// Copyright 2010 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/proxy_resolution/proxy_bypass_rules.h" #include "base/strings/string_util.h" #include "build/build_config.h" #include "net/proxy_resolution/proxy_config_service_common_unittest.h" #include "testing/gtest/include/gtest/gtest.h" #if BUILDFLAG(IS_WIN) // On Windows, "loopback" resolves to localhost and is implicitly bypassed to // match WinInet. #define BYPASS_LOOPBACK #endif namespace net { namespace { // Calls |rules.Matches()| for each name in |hosts| (for various URL schemes), // and checks that the result is |bypasses|. If the host is in |inverted_hosts| // then the expectation is reversed. void ExpectRulesMatch(const ProxyBypassRules& rules, const char* hosts[], size_t num_hosts, bool bypasses, const std::set& inverted_hosts) { // The scheme of the URL shouldn't matter. const char* kUrlSchemes[] = {"http://", "https://", "ftp://"}; for (auto* scheme : kUrlSchemes) { for (size_t i = 0; i < num_hosts; ++i) { const char* host = hosts[i]; bool expectation = bypasses; if (inverted_hosts.count(std::string(host)) != 0) expectation = !expectation; std::string url = std::string(scheme) + std::string(host); EXPECT_EQ(expectation, rules.Matches(GURL(url))) << url; } } } // Tests calling |rules.Matches()| for localhost URLs returns |bypasses|. void ExpectBypassLocalhost( const ProxyBypassRules& rules, bool bypasses, const std::set& inverted_hosts = std::set()) { const char* kHosts[] = { "localhost", "localhost.", "foo.localhost", "127.0.0.1", "127.100.0.2", "[::1]", "[::0:FFFF:127.0.0.1]", "[::fFfF:127.100.0.0]", "[0::ffff:7f00:1]", #if defined(BYPASS_LOOPBACK) "loopback", "loopback.", #endif }; ExpectRulesMatch(rules, kHosts, std::size(kHosts), bypasses, inverted_hosts); } // Tests calling |rules.Matches()| for link-local URLs returns |bypasses|. void ExpectBypassLinkLocal(const ProxyBypassRules& rules, bool bypasses) { const char* kHosts[] = { "169.254.3.2", "169.254.100.1", "[FE80::8]", "[fe91::1]", "[::ffff:169.254.3.2]", }; ExpectRulesMatch(rules, kHosts, std::size(kHosts), bypasses, {}); } // Tests calling |rules.Matches()| with miscelaneous URLs that are neither // localhost or link local IPs, returns |bypasses|. void ExpectBypassMisc( const ProxyBypassRules& rules, bool bypasses, const std::set& inverted_hosts = std::set()) { const char* kHosts[] = { "192.168.0.1", "170.254.0.0", "128.0.0.1", "[::2]", "[FD80::1]", "foo", "www.example3.com", "[::ffff:128.0.0.1]", "[::ffff:126.100.0.0]", "[::ffff::ffff:127.0.0.1]", "[::ffff:0:127.0.0.1]", "[::127.0.0.1]", #if !defined(BYPASS_LOOPBACK) "loopback", "loopback.", #endif }; ExpectRulesMatch(rules, kHosts, std::size(kHosts), bypasses, inverted_hosts); } TEST(ProxyBypassRulesTest, ParseAndMatchBasicHost) { ProxyBypassRules rules; rules.ParseFromString("wWw.gOogle.com"); ASSERT_EQ(1u, rules.rules().size()); // Hostname rules are normalized to lower-case. EXPECT_EQ("www.google.com", rules.rules()[0]->ToString()); // All of these match; port, scheme, and non-hostname components don't // matter. EXPECT_TRUE(rules.Matches(GURL("http://www.google.com"))); EXPECT_TRUE(rules.Matches(GURL("ftp://www.google.com:99"))); EXPECT_TRUE(rules.Matches(GURL("https://www.google.com:81"))); // Must be a strict host match to work. EXPECT_FALSE(rules.Matches(GURL("http://foo.www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://xxx.