using System; using Microsoft.VisualStudio.TestTools.UnitTesting; using Shadowsocks.Controller; using Shadowsocks.Encryption; using GlobalHotKey; using System.Windows.Input; using System.Threading; using System.Collections.Generic; using Shadowsocks.Controller.Hotkeys; using Shadowsocks.Encryption.Stream; using Shadowsocks.Model; namespace test { [TestClass] public class UnitTest { [TestMethod] public void TestCompareVersion() { Assert.IsTrue(UpdateChecker.Asset.CompareVersion("2.3.1.0", "2.3.1") == 0); Assert.IsTrue(UpdateChecker.Asset.CompareVersion("1.2", "1.3") < 0); Assert.IsTrue(UpdateChecker.Asset.CompareVersion("1.3", "1.2") > 0); Assert.IsTrue(UpdateChecker.Asset.CompareVersion("1.3", "1.3") == 0); Assert.IsTrue(UpdateChecker.Asset.CompareVersion("1.2.1", "1.2") > 0); Assert.IsTrue(UpdateChecker.Asset.CompareVersion("2.3.1", "2.4") < 0); Assert.IsTrue(UpdateChecker.Asset.CompareVersion("1.3.2", "1.3.1") > 0); } [ TestMethod ] public void TestHotKey2Str() { Assert.AreEqual( "Ctrl+A", HotKeys.HotKey2Str( Key.A, ModifierKeys.Control ) ); Assert.AreEqual( "Ctrl+Alt+D2", HotKeys.HotKey2Str( Key.D2, (ModifierKeys.Alt | ModifierKeys.Control) ) ); Assert.AreEqual("Ctrl+Alt+Shift+NumPad7", HotKeys.HotKey2Str(Key.NumPad7, (ModifierKeys.Alt|ModifierKeys.Control|ModifierKeys.Shift))); Assert.AreEqual( "Ctrl+Alt+Shift+F6", HotKeys.HotKey2Str( Key.F6, (ModifierKeys.Alt|ModifierKeys.Control|ModifierKeys.Shift))); Assert.AreNotEqual("Ctrl+Shift+Alt+F6", HotKeys.HotKey2Str(Key.F6, (ModifierKeys.Alt | ModifierKeys.Control | ModifierKeys.Shift))); } [TestMethod] public void TestStr2HotKey() { Assert.IsTrue(HotKeys.Str2HotKey("Ctrl+A").Equals(new HotKey(Key.A, ModifierKeys.Control))); Assert.IsTrue(HotKeys.Str2HotKey("Ctrl+Alt+A").Equals(new HotKey(Key.A, (ModifierKeys.Control | ModifierKeys.Alt)))); Assert.IsTrue(HotKeys.Str2HotKey("Ctrl+Shift+A").Equals(new HotKey(Key.A, (ModifierKeys.Control | ModifierKeys.Shift)))); Assert.IsTrue(HotKeys.Str2HotKey("Ctrl+Alt+Shift+A").Equals(new HotKey(Key.A, (ModifierKeys.Control | ModifierKeys.Alt| ModifierKeys.Shift)))); HotKey testKey0 = HotKeys.Str2HotKey("Ctrl+Alt+Shift+A"); Assert.IsTrue(testKey0 != null && testKey0.Equals(new HotKey(Key.A, (ModifierKeys.Control | ModifierKeys.Alt | ModifierKeys.Shift)))); HotKey testKey1 = HotKeys.Str2HotKey("Ctrl+Alt+Shift+F2"); Assert.IsTrue(testKey1 != null && testKey1.Equals(new HotKey(Key.F2, (ModifierKeys.Control | ModifierKeys.Alt | ModifierKeys.Shift)))); HotKey testKey2 = HotKeys.Str2HotKey("Ctrl+Shift+Alt+D7"); Assert.IsTrue(testKey2 != null && testKey2.Equals(new HotKey(Key.D7, (ModifierKeys.Control | ModifierKeys.Alt | ModifierKeys.Shift)))); HotKey testKey3 = HotKeys.Str2HotKey("Ctrl+Shift+Alt+NumPad7"); Assert.IsTrue(testKey3 != null && testKey3.Equals(new HotKey(Key.NumPad7, (ModifierKeys.Control | ModifierKeys.Alt | ModifierKeys.Shift)))); } [TestMethod] public void TestMD5() { for (int len = 1; len < 64; len++) { System.Security.Cryptography.MD5 md5 = System.Security.Cryptography.MD5.Create(); byte[] bytes = new byte[len]; var random = new Random(); random.NextBytes(bytes); string md5str = Convert.ToBase64String(md5.ComputeHash(bytes)); string md5str2 = Convert.ToBase64String(MbedTLS.MD5(bytes)); Assert.IsTrue(md5str == md5str2); } } private void RunEncryptionRound(IEncryptor encryptor, IEncryptor decryptor) { RNG.Reload(); byte[] plain = new byte[16384]; byte[] cipher = new byte[plain.Length + 16]; byte[] plain2 = new byte[plain.Length + 16]; int outLen = 0; int outLen2 = 0; var random = new Random(); random.NextBytes(plain); encryptor.Encrypt(plain, plain.Length, cipher, out outLen); decryptor.Decrypt(cipher, outLen, plain2, out outLen2); Assert.AreEqual(plain.Length, outLen2); for (int j = 0; j < plain.Length; j++) { Assert.AreEqual(plain[j], plain2[j]); } encryptor.Encrypt(plain, 1000, cipher, out outLen); decryptor.Decrypt(cipher, outLen, plain2, out outLen2); Assert.AreEqual(1000, outLen2); for (int j = 0; j < outLen2; j++) { Assert.AreEqual(plain[j], plain2[j]); } encryptor.Encrypt(plain, 12333, cipher, out outLen); decryptor.Decrypt(cipher, outLen, plain2, out outLen2); Assert.AreEqual(12333, outLen2); for (int j = 0; j < outLen2; j++) { Assert.AreEqual(plain[j], plain2[j]); } } private static bool encryptionFailed = false; private static object locker = new object(); [TestMethod] public void TestMbedTLSEncryption() { // run it once before the multi-threading test to initialize global tables RunSingleMbedTLSEncryptionThread(); List threads = new List(); for (int i = 0; i < 10; i++) { Thread t = new Thread(new ThreadStart(RunSingleMbedTLSEncryptionThread)); threads.Add(t); t.Start(); } foreach (Thread t in threads) { t.Join(); } RNG.Close(); Assert.IsFalse(encryptionFailed); } private void RunSingleMbedTLSEncryptionThread() { try { for (int i = 0; i < 100; i++) { IEncryptor encryptor; IEncryptor decryptor; encryptor = new StreamMbedTLSEncryptor("aes-256-cfb", "barfoo!"); decryptor = new StreamMbedTLSEncryptor("aes-256-cfb", "barfoo!"); RunEncryptionRound(encryptor, decryptor); } } catch { encryptionFailed = true; throw; } } [TestMethod] public void TestRC4Encryption() { // run it once before the multi-threading test to initialize global tables RunSingleRC4EncryptionThread(); List threads = new List(); for (int i = 0; i < 10; i++) { Thread t = new Thread(new ThreadStart(RunSingleRC4EncryptionThread)); threads.Add(t); t.Start(); } foreach (Thread t in threads) { t.Join(); } RNG.Close(); Assert.IsFalse(encryptionFailed); } private void RunSingleRC4EncryptionThread() { try { for (int i = 0; i < 100; i++) { var random = new Random(); IEncryptor encryptor; IEncryptor decryptor; encryptor = new StreamMbedTLSEncryptor("rc4-md5", "barfoo!"); decryptor = new StreamMbedTLSEncryptor("rc4-md5", "barfoo!"); RunEncryptionRound(encryptor, decryptor); } } catch { encryptionFailed = true; throw; } } [TestMethod] public void TestSodiumEncryption() { // run it once before the multi-threading test to initialize global tables RunSingleSodiumEncryptionThread(); List threads = new List(); for (int i = 0; i < 10; i++) { Thread t = new Thread(new ThreadStart(RunSingleSodiumEncryptionThread)); threads.Add(t); t.Start(); } foreach (Thread t in threads) { t.Join(); } RNG.Close(); Assert.IsFalse(encryptionFailed); } private void RunSingleSodiumEncryptionThread() { try { for (int i = 0; i < 100; i++) { var random = new Random(); IEncryptor encryptor; IEncryptor decryptor; encryptor = new StreamSodiumEncryptor("salsa20", "barfoo!"); decryptor = new StreamSodiumEncryptor("salsa20", "barfoo!"); RunEncryptionRound(encryptor, decryptor); } } catch { encryptionFailed = true; throw; } } [TestMethod] public void ParseAndGenerateShadowsocksUrl() { var server = new Server { server = "192.168.100.1", server_port = 8888, password = "test", method = "bf-cfb" }; var serverCanonUrl = "ss://YmYtY2ZiOnRlc3RAMTkyLjE2OC4xMDAuMTo4ODg4"; var serverWithRemark = new Server { server = server.server, server_port = server.server_port, password = server.password, method = server.method, remarks = "example-server" }; var serverWithRemarkCanonUrl = "ss://YmYtY2ZiOnRlc3RAMTkyLjE2OC4xMDAuMTo4ODg4#example-server"; var serverWithPlugin = new Server { server = server.server, server_port = server.server_port, password = server.password, method = server.method, plugin = "obfs-local", plugin_opts = "obfs=http;obfs-host=google.com" }; var serverWithPluginCanonUrl = "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888/?plugin=obfs-local%3bobfs%3dhttp%3bobfs-host%3dgoogle.com"; var serverWithPluginAndRemark = new Server { server = server.server, server_port = server.server_port, password = server.password, method = server.method, plugin = serverWithPlugin.plugin, plugin_opts = serverWithPlugin.plugin_opts, remarks = serverWithRemark.remarks }; var serverWithPluginAndRemarkCanonUrl = "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888/?plugin=obfs-local%3bobfs%3dhttp%3bobfs-host%3dgoogle.com#example-server"; RunParseShadowsocksUrlTest( string.Join( "\r\n", serverCanonUrl, "\r\n", "ss://YmYtY2ZiOnRlc3RAMTkyLjE2OC4xMDAuMTo4ODg4/", serverWithRemarkCanonUrl, "ss://YmYtY2ZiOnRlc3RAMTkyLjE2OC4xMDAuMTo4ODg4/#example-server"), new[] { server, server, serverWithRemark, serverWithRemark }); RunParseShadowsocksUrlTest( string.Join( "\r\n", "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888", "\r\n", "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888/", "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888#example-server", "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888/#example-server", serverWithPluginCanonUrl, serverWithPluginAndRemarkCanonUrl, "ss://YmYtY2ZiOnRlc3Q@192.168.100.1:8888/?plugin=obfs-local%3bobfs%3dhttp%3bobfs-host%3dgoogle.com&unsupported=1#example-server"), new[] { server, server, serverWithRemark, serverWithRemark, serverWithPlugin, serverWithPluginAndRemark, serverWithPluginAndRemark }); var generateUrlCases = new Dictionary { [serverCanonUrl] = server, [serverWithRemarkCanonUrl] = serverWithRemark, [serverWithPluginCanonUrl] = serverWithPlugin, [serverWithPluginAndRemarkCanonUrl] = serverWithPluginAndRemark }; RunGenerateShadowsocksUrlTest(generateUrlCases); } private static void RunParseShadowsocksUrlTest(string testCase, IReadOnlyList expected) { var actual = Server.GetServers(testCase); if (actual.Count != expected.Count) { Assert.Fail("Wrong number of configs. Expected: {0}. Actual: {1}", expected.Count, actual.Count); } for (int i = 0; i < expected.Count; i++) { var expectedServer = expected[i]; var actualServer = actual[i]; Assert.AreEqual(expectedServer.server, actualServer.server); Assert.AreEqual(expectedServer.server_port, actualServer.server_port); Assert.AreEqual(expectedServer.password, actualServer.password); Assert.AreEqual(expectedServer.method, actualServer.method); Assert.AreEqual(expectedServer.plugin, actualServer.plugin); Assert.AreEqual(expectedServer.plugin_opts, actualServer.plugin_opts); Assert.AreEqual(expectedServer.remarks, actualServer.remarks); Assert.AreEqual(expectedServer.timeout, actualServer.timeout); } } private static void RunGenerateShadowsocksUrlTest(IReadOnlyDictionary testCases) { foreach (var testCase in testCases) { string expected = testCase.Key; Server config = testCase.Value; var actual = ShadowsocksController.GetQRCode(config); Assert.AreEqual(expected, actual); } } } }