// Copyright (c) 2012 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 #include #include "base/strings/string_split.h" #include "net/cookies/cookie_util.h" #include "testing/gtest/include/gtest/gtest.h" namespace net { namespace { struct RequestCookieParsingTest { std::string str; base::StringPairs parsed; }; cookie_util::ParsedRequestCookies MakeParsedRequestCookies( const base::StringPairs& data) { cookie_util::ParsedRequestCookies parsed; for (size_t i = 0; i < data.size(); i++) { parsed.push_back(std::make_pair(base::StringPiece(data[i].first), base::StringPiece(data[i].second))); } return parsed; } void CheckParse(const std::string& str, const base::StringPairs& parsed_expected) { cookie_util::ParsedRequestCookies parsed; cookie_util::ParseRequestCookieLine(str, &parsed); EXPECT_EQ(MakeParsedRequestCookies(parsed_expected), parsed); } void CheckSerialize(const base::StringPairs& parsed, const std::string& str_expected) { cookie_util::ParsedRequestCookies prc = MakeParsedRequestCookies(parsed); EXPECT_EQ(str_expected, cookie_util::SerializeRequestCookieLine(prc)); } TEST(CookieUtilTest, TestDomainIsHostOnly) { const struct { const char* str; const bool is_host_only; } tests[] = { { "", true }, { "www.google.com", true }, { ".google.com", false } }; for (size_t i = 0; i < arraysize(tests); ++i) { EXPECT_EQ(tests[i].is_host_only, cookie_util::DomainIsHostOnly(tests[i].str)); } } TEST(CookieUtilTest, TestCookieDateParsing) { const struct { const char* str; const bool valid; const time_t epoch; } tests[] = { {"Sat, 15-Apr-17 21:01:22 GMT", true, 1492290082}, {"Thu, 19-Apr-2007 16:00:00 GMT", true, 1176998400}, {"Wed, 25 Apr 2007 21:02:13 GMT", true, 1177534933}, {"Thu, 19/Apr\\2007 16:00:00 GMT", true, 1176998400}, {"Fri, 1 Jan 2010 01:01:50 GMT", true, 1262307710}, {"Wednesday, 1-Jan-2003 00:00:00 GMT", true, 1041379200}, {", 1-Jan-2003 00:00:00 GMT", true, 1041379200}, {" 1-Jan-2003 00:00:00 GMT", true, 1041379200}, {"1-Jan-2003 00:00:00 GMT", true, 1041379200}, {"Wed,18-Apr-07 22:50:12 GMT", true, 1176936612}, {"WillyWonka , 18-Apr-07 22:50:12 GMT", true, 1176936612}, {"WillyWonka , 18-Apr-07 22:50:12", true, 1176936612}, {"WillyWonka , 18-apr-07 22:50:12", true, 1176936612}, {"Mon, 18-Apr-1977 22:50:13 GMT", true, 230251813}, {"Mon, 18-Apr-77 22:50:13 GMT", true, 230251813}, // If the cookie came in with the expiration quoted (which in terms of // the RFC you shouldn't do), we will get string quoted. Bug 1261605. {"\"Sat, 15-Apr-17\\\"21:01:22\\\"GMT\"", true, 1492290082}, // Test with full month names and partial names. {"Partyday, 18- April-07 22:50:12", true, 1176936612}, {"Partyday, 18 - Apri-07 22:50:12", true, 1176936612}, {"Wednes, 1-Januar-2003 00:00:00 GMT", true, 1041379200}, // Test that we always take GMT even with other time zones or bogus // values. The RFC says everything should be GMT, and in the worst case // we are 24 hours off because of zone issues. {"Sat, 15-Apr-17 21:01:22", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 GMT-2", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 GMT BLAH", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 GMT-0400", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 GMT-0400 (EDT)", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 DST", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 -0400", true, 1492290082}, {"Sat, 15-Apr-17 21:01:22 (hello there)", true, 1492290082}, // Test that if we encounter multiple : fields, that we take the first // that correctly parses. {"Sat, 15-Apr-17 21:01:22 11:22:33", true, 1492290082}, {"Sat, 15-Apr-17 ::00 21:01:22", true, 1492290082}, {"Sat, 15-Apr-17 boink:z 21:01:22", true, 1492290082}, // We take the first, which in this case is invalid. {"Sat, 15-Apr-17 91:22:33 21:01:22", false, 0}, // amazon.com formats their cookie expiration like this. {"Thu Apr 18 22:50:12 2007 GMT", true, 1176936612}, // Test that hh:mm:ss can occur anywhere. {"22:50:12 Thu Apr 18 2007 GMT", true, 1176936612}, {"Thu 22:50:12 Apr 18 2007 GMT", true, 1176936612}, {"Thu Apr 22:50:12 18 2007 GMT", true, 1176936612}, {"Thu Apr 18 22:50:12 2007 GMT", true, 1176936612}, {"Thu Apr 18 2007 22:50:12 GMT", true, 1176936612}, {"Thu Apr 18 2007 GMT 22:50:12", true, 1176936612}, // Test that the day and year can be anywhere if they are unambigious. {"Sat, 15-Apr-17 21:01:22 GMT", true, 1492290082}, {"15-Sat, Apr-17 21:01:22 GMT", true, 1492290082}, {"15-Sat, Apr 21:01:22 GMT 17", true, 1492290082}, {"15-Sat, Apr 21:01:22 GMT 2017", true, 1492290082}, {"15 Apr 21:01:22 2017", true, 1492290082}, {"15 17 Apr 21:01:22", true, 1492290082}, {"Apr 15 17 21:01:22", true, 1492290082}, {"Apr 15 21:01:22 17", true, 1492290082}, {"2017 April 15 21:01:22", true, 1492290082}, {"15 April 2017 21:01:22", true, 1492290082}, // Some invalid dates {"98 April 17 