/////////////////////////////////////////////////////////////////////////////// // // Microsoft Research Singularity / Netstack // // Copyright (c) Microsoft Corporation. All rights reserved. // // File: TestIPv6Network.cs // using System; #if !SINGULARITY using System.Net; #endif // !SINGULARITY namespace System.Net.IP { internal class TestFailedException : Exception { internal TestFailedException(string msg) : base(String.Format("TestFailedException \"{0}\"", msg)) { } } public class TestIPv6Network { private static void TestBasics() { IPv6 address = IPv6.Parse("ab1e:d00d::1057:d05"); IPv6 mask = IPv6.Parse("ffff:fffe::"); int masklen = 31; if (new IPv6Network(address, masklen) != new IPv6Network(address, mask)) { throw new TestFailedException("Constructors"); } if (IPv6Network.Parse("10::/24") != new IPv6Network(new IPv6(0x00100000, 0x0, 0x0, 0x0), 24)) { Console.WriteLine(IPv6Network.Parse("10::/24")); Console.WriteLine(new IPv6Network(new IPv6(0x00100000, 0x0, 0x0, 0x0), 24)); throw new TestFailedException("10::/24"); } if (IPv6Network.Parse("10::/32") != new IPv6Network(new IPv6(0x00100000, 0x0, 0x0, 0x0), 32)) { throw new TestFailedException("10::/32"); } if (IPv6Network.Parse("10::/1") != new IPv6Network(new IPv6(0x00100000,0x0, 0x0, 0x0), 1)) { throw new TestFailedException("10::/1"); } try { IPv6Network.Parse("10:://12"); throw new TestFailedException("double slash"); } catch (FormatException) { } try { IPv6Network.Parse("10::/129"); throw new TestFailedException("netmask length"); } catch (ArgumentException) { } try { IPv6Network.Parse("10::/xx"); throw new TestFailedException("netmask content"); } catch (FormatException) { } try { IPv6Network.Parse("10::x/10"); throw new TestFailedException("network content"); } catch (FormatException) { } try { IPv6Network.Parse("10::/3333333333333333333333333333"); throw new TestFailedException("netmask overflow"); } catch (OverflowException) { } } public static void TestCompare() { IPv6 address = IPv6.Parse("dead:beef:cafe:babe:5ca1:ab1e:b01d:face"); IPv6Network outer = new IPv6Network(address, 124); IPv6Network inner = new IPv6Network(address, 126); if (outer.Contains(outer) == false) { throw new TestFailedException("outer.Contains(outer)"); } if (outer.Contains(inner) == false) { throw new TestFailedException("outer.Contains(inner)"); } if (inner.Contains(outer) == true) { throw new TestFailedException("inner.Contains(outer)"); } if (outer.Contains(address) == false) { throw new TestFailedException("outer.Contains(address)"); } if (inner.Contains(address) == false) { throw new TestFailedException("inner.Contains(address)"); } if (outer.IsMoreSpecificThan(inner) == true) { throw new TestFailedException("outer.IsMoreSpecificThan(inner)"); } if (outer.IsLessSpecificThan(inner) == false) { throw new TestFailedException("outer.IsLessSpecificThan(inner)"); } if ((outer == outer) == false) { throw new TestFailedException("operator=="); } if ((outer != inner) == false) { throw new TestFailedException("operator!="); } if (outer.Contains(outer.UpperBound) == false) { throw new TestFailedException("outer.Contains(outer.UpperBound)"); } if (outer.Contains(outer.LowerBound) == false) { throw new TestFailedException("outer.Contains(outer.LowerBound)"); } } public static int Main() { try { TestBasics(); TestCompare(); } catch (Exception e) { Console.WriteLine("FAILED\nException {0}\nStack:\n{1}", e.Message, e.StackTrace); return 1; } Console.WriteLine("Passed."); return 0; } } } // namespace System.Net.IP