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com.baz.org"))); } TEST(ProxyBypassRulesTest, ParseAndMatchBasicDomain) { ProxyBypassRules rules; rules.ParseFromString(".gOOgle.com"); ASSERT_EQ(1u, rules.rules().size()); // Hostname rules are normalized to lower-case. // Note that we inferred this was an "ends with" test. EXPECT_EQ("*.google.com", rules.rules()[0]->ToString()); // All of these match; port, scheme, and non-hostname components don't // matter. EXPECT_TRUE(rules.Matches(GURL("http://www.google.com"))); EXPECT_TRUE(rules.Matches(GURL("ftp://www.google.com:99"))); EXPECT_TRUE(rules.Matches(GURL("https://a.google.com:81"))); EXPECT_TRUE(rules.Matches(GURL("http://foo.google.com/x/y?q"))); EXPECT_TRUE(rules.Matches(GURL("http://foo:bar@baz.google.com#x"))); // Must be a strict "ends with" to work. EXPECT_FALSE(rules.Matches(GURL("http://google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://foo.google.com.baz.org"))); } TEST(ProxyBypassRulesTest, ParseAndMatchBasicDomainWithPort) { ProxyBypassRules rules; rules.ParseFromString("*.GOOGLE.com:80"); ASSERT_EQ(1u, rules.rules().size()); // Hostname rules are normalized to lower-case. EXPECT_EQ("*.google.com:80", rules.rules()[0]->ToString()); // All of these match; scheme, and non-hostname components don't matter. EXPECT_TRUE(rules.Matches(GURL("http://www.google.com"))); EXPECT_TRUE(rules.Matches(GURL("ftp://www.google.com:80"))); EXPECT_TRUE(rules.Matches(GURL("https://a.google.com:80?x"))); // Must be a strict "ends with" to work. EXPECT_FALSE(rules.Matches(GURL("http://google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://foo.google.com.baz.org"))); // The ports must match. EXPECT_FALSE(rules.Matches(GURL("http://www.google.com:90"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.com"))); } TEST(ProxyBypassRulesTest, MatchAll) { ProxyBypassRules rules; rules.ParseFromString("*"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("*", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://www.google.com"))); EXPECT_TRUE(rules.Matches(GURL("ftp://www.foobar.com:99"))); EXPECT_TRUE(rules.Matches(GURL("https://a.google.com:80?x"))); } TEST(ProxyBypassRulesTest, WildcardAtStart) { ProxyBypassRules rules; rules.ParseFromString("*.org:443"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("*.org:443", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://www.google.org:443"))); EXPECT_TRUE(rules.Matches(GURL("https://www.google.org"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.org"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.org.com"))); } // Tests a codepath that parses hostnamepattern:port, where "port" is invalid // by containing a leading plus. TEST(ProxyBypassRulesTest, ParseInvalidPort) { ProxyBypassRules rules; EXPECT_TRUE(rules.AddRuleFromString("*.org:443")); EXPECT_FALSE(rules.AddRuleFromString("*.com:+443")); EXPECT_FALSE(rules.AddRuleFromString("*.com:-443")); } TEST(ProxyBypassRulesTest, IPV4Address) { ProxyBypassRules rules; rules.ParseFromString("192.168.1.1"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("192.168.1.1", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://192.168.1.1"))); EXPECT_TRUE(rules.Matches(GURL("https://192.168.1.1:90"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://sup.192.168.1.1"))); } TEST(ProxyBypassRulesTest, IPV4AddressWithPort) { ProxyBypassRules rules; rules.ParseFromString("192.168.1.1:33"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("192.168.1.1:33", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://192.168.1.1:33"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://192.168.1.1"))); EXPECT_FALSE(rules.Matches(GURL("http://sup.192.168.1.1:33"))); } TEST(ProxyBypassRulesTest, IPV6Address) { ProxyBypassRules