/* MIT License * * Copyright (c) 2016-2020 INRIA, CMU and Microsoft Corporation * * 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 "Hacl_Streaming_SHA1.h" #include "internal/Hacl_Hash_SHA1.h" /* SNIPPET_START: Hacl_Streaming_SHA1_legacy_create_in_sha1 */ Hacl_Streaming_SHA2_state_sha2_224 *Hacl_Streaming_SHA1_legacy_create_in_sha1() { uint8_t *buf = KRML_HOST_CALLOC((uint32_t)64U, sizeof (uint8_t)); uint32_t *block_state = KRML_HOST_CALLOC((uint32_t)5U, sizeof (uint32_t)); Hacl_Streaming_SHA2_state_sha2_224 s = { .block_state = block_state, .buf = buf, .total_len = (uint64_t)0U }; KRML_CHECK_SIZE(sizeof (Hacl_Streaming_SHA2_state_sha2_224), (uint32_t)1U); Hacl_Streaming_SHA2_state_sha2_224 *p = KRML_HOST_MALLOC(sizeof (Hacl_Streaming_SHA2_state_sha2_224)); p[0U] = s; Hacl_Hash_Core_SHA1_legacy_init(block_state); return p; } /* SNIPPET_END: Hacl_Streaming_SHA1_legacy_create_in_sha1 */ /* SNIPPET_START: Hacl_Streaming_SHA1_legacy_init_sha1 */ void Hacl_Streaming_SHA1_legacy_init_sha1(Hacl_Streaming_SHA2_state_sha2_224 *s) { Hacl_Streaming_SHA2_state_sha2_224 scrut = *s; uint8_t *buf = scrut.buf; uint32_t *block_state = scrut.block_state; Hacl_Hash_Core_SHA1_legacy_init(block_state); s[0U] = ( (Hacl_Streaming_SHA2_state_sha2_224){ .block_state = block_state, .buf = buf, .total_len = (uint64_t)0U } ); } /* SNIPPET_END: Hacl_Streaming_SHA1_legacy_init_sha1 */ /* SNIPPET_START: Hacl_Streaming_SHA1_legacy_update_sha1 */ void Hacl_Streaming_SHA1_legacy_update_sha1( Hacl_Streaming_SHA2_state_sha2_224 *p, uint8_t *data, uint32_t len ) { Hacl_Streaming_SHA2_state_sha2_224 s = *p; uint64_t total_len = s.total_len; uint32_t sz; if (total_len % (uint64_t)(uint32_t)64U == (uint64_t)0U && total_len > (uint64_t)0U) { sz = (uint32_t)64U; } else { sz = (uint32_t)(total_len % (uint64_t)(uint32_t)64U); } if (len <= (uint32_t)64U - sz) { Hacl_Streaming_SHA2_state_sha2_224 s1 = *p; uint32_t *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)(uint32_t)64U == (uint64_t)0U && total_len1 > (uint64_t)0U) { sz1 = (uint32_t)64U; } else { sz1 = (uint32_t)(total_len1 % (uint64_t)(uint32_t)64U); } uint8_t *buf2 = buf + sz1; memcpy(buf2, data, len * sizeof (uint8_t)); uint64_t total_len2 = total_len1 + (uint64_t)len; *p = ( (Hacl_Streaming_SHA2_state_sha2_224){ .block_state = block_state1, .buf = buf, .total_len = total_len2 } ); return; } if (sz == (uint32_t)0U) { Hacl_Streaming_SHA2_state_sha2_224 s1 = *p; uint32_t *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)(uint32_t)64U == (uint64_t)0U && total_len1 > (uint64_t)0U) { sz1 = (uint32_t)64U; } else { sz1 = (uint32_t)(total_len1 % (uint64_t)(uint32_t)64U); } if (!(sz1 == (uint32_t)0U)) { Hacl_Hash_SHA1_legacy_update_multi(block_state1, buf, (uint32_t)1U); } uint32_t ite; if ((uint64_t)len % (uint64_t)(uint32_t)64U == (uint64_t)0U && (uint64_t)len > (uint64_t)0U) { ite = (uint32_t)64U; } else { ite = (uint32_t)((uint64_t)len % (uint64_t)(uint32_t)64U); } uint32_t n_blocks = (len - ite) / (uint32_t)64U; uint32_t data1_len = n_blocks * (uint32_t)64U; uint32_t data2_len = len - data1_len; uint8_t *data1 = data; uint8_t *data2 = data + data1_len; Hacl_Hash_SHA1_legacy_update_multi(block_state1, data1, data1_len / (uint32_t)64U); uint8_t *dst = buf; memcpy(dst, data2, data2_len * sizeof (uint8_t)); *p = ( (Hacl_Streaming_SHA2_state_sha2_224){ .block_state = block_state1, .buf = buf, .total_len = total_len1 + (uint64_t)len } ); return; } uint32_t diff = (uint32_t)64U - sz; uint8_t *data1 = data; uint8_t *data2 = data + diff; Hacl_Streaming_SHA2_state_sha2_224 s1 = *p; uint32_t *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)(uint32_t)64U == (uint64_t)0U && total_len10 > (uint64_t)0U) { sz10 = (uint32_t)64U; } else { sz10 = (uint32_t)(total_len10 % (uint64_t)(uint32_t)64U); } uint8_t *buf2 = buf0 + sz10; memcpy(buf2, data1, diff * sizeof (uint8_t)); uint64_t total_len2 = total_len10 + (uint64_t)diff; *p = ( (Hacl_Streaming_SHA2_state_sha2_224){ .block_state = block_state10, .buf = buf0, .total_len = total_len2 } ); Hacl_Streaming_SHA2_state_sha2_224 s10 = *p; uint32_t *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)(uint32_t)64U == (uint64_t)0U && total_len1 > (uint64_t)0U) { sz1 = (uint32_t)64U; } else { sz1 = (uint32_t)(total_len1 % (uint64_t)(uint32_t)64U); } if (!(sz1 == (uint32_t)0U)) { Hacl_Hash_SHA1_legacy_update_multi(block_state1, buf, (uint32_t)1U); } uint32_t ite; if ( (uint64_t)(len - diff) % (uint64_t)(uint32_t)64U == (uint64_t)0U && (uint64_t)(len - diff) > (uint64_t)0U ) { ite = (uint32_t)64U; } else { ite = (uint32_t)((uint64_t)(len - diff) % (uint64_t)(uint32_t)64U); } uint32_t n_blocks = (len - diff - ite) / (uint32_t)64U; uint32_t data1_len = n_blocks * (uint32_t)64U; uint32_t data2_len = len - diff - data1_len; uint8_t *data11 = data2; uint8_t *data21 = data2 + data1_len; Hacl_Hash_SHA1_legacy_update_multi(block_state1, data11, data1_len / (uint32_t)64U); uint8_t *dst = buf; memcpy(dst, data21, data2_len * sizeof (uint8_t)); *p = ( (Hacl_Streaming_SHA2_state_sha2_224){ .block_state = block_state1, .buf = buf, .total_len = total_len1 + (uint64_t)(len - diff) } ); } /* SNIPPET_END: Hacl_Streaming_SHA1_legacy_update_sha1 */ /* SNIPPET_START: Hacl_Streaming_SHA1_legacy_finish_sha1 */ void Hacl_Streaming_SHA1_legacy_finish_sha1(Hacl_Streaming_SHA2_state_sha2_224 *p, uint8_t *dst) { Hacl_Streaming_SHA2_state_sha2_224 scrut = *p; uint32_t *block_state = scrut.block_state; uint8_t *buf_ = scrut.buf; uint64_t total_len = scrut.total_len; uint32_t r; if (total_len % (uint64_t)(uint32_t)64U == (uint64_t)0U && total_len > (uint64_t)0U) { r = (uint32_t)64U; } else { r = (uint32_t)(total_len % (uint64_t)(uint32_t)64U); } uint8_t *buf_1 = buf_; uint32_t tmp_block_state[5U] = { 0U }; memcpy(tmp_block_state, block_state, (uint32_t)5U * sizeof (uint32_t)); uint32_t ite; if (r % (uint32_t)64U == (uint32_t)0U && r > (uint32_t)0U) { ite = (uint32_t)64U; } else { ite = r % (uint32_t)64U; } uint8_t *buf_last = buf_1 + r - ite; uint8_t *buf_multi = buf_1; Hacl_Hash_SHA1_legacy_update_multi(tmp_block_state, buf_multi, (uint32_t)0U); uint64_t prev_len_last = total_len - (uint64_t)r; Hacl_Hash_SHA1_legacy_update_last(tmp_block_state, prev_len_last, buf_last, r); Hacl_Hash_Core_SHA1_legacy_finish(tmp_block_state, dst); } /* SNIPPET_END: Hacl_Streaming_SHA1_legacy_finish_sha1 */ /* SNIPPET_START: Hacl_Streaming_SHA1_legacy_free_sha1 */ void Hacl_Streaming_SHA1_legacy_free_sha1(Hacl_Streaming_SHA2_state_sha2_224 *s) { Hacl_Streaming_SHA2_state_sha2_224 scrut = *s; uint8_t *buf = scrut.buf; uint32_t *block_state = scrut.block_state; KRML_HOST_FREE(block_state); KRML_HOST_FREE(buf); KRML_HOST_FREE(s); } /* SNIPPET_END: Hacl_Streaming_SHA1_legacy_free_sha1 */