/* * Copyright (c) 2020, Ali Mohammad Pur * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #ifndef KERNEL # include #endif constexpr static auto IPAD = 0x36; constexpr static auto OPAD = 0x5c; namespace Crypto { namespace Authentication { template class HMAC { public: using HashType = HashT; using TagType = typename HashType::DigestType; constexpr size_t digest_size() const { return m_inner_hasher.digest_size(); } template HMAC(KeyBufferType key, Args... args) : m_inner_hasher(args...) , m_outer_hasher(args...) { derive_key(key); reset(); } TagType process(u8 const* message, size_t length) { reset(); update(message, length); return digest(); } void update(u8 const* message, size_t length) { m_inner_hasher.update(message, length); } TagType process(ReadonlyBytes span) { return process(span.data(), span.size()); } TagType process(StringView string) { return process((u8 const*)string.characters_without_null_termination(), string.length()); } void update(ReadonlyBytes span) { return update(span.data(), span.size()); } void update(StringView string) { return update((u8 const*)string.characters_without_null_termination(), string.length()); } TagType digest() { m_outer_hasher.update(m_inner_hasher.digest().immutable_data(), m_inner_hasher.digest_size()); auto result = m_outer_hasher.digest(); reset(); return result; } void reset() { m_inner_hasher.reset(); m_outer_hasher.reset(); m_inner_hasher.update(m_key_data, m_inner_hasher.block_size()); m_outer_hasher.update(m_key_data + m_inner_hasher.block_size(), m_outer_hasher.block_size()); } #ifndef KERNEL DeprecatedString class_name() const { StringBuilder builder; builder.append("HMAC-"sv); builder.append(m_inner_hasher.class_name()); return builder.to_deprecated_string(); } #endif private: void derive_key(u8 const* key, size_t length) { auto block_size = m_inner_hasher.block_size(); // Note: The block size of all the current hash functions is 512 bits. Vector v_key; v_key.resize(block_size); auto key_buffer = v_key.span(); // m_key_data is zero'd, so copying the data in // the first few bytes leaves the rest zero, which // is exactly what we want (zero padding) if (length > block_size) { m_inner_hasher.update(key, length); auto digest = m_inner_hasher.digest(); // FIXME: should we check if the hash function creates more data than its block size? key_buffer.overwrite(0, digest.immutable_data(), m_inner_hasher.digest_size()); } else { key_buffer.overwrite(0, key, length); } // fill out the inner and outer padded keys auto* i_key = m_key_data; auto* o_key = m_key_data + block_size; for (size_t i = 0; i < block_size; ++i) { auto key_byte = key_buffer[i]; i_key[i] = key_byte ^ IPAD; o_key[i] = key_byte ^ OPAD; } } void derive_key(ReadonlyBytes key) { derive_key(key.data(), key.size()); } void derive_key(StringView key) { derive_key(key.bytes()); } HashType m_inner_hasher, m_outer_hasher; u8 m_key_data[2048]; }; } }