rules; rules.ParseFromString("[3ffe:2a00:100:7031:0:0::1]"); ASSERT_EQ(1u, rules.rules().size()); // Note that we canonicalized the IP address. EXPECT_EQ("[3ffe:2a00:100:7031::1]", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://[3ffe:2a00:100:7031::1]"))); EXPECT_TRUE(rules.Matches(GURL("http://[3ffe:2a00:100:7031::1]:33"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://sup.192.168.1.1:33"))); } TEST(ProxyBypassRulesTest, IPV6AddressWithPort) { ProxyBypassRules rules; rules.ParseFromString("[3ffe:2a00:100:7031::1]:33"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("[3ffe:2a00:100:7031::1]:33", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://[3ffe:2a00:100:7031::1]:33"))); EXPECT_FALSE(rules.Matches(GURL("http://[3ffe:2a00:100:7031::1]"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com"))); } TEST(ProxyBypassRulesTest, HTTPOnly) { ProxyBypassRules rules; rules.ParseFromString("http://www.google.com"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("http://www.google.com", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://www.google.com/foo"))); EXPECT_TRUE(rules.Matches(GURL("http://www.google.com:99"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("ftp://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://foo.www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com.org"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.com"))); } TEST(ProxyBypassRulesTest, HTTPOnlyWithWildcard) { ProxyBypassRules rules; rules.ParseFromString("http://*www.google.com"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("http://*www.google.com", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://www.google.com/foo"))); EXPECT_TRUE(rules.Matches(GURL("http://www.google.com:99"))); EXPECT_TRUE(rules.Matches(GURL("http://foo.www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("ftp://www.google.com"))); EXPECT_FALSE(rules.Matches(GURL("http://www.google.com.org"))); EXPECT_FALSE(rules.Matches(GURL("https://www.google.com"))); } TEST(ProxyBypassRulesTest, DoesNotUseSuffixMatching) { ProxyBypassRules rules; rules.ParseFromString( "foo1.com, .foo2.com, 192.168.1.1, " "*foobar.com:80, *.foo, http://baz, "); ASSERT_EQ(7u, rules.rules().size()); EXPECT_EQ("foo1.com", rules.rules()[0]->ToString()); EXPECT_EQ("*.foo2.com", rules.rules()[1]->ToString()); EXPECT_EQ("192.168.1.1", rules.rules()[2]->ToString()); EXPECT_EQ("*foobar.com:80", rules.rules()[3]->ToString()); EXPECT_EQ("*.foo", rules.rules()[4]->ToString()); EXPECT_EQ("http://baz", rules.rules()[5]->ToString()); EXPECT_EQ("", rules.rules()[6]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://foo1.com"))); EXPECT_FALSE(rules.Matches(GURL("http://aaafoo1.com"))); EXPECT_FALSE(rules.Matches(GURL("http://aaafoo1.com.net"))); } TEST(ProxyBypassRulesTest, MultipleRules) { ProxyBypassRules rules; rules.ParseFromString(".google.com , .foobar.com:30"); ASSERT_EQ(2u, rules.rules().size()); EXPECT_TRUE(rules.Matches(GURL("http://baz.google.com:40"))); EXPECT_FALSE(rules.Matches(GURL("http://google.com:40"))); EXPECT_TRUE(rules.Matches(GURL("http://bar.foobar.com:30"))); EXPECT_FALSE(rules.Matches(GURL("http://bar.foobar.com"))); EXPECT_FALSE(rules.Matches(GURL("http://bar.foobar.com:33"))); } TEST(ProxyBypassRulesTest, BadInputs) { ProxyBypassRules rules; EXPECT_FALSE(rules.AddRuleFromString("://")); EXPECT_FALSE(rules.AddRuleFromString(" ")); EXPECT_FALSE(rules.AddRuleFromString("http://")); EXPECT_FALSE(rules.AddRuleFromString("*.foo.com:-34")); EXPECT_EQ(0u, rules.rules().size()); } TEST(ProxyBypassRulesTest, Equals) { ProxyBypassRules