include "internal/Hacl_Hash_SHA3.h" + +static uint32_t +block_len(Spec_Hash_Definitions_hash_alg a) +{ + switch (a) { + case Spec_Hash_Definitions_SHA3_224: { + return (uint32_t)144U; + } + case Spec_Hash_Definitions_SHA3_256: { + return (uint32_t)136U; + } + case Spec_Hash_Definitions_SHA3_384: { + return (uint32_t)104U; + } + case Spec_Hash_Definitions_SHA3_512: { + return (uint32_t)72U; + } + case Spec_Hash_Definitions_Shake128: { + return (uint32_t)168U; + } + case Spec_Hash_Definitions_Shake256: { + return (uint32_t)136U; + } + default: { + KRML_HOST_EPRINTF("KaRaMeL incomplete match at %s:%d\n", __FILE__, __LINE__); + KRML_HOST_EXIT(253U); + } + } +} + +static uint32_t +hash_len(Spec_Hash_Definitions_hash_alg a) +{ + switch (a) { + case Spec_Hash_Definitions_SHA3_224: { + return (uint32_t)28U; + } + case Spec_Hash_Definitions_SHA3_256: { + return (uint32_t)32U; + } + case Spec_Hash_Definitions_SHA3_384: { + return (uint32_t)48U; + } + case Spec_Hash_Definitions_SHA3_512: { + return (uint32_t)64U; + } + default: { + KRML_HOST_EPRINTF("KaRaMeL incomplete match at %s:%d\n", __FILE__, __LINE__); + KRML_HOST_EXIT(253U); + } + } +} + +void +Hacl_Hash_SHA3_update_multi_sha3( + Spec_Hash_Definitions_hash_alg a, + uint64_t *s, + uint8_t *blocks, + uint32_t n_blocks) +{ + for (uint32_t i = (uint32_t)0U; i < n_blocks; i++) { + uint8_t *block = blocks + i * block_len(a); + Hacl_Impl_SHA3_absorb_inner(block_len(a), block, s); + } +} + +void +Hacl_Hash_SHA3_update_last_sha3( + Spec_Hash_Definitions_hash_alg a, + uint64_t *s, + uint8_t *input, + uint32_t input_len) +{ + uint8_t suffix; + if (a == Spec_Hash_Definitions_Shake128 || a == Spec_Hash_Definitions_Shake256) { + suffix = (uint8_t)0x1fU; + } else { + suffix = (uint8_t)0x06U; + } + uint32_t len = block_len(a); + if (input_len == len) { + Hacl_Impl_SHA3_absorb_inner(len, input, s); + uint8_t *uu____0 = input + input_len; + uint8_t lastBlock_[200U] = { 0U }; + uint8_t *lastBlock = lastBlock_; + memcpy(lastBlock, uu____0, (uint32_t)0U * sizeof(uint8_t)); + lastBlock[0U] = suffix; + Hacl_Impl_SHA3_loadState(len, lastBlock, s); + if (!((suffix & (uint8_t)0x80U) == (uint8_t)0U) && (uint32_t)0U == len - (uint32_t)1U) { + Hacl_Impl_SHA3_state_permute(s); + } + uint8_t nextBlock_[200U] = { 0U }; + uint8_t *nextBlock = nextBlock_; + nextBlock[len - (uint32_t)1U] = (uint8_t)0x80U; + Hacl_Impl_SHA3_loadState(len, nextBlock, s); + Hacl_Impl_SHA3_state_permute(s); + return; + } + uint8_t lastBlock_[200U] = { 0U }; + uint8_t *lastBlock = lastBlock_; + memcpy(lastBlock, input, input_len * sizeof(uint8_t)); + lastBlock[input_len] = suffix; + Hacl_Impl_SHA3_loadState(len, lastBlock, s); + if (!