// 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 "net/base/ip_pattern.h" #include "testing/gtest/include/gtest/gtest.h" namespace net { namespace { bool IsValidPattern(const std::string& pattern_text) { IPPattern pattern; return pattern.ParsePattern(pattern_text); } bool CheckForMatch(const IPPattern& pattern, std::string address_text) { IPAddressNumber address; EXPECT_TRUE(ParseIPLiteralToNumber(address_text, &address)); return pattern.Match(address); } TEST(IPPatternTest, EmptyPattern) { IPPattern pattern; IPAddressNumber ipv4_address1; EXPECT_TRUE(ParseIPLiteralToNumber("1.2.3.4", &ipv4_address1)); IPAddressNumber ipv6_address1; EXPECT_TRUE(ParseIPLiteralToNumber("1:2:3:4:5:6:7:8", &ipv6_address1)); EXPECT_FALSE(pattern.Match(ipv4_address1)); EXPECT_FALSE(pattern.Match(ipv6_address1)); } TEST(IPPatternTest, PerfectMatchPattern) { IPPattern pattern_v4; std::string ipv4_text1("1.2.3.4"); EXPECT_TRUE(pattern_v4.ParsePattern(ipv4_text1)); EXPECT_TRUE(pattern_v4.is_ipv4()); EXPECT_TRUE(CheckForMatch(pattern_v4, ipv4_text1)); IPPattern pattern_v6; std::string ipv6_text1("1:2:3:4:5:6:7:8"); EXPECT_TRUE(pattern_v6.ParsePattern(ipv6_text1)); EXPECT_FALSE(pattern_v6.is_ipv4()); EXPECT_TRUE(CheckForMatch(pattern_v6, ipv6_text1)); // Also check that there is no confusion betwene v6 and v4, despite having // similar values in some sense. EXPECT_FALSE(CheckForMatch(pattern_v4, ipv6_text1)); EXPECT_FALSE(CheckForMatch(pattern_v6, ipv4_text1)); } TEST(IPPatternTest, AlternativeMatchPattern) { IPPattern pattern_v4; EXPECT_TRUE(pattern_v4.ParsePattern("1.2.[3,5].4")); EXPECT_TRUE(pattern_v4.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.2.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.3.4")); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.4.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.5.4")); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.6.4")); IPPattern pattern_v6; EXPECT_TRUE(pattern_v6.ParsePattern("1:2fab:3:4:5:[6,8]:7:8")); EXPECT_FALSE(pattern_v6.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:5:7:8")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:6:7:8")); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:7:7:8")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:8:7:8")); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:9:7:8")); } TEST(IPPatternTest, RangeMatchPattern) { IPPattern pattern_v4; EXPECT_TRUE(pattern_v4.ParsePattern("1.2.[3-5].4")); EXPECT_TRUE(pattern_v4.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.2.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.3.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.4.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.5.4")); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.6.4")); IPPattern pattern_v6; EXPECT_TRUE(pattern_v6.ParsePattern("1:2fab:3:4:5:[6-8]:7:8")); EXPECT_FALSE(pattern_v6.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:5:7:8")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:6:7:8")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:7:7:8")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:8:7:8")); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:9:7:8")); } TEST(IPPatternTest, WildCardMatchPattern) { // Use two ranges, and check that only getting both right is a match. IPPattern pattern_v4; EXPECT_TRUE(pattern_v4.ParsePattern("1.2.*.4")); EXPECT_TRUE(pattern_v4.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.2.255")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.255.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.0.4")); IPPattern pattern_v6; EXPECT_TRUE(pattern_v6.ParsePattern("1:2fab:3:4:5:*:7:8")); EXPECT_FALSE(pattern_v6.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:5:7:8888")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:FFFF:7:8")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:9999:7:8")); } TEST(IPPatternTest, MultiRangeMatchPattern) { // Use two ranges, and check that only getting both right is a match. // This ensures that the right component range is matched against the desired // component. IPPattern pattern_v4; EXPECT_TRUE(pattern_v4.ParsePattern("1.[2-3].3.[4-5]")); EXPECT_TRUE(pattern_v4.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.4.3.6")); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.2.3.6")); EXPECT_FALSE(CheckForMatch(pattern_v4, "1.4.3.4")); EXPECT_TRUE(CheckForMatch(pattern_v4, "1.2.3.4")); IPPattern pattern_v6; EXPECT_TRUE(pattern_v6.ParsePattern("1:2fab:3:4:[5-7]:6:7:[8-A]")); EXPECT_FALSE(pattern_v6.is_ipv4()); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:4:5:7:F")); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:5:7:F")); EXPECT_FALSE(CheckForMatch(pattern_v6, "1:2fab:3:4:4:6:7:A")); EXPECT_TRUE(CheckForMatch(pattern_v6, "1:2fab:3:4:5:6:7:A")); } TEST(IPPatternTest, BytoOrderInIPv6Ranges) { IPPattern pattern_v6_low_byte; EXPECT_TRUE(pattern_v6_low_byte.ParsePattern("1:2:3:4:5:6:7:[0-FF]")); EXPECT_TRUE(CheckForMatch(pattern_v6_low_byte, "1:2:3:4:5:6:7:0088")); EXPECT_FALSE(CheckForMatch(pattern_v6_low_byte, "1:2:3:4:5:6:7:8800")); IPPattern pattern_v6_high_byte; EXPECT_TRUE(pattern_v6_high_byte.ParsePattern("1:2:3:4:5:6:7:[0-FF00]")); EXPECT_TRUE(CheckForMatch(pattern_v6_high_byte, "1:2:3:4:5:6:7:0088")); EXPECT_TRUE(CheckForMatch(pattern_v6_high_byte, "1:2:3:4:5:6:7:FF00")); EXPECT_FALSE(CheckForMatch(pattern_v6_high_byte, "1:2:3:4:5:6:7:FF01")); } TEST(IPPatternTest, InvalidPatterns) { EXPECT_FALSE(IsValidPattern("1:2:3:4:5:6:7:8:9")); // Too long. EXPECT_FALSE(IsValidPattern("1:2:3:4:5:6:7")); // Too Short EXPECT_FALSE(IsValidPattern("1:2:3:4:5:6:7:H")); // Non-hex. EXPECT_FALSE(IsValidPattern("1:G:3:4:5:6:7:8")); // Non-hex. EXPECT_FALSE(IsValidPattern("1.2.3.4.5")); // Too long EXPECT_FALSE(IsValidPattern("1.2.3")); // Too short EXPECT_FALSE(IsValidPattern("1.2.3.A")); // Non-decimal. EXPECT_FALSE(IsValidPattern("1.A.3.4")); // Non-decimal EXPECT_FALSE(IsValidPattern("1.256.3.4")); // Out of range } } // namespace } // namespace net