// Copyright (c) 2016 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 "base/unguessable_token.h" #include #include #include #include "base/value_conversions.h" #include "base/values.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { void TestSmallerThanOperator(const UnguessableToken& a, const UnguessableToken& b) { EXPECT_TRUE(a < b); EXPECT_FALSE(b < a); } TEST(UnguessableTokenTest, VerifyEqualityOperators) { // Deserialize is used for testing purposes. // Use UnguessableToken::Create() in production code instead. UnguessableToken token = UnguessableToken::Deserialize(1, 2); UnguessableToken same_token = UnguessableToken::Deserialize(1, 2); UnguessableToken diff_token = UnguessableToken::Deserialize(1, 3); EXPECT_TRUE(token == token); EXPECT_FALSE(token != token); EXPECT_TRUE(token == same_token); EXPECT_FALSE(token != same_token); EXPECT_FALSE(token == diff_token); EXPECT_FALSE(diff_token == token); EXPECT_TRUE(token != diff_token); EXPECT_TRUE(diff_token != token); } TEST(UnguessableTokenTest, VerifyConstructors) { UnguessableToken token = UnguessableToken::Create(); EXPECT_FALSE(token.is_empty()); EXPECT_TRUE(token); UnguessableToken copied_token(token); EXPECT_TRUE(copied_token); EXPECT_EQ(token, copied_token); UnguessableToken uninitialized; EXPECT_TRUE(uninitialized.is_empty()); EXPECT_FALSE(uninitialized); EXPECT_TRUE(UnguessableToken().is_empty()); EXPECT_FALSE(UnguessableToken()); } TEST(UnguessableTokenTest, VerifySerialization) { UnguessableToken token = UnguessableToken::Create(); uint64_t high = token.GetHighForSerialization(); uint64_t low = token.GetLowForSerialization(); EXPECT_TRUE(high); EXPECT_TRUE(low); UnguessableToken Deserialized = UnguessableToken::Deserialize(high, low); EXPECT_EQ(token, Deserialized); } TEST(UnguessableTokenTest, VerifyValueSerialization) { UnguessableToken token = UnguessableToken::Create(); std::unique_ptr value = CreateUnguessableTokenValue(token); UnguessableToken deserialized; EXPECT_TRUE(GetValueAsUnguessableToken(*value, &deserialized)); EXPECT_EQ(token, deserialized); } // Common case (~88% of the time) - no leading zeroes in high_ nor low_. TEST(UnguessableTokenTest, VerifyToString1) { UnguessableToken token = UnguessableToken::Deserialize(0x1234567890ABCDEF, 0xFEDCBA0987654321); std::string expected = "1234567890ABCDEFFEDCBA0987654321"; EXPECT_EQ(expected, token.ToString()); std::string expected_stream = "(1234567890ABCDEFFEDCBA0987654321)"; std::stringstream stream; stream << token; EXPECT_EQ(expected_stream, stream.str()); } // Less common case - leading zeroes in high_ or low_ (testing with both). TEST(UnguessableTokenTest, VerifyToString2) { UnguessableToken token = UnguessableToken::Deserialize(0x123, 0xABC); std::string expected = "00000000000001230000000000000ABC"; EXPECT_EQ(expected, token.ToString()); std::string expected_stream = "(00000000000001230000000000000ABC)"; std::stringstream stream; stream << token; EXPECT_EQ(expected_stream, stream.str()); } TEST(UnguessableTokenTest, VerifyToStringUniqueness) { const UnguessableToken token1 = UnguessableToken::Deserialize(0x0000000012345678, 0x0000000123456789); const UnguessableToken token2 = UnguessableToken::Deserialize(0x0000000123456781, 0x0000000023456789); EXPECT_NE(token1.ToString(), token2.ToString()); } TEST(UnguessableTokenTest, VerifySmallerThanOperator) { // Deserialize is used for testing purposes. // Use UnguessableToken::Create() in production code instead. { SCOPED_TRACE("a.low < b.low and a.high == b.high."); TestSmallerThanOperator(UnguessableToken::Deserialize(0, 1), UnguessableToken::Deserialize(0, 5)); } { SCOPED_TRACE("a.low == b.low and a.high < b.high."); TestSmallerThanOperator(UnguessableToken::Deserialize(1, 0), UnguessableToken::Deserialize(5, 0)); } { SCOPED_TRACE("a.low < b.low and a.high < b.high."); TestSmallerThanOperator(UnguessableToken::Deserialize(1, 1), UnguessableToken::Deserialize(5, 5)); } { SCOPED_TRACE("a.low > b.low and a.high < b.high."); TestSmallerThanOperator(UnguessableToken::Deserialize(1, 10), UnguessableToken::Deserialize(10, 1)); } } TEST(UnguessableTokenTest, VerifyHash) { UnguessableToken token = UnguessableToken::Create(); EXPECT_EQ(base::HashInts64(token.GetHighForSerialization(), token.GetLowForSerialization()), UnguessableTokenHash()(token)); } TEST(UnguessableTokenTest, VerifyBasicUniqueness) { EXPECT_NE(UnguessableToken::Create(), UnguessableToken::Create()); UnguessableToken token = UnguessableToken::Create(); EXPECT_NE(token.GetHighForSerialization(), token.GetLowForSerialization()); } }