rules1; ProxyBypassRules rules2; rules1.ParseFromString("foo1.com, .foo2.com"); rules2.ParseFromString("foo1.com,.FOo2.com"); EXPECT_EQ(rules1, rules2); EXPECT_EQ(rules2, rules1); rules1.ParseFromString(".foo2.com"); rules2.ParseFromString("foo1.com,.FOo2.com"); EXPECT_FALSE(rules1 == rules2); EXPECT_FALSE(rules2 == rules1); } TEST(ProxyBypassRulesTest, BypassSimpleHostnames) { // Test the simple hostnames rule in isolation, by first removing the // implicit rules. ProxyBypassRules rules; rules.ParseFromString("<-loopback>; "); ASSERT_EQ(2u, rules.rules().size()); EXPECT_EQ("<-loopback>", rules.rules()[0]->ToString()); EXPECT_EQ("", rules.rules()[1]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://example/"))); EXPECT_FALSE(rules.Matches(GURL("http://example./"))); EXPECT_FALSE(rules.Matches(GURL("http://example.com/"))); EXPECT_FALSE(rules.Matches(GURL("http://[dead::beef]/"))); EXPECT_FALSE(rules.Matches(GURL("http://192.168.1.1/"))); // Confusingly, rule is NOT about localhost names. ExpectBypassLocalhost(rules, false, {"localhost", "loopback"}); // Should NOT bypass link-local addresses. ExpectBypassLinkLocal(rules, false); // Should not bypass other names either (except for the ones with no dot). ExpectBypassMisc(rules, false, {"foo", "loopback"}); } TEST(ProxyBypassRulesTest, ParseAndMatchCIDR_IPv4) { ProxyBypassRules rules; rules.ParseFromString("192.168.1.1/16"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("192.168.1.1/16", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://192.168.1.1"))); EXPECT_TRUE(rules.Matches(GURL("ftp://192.168.4.4"))); EXPECT_TRUE(rules.Matches(GURL("https://192.168.0.0:81"))); // Test that an IPv4 mapped IPv6 literal matches an IPv4 CIDR rule. EXPECT_TRUE(rules.Matches(GURL("http://[::ffff:192.168.11.11]"))); EXPECT_FALSE(rules.Matches(GURL("http://foobar.com"))); EXPECT_FALSE(rules.Matches(GURL("http://192.169.1.1"))); EXPECT_FALSE(rules.Matches(GURL("http://xxx.192.168.1.1"))); EXPECT_FALSE(rules.Matches(GURL("http://192.168.1.1.xx"))); } TEST(ProxyBypassRulesTest, ParseAndMatchCIDR_IPv6) { ProxyBypassRules rules; rules.ParseFromString("a:b:c:d::/48"); ASSERT_EQ(1u, rules.rules().size()); EXPECT_EQ("a:b:c:d::/48", rules.rules()[0]->ToString()); EXPECT_TRUE(rules.Matches(GURL("http://[A:b:C:9::]"))); EXPECT_FALSE(rules.Matches(GURL("http://foobar.com"))); EXPECT_FALSE(rules.Matches(GURL("http://192.169.1.1"))); // Test that an IPv4 literal matches an IPv4 mapped IPv6 CIDR rule. // This is the IPv4 mapped equivalent to 192.168.1.1/16. rules.ParseFromString("::ffff:192.168.1.1/112"); EXPECT_TRUE(rules.Matches(GURL("http://[::ffff:192.168.1.3]"))); EXPECT_TRUE(rules.Matches(GURL("http://192.168.11.11"))); EXPECT_FALSE(rules.Matches(GURL("http://10.10.1.1"))); // Test using an IP range that is close to IPv4 mapped, but not // quite. Should not result in matches. rules.ParseFromString("::fffe:192.168.1.1/112"); EXPECT_TRUE(rules.Matches(GURL("http://[::fffe:192.168.1.3]"))); EXPECT_FALSE(rules.Matches(GURL("http://[::ffff:192.168.1.3]"))); EXPECT_FALSE(rules.Matches(GURL("http://192.168.11.11"))); EXPECT_FALSE(rules.Matches(GURL("http://10.10.1.1"))); } // Test that parsing an IPv6 range given a bracketed literal is not supported. // Whether IPv6 literals need to be bracketed or not is pretty much a coin toss // depending on the context, and here it is expected to be unbracketed to match // macOS. It would be fine to support bracketed too, however none of the // grammars we parse need that. TEST(ProxyBypassRulesTest, ParseBracketedIPv6Range) { ProxyBypassRules