// Copyright 2017 The Abseil Authors. // // 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 // // https://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 Y_ABSL_RANDOM_INTERNAL_RANDEN_TRAITS_H_ #define Y_ABSL_RANDOM_INTERNAL_RANDEN_TRAITS_H_ // HERMETIC NOTE: The randen_hwaes target must not introduce duplicate // symbols from arbitrary system and other headers, since it may be built // with different flags from other targets, using different levels of // optimization, potentially introducing ODR violations. #include #include "y_absl/base/config.h" namespace y_absl { Y_ABSL_NAMESPACE_BEGIN namespace random_internal { // RANDen = RANDom generator or beetroots in Swiss High German. // 'Strong' (well-distributed, unpredictable, backtracking-resistant) random // generator, faster in some benchmarks than std::mt19937_64 and pcg64_c32. // // High-level summary: // 1) Reverie (see "A Robust and Sponge-Like PRNG with Improved Efficiency") is // a sponge-like random generator that requires a cryptographic permutation. // It improves upon "Provably Robust Sponge-Based PRNGs and KDFs" by // achieving backtracking resistance with only one Permute() per buffer. // // 2) "Simpira v2: A Family of Efficient Permutations Using the AES Round // Function" constructs up to 1024-bit permutations using an improved // Generalized Feistel network with 2-round AES-128 functions. This Feistel // block shuffle achieves diffusion faster and is less vulnerable to // sliced-biclique attacks than the Type-2 cyclic shuffle. // // 3) "Improving the Generalized Feistel" and "New criterion for diffusion // property" extends the same kind of improved Feistel block shuffle to 16 // branches, which enables a 2048-bit permutation. // // Combine these three ideas and also change Simpira's subround keys from // structured/low-entropy counters to digits of Pi (or other random source). // RandenTraits contains the basic algorithm traits, such as the size of the // state, seed, sponge, etc. struct RandenTraits { // Size of the entire sponge / state for the randen PRNG. static constexpr size_t kStateBytes = 256; // 2048-bit // Size of the 'inner' (inaccessible) part of the sponge. Larger values would // require more frequent calls to RandenGenerate. static constexpr size_t kCapacityBytes = 16; // 128-bit // Size of the default seed consumed by the sponge. static constexpr size_t kSeedBytes = kStateBytes - kCapacityBytes; // Assuming 128-bit blocks, the number of blocks in the state. // Largest size for which security proofs are known. static constexpr size_t kFeistelBlocks = 16; // Ensures SPRP security and two full subblock diffusions. // Must be > 4 * log2(kFeistelBlocks). static constexpr size_t kFeistelRounds = 16 + 1; // Size of the key. A 128-bit key block is used for every-other // feistel block (Type-2 generalized Feistel network) in each round. static constexpr size_t kKeyBytes = 16 * kFeistelRounds * kFeistelBlocks / 2; }; // Randen key arrays. In randen_round_keys.cc extern const unsigned char kRandenRoundKeys[RandenTraits::kKeyBytes]; extern const unsigned char kRandenRoundKeysBE[RandenTraits::kKeyBytes]; } // namespace random_internal Y_ABSL_NAMESPACE_END } // namespace y_absl #endif // Y_ABSL_RANDOM_INTERNAL_RANDEN_TRAITS_H_