((suffix & (uint8_t)0x80U) == (uint8_t)0U) && input_len == len - (uint32_t)1U) { + Hacl_Impl_SHA3_state_permute(s); + } + uint8_t nextBlock_[200U] = { 0U }; + uint8_t *nextBlock = nextBlock_; + nextBlock[len - (uint32_t)1U] = (uint8_t)0x80U; + Hacl_Impl_SHA3_loadState(len, nextBlock, s); + Hacl_Impl_SHA3_state_permute(s); +} + +typedef struct hash_buf2_s { + Hacl_Streaming_Keccak_hash_buf fst; + Hacl_Streaming_Keccak_hash_buf snd; +} hash_buf2; + +Spec_Hash_Definitions_hash_alg +Hacl_Streaming_Keccak_get_alg(Hacl_Streaming_Keccak_state *s) +{ + Hacl_Streaming_Keccak_state scrut = *s; + Hacl_Streaming_Keccak_hash_buf block_state = scrut.block_state; + return block_state.fst; +} + +Hacl_Streaming_Keccak_state * +Hacl_Streaming_Keccak_malloc(Spec_Hash_Definitions_hash_alg a) +{ + KRML_CHECK_SIZE(sizeof(uint8_t), block_len(a)); + uint8_t *buf0 = (uint8_t *)KRML_HOST_CALLOC(block_len(a), sizeof(uint8_t)); + uint64_t *buf = (uint64_t *)KRML_HOST_CALLOC((uint32_t)25U, sizeof(uint64_t)); + Hacl_Streaming_Keccak_hash_buf block_state = { .fst = a, .snd = buf }; + Hacl_Streaming_Keccak_state + s = { .block_state = block_state, .buf = buf0, .total_len = (uint64_t)(uint32_t)0U }; + Hacl_Streaming_Keccak_state + *p = (Hacl_Streaming_Keccak_state *)KRML_HOST_MALLOC(sizeof(Hacl_Streaming_Keccak_state)); + p[0U] = s; + uint64_t *s1 = block_state.snd; + memset(s1, 0U, (uint32_t)25U * sizeof(uint64_t)); + return p; +} + +void +Hacl_Streaming_Keccak_free(Hacl_Streaming_Keccak_state *s) +{ + Hacl_Streaming_Keccak_state scrut = *s; + uint8_t *buf = scrut.buf; + Hacl_Streaming_Keccak_hash_buf block_state = scrut.block_state; + uint64_t *s1 = block_state.snd; + KRML_HOST_FREE(s1); + KRML_HOST_FREE(buf); + KRML_HOST_FREE(s); +} + +Hacl_Streaming_Keccak_state * +Hacl_Streaming_Keccak_copy(Hacl_Streaming_Keccak_state *s0) +{ + Hacl_Streaming_Keccak_state scrut0 = *s0; + Hacl_Streaming_Keccak_hash_buf block_state0 = scrut0.block_state; + uint8_t *buf0 = scrut0.buf; + uint64_t total_len0 = scrut0.total_len; + Spec_Hash_Definitions_hash_alg i = block_state0.fst; + KRML_CHECK_SIZE(sizeof(uint8_t), block_len(i)); + uint8_t *buf1 = (uint8_t *)KRML_HOST_CALLOC(block_len(i), sizeof(uint8_t)); + memcpy(buf1, buf0, block_len(i) * sizeof(uint8_t)); + uint64_t *buf = (uint64_t *)KRML_HOST_CALLOC((uint32_t)25U, sizeof(uint64_t)); + Hacl_Streaming_Keccak_hash_buf block_state = { .fst = i, .snd = buf }; + hash_buf2 scrut = { .fst = block_state0, .snd = block_state }; + uint64_t *s_dst = scrut.snd.snd; + uint64_t *s_src = scrut.fst.snd; + memcpy(s_dst, s_src, (uint32_t)25U * sizeof(uint64_t)); + Hacl_Streaming_Keccak_state + s = { .block_state = block_state, .buf = buf1, .total_len = total_len0 }; + Hacl_Streaming_Keccak_state + *p = (Hacl_Streaming_Keccak_state *)KRML_HOST_MALLOC(sizeof(Hacl_Streaming_Keccak_state)); + p[0U] = s; + return p; +} + +void +Hacl_Streaming_Keccak_reset(Hacl_Streaming_Keccak_state *s) +{ + Hacl_Streaming_Keccak_state scrut = *s; + uint8_t *buf = scrut.buf; + Hacl_Streaming_Keccak_hash_buf block_state = scrut.block_state; + Spec_Hash_Definitions_hash_alg i = block_state.fst; + KRML_HOST_IGNORE(i); + uint64_t *s1 = block_state.snd; + memset(s1, 0U, (uint32_t)25U * sizeof(uint64_t)); + Hacl_Streaming_Keccak_state + tmp = { .block_state = block_state, .buf = buf, .total_len = (uint64_t)(uint32_t)0U }; + s[0U] = tmp; +} + +Hacl_Streaming_Types_error_code +Hacl_Streaming_Keccak_update(Hacl_Streaming_Keccak_state *p, uint8_t *data, uint32_t len) +{ + Hacl_Streaming_Keccak_state s = *p; + Hacl_Streaming_Keccak_hash_buf block_state = s.block_state; + uint64_t total_len = s.total_len; + Spec_Hash_Definitions_hash_alg i = block_state.fst; + if ((uint64_t)len > (uint64_t)0xFFFFFFFFFFFFFFFFU - total_len) { + return Hacl_Streaming_Types_MaximumLengthExceeded; + } + uint32_t sz; + if (total_len % (uint64_t)block_len(i) == (uint64_t)0U && total_len > (uint64_t)0U) { + sz = block_len(i); + } else { + sz = (uint32_t)(total_len % (uint64_t)block_len(i)); + } + if (len <= block_len(i) - sz) { + Hacl_Streaming_Keccak_state s1 = *p; + Hacl_Streaming_Keccak_hash_buf block_state1 = s1.block_state; + uint8_t *buf = s1.buf; + uint64_t total_len1 = s1.total_len; + uint32_t sz1; + if (total_len1 % (uint64_t)block_len(i) == (uint64_t)0U && total_len1 > (uint64_t)0U) { + sz1 = block_len(i); + } else { + sz1 = (uint32_t)(total_len1 % (uint64_t)block_len(i)); + } + uint8_t *buf2 = buf + sz1; + memcpy(buf2, data, len * sizeof(uint8_t)); + uint64_t total_len2 = total_len1 + (uint64_t)len; + *p = + ((Hacl_Streaming_Keccak_state){ + .block_state = block_state1, + .buf = buf, + .total_len = total_len2 }); + } else if (sz == (uint32_t)0U) { + Hacl_Streaming_Keccak_state s1 = *p; + Hacl_Streaming_Keccak_hash_buf block_state1 = s1.block_state; + uint8_t *buf = s1.buf; + uint64_t total_len1 = s1.total_len; + uint32_t sz1; + if (total_len1 % (uint64_t)block_len(i) == (uint64_t)0U && total_len1 > (uint64_t)0U) { + sz1 = block_len(i); + } else { + sz1 = (uint32_t)(total_len1 % (uint64_t)block_len(i)); + } + if (!(sz1 == (uint32_t)0U)) { + Spec_Hash_Definitions_hash_alg a1 = block_state1.fst; + uint64_t *s2 = block_state1.snd; + Hacl_Hash_SHA3_update_multi_sha3(a1, s2, buf, block_len(i) / block_len(a1)); + } + uint32_t ite; + if ((uint64_t)len % (uint64_t)block_len(i) == (uint64_t)0U && (uint64_t)len > (uint64_t)0U) { + ite = block_len(i); + } else { + ite = (uint32_t)((uint64_t)len % (uint64_t)block_len(i)); + } + uint32_t n_blocks = (len - ite) / block_len(i); + uint32_t data1_len = n_blocks * block_len(i); + uint32_t data2_len = len - data1_len; + uint8_t *data1 = data; + uint8_t *data2 = data + data1_len; + Spec_Hash_Definitions_hash_alg a1 = block_state1.fst; + uint64_t *s2 = block_state1.snd; + Hacl_Hash_SHA3_update_multi_sha3(a1, s2, data1, data1_len / block_len(a1)); + uint8_t *dst = buf; + memcpy(dst, data2, data2_len * sizeof(uint8_t)); + *p = + ((Hacl_Streaming_Keccak_state){ + .block_state = block_state1, + .buf = buf, + .total_len = total_len1 + (uint64_t)len }); + } else { + uint32_t diff = block_len(i) - sz; + uint8_t *data1 = data; + uint8_t *data2 = data + diff; + Hacl_Streaming_Keccak_state s1 = *p; + Hacl_Streaming_Keccak_hash_buf block_state10 = s1.block_state; + uint8_t *buf0 = s1.buf; + uint64_t total_len10 = s1.total_len; + uint32_t sz10; + if (total_len10 % (uint64_t)block_len(i) == (uint64_t)0U && total_len10 > (uint64_t)0U) { + sz10 = block_len(i); + } else { + sz10 = (uint32_t)(total_len10 % (uint64_t)block_len(i)); + } + uint8_t *buf2 = buf0 + sz10; + memcpy(buf2, data1, diff * sizeof(uint8_t)); + uint64_t total_len2 = total_len10 + (uint64_t)diff; + *p = + ((Hacl_Streaming_Keccak_state){ + .block_state = block_state10, + .buf = buf0, + .total_len = total_len2 }); + Hacl_Streaming_Keccak_state s10 = *p; + Hacl_Streaming_Keccak_hash_buf block_state1 = s10.block_state; + uint8_t *buf = s10.buf; + uint64_t total_len1 = s10.total_len; + uint32_t sz1; + if (total_len1 % (uint64_t)block_len(i) == (uint64_t)0U && total_len1 > (uint64_t)0U) { + sz1 = block_len(i); + } else { + sz1 = (uint32_t)(total_len1 % (uint64_t)block_len(i)); + } + if (!(sz1 == (uint32_t)0U)) { + Spec_Hash_Definitions_hash_alg a1 = block_state1.fst; + uint64_t *s2 = block_state1.snd; + Hacl_Hash_SHA3_update_multi_sha3(a1, s2, buf, block_len(i) / block_len(a1)); + } + uint32_t ite; + if ( + (uint64_t)(len - diff) % (uint64_t)block_len(i) == (uint64_t)0U && (uint64_t)(len - diff) > (uint64_t)0U) { + ite = block_len(i); + } else { + ite = (uint32_t)((uint64_t)(len - diff) % (uint64_t)block_len(i)); + } + uint32_t n_blocks = (len - diff - ite) / block_len(i); + uint32_t data1_len = n_blocks * block_len(i); + uint32_t data2_len = len - diff - data1_len; + uint8_t *data11 = data2; + uint8_t *data21 = data2 + data1_len; + Spec_Hash_Definitions_hash_alg a1 = block_state1.fst; + uint64_t *s2 = block_state1.snd; + Hacl_Hash_SHA3_update_multi_sha3(a1, s2, data11, data1_len / block_len(a1)); + uint8_t *dst = buf; + memcpy(dst, data21, data2_len * sizeof(uint8_t)); + *p = + ((Hacl_Streaming_Keccak_state){ + .block_state = block_state1, + .buf = buf, + .total_len = total_len1 + (uint64_t)(len - diff) }); + } + return Hacl_Streaming_Types_Success; +} + +static void +finish_( + Spec_Hash_Definitions_hash_alg a, + Hacl_Streaming_Keccak_state *p, + uint8_t *dst, + uint32_t l) +{ + Hacl_Streaming_Keccak_state scrut0 = *p; + Hacl_Streaming_Keccak_hash_buf block_state = scrut0.block_state; + uint8_t *buf_ = scrut0.buf; + uint64_t total_len = scrut0.total_len; + uint32_t r; + if (total_len % (uint64_t)block_len(a) == (uint64_t)0U && total_len > (uint64_t)0U) { + r = block_len(a); + } else { + r = (uint32_t)(total_len % (uint64_t)block_len(a)); + } + uint8_t *buf_1 = buf_; + uint64_t buf[25U] = { 0U }; + Hacl_Streaming_Keccak_hash_buf tmp_block_state = { .fst = a, .snd = buf }; + hash_buf2 scrut = { .fst = block_state, .snd = tmp_block_state }; + uint64_t *s_dst = scrut.snd.snd; + uint64_t *s_src = scrut.fst.snd; + memcpy(s_dst, s_src, (uint32_t)25U * sizeof(uint64_t)); + uint32_t ite; + if (r % block_len(a) == (uint32_t)0U && r > (uint32_t)0U) { + ite = block_len(a); + } else { + ite = r % block_len(a); + } + uint8_t *buf_last = buf_1 + r - ite; + uint8_t *buf_multi = buf_1; + Spec_Hash_Definitions_hash_alg a1 = tmp_block_state.fst; + uint64_t *s0 = tmp_block_state.snd; + Hacl_Hash_SHA3_update_multi_sha3(a1, s0, buf_multi, (uint32_t)0U / block_len(a1)); + Spec_Hash_Definitions_hash_alg a10 = tmp_block_state.fst; + uint64_t *s1 = tmp_block_state.snd; + Hacl_Hash_SHA3_update_last_sha3(a10, s1, buf_last, r); + Spec_Hash_Definitions_hash_alg a11 = tmp_block_state.fst; + uint64_t *s = tmp_block_state.snd; + if (a11 == Spec_Hash_Definitions_Shake128 || a11 == Spec_Hash_Definitions_Shake256) { + Hacl_Impl_SHA3_squeeze(s, block_len(a11), l, dst); + return; + } + Hacl_Impl_SHA3_squeeze(s, block_len(a11), hash_len(a11), dst); +} + +Hacl_Streaming_Types_error_code +Hacl_Streaming_Keccak_finish(Hacl_Streaming_Keccak_state *s, uint8_t *dst) +{ + Spec_Hash_Definitions_hash_alg a1 = Hacl_Streaming_Keccak_get_alg(s); + if (a1 == Spec_Hash_Definitions_Shake128 || a1 == Spec_Hash_Definitions_Shake256) { + return Hacl_Streaming_Types_InvalidAlgorithm; + } + finish_(a1, s, dst, hash_len(a1)); + return Hacl_Streaming_Types_Success; +} + +Hacl_Streaming_Types_error_code +Hacl_Streaming_Keccak_squeeze(Hacl_Streaming_Keccak_state *s, uint8_t *dst, uint32_t l) +{ + Spec_Hash_Definitions_hash_alg a1 = Hacl_Streaming_Keccak_get_alg(s); + if (!(a1 == Spec_Hash_Definitions_Shake128 || a1 == Spec_Hash_Definitions_Shake256)) { + return Hacl_Streaming_Types_InvalidAlgorithm; + } + if (l == (uint32_t)0U) { + return Hacl_Streaming_Types_InvalidLength; + } + finish_(a1, s, dst, l); + return Hacl_Streaming_Types_Success; +} + +uint32_t +Hacl_Streaming_Keccak_block_len(Hacl_Streaming_Keccak_state *s) +{ + Spec_Hash_Definitions_hash_alg a1 = Hacl_Streaming_Keccak_get_alg(s); + return block_len(a1); +} + +uint32_t +Hacl_Streaming_Keccak_hash_len(Hacl_Streaming_Keccak_state *s) +{ + Spec_Hash_Definitions_hash_alg a1 = Hacl_Streaming_Keccak_get_alg(s); + return hash_len(a1); +} + +bool +Hacl_Streaming_Keccak_is_shake(Hacl_Streaming_Keccak_state *s) +{ + Spec_Hash_Definitions_hash_alg uu____0 = Hacl_Streaming_Keccak_get_alg(s); + return uu____0 == Spec_Hash_Definitions_Shake128 || uu____0 == Spec_Hash_Definitions_Shake256; +} + +void +Hacl_SHA3_shake128_hacl( + uint32_t inputByteLen, + uint8_t *input, + uint32_t outputByteLen, + uint8_t *output) +{ + Hacl_Impl_SHA3_keccak((uint32_t)1344U, + (uint32_t)256U, + inputByteLen, + input, + (uint8_t)0x1FU, + outputByteLen, + output); +} + +void +Hacl_SHA3_shake256_hacl( + uint32_t inputByteLen, + uint8_t *input, + uint32_t outputByteLen, + uint8_t *output) +{ + Hacl_Impl_SHA3_keccak((uint32_t)1088U, + (uint32_t)512U, + inputByteLen, + input, + (uint8_t)0x1FU, + outputByteLen, + output); +} + +void +Hacl_SHA3_sha3_224(uint32_t inputByteLen, uint8_t *input, uint8_t *output) +{ + Hacl_Impl_SHA3_keccak((uint32_t)1152U, + (uint32_t)448U, + inputByteLen, + input, + (uint8_t)0x06U, + (uint32_t)28U, + output); +} + +void +Hacl_SHA3_sha3_256(uint32_t inputByteLen, uint8_t *input, uint8_t *output) +{ + Hacl_Impl_SHA3_keccak((uint32_t)1088U, + (uint32_t)512U, + inputByteLen, + input, + (uint8_t)0x06U, + (uint32_t)32U, + output); +} + +void +Hacl_SHA3_sha3_384(uint32_t inputByteLen, uint8_t *input, uint8_t *output) +{ + Hacl_Impl_SHA3_keccak((uint32_t)832U, + (uint32_t)768U, + inputByteLen, + input, + (uint8_t)0x06U, + (uint32_t)48U, + output); +} + +void +Hacl_SHA3_sha3_512(uint32_t inputByteLen, uint8_t *input, uint8_t *output) +{ + Hacl_Impl_SHA3_keccak((uint32_t)576U, + (uint32_t)1024U, + inputByteLen, + input, + (uint8_t)0x06U, + (uint32_t)64U, + output); +} + +static const uint32_t + keccak_rotc[24U] = { + (uint32_t)1U, (uint32_t)3U, (uint32_t)6U, (uint32_t)10U, (uint32_t)15U, (uint32_t)21U, + (uint32_t)28U, (uint32_t)36U, (uint32_t)45U, (uint32_t)55U, (uint32_t)2U, (uint32_t)14U, + (uint32_t)27U, (uint32_t)41U, (uint32_t)56U, (uint32_t)8U, (uint32_t)25U, (uint32_t)43U, + (uint32_t)62U, (uint32_t)18U, (uint32_t)39U, (uint32_t)61U, (uint32_t)20U, (uint32_t)44U + }; + +static const uint32_t + keccak_piln[24U] = { + (uint32_t)10U, (uint32_t)7U, (uint32_t)11U, (uint32_t)17U, (uint32_t)18U, (uint32_t)3U, + (uint32_t)5U, (uint32_t)16U, (uint32_t)8U, (uint32_t)21U, (uint32_t)24U, (uint32_t)4U, + (uint32_t)15U, (uint32_t)23U, (uint32_t)19U, (uint32_t)13U, (uint32_t)12U, (uint32_t)2U, + (uint32_t)20U, (uint32_t)14U, (uint32_t)22U, (uint32_t)9U, (uint32_t)6U, (uint32_t)1U + }; + +static const uint64_t + keccak_rndc[24U] = { + (uint64_t)0x0000000000000001U, (uint64_t)0x0000000000008082U, (uint64_t)0x800000000000808aU, + (uint64_t)0x8000000080008000U, (uint64_t)0x000000000000808bU, (uint64_t)0x0000000080000001U, + (uint64_t)0x8000000080008081U, (uint64_t)0x8000000000008009U, (uint64_t)0x000000000000008aU, + (uint64_t)0x0000000000000088U, (uint64_t)0x0000000080008009U, (uint64_t)0x000000008000000aU, + (uint64_t)0x000000008000808bU, (uint64_t)0x800000000000008bU, (uint64_t)0x8000000000008089U, + (uint64_t)0x8000000000008003U, (uint64_t)0x8000000000008002U, (uint64_t)0x8000000000000080U, + (uint64_t)0x000000000000800aU, (uint64_t)0x800000008000000aU, (uint64_t)0x8000000080008081U, + (uint64_t)0x8000000000008080U, (uint64_t)0x0000000080000001U, (uint64_t)0x8000000080008008U + }; + +void +Hacl_Impl_SHA3_state_permute(uint64_t *s) +{ + for (uint32_t i0 = (uint32_t)0U; i0 < (uint32_t)24U; i0++) { + uint64_t _C[5U] = { 0U }; + KRML_MAYBE_FOR5(i, + (uint32_t)0U, + (uint32_t)5U, + (uint32_t)1U, + _C[i] = + s[i + (uint32_t)0U] ^ + (s[i + (uint32_t)5U] ^ (s[i + (uint32_t)10U] ^ (s[i + (uint32_t)15U] ^ s[i + (uint32_t)20U])));); + KRML_MAYBE_FOR5(i1, + (uint32_t)0U, + (uint32_t)5U, + (uint32_t)1U, + uint64_t uu____0 = _C[(i1 + (uint32_t)1U) % (uint32_t)5U]; + uint64_t + _D = + _C[(i1 + (uint32_t)4U) % (uint32_t)5U] ^ (uu____0 << (uint32_t)1U | uu____0 >> (uint32_t)63U); + KRML_MAYBE_FOR5(i, + (uint32_t)0U, + (uint32_t)5U, + (uint32_t)1U, + s[i1 + (uint32_t)5U * i] = s[i1 + (uint32_t)5U * i] ^ _D;);); + uint64_t x = s[1U]; + uint64_t current = x; + for (uint32_t i = (uint32_t)0U; i < (uint32_t)24U; i++) { + uint32_t _Y = keccak_piln[i]; + uint32_t r = keccak_rotc[i]; + uint64_t temp = s[_Y]; + uint64_t uu____1 = current; + s[_Y] = uu____1 << r | uu____1 >> ((uint32_t)64U - r); + current = temp; + } + KRML_MAYBE_FOR5(i, + (uint32_t)0U, + (uint32_t)5U, + (uint32_t)1U, + uint64_t + v0 = + s[(uint32_t)0U + (uint32_t)5U * i] ^ (~s[(uint32_t)1U + (uint32_t)5U * i] & s[(uint32_t)2U + (uint32_t)5U * i]); + uint64_t + v1 = + s[(uint32_t)1U + (uint32_t)5U * i] ^ (~s[(uint32_t)2U + (uint32_t)5U * i] & s[(uint32_t)3U + (uint32_t)5U * i]); + uint64_t + v2 = + s[(uint32_t)2U + (uint32_t)5U * i] ^ (~s[(uint32_t)3U + (uint32_t)5U * i] & s[(uint32_t)4U + (uint32_t)5U * i]); + uint64_t + v3 = + s[(uint32_t)3U + (uint32_t)5U * i] ^ (~s[(uint32_t)4U + (uint32_t)5U * i] & s[(uint32_t)0U + (uint32_t)5U * i]); + uint64_t + v4 = + s[(uint32_t)4U + (uint32_t)5U * i] ^ (~s[(uint32_t)0U + (uint32_t)5U * i] & s[(uint32_t)1U + (uint32_t)5U * i]); + s[(uint32_t)0U + (uint32_t)5U * i] = v0; + s[(uint32_t)1U + (uint32_t)5U * i] = v1; + s[(uint32_t)2U + (uint32_t)5U * i] = v2; + s[(uint32_t)3U + (uint32_t)5U * i] = v3; + s[(uint32_t)4U + (uint32_t)5U * i] = v4;); + uint64_t c = keccak_rndc[i0]; + s[0U] = s[0U] ^ c; + } +} + +void +Hacl_Impl_SHA3_loadState(uint32_t rateInBytes, uint8_t *input, uint64_t *s) +{ + uint8_t block[200U] = { 0U }; + memcpy(block, input, rateInBytes * sizeof(uint8_t)); + for (uint32_t i = (uint32_t)0U; i < (uint32_t)25U; i++) { + uint64_t u = load64_le(block + i * (uint32_t)8U); + uint64_t x = u; + s[i] = s[i] ^ x; + } +} + +static void +storeState(uint32_t rateInBytes, uint64_t *s, uint8_t *res) +{ + uint8_t block[200U] = { 0U }; + for (uint32_t i = (uint32_t)0U; i < (uint32_t)25U; i++) { + uint64_t sj = s[i]; + store64_le(block + i * (uint32_t)8U, sj); + } + memcpy(res, block, rateInBytes * sizeof(uint8_t)); +} + +void +Hacl_Impl_SHA3_absorb_inner(uint32_t rateInBytes, uint8_t *block, uint64_t *s) +{ + Hacl_Impl_SHA3_loadState(rateInBytes, block, s); + Hacl_Impl_SHA3_state_permute(s); +} + +static void +absorb( + uint64_t *s, + uint32_t rateInBytes, + uint32_t inputByteLen, + uint8_t *input, + uint8_t delimitedSuffix) +{ + uint32_t n_blocks = inputByteLen / rateInBytes; + uint32_t rem = inputByteLen % rateInBytes; + for (uint32_t i = (uint32_t)0U; i < n_blocks; i++) { + uint8_t *block = input + i * rateInBytes; + Hacl_Impl_SHA3_absorb_inner(rateInBytes, block, s); + } + uint8_t *last = input + n_blocks * rateInBytes; + uint8_t lastBlock_[200U] = { 0U }; + uint8_t *lastBlock = lastBlock_; + memcpy(lastBlock, last, rem * sizeof(uint8_t)); + lastBlock[rem] = delimitedSuffix; + Hacl_Impl_SHA3_loadState(rateInBytes, lastBlock, s); + if (!((delimitedSuffix & (uint8_t)0x80U) == (uint8_t)0U) && rem == rateInBytes - (uint32_t)1U) { + Hacl_Impl_SHA3_state_permute(s); + } + uint8_t nextBlock_[200U] = { 0U }; + uint8_t *nextBlock = nextBlock_; + nextBlock[rateInBytes - (uint32_t)1U] = (uint8_t)0x80U; + Hacl_Impl_SHA3_loadState(rateInBytes, nextBlock, s); + Hacl_Impl_SHA3_state_permute(s); +} + +void +Hacl_Impl_SHA3_squeeze( + uint64_t *s, + uint32_t rateInBytes, + uint32_t outputByteLen, + uint8_t *output) +{ + uint32_t outBlocks = outputByteLen / rateInBytes; + uint32_t remOut = outputByteLen % rateInBytes; + uint8_t *last = output + outputByteLen - remOut; + uint8_t *blocks = output; + for (uint32_t i = (uint32_t)0U; i < outBlocks; i++) { + storeState(rateInBytes, s, blocks + i * rateInBytes); + Hacl_Impl_SHA3_state_permute(s); + } + storeState(remOut, s, last); +} + +void +Hacl_Impl_SHA3_keccak( + uint32_t rate, + uint32_t capacity, + uint32_t inputByteLen, + uint8_t *input, + uint8_t delimitedSuffix, + uint32_t outputByteLen, + uint8_t *output) +{ + uint32_t rateInBytes = rate / (uint32_t)8U; + uint64_t s[25U] = { 0U }; + absorb(s, rateInBytes, inputByteLen, input, delimitedSuffix); + Hacl_Impl_SHA3_squeeze(s, rateInBytes, outputByteLen, output); +} |