// 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. #include "absl/random/seed_sequences.h" #include <iterator> #include <random> #include "gmock/gmock.h" #include "gtest/gtest.h" #include "absl/random/internal/nonsecure_base.h" #include "absl/random/random.h" namespace { TEST(SeedSequences, Examples) { { absl::SeedSeq seed_seq({1, 2, 3}); absl::BitGen bitgen(seed_seq); EXPECT_NE(0, bitgen()); } { absl::BitGen engine; auto seed_seq = absl::CreateSeedSeqFrom(&engine); absl::BitGen bitgen(seed_seq); EXPECT_NE(engine(), bitgen()); } { auto seed_seq = absl::MakeSeedSeq(); std::mt19937 random(seed_seq); EXPECT_NE(0, random()); } } TEST(CreateSeedSeqFrom, CompatibleWithStdTypes) { using ExampleNonsecureURBG = absl::random_internal::NonsecureURBGBase<std::minstd_rand0>; // Construct a URBG instance. ExampleNonsecureURBG rng; // Construct a Seed Sequence from its variates. auto seq_from_rng = absl::CreateSeedSeqFrom(&rng); // Ensure that another URBG can be validly constructed from the Seed Sequence. std::mt19937_64{seq_from_rng}; } TEST(CreateSeedSeqFrom, CompatibleWithBitGenerator) { // Construct a URBG instance. absl::BitGen rng; // Construct a Seed Sequence from its variates. auto seq_from_rng = absl::CreateSeedSeqFrom(&rng); // Ensure that another URBG can be validly constructed from the Seed Sequence. std::mt19937_64{seq_from_rng}; } TEST(CreateSeedSeqFrom, CompatibleWithInsecureBitGen) { // Construct a URBG instance. absl::InsecureBitGen rng; // Construct a Seed Sequence from its variates. auto seq_from_rng = absl::CreateSeedSeqFrom(&rng); // Ensure that another URBG can be validly constructed from the Seed Sequence. std::mt19937_64{seq_from_rng}; } TEST(CreateSeedSeqFrom, CompatibleWithRawURBG) { // Construct a URBG instance. std::random_device urandom; // Construct a Seed Sequence from its variates, using 64b of seed-material. auto seq_from_rng = absl::CreateSeedSeqFrom(&urandom); // Ensure that another URBG can be validly constructed from the Seed Sequence. std::mt19937_64{seq_from_rng}; } template <typename URBG> void TestReproducibleVariateSequencesForNonsecureURBG() { const size_t kNumVariates = 1000; URBG rng; // Reused for both RNG instances. auto reusable_seed = absl::CreateSeedSeqFrom(&rng); typename URBG::result_type variates[kNumVariates]; { URBG child(reusable_seed); for (auto& variate : variates) { variate = child(); } } // Ensure that variate-sequence can be "replayed" by identical RNG. { URBG child(reusable_seed); for (auto& variate : variates) { ASSERT_EQ(variate, child()); } } } TEST(CreateSeedSeqFrom, ReproducesVariateSequencesForInsecureBitGen) { TestReproducibleVariateSequencesForNonsecureURBG<absl::InsecureBitGen>(); } TEST(CreateSeedSeqFrom, ReproducesVariateSequencesForBitGenerator) { TestReproducibleVariateSequencesForNonsecureURBG<absl::BitGen>(); } } // namespace