rules; rules.ParseFromString("[a:b:c:d::]/48"); ASSERT_EQ(0u, rules.rules().size()); } // Check which URLs an empty ProxyBypassRules matches. TEST(ProxyBypassRulesTest, DefaultImplicitRules) { ProxyBypassRules rules; EXPECT_EQ("", rules.ToString()); // Should bypass all localhost and loopback names. ExpectBypassLocalhost(rules, true); // Should bypass all link-local addresses. ExpectBypassLinkLocal(rules, true); // Should not bypass other names. ExpectBypassMisc(rules, false); } // Test use of the <-loopback> bypass rule. TEST(ProxyBypassRulesTest, NegativeWinLoopback) { ProxyBypassRules rules; rules.ParseFromString("www.example.com;<-loopback>"); ASSERT_EQ(2u, rules.rules().size()); EXPECT_EQ("www.example.com", rules.rules()[0]->ToString()); EXPECT_EQ("<-loopback>", rules.rules()[1]->ToString()); // Should NOT bypass localhost and loopback names. ExpectBypassLocalhost(rules, false); // Should NOT bypass link-local addresses. ExpectBypassLinkLocal(rules, false); // Should not bypass other names either. ExpectBypassMisc(rules, false); // Only www.example.com should be bypassed. EXPECT_TRUE(rules.Matches(GURL("http://www.example.com/"))); } // Verifies the evaluation order of mixing negative and positive rules. This // expectation comes from WinInet (which is where <-loopback> comes from). TEST(ProxyBypassRulesTest, RemoveImplicitAndAddLocalhost) { ProxyBypassRules rules; rules.ParseFromString("<-loopback>; localhost"); ASSERT_EQ(2u, rules.rules().size()); EXPECT_EQ("<-loopback>", rules.rules()[0]->ToString()); EXPECT_EQ("localhost", rules.rules()[1]->ToString()); // Should not bypass localhost names because of <-loopback>. Except for // "localhost" which was added at the end. ExpectBypassLocalhost(rules, false, {"localhost"}); // Should NOT bypass link-local addresses. ExpectBypassLinkLocal(rules, false); // Should not bypass other names either. ExpectBypassMisc(rules, false); } // Verifies the evaluation order of mixing negative and positive rules. This // expectation comes from WinInet (which is where <-loopback> comes from). TEST(ProxyBypassRulesTest, AddLocalhostThenRemoveImplicit) { ProxyBypassRules rules; rules.ParseFromString("localhost; <-loopback>"); ASSERT_EQ(2u, rules.rules().size()); EXPECT_EQ("localhost", rules.rules()[0]->ToString()); EXPECT_EQ("<-loopback>", rules.rules()[1]->ToString()); // Because of the ordering, localhost is not bypassed, because <-loopback> // "unbypasses" it. ExpectBypassLocalhost(rules, false); // Should NOT bypass link-local addresses. ExpectBypassLinkLocal(rules, false); // Should not bypass other names either. ExpectBypassMisc(rules, false); } TEST(ProxyBypassRulesTest, AddRulesToSubtractImplicit) { ProxyBypassRules rules; rules.ParseFromString("foo"); rules.AddRulesToSubtractImplicit(); ASSERT_EQ(2u, rules.rules().size()); EXPECT_EQ("foo", rules.rules()[0]->ToString()); EXPECT_EQ("<-loopback>", rules.rules()[1]->ToString()); } TEST(ProxyBypassRulesTest, GetRulesToSubtractImplicit) { EXPECT_EQ("<-loopback>;", ProxyBypassRules::GetRulesToSubtractImplicit()); } // Verifies that the and <-loopback> rules can be specified in any // case. This matches how WinInet's parses them. TEST(ProxyBypassRulesTest, LoopbackAndLocalCaseInsensitive) { ProxyBypassRules rules; rules.ParseFromString("; <-LoopBacK>; ; <-LoOpBack>"); ASSERT_EQ(4u, rules.rules().size()); EXPECT_EQ("", rules.rules()[0]->ToString()); EXPECT_EQ("<-loopback>", rules.rules()[1]->ToString()); EXPECT_EQ("", rules.rules()[2]->ToString()); EXPECT_EQ("<-loopback>", rules.rules()[3]->ToString()); } } // namespace } // namespace net