// Copyright 2012 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/base/host_port_pair.h" #include #include "base/values.h" #include "net/test/gtest_util.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "url/gurl.h" #include "url/scheme_host_port.h" using std::string; using testing::Optional; namespace net { namespace { struct TestData { string host; uint16_t port; string to_string; string host_for_url; } tests[] = { { "www.google.com", 80, "www.google.com:80", "www.google.com" }, { "www.google.com", 443, "www.google.com:443", "www.google.com" }, { "127.0.0.1", 80, "127.0.0.1:80", "127.0.0.1" }, { "192.168.1.1", 80, "192.168.1.1:80", "192.168.1.1" }, { "::1", 80, "[::1]:80", "[::1]" }, { "2001:db8::42", 80, "[2001:db8::42]:80", "[2001:db8::42]" }, }; TEST(HostPortPairTest, Parsing) { HostPortPair foo("foo.com", 10); string foo_str = foo.ToString(); EXPECT_EQ("foo.com:10", foo_str); HostPortPair bar = HostPortPair::FromString(foo_str); EXPECT_TRUE(foo.Equals(bar)); } TEST(HostPortPairTest, ParsingIpv6) { HostPortPair foo("2001:db8::42", 100); string foo_str = foo.ToString(); EXPECT_EQ("[2001:db8::42]:100", foo_str); HostPortPair bar = HostPortPair::FromString(foo_str); EXPECT_TRUE(foo.Equals(bar)); } TEST(HostPortPairTest, BadString) { const char* kBadStrings[] = {"foo.com", "foo.com:", "foo.com:2:3", "bar.com:two", "www.google.com:-1", "www.google.com:+1", "127.0.0.1:65536", "[2001:db8::42]:65536", "[2001:db8::42", "2001:db8::42", "2001:db8::42:100", "[2001:db8::42]"}; for (const auto* const test : kBadStrings) { SCOPED_TRACE(test); HostPortPair foo = HostPortPair::FromString(test); EXPECT_TRUE(foo.host().empty()); EXPECT_EQ(0, foo.port()); } } TEST(HostPortPairTest, Emptiness) { HostPortPair foo; EXPECT_TRUE(foo.IsEmpty()); foo = HostPortPair::FromString("foo.com:8080"); EXPECT_FALSE(foo.IsEmpty()); } TEST(HostPortPairTest, ToString) { for (const auto& test : tests) { HostPortPair foo(test.host, test.port); EXPECT_EQ(test.to_string, foo.ToString()); } // Test empty hostname. HostPortPair foo(string(), 10); } TEST(HostPortPairTest, HostForURL) { for (const auto& test : tests) { HostPortPair foo(test.host, test.port); EXPECT_EQ(test.host_for_url, foo.HostForURL()); } // Test hostname with null character. string bar_hostname("a\0.\0com", 7); HostPortPair bar(bar_hostname, 80); string expected_error("Host has a null char: a%00.%00com"); EXPECT_DFATAL(bar.HostForURL(), expected_error); } TEST(HostPortPairTest, LessThan) { HostPortPair a_10("a.com", 10); HostPortPair a_11("a.com", 11); HostPortPair b_10("b.com", 10); HostPortPair b_11("b.com", 11); EXPECT_FALSE(a_10 < a_10); EXPECT_TRUE(a_10 < a_11); EXPECT_TRUE(a_10 < b_10); EXPECT_TRUE(a_10 < b_11); EXPECT_FALSE(a_11 < a_10); EXPECT_FALSE(a_11 < b_10); EXPECT_FALSE(b_10 < a_10); EXPECT_TRUE(b_10 < a_11); EXPECT_FALSE(b_11 < a_10); } TEST(HostPortPairTest, Equals) { HostPortPair a_10("a.com", 10); HostPortPair a_11("a.com", 11); HostPortPair b_10("b.com", 10); HostPortPair b_11("b.com", 11); HostPortPair new_a_10("a.com", 10); EXPECT_TRUE(new_a_10.Equals(a_10)); EXPECT_FALSE(new_a_10.Equals(a_11)); EXPECT_FALSE(new_a_10.Equals(b_10)); EXPECT_FALSE(new_a_10.Equals(b_11)); } TEST(HostPortPairTest, ParsesFromUrl) { HostPortPair parsed = HostPortPair::FromURL(GURL("https://foo.test:1250")); HostPortPair expected("foo.test", 1250); EXPECT_EQ(parsed, expected); } TEST(HostPortPairTest, ParsesFromUrlWithIpv6Brackets) { HostPortPair parsed = HostPortPair::FromURL(GURL("https://[::1]")); HostPortPair expected("::1", 443); EXPECT_EQ(parsed, expected); } TEST(HostPortPairTest, ParsesFromSchemeHostPort) { HostPortPair parsed = HostPortPair::FromSchemeHostPort( url::SchemeHostPort("ws", "bar.test", 111)); HostPortPair expected("bar.test", 111); EXPECT_EQ(parsed, expected); } TEST(HostPortPairTest, ParsesFromSchemeHostPortWithIpv6Brackets) { HostPortPair parsed = HostPortPair::FromSchemeHostPort( url::SchemeHostPort("wss", "[::1022]", 112)); HostPortPair expected("::1022", 112); EXPECT_EQ(parsed, expected); } TEST(HostPortPairTest, RoundtripThroughValue) { HostPortPair pair("foo.test", 1456); base::Value value = pair.ToValue(); EXPECT_THAT(HostPortPair::FromValue(value), Optional(pair)); } TEST(HostPortPairTest, DeserializeGarbageValue) { base::Value value(43); EXPECT_FALSE(HostPortPair::FromValue(value).has_value()); } TEST(HostPortPairTest, DeserializeMalformedValues) { base::Value valid_value = HostPortPair("foo.test", 123).ToValue(); ASSERT_TRUE(HostPortPair::FromValue(valid_value).has_value()); base::Value missing_host = valid_value.Clone(); ASSERT_TRUE(missing_host.GetDict().Remove("host")); EXPECT_FALSE(HostPortPair::FromValue(missing_host).has_value()); base::Value missing_port = valid_value.Clone(); ASSERT_TRUE(missing_port.GetDict().Remove("port")); EXPECT_FALSE(HostPortPair::FromValue(missing_port).has_value()); base::Value negative_port = valid_value.Clone(); *negative_port.GetDict().Find("port") = base::Value(-1); EXPECT_FALSE(HostPortPair::FromValue(negative_port).has_value()); base::Value large_port = valid_value.Clone(); *large_port.GetDict().Find("port") = base::Value(66000); EXPECT_FALSE(HostPortPair::FromValue(large_port).has_value()); } } // namespace } // namespace net