/* 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_HMAC_DRBG.h" uint32_t Hacl_HMAC_DRBG_reseed_interval = (uint32_t)1024U; uint32_t Hacl_HMAC_DRBG_max_output_length = (uint32_t)65536U; uint32_t Hacl_HMAC_DRBG_max_length = (uint32_t)65536U; uint32_t Hacl_HMAC_DRBG_max_personalization_string_length = (uint32_t)65536U; uint32_t Hacl_HMAC_DRBG_max_additional_input_length = (uint32_t)65536U; uint32_t Hacl_HMAC_DRBG_min_length(Spec_Hash_Definitions_hash_alg a) { switch (a) { case Spec_Hash_Definitions_SHA1: { return (uint32_t)16U; } case Spec_Hash_Definitions_SHA2_256: { return (uint32_t)32U; } case Spec_Hash_Definitions_SHA2_384: { return (uint32_t)32U; } case Spec_Hash_Definitions_SHA2_512: { return (uint32_t)32U; } default: { KRML_HOST_PRINTF("KreMLin incomplete match at %s:%d\n", __FILE__, __LINE__); KRML_HOST_EXIT(253U); } } } bool Hacl_HMAC_DRBG_uu___is_State(Spec_Hash_Definitions_hash_alg a, Hacl_HMAC_DRBG_state projectee) { return true; } Hacl_HMAC_DRBG_state Hacl_HMAC_DRBG_create_in(Spec_Hash_Definitions_hash_alg a) { uint8_t *k; switch (a) { case Spec_Hash_Definitions_SHA1: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)20U, sizeof (uint8_t)); k = buf; break; } case Spec_Hash_Definitions_SHA2_256: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)32U, sizeof (uint8_t)); k = buf; break; } case Spec_Hash_Definitions_SHA2_384: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)48U, sizeof (uint8_t)); k = buf; break; } case Spec_Hash_Definitions_SHA2_512: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)64U, sizeof (uint8_t)); k = buf; break; } default: { KRML_HOST_PRINTF("KreMLin incomplete match at %s:%d\n", __FILE__, __LINE__); KRML_HOST_EXIT(253U); } } { uint8_t *v; switch (a) { case Spec_Hash_Definitions_SHA1: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)20U, sizeof (uint8_t)); v = buf; break; } case Spec_Hash_Definitions_SHA2_256: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)32U, sizeof (uint8_t)); v = buf; break; } case Spec_Hash_Definitions_SHA2_384: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)48U, sizeof (uint8_t)); v = buf; break; } case Spec_Hash_Definitions_SHA2_512: { uint8_t *buf = (uint8_t *)KRML_HOST_CALLOC((uint32_t)64U, sizeof (uint8_t)); v = buf; break; } default: { KRML_HOST_PRINTF("KreMLin incomplete match at %s:%d\n", __FILE__, __LINE__); KRML_HOST_EXIT(253U); } } { uint32_t *ctr = (uint32_t *)KRML_HOST_MALLOC(sizeof (uint32_t)); ctr[0U] = (uint32_t)1U; { Hacl_HMAC_DRBG_state lit; lit.k = k; lit.v = v; lit.reseed_counter = ctr; return lit; } } } } void Hacl_HMAC_DRBG_instantiate( Spec_Hash_Definitions_hash_alg a, Hacl_HMAC_DRBG_state st, uint32_t entropy_input_len, uint8_t *entropy_input, uint32_t nonce_len, uint8_t *nonce, uint32_t personalization_string_len, uint8_t *personalization_string ) { switch (a) { case Spec_Hash_Definitions_SHA1: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + nonce_len + personalization_string_len); { uint8_t seed_material[entropy_input_len + nonce_len + personalization_string_len]; memset(seed_material, 0U, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); { uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, nonce, nonce_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len + nonce_len, personalization_string, personalization_string_len * sizeof (uint8_t)); k = st.k; v = st.v; ctr = st.reseed_counter; memset(k, 0U, (uint32_t)20U * sizeof (uint8_t)); memset(v, (uint8_t)1U, (uint32_t)20U * sizeof (uint8_t)); ctr[0U] = (uint32_t)1U; { uint32_t input_len = (uint32_t)21U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)20U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)21U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input0[20U] = (uint8_t)0U; Hacl_HMAC_legacy_compute_sha1(k_, k, (uint32_t)20U, input0, input_len); Hacl_HMAC_legacy_compute_sha1(v, k_, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_, (uint32_t)20U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)21U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)20U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input + (uint32_t)21U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input[20U] = (uint8_t)1U; Hacl_HMAC_legacy_compute_sha1(k_0, k, (uint32_t)20U, input, input_len0); Hacl_HMAC_legacy_compute_sha1(v, k_0, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_0, (uint32_t)20U * sizeof (uint8_t)); } } } } } } } } break; } case Spec_Hash_Definitions_SHA2_256: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + nonce_len + personalization_string_len); { uint8_t seed_material[entropy_input_len + nonce_len + personalization_string_len]; memset(seed_material, 0U, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); { uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, nonce, nonce_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len + nonce_len, personalization_string, personalization_string_len * sizeof (uint8_t)); k = st.k; v = st.v; ctr = st.reseed_counter; memset(k, 0U, (uint32_t)32U * sizeof (uint8_t)); memset(v, (uint8_t)1U, (uint32_t)32U * sizeof (uint8_t)); ctr[0U] = (uint32_t)1U; { uint32_t input_len = (uint32_t)33U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)32U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)33U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input0[32U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_256(k_, k, (uint32_t)32U, input0, input_len); Hacl_HMAC_compute_sha2_256(v, k_, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_, (uint32_t)32U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)33U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)32U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input + (uint32_t)33U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input[32U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_256(k_0, k, (uint32_t)32U, input, input_len0); Hacl_HMAC_compute_sha2_256(v, k_0, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_0, (uint32_t)32U * sizeof (uint8_t)); } } } } } } } } break; } case Spec_Hash_Definitions_SHA2_384: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + nonce_len + personalization_string_len); { uint8_t seed_material[entropy_input_len + nonce_len + personalization_string_len]; memset(seed_material, 0U, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); { uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, nonce, nonce_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len + nonce_len, personalization_string, personalization_string_len * sizeof (uint8_t)); k = st.k; v = st.v; ctr = st.reseed_counter; memset(k, 0U, (uint32_t)48U * sizeof (uint8_t)); memset(v, (uint8_t)1U, (uint32_t)48U * sizeof (uint8_t)); ctr[0U] = (uint32_t)1U; { uint32_t input_len = (uint32_t)49U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)48U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)49U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input0[48U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_384(k_, k, (uint32_t)48U, input0, input_len); Hacl_HMAC_compute_sha2_384(v, k_, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_, (uint32_t)48U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)49U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)48U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input + (uint32_t)49U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input[48U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_384(k_0, k, (uint32_t)48U, input, input_len0); Hacl_HMAC_compute_sha2_384(v, k_0, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_0, (uint32_t)48U * sizeof (uint8_t)); } } } } } } } } break; } case Spec_Hash_Definitions_SHA2_512: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + nonce_len + personalization_string_len); { uint8_t seed_material[entropy_input_len + nonce_len + personalization_string_len]; memset(seed_material, 0U, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); { uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, nonce, nonce_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len + nonce_len, personalization_string, personalization_string_len * sizeof (uint8_t)); k = st.k; v = st.v; ctr = st.reseed_counter; memset(k, 0U, (uint32_t)64U * sizeof (uint8_t)); memset(v, (uint8_t)1U, (uint32_t)64U * sizeof (uint8_t)); ctr[0U] = (uint32_t)1U; { uint32_t input_len = (uint32_t)65U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)64U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)65U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input0[64U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_512(k_, k, (uint32_t)64U, input0, input_len); Hacl_HMAC_compute_sha2_512(v, k_, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_, (uint32_t)64U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)65U + entropy_input_len + nonce_len + personalization_string_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)64U * sizeof (uint8_t)); if (entropy_input_len + nonce_len + personalization_string_len != (uint32_t)0U) { memcpy(input + (uint32_t)65U, seed_material, (entropy_input_len + nonce_len + personalization_string_len) * sizeof (uint8_t)); } input[64U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_512(k_0, k, (uint32_t)64U, input, input_len0); Hacl_HMAC_compute_sha2_512(v, k_0, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_0, (uint32_t)64U * sizeof (uint8_t)); } } } } } } } } break; } default: { KRML_HOST_PRINTF("KreMLin incomplete match at %s:%d\n", __FILE__, __LINE__); KRML_HOST_EXIT(253U); } } } void Hacl_HMAC_DRBG_reseed( Spec_Hash_Definitions_hash_alg a, Hacl_HMAC_DRBG_state st, uint32_t entropy_input_len, uint8_t *entropy_input, uint32_t additional_input_input_len, uint8_t *additional_input_input ) { switch (a) { case Spec_Hash_Definitions_SHA1: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + additional_input_input_len); { uint8_t seed_material[entropy_input_len + additional_input_input_len]; memset(seed_material, 0U, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); { Hacl_HMAC_DRBG_state uu____0; uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, additional_input_input, additional_input_input_len * sizeof (uint8_t)); uu____0 = st; k = uu____0.k; v = uu____0.v; ctr = uu____0.reseed_counter; { uint32_t input_len = (uint32_t)21U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)20U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)21U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input0[20U] = (uint8_t)0U; Hacl_HMAC_legacy_compute_sha1(k_, k, (uint32_t)20U, input0, input_len); Hacl_HMAC_legacy_compute_sha1(v, k_, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_, (uint32_t)20U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)21U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)20U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)21U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input[20U] = (uint8_t)1U; Hacl_HMAC_legacy_compute_sha1(k_0, k, (uint32_t)20U, input, input_len0); Hacl_HMAC_legacy_compute_sha1(v, k_0, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_0, (uint32_t)20U * sizeof (uint8_t)); } } } ctr[0U] = (uint32_t)1U; } } } } } break; } case Spec_Hash_Definitions_SHA2_256: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + additional_input_input_len); { uint8_t seed_material[entropy_input_len + additional_input_input_len]; memset(seed_material, 0U, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); { Hacl_HMAC_DRBG_state uu____1; uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, additional_input_input, additional_input_input_len * sizeof (uint8_t)); uu____1 = st; k = uu____1.k; v = uu____1.v; ctr = uu____1.reseed_counter; { uint32_t input_len = (uint32_t)33U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)32U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)33U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input0[32U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_256(k_, k, (uint32_t)32U, input0, input_len); Hacl_HMAC_compute_sha2_256(v, k_, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_, (uint32_t)32U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)33U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)32U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)33U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input[32U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_256(k_0, k, (uint32_t)32U, input, input_len0); Hacl_HMAC_compute_sha2_256(v, k_0, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_0, (uint32_t)32U * sizeof (uint8_t)); } } } ctr[0U] = (uint32_t)1U; } } } } } break; } case Spec_Hash_Definitions_SHA2_384: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + additional_input_input_len); { uint8_t seed_material[entropy_input_len + additional_input_input_len]; memset(seed_material, 0U, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); { Hacl_HMAC_DRBG_state uu____2; uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, additional_input_input, additional_input_input_len * sizeof (uint8_t)); uu____2 = st; k = uu____2.k; v = uu____2.v; ctr = uu____2.reseed_counter; { uint32_t input_len = (uint32_t)49U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)48U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)49U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input0[48U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_384(k_, k, (uint32_t)48U, input0, input_len); Hacl_HMAC_compute_sha2_384(v, k_, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_, (uint32_t)48U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)49U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)48U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)49U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input[48U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_384(k_0, k, (uint32_t)48U, input, input_len0); Hacl_HMAC_compute_sha2_384(v, k_0, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_0, (uint32_t)48U * sizeof (uint8_t)); } } } ctr[0U] = (uint32_t)1U; } } } } } break; } case Spec_Hash_Definitions_SHA2_512: { KRML_CHECK_SIZE(sizeof (uint8_t), entropy_input_len + additional_input_input_len); { uint8_t seed_material[entropy_input_len + additional_input_input_len]; memset(seed_material, 0U, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); { Hacl_HMAC_DRBG_state uu____3; uint8_t *k; uint8_t *v; uint32_t *ctr; memcpy(seed_material, entropy_input, entropy_input_len * sizeof (uint8_t)); memcpy(seed_material + entropy_input_len, additional_input_input, additional_input_input_len * sizeof (uint8_t)); uu____3 = st; k = uu____3.k; v = uu____3.v; ctr = uu____3.reseed_counter; { uint32_t input_len = (uint32_t)65U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)64U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)65U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input0[64U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_512(k_, k, (uint32_t)64U, input0, input_len); Hacl_HMAC_compute_sha2_512(v, k_, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_, (uint32_t)64U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)65U + entropy_input_len + additional_input_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)64U * sizeof (uint8_t)); if (entropy_input_len + additional_input_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)65U, seed_material, (entropy_input_len + additional_input_input_len) * sizeof (uint8_t)); } input[64U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_512(k_0, k, (uint32_t)64U, input, input_len0); Hacl_HMAC_compute_sha2_512(v, k_0, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_0, (uint32_t)64U * sizeof (uint8_t)); } } } ctr[0U] = (uint32_t)1U; } } } } } break; } default: { KRML_HOST_PRINTF("KreMLin incomplete match at %s:%d\n", __FILE__, __LINE__); KRML_HOST_EXIT(253U); } } } bool Hacl_HMAC_DRBG_generate( Spec_Hash_Definitions_hash_alg a, uint8_t *output, Hacl_HMAC_DRBG_state st, uint32_t n, uint32_t additional_input_len, uint8_t *additional_input ) { switch (a) { case Spec_Hash_Definitions_SHA1: { if (st.reseed_counter[0U] > Hacl_HMAC_DRBG_reseed_interval) { return false; } { uint8_t *k = st.k; uint8_t *v = st.v; uint32_t *ctr = st.reseed_counter; if (additional_input_len > (uint32_t)0U) { uint32_t input_len = (uint32_t)21U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)20U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)21U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[20U] = (uint8_t)0U; Hacl_HMAC_legacy_compute_sha1(k_, k, (uint32_t)20U, input0, input_len); Hacl_HMAC_legacy_compute_sha1(v, k_, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_, (uint32_t)20U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)21U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)20U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)21U, additional_input, additional_input_len * sizeof (uint8_t)); } input[20U] = (uint8_t)1U; Hacl_HMAC_legacy_compute_sha1(k_0, k, (uint32_t)20U, input, input_len0); Hacl_HMAC_legacy_compute_sha1(v, k_0, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_0, (uint32_t)20U * sizeof (uint8_t)); } } } } } } { uint8_t *output1 = output; uint32_t max = n / (uint32_t)20U; uint8_t *out = output1; { uint32_t i; for (i = (uint32_t)0U; i < max; i++) { Hacl_HMAC_legacy_compute_sha1(v, k, (uint32_t)20U, v, (uint32_t)20U); memcpy(out + i * (uint32_t)20U, v, (uint32_t)20U * sizeof (uint8_t)); } } if (max * (uint32_t)20U < n) { uint8_t *block = output1 + max * (uint32_t)20U; Hacl_HMAC_legacy_compute_sha1(v, k, (uint32_t)20U, v, (uint32_t)20U); memcpy(block, v, (n - max * (uint32_t)20U) * sizeof (uint8_t)); } { uint32_t input_len = (uint32_t)21U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)20U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)21U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[20U] = (uint8_t)0U; Hacl_HMAC_legacy_compute_sha1(k_, k, (uint32_t)20U, input0, input_len); Hacl_HMAC_legacy_compute_sha1(v, k_, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_, (uint32_t)20U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)21U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)20U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)21U, additional_input, additional_input_len * sizeof (uint8_t)); } input[20U] = (uint8_t)1U; Hacl_HMAC_legacy_compute_sha1(k_0, k, (uint32_t)20U, input, input_len0); Hacl_HMAC_legacy_compute_sha1(v, k_0, (uint32_t)20U, v, (uint32_t)20U); memcpy(k, k_0, (uint32_t)20U * sizeof (uint8_t)); } } } { uint32_t old_ctr = ctr[0U]; ctr[0U] = old_ctr + (uint32_t)1U; return true; } } } } } } break; } case Spec_Hash_Definitions_SHA2_256: { if (st.reseed_counter[0U] > Hacl_HMAC_DRBG_reseed_interval) { return false; } { uint8_t *k = st.k; uint8_t *v = st.v; uint32_t *ctr = st.reseed_counter; if (additional_input_len > (uint32_t)0U) { uint32_t input_len = (uint32_t)33U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)32U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)33U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[32U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_256(k_, k, (uint32_t)32U, input0, input_len); Hacl_HMAC_compute_sha2_256(v, k_, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_, (uint32_t)32U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)33U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)32U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)33U, additional_input, additional_input_len * sizeof (uint8_t)); } input[32U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_256(k_0, k, (uint32_t)32U, input, input_len0); Hacl_HMAC_compute_sha2_256(v, k_0, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_0, (uint32_t)32U * sizeof (uint8_t)); } } } } } } { uint8_t *output1 = output; uint32_t max = n / (uint32_t)32U; uint8_t *out = output1; { uint32_t i; for (i = (uint32_t)0U; i < max; i++) { Hacl_HMAC_compute_sha2_256(v, k, (uint32_t)32U, v, (uint32_t)32U); memcpy(out + i * (uint32_t)32U, v, (uint32_t)32U * sizeof (uint8_t)); } } if (max * (uint32_t)32U < n) { uint8_t *block = output1 + max * (uint32_t)32U; Hacl_HMAC_compute_sha2_256(v, k, (uint32_t)32U, v, (uint32_t)32U); memcpy(block, v, (n - max * (uint32_t)32U) * sizeof (uint8_t)); } { uint32_t input_len = (uint32_t)33U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)32U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)33U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[32U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_256(k_, k, (uint32_t)32U, input0, input_len); Hacl_HMAC_compute_sha2_256(v, k_, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_, (uint32_t)32U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)33U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)32U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)33U, additional_input, additional_input_len * sizeof (uint8_t)); } input[32U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_256(k_0, k, (uint32_t)32U, input, input_len0); Hacl_HMAC_compute_sha2_256(v, k_0, (uint32_t)32U, v, (uint32_t)32U); memcpy(k, k_0, (uint32_t)32U * sizeof (uint8_t)); } } } { uint32_t old_ctr = ctr[0U]; ctr[0U] = old_ctr + (uint32_t)1U; return true; } } } } } } break; } case Spec_Hash_Definitions_SHA2_384: { if (st.reseed_counter[0U] > Hacl_HMAC_DRBG_reseed_interval) { return false; } { uint8_t *k = st.k; uint8_t *v = st.v; uint32_t *ctr = st.reseed_counter; if (additional_input_len > (uint32_t)0U) { uint32_t input_len = (uint32_t)49U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)48U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)49U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[48U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_384(k_, k, (uint32_t)48U, input0, input_len); Hacl_HMAC_compute_sha2_384(v, k_, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_, (uint32_t)48U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)49U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)48U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)49U, additional_input, additional_input_len * sizeof (uint8_t)); } input[48U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_384(k_0, k, (uint32_t)48U, input, input_len0); Hacl_HMAC_compute_sha2_384(v, k_0, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_0, (uint32_t)48U * sizeof (uint8_t)); } } } } } } { uint8_t *output1 = output; uint32_t max = n / (uint32_t)48U; uint8_t *out = output1; { uint32_t i; for (i = (uint32_t)0U; i < max; i++) { Hacl_HMAC_compute_sha2_384(v, k, (uint32_t)48U, v, (uint32_t)48U); memcpy(out + i * (uint32_t)48U, v, (uint32_t)48U * sizeof (uint8_t)); } } if (max * (uint32_t)48U < n) { uint8_t *block = output1 + max * (uint32_t)48U; Hacl_HMAC_compute_sha2_384(v, k, (uint32_t)48U, v, (uint32_t)48U); memcpy(block, v, (n - max * (uint32_t)48U) * sizeof (uint8_t)); } { uint32_t input_len = (uint32_t)49U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)48U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)49U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[48U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_384(k_, k, (uint32_t)48U, input0, input_len); Hacl_HMAC_compute_sha2_384(v, k_, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_, (uint32_t)48U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)49U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)48U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)49U, additional_input, additional_input_len * sizeof (uint8_t)); } input[48U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_384(k_0, k, (uint32_t)48U, input, input_len0); Hacl_HMAC_compute_sha2_384(v, k_0, (uint32_t)48U, v, (uint32_t)48U); memcpy(k, k_0, (uint32_t)48U * sizeof (uint8_t)); } } } { uint32_t old_ctr = ctr[0U]; ctr[0U] = old_ctr + (uint32_t)1U; return true; } } } } } } break; } case Spec_Hash_Definitions_SHA2_512: { if (st.reseed_counter[0U] > Hacl_HMAC_DRBG_reseed_interval) { return false; } { uint8_t *k = st.k; uint8_t *v = st.v; uint32_t *ctr = st.reseed_counter; if (additional_input_len > (uint32_t)0U) { uint32_t input_len = (uint32_t)65U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)64U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)65U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[64U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_512(k_, k, (uint32_t)64U, input0, input_len); Hacl_HMAC_compute_sha2_512(v, k_, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_, (uint32_t)64U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)65U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)64U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)65U, additional_input, additional_input_len * sizeof (uint8_t)); } input[64U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_512(k_0, k, (uint32_t)64U, input, input_len0); Hacl_HMAC_compute_sha2_512(v, k_0, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_0, (uint32_t)64U * sizeof (uint8_t)); } } } } } } { uint8_t *output1 = output; uint32_t max = n / (uint32_t)64U; uint8_t *out = output1; { uint32_t i; for (i = (uint32_t)0U; i < max; i++) { Hacl_HMAC_compute_sha2_512(v, k, (uint32_t)64U, v, (uint32_t)64U); memcpy(out + i * (uint32_t)64U, v, (uint32_t)64U * sizeof (uint8_t)); } } if (max * (uint32_t)64U < n) { uint8_t *block = output1 + max * (uint32_t)64U; Hacl_HMAC_compute_sha2_512(v, k, (uint32_t)64U, v, (uint32_t)64U); memcpy(block, v, (n - max * (uint32_t)64U) * sizeof (uint8_t)); } { uint32_t input_len = (uint32_t)65U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len); { uint8_t input0[input_len]; memset(input0, 0U, input_len * sizeof (uint8_t)); { uint8_t *k_ = input0; memcpy(k_, v, (uint32_t)64U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input0 + (uint32_t)65U, additional_input, additional_input_len * sizeof (uint8_t)); } input0[64U] = (uint8_t)0U; Hacl_HMAC_compute_sha2_512(k_, k, (uint32_t)64U, input0, input_len); Hacl_HMAC_compute_sha2_512(v, k_, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_, (uint32_t)64U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { uint32_t input_len0 = (uint32_t)65U + additional_input_len; KRML_CHECK_SIZE(sizeof (uint8_t), input_len0); { uint8_t input[input_len0]; memset(input, 0U, input_len0 * sizeof (uint8_t)); { uint8_t *k_0 = input; memcpy(k_0, v, (uint32_t)64U * sizeof (uint8_t)); if (additional_input_len != (uint32_t)0U) { memcpy(input + (uint32_t)65U, additional_input, additional_input_len * sizeof (uint8_t)); } input[64U] = (uint8_t)1U; Hacl_HMAC_compute_sha2_512(k_0, k, (uint32_t)64U, input, input_len0); Hacl_HMAC_compute_sha2_512(v, k_0, (uint32_t)64U, v, (uint32_t)64U); memcpy(k, k_0, (uint32_t)64U * sizeof (uint8_t)); } } } { uint32_t old_ctr = ctr[0U]; ctr[0U] = old_ctr + (uint32_t)1U; return true; } } } } } } break; } default: { KRML_HOST_PRINTF("KreMLin incomplete match at %s:%d\n", __FILE__, __LINE__); KRML_HOST_EXIT(253U); } } }