21:01:22", false, 0}, {"Thu, 012-Aug-2008 20:49:07 GMT", false, 0}, {"Thu, 12-Aug-9999999999 20:49:07 GMT", false, 0}, {"Thu, 999999999999-Aug-2007 20:49:07 GMT", false, 0}, {"Thu, 12-Aug-2007 20:61:99999999999 GMT", false, 0}, {"IAintNoDateFool", false, 0}, {"1600 April 33 21:01:22", false, 0}, {"1970 April 33 21:01:22", false, 0}, {"Thu, 33-Aug-31841 20:49:07 GMT", false, 0}, }; base::Time parsed_time; for (size_t i = 0; i < arraysize(tests); ++i) { parsed_time = cookie_util::ParseCookieExpirationTime(tests[i].str); if (!tests[i].valid) { EXPECT_TRUE(parsed_time.is_null()) << tests[i].str; continue; } EXPECT_TRUE(!parsed_time.is_null()) << tests[i].str; EXPECT_EQ(tests[i].epoch, parsed_time.ToTimeT()) << tests[i].str; } } // Tests parsing dates that are beyond 2038. 32-bit (non-Mac) POSIX systems are // incapable of doing this, however the expectation is for cookie parsing to // succeed anyway (and return the minimum value Time::FromUTCExploded() can // parse on the current platform). Also checks a date outside the limit on // Windows, which is year 30827. TEST(CookieUtilTest, ParseCookieExpirationTimeBeyond2038) { const char* kTests[] = { "Thu, 12-Aug-31841 20:49:07 GMT", "2039 April 15 21:01:22", "2039 April 15 21:01:22", "2038 April 15 21:01:22", }; for (const auto& test : kTests) { base::Time parsed_time = cookie_util::ParseCookieExpirationTime(test); EXPECT_FALSE(parsed_time.is_null()); // It should either have an exact value, or be base::Time::Max(). For // simplicity just check that it is greater than an arbitray date. base::Time almost_jan_2038 = base::Time::UnixEpoch() + base::TimeDelta::FromDays(365 * 68); EXPECT_LT(almost_jan_2038, parsed_time); } } // Tests parsing dates that are prior to (or around) 1970. Non-Mac POSIX systems // are incapable of doing this, however the expectation is for cookie parsing to // succeed anyway (and return a minimal base::Time). TEST(CookieUtilTest, ParseCookieExpirationTimeBefore1970) { const char* kTests[] = { // The unix epoch. "1970 Jan 1 00:00:00", // The windows epoch. "1601 Jan 1 00:00:00", // Other dates. "1969 March 3 21:01:22", "1600 April 15 21:01:22", }; for (const auto& test : kTests) { base::Time parsed_time = cookie_util::ParseCookieExpirationTime(test); EXPECT_FALSE(parsed_time.is_null()); // It should either have an exact value, or should be base::Time(1) // For simplicity just check that it is less than the unix epoch. EXPECT_LE(parsed_time, base::Time::UnixEpoch()); } } TEST(CookieUtilTest, TestRequestCookieParsing) { std::vector tests; // Simple case. tests.push_back(RequestCookieParsingTest()); tests.back().str = "key=value"; tests.back().parsed.push_back(std::make_pair(std::string("key"), std::string("value"))); // Multiple key/value pairs. tests.push_back(RequestCookieParsingTest()); tests.back().str = "key1=value1; key2=value2"; tests.back().parsed.push_back(std::make_pair(std::string("key1"), std::string("value1"))); tests.back().parsed.push_back(std::make_pair(std::string("key2"), std::string("value2"))); // Empty value. tests.push_back(RequestCookieParsingTest()); tests.back().str = "key=; otherkey=1234"; tests.back().parsed.push_back(std::make_pair(std::string("key"), std::string())); tests.back().parsed.push_back(std::make_pair(std::string("otherkey"), std::string("1234"))); // Special characters (including equals signs) in value. tests.push_back(RequestCookieParsingTest()); tests.back().str = "key=; a2=s=(./&t=:&u=a#$; a3=+~"; tests.back().parsed.push_back(std::make_pair(std::string("key"), std::string())); tests.back().parsed.push_back(std::make_pair(std::string("a2"), std::string("s=(./&t=:&u=a#$"))); tests.back().parsed.push_back(std::make_pair(std::string("a3"), std::string("+~"))); // Quoted value. tests.push_back(RequestCookieParsingTest()); tests.back().str = "key=\"abcdef\"; otherkey=1234"; tests.back().parsed.push_back(std::make_pair(std::string("key"), std::string("\"abcdef\""))); tests.back().parsed.push_back(std::make_pair(std::string("otherkey"), std::string("1234"))); for (size_t i = 0; i < tests.size(); i++) { SCOPED_TRACE(testing::Message() << "Test " << i); CheckParse(tests[i].str, tests[i].parsed); CheckSerialize(tests[i].parsed, tests[i].str); } } TEST(CookieUtilTest, TestGetEffectiveDomain) { // Note: registry_controlled_domains::GetDomainAndRegistry is tested in its // own unittests. EXPECT_EQ("example.com", cookie_util::GetEffectiveDomain("http", "www.example.com")); EXPECT_EQ("example.com", cookie_util::GetEffectiveDomain("https", "www.example.com")); EXPECT_EQ("example.com", cookie_util::GetEffectiveDomain("ws", "www.example.com")); EXPECT_EQ("example.com", cookie_util::GetEffectiveDomain("wss", "www.example.com")); EXPECT_EQ("www.example.com", cookie_util::GetEffectiveDomain("ftp", "www.example.com")); } } // namespace } // namespace net