// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "components/rappor/byte_vector_utils.h" #include "base/rand_util.h" #include "base/strings/string_number_conversions.h" #include "testing/gtest/include/gtest/gtest.h" namespace rappor { namespace { class SecondRequest : public HmacByteVectorGenerator { public: SecondRequest(const HmacByteVectorGenerator& first_request) : HmacByteVectorGenerator(first_request) {} }; std::string HexToString(const char* hex) { ByteVector bv; base::HexStringToBytes(hex, &bv); return std::string(bv.begin(), bv.end()); } } // namespace TEST(ByteVectorTest, ByteVectorAnd) { ByteVector lhs(2); lhs[1] = 0x12; ByteVector rhs(2); rhs[1] = 0x03; EXPECT_EQ(0x02, (*ByteVectorAnd(lhs, &rhs))[1]); } TEST(ByteVectorTest, ByteVectorOr) { ByteVector lhs(2); lhs[1] = 0x12; ByteVector rhs(2); rhs[1] = 0x03; EXPECT_EQ(0x13, (*ByteVectorOr(lhs, &rhs))[1]); } TEST(ByteVectorTest, ByteVectorMerge) { ByteVector lhs(2); lhs[1] = 0x33; ByteVector rhs(2); rhs[1] = 0x55; ByteVector mask(2); mask[1] = 0x0f; EXPECT_EQ(0x35, (*ByteVectorMerge(mask, lhs, &rhs))[1]); } TEST(ByteVectorTest, ByteVectorGenerator) { ByteVectorGenerator generator(2u); ByteVector random_50 = generator.GetWeightedRandomByteVector(PROBABILITY_50); EXPECT_EQ(random_50.size(), 2u); ByteVector random_75 = generator.GetWeightedRandomByteVector(PROBABILITY_75); EXPECT_EQ(random_75.size(), 2u); } TEST(ByteVectorTest, HmacByteVectorGenerator) { HmacByteVectorGenerator generator(1u, std::string(HmacByteVectorGenerator::kEntropyInputSize, 0x00), ""); ByteVector random_50 = generator.GetWeightedRandomByteVector(PROBABILITY_50); EXPECT_EQ(random_50.size(), 1u); EXPECT_EQ(random_50[0], 0x0B); ByteVector random_75 = generator.GetWeightedRandomByteVector(PROBABILITY_75); EXPECT_EQ(random_75.size(), 1u); EXPECT_EQ(random_75[0], 0xdf); } TEST(ByteVectorTest, HmacNist) { // Test case 0 for SHA-256 HMAC_DRBG no reseed tests from // http://csrc.nist.gov/groups/STM/cavp/ const char entropy[] = "ca851911349384bffe89de1cbdc46e6831e44d34a4fb935ee285dd14b71a7488"; const char nonce[] = "659ba96c601dc69fc902940805ec0ca8"; const char expected[] = "e528e9abf2dece54d47c7e75e5fe302149f817ea9fb4bee6f4199697d04d5b89" "d54fbb978a15b5c443c9ec21036d2460b6f73ebad0dc2aba6e624abf07745bc1" "07694bb7547bb0995f70de25d6b29e2d3011bb19d27676c07162c8b5ccde0668" "961df86803482cb37ed6d5c0bb8d50cf1f50d476aa0458bdaba806f48be9dcb8"; std::string entropy_input = HexToString(entropy) + HexToString(nonce); HmacByteVectorGenerator generator(1024u / 8, entropy_input, ""); generator.GetWeightedRandomByteVector(PROBABILITY_50); SecondRequest generator2(generator); ByteVector random_50 = generator2.GetWeightedRandomByteVector(PROBABILITY_50); EXPECT_EQ(HexToString(expected), std::string(random_50.begin(), random_50.end())); } TEST(ByteVectorTest, WeightedRandomStatistics50) { ByteVectorGenerator generator(50u); ByteVector random = generator.GetWeightedRandomByteVector(PROBABILITY_50); int bit_count = CountBits(random); // Check bounds on bit counts that are true with 99.999% probability. EXPECT_GT(bit_count, 155); // Binomial(400, .5) CDF(155) ~= 0.000004 EXPECT_LE(bit_count, 244); // Binomial(400, .5) CDF(244) ~= 0.999996 } TEST(ByteVectorTest, WeightedRandomStatistics75) { ByteVectorGenerator generator(50u); ByteVector random = generator.GetWeightedRandomByteVector(PROBABILITY_75); int bit_count = CountBits(random); // Check bounds on bit counts that are true with 99.999% probability. EXPECT_GT(bit_count, 259); // Binomial(400, .75) CDF(259) ~= 0.000003 EXPECT_LE(bit_count, 337); // Binomial(400, .75) CDF(337) ~= 0.999997 } TEST(ByteVectorTest, HmacWeightedRandomStatistics50) { HmacByteVectorGenerator generator(50u, HmacByteVectorGenerator::GenerateEntropyInput(), ""); ByteVector random = generator.GetWeightedRandomByteVector(PROBABILITY_50); int bit_count = CountBits(random); // Check bounds on bit counts that are true with 99.999% probability. EXPECT_GT(bit_count, 155); // Binomial(400, .5) CDF(155) ~= 0.000004 EXPECT_LE(bit_count, 244); // Binomial(400, .5) CDF(244) ~= 0.999996 } TEST(ByteVectorTest, HmacWeightedRandomStatistics75) { HmacByteVectorGenerator generator(50u, HmacByteVectorGenerator::GenerateEntropyInput(), ""); ByteVector random = generator.GetWeightedRandomByteVector(PROBABILITY_75); int bit_count = CountBits(random); // Check bounds on bit counts that are true with 99.999% probability. EXPECT_GT(bit_count, 259); // Binomial(400, .75) CDF(259) ~= 0.000003 EXPECT_LE(bit_count, 337); // Binomial(400, .75) CDF(337) ~= 0.999997 } } // namespace rappor