// // PaddingModeTest.cs - NUnit Test Cases for PaddingMode // // Author: // Sebastien Pouliot (sebastien@ximian.com) // // (C) 2003 Motus Technologies Inc. (http://www.motus.com) // Copyright (C) 2004, 2008 Novell, Inc (http://www.novell.com) // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System; using System.Security.Cryptography; using NUnit.Framework; namespace MonoTests.System.Security.Cryptography { [TestFixture] public class PaddingModeTest { private static byte[] key1 = { 0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef }; private static byte[] key2 = { 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef, 0x01 }; private static byte[] key3 = { 0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef }; public void AssertEquals (string msg, byte[] array1, byte[] array2) { Assert.AreEqual (array1, array2, msg); } protected byte[] CombineKeys (byte[] key1, byte[] key2, byte[] key3) { int k1l = key1.Length; int k2l = key2.Length; int k3l = key3.Length; byte[] key = new byte [k1l + k2l + k3l]; Array.Copy (key1, 0, key, 0, k1l); Array.Copy (key2, 0, key, k1l, k2l); Array.Copy (key3, 0, key, k1l + k2l, k3l); return key; } private byte[] Decrypt (SymmetricAlgorithm algo, PaddingMode padding, byte[] data) { algo.IV = new byte [algo.BlockSize >> 3]; algo.Mode = CipherMode.CBC; algo.Padding = padding; ICryptoTransform ct = algo.CreateDecryptor (); return ct.TransformFinalBlock (data, 0, data.Length); } private byte[] Encrypt (SymmetricAlgorithm algo, PaddingMode padding, byte[] data) { algo.IV = new byte [algo.BlockSize >> 3]; algo.Mode = CipherMode.CBC; algo.Padding = padding; ICryptoTransform ct = algo.CreateEncryptor (); return ct.TransformFinalBlock (data, 0, data.Length); } private byte[] GetData (byte size) { byte[] data = new byte [size]; for (byte i=0; i < size; i++) { data [i] = i; } return data; } private TripleDES GetTripleDES () { TripleDES tdes = TripleDES.Create (); tdes.Key = CombineKeys (key1, key2, key3); return tdes; } [Test] [ExpectedException (typeof (CryptographicException))] public void TripleDESNone_SmallerThanOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (7); byte[] encdata = Encrypt (tdes, PaddingMode.None, data); } [Test] public void TripleDESNone_ExactlyOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (8); byte[] encdata = Encrypt (tdes, PaddingMode.None, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51", BitConverter.ToString (encdata), "TripleDESNone_ExactlyOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.None, encdata); AssertEquals ("TripleDESNone_ExactlyOneBlockSize_Decrypt", data, decdata); } [Test] [ExpectedException (typeof (CryptographicException))] public void TripleDESNone_MoreThanOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (12); byte[] encdata = Encrypt (tdes, PaddingMode.None, data); } [Test] public void TripleDESNone_ExactMultipleBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (48); byte[] encdata = Encrypt (tdes, PaddingMode.None, data); // note: encrypted data is truncated to a multiple of block size Assert.AreEqual ("23-61-AC-E6-C5-17-10-51-BF-AB-79-9C-CD-5E-79-40-16-81-0D-6B-40-E6-B2-E9-86-34-8A-9E-5D-56-DA-D1-0C-8C-76-0A-E1-69-A1-0A-B5-B5-7F-FC-5A-D0-6E-6A", BitConverter.ToString (encdata), "TripleDESNone_ExactMultipleBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.None, encdata); AssertEquals ("TripleDESNone_ExactMultipleBlockSize_Decrypt", GetData (48), decdata); } [Test] public void TripleDESPKCS7_SmallerThanOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (7); byte[] encdata = Encrypt (tdes, PaddingMode.PKCS7, data); Assert.AreEqual ("C6-59-0E-E3-7F-26-92-B0", BitConverter.ToString (encdata), "TripleDESPKCS7_SmallerThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.PKCS7, encdata); AssertEquals ("TripleDESPKCS7_SmallerThanOneBlockSize_Decrypt", data, decdata); } [Test] public void TripleDESPKCS7_ExactlyOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (8); byte[] encdata = Encrypt (tdes, PaddingMode.PKCS7, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51-C0-60-5B-6A-5C-B7-69-62", BitConverter.ToString (encdata), "TripleDESPKCS7_ExactlyOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.PKCS7, encdata); AssertEquals ("TripleDESPKCS7_ExactlyOneBlockSize_Decrypt", data, decdata); } [Test] public void TripleDESPKCS7_MoreThanOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (12); byte[] encdata = Encrypt (tdes, PaddingMode.PKCS7, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51-D9-CB-92-8C-76-89-35-84", BitConverter.ToString (encdata), "TripleDESPKCS7_MoreThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.PKCS7, encdata); AssertEquals ("TripleDESPKCS7_MoreThanOneBlockSize_Decrypt", data, decdata); } [Test] public void TripleDESPKCS7_ExactMultipleBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (48); byte[] encdata = Encrypt (tdes, PaddingMode.PKCS7, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51-BF-AB-79-9C-CD-5E-79-40-16-81-0D-6B-40-E6-B2-E9-86-34-8A-9E-5D-56-DA-D1-0C-8C-76-0A-E1-69-A1-0A-B5-B5-7F-FC-5A-D0-6E-6A-73-61-63-1C-58-A2-9C-B3", BitConverter.ToString (encdata), "TripleDESPKCS7_ExactMultipleBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.PKCS7, encdata); AssertEquals ("TripleDESPKCS7_ExactMultipleBlockSize_Decrypt", data, decdata); } [Test] public void TripleDESZeros_SmallerThanOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (7); byte[] encdata = Encrypt (tdes, PaddingMode.Zeros, data); Assert.AreEqual ("B8-5C-5B-A5-06-0B-7E-C6", BitConverter.ToString (encdata), "TripleDESZeros_SmallerThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.Zeros, encdata); Assert.AreEqual ("00-01-02-03-04-05-06-00", BitConverter.ToString (decdata), "TripleDESZeros_SmallerThanOneBlockSize_Decrypt"); } [Test] public void TripleDESZeros_ExactlyOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (8); byte[] encdata = Encrypt (tdes, PaddingMode.Zeros, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51", BitConverter.ToString (encdata), "TripleDESZeros_ExactlyOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.Zeros, encdata); AssertEquals ("TripleDESZeros_ExactlyOneBlockSize_Decrypt", data, decdata); } [Test] public void TripleDESZeros_MoreThanOneBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (12); byte[] encdata = Encrypt (tdes, PaddingMode.Zeros, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51-6E-75-2E-33-12-09-5D-66", BitConverter.ToString (encdata), "TripleDESZeros_MoreThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.Zeros, encdata); Assert.AreEqual ("00-01-02-03-04-05-06-07-08-09-0A-0B-00-00-00-00", BitConverter.ToString (decdata), "TripleDESZeros_MoreThanOneBlockSize_Decrypt"); } [Test] public void TripleDESZeros_ExactMultipleBlockSize () { TripleDES tdes = GetTripleDES (); byte[] data = GetData (48); byte[] encdata = Encrypt (tdes, PaddingMode.Zeros, data); Assert.AreEqual ("23-61-AC-E6-C5-17-10-51-BF-AB-79-9C-CD-5E-79-40-16-81-0D-6B-40-E6-B2-E9-86-34-8A-9E-5D-56-DA-D1-0C-8C-76-0A-E1-69-A1-0A-B5-B5-7F-FC-5A-D0-6E-6A", BitConverter.ToString (encdata), "TripleDESZeros_ExactMultipleBlockSize_Encrypt"); byte[] decdata = Decrypt (tdes, PaddingMode.Zeros, encdata); AssertEquals ("TripleDESZeros_ExactMultipleBlockSize_Decrypt", GetData (48), decdata); } private Rijndael GetAES () { Rijndael aes = Rijndael.Create (); aes.Key = CombineKeys (key1, key2, key3); return aes; } [Test] [ExpectedException (typeof (CryptographicException))] public void RijndaelNone_SmallerThanOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (8); byte[] encdata = Encrypt (aes, PaddingMode.None, data); } [Test] public void RijndaelNone_ExactlyOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (16); byte[] encdata = Encrypt (aes, PaddingMode.None, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB", BitConverter.ToString (encdata), "RijndaelNone_ExactlyOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.None, encdata); AssertEquals ("RijndaelNone_ExactlyOneBlockSize_Decrypt", data, decdata); } [Test] [ExpectedException (typeof (CryptographicException))] public void RijndaelNone_MoreThanOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (20); byte[] encdata = Encrypt (aes, PaddingMode.None, data); } [Test] public void RijndaelNone_ExactMultipleBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (48); byte[] encdata = Encrypt (aes, PaddingMode.None, data); // note: encrypted data is truncated to a multiple of block size Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB-E1-27-3E-21-5A-BE-D5-12-F4-AF-06-8D-0A-BD-02-64-02-CB-FF-D7-32-19-5E-69-3C-54-C2-8C-A1-D7-72-FF", BitConverter.ToString (encdata), "RijndaelNone_ExactMultipleBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.None, encdata); AssertEquals ("RijndaelNone_ExactMultipleBlockSize_Decrypt", GetData (48), decdata); } [Test] public void RijndaelPKCS7_SmallerThanOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (8); byte[] encdata = Encrypt (aes, PaddingMode.PKCS7, data); Assert.AreEqual ("AB-E0-20-5E-BC-28-A0-B7-A7-56-A3-BF-13-55-13-7E", BitConverter.ToString (encdata), "RijndaelPKCS7_SmallerThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.PKCS7, encdata); AssertEquals ("RijndaelPKCS7_SmallerThanOneBlockSize_Decrypt", data, decdata); } [Test] public void RijndaelPKCS7_ExactlyOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (16); byte[] encdata = Encrypt (aes, PaddingMode.PKCS7, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB-60-CE-9F-E0-72-3B-D6-D1-A5-F8-33-D8-25-31-7F-D4", BitConverter.ToString (encdata), "RijndaelPKCS7_ExactlyOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.PKCS7, encdata); AssertEquals ("RijndaelPKCS7_ExactlyOneBlockSize_Decrypt", data, decdata); } [Test] public void RijndaelPKCS7_MoreThanOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (20); byte[] encdata = Encrypt (aes, PaddingMode.PKCS7, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB-06-3F-D3-51-8D-55-E9-2F-02-4A-4E-F2-91-55-31-83", BitConverter.ToString (encdata), "RijndaelPKCS7_MoreThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.PKCS7, encdata); AssertEquals ("RijndaelPKCS7_MoreThanOneBlockSize_Decrypt", data, decdata); } [Test] public void RijndaelPKCS7_ExactMultipleBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (48); byte[] encdata = Encrypt (aes, PaddingMode.PKCS7, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB-E1-27-3E-21-5A-BE-D5-12-F4-AF-06-8D-0A-BD-02-64-02-CB-FF-D7-32-19-5E-69-3C-54-C2-8C-A1-D7-72-FF-37-42-81-21-47-A7-E0-AA-64-A7-8B-65-25-95-AA-54", BitConverter.ToString (encdata), "RijndaelPKCS7_ExactMultipleBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.PKCS7, encdata); AssertEquals ("RijndaelPKCS7_ExactMultipleBlockSize_Decrypt", data, decdata); } [Test] public void RijndaelZeros_SmallerThanOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (8); byte[] encdata = Encrypt (aes, PaddingMode.Zeros, data); Assert.AreEqual ("DD-BE-D7-CE-E2-DD-5C-A3-3E-44-A1-76-00-E5-5B-5D", BitConverter.ToString (encdata), "RijndaelZeros_SmallerThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.Zeros, encdata); Assert.AreEqual ("00-01-02-03-04-05-06-07-00-00-00-00-00-00-00-00", BitConverter.ToString (decdata), "RijndaelZeros_SmallerThanOneBlockSize_Decrypt"); } [Test] public void RijndaelZeros_ExactlyOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (16); byte[] encdata = Encrypt (aes, PaddingMode.Zeros, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB", BitConverter.ToString (encdata), "RijndaelZeros_ExactlyOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.Zeros, encdata); AssertEquals ("RijndaelZeros_ExactlyOneBlockSize_Decrypt", data, decdata); } [Test] public void RijndaelZeros_MoreThanOneBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (20); byte[] encdata = Encrypt (aes, PaddingMode.Zeros, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB-04-6C-F7-A5-DE-FF-B4-30-29-7A-0E-04-3B-D4-B8-F2", BitConverter.ToString (encdata), "RijndaelZeros_MoreThanOneBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.Zeros, encdata); Assert.AreEqual ("00-01-02-03-04-05-06-07-08-09-0A-0B-0C-0D-0E-0F-10-11-12-13-00-00-00-00-00-00-00-00-00-00-00-00", BitConverter.ToString (decdata), "RijndaelZeros_MoreThanOneBlockSize_Decrypt"); } [Test] public void RijndaelZeros_ExactMultipleBlockSize () { Rijndael aes = GetAES (); byte[] data = GetData (48); byte[] encdata = Encrypt (aes, PaddingMode.Zeros, data); Assert.AreEqual ("79-42-36-2F-D6-DB-F1-0C-87-99-58-06-D5-F6-B0-BB-E1-27-3E-21-5A-BE-D5-12-F4-AF-06-8D-0A-BD-02-64-02-CB-FF-D7-32-19-5E-69-3C-54-C2-8C-A1-D7-72-FF", BitConverter.ToString (encdata), "RijndaelZeros_ExactMultipleBlockSize_Encrypt"); byte[] decdata = Decrypt (aes, PaddingMode.Zeros, encdata); AssertEquals ("RijndaelZeros_ExactMultipleBlockSize_Decrypt", GetData (48), decdata); } // Enum tests [Test] public void PaddingModeEnum () { #if NET_2_0 Assert.AreEqual (4, (int)PaddingMode.ANSIX923, "ANSIX923"); Assert.AreEqual (5, (int)PaddingMode.ISO10126, "ISO10126"); #endif Assert.AreEqual (1, (int)PaddingMode.None, "None"); Assert.AreEqual (2, (int)PaddingMode.PKCS7, "PKCS7"); Assert.AreEqual (3, (int)PaddingMode.Zeros, "Zeros"); } // SymmetricAlgorithm tests private byte[] GetKey (SymmetricAlgorithm sa) { byte[] key = new byte [sa.KeySize >> 3]; // no weak key this way (DES, TripleDES) for (byte i=0; i < key.Length; i++) key [i] = i; return key; } private byte[] GetIV (SymmetricAlgorithm sa) { return new byte [sa.BlockSize >> 3]; } private ICryptoTransform GetEncryptor (SymmetricAlgorithm sa, PaddingMode mode) { sa.Mode = CipherMode.ECB; // basic (no) mode sa.Padding = mode; return sa.CreateEncryptor (GetKey (sa), GetIV (sa)); } private ICryptoTransform GetDecryptor (SymmetricAlgorithm sa, PaddingMode mode) { sa.Mode = CipherMode.ECB; // basic (no) mode sa.Padding = mode; return sa.CreateDecryptor (GetKey (sa), GetIV (sa)); } // the best way to verify padding is to: // a. encrypt data larger than one block with a padding mode "X" // b. decrypt the data with padding mode "None" // c. compare the last (padding) bytes with the expected padding #if NET_2_0 private void ANSIX923_Full (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one full block byte[] data = new byte [bs]; // in bytes ICryptoTransform enc = GetEncryptor (sa, PaddingMode.ANSIX923); byte[] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (data.Length * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte[] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - ANSI X.923 is all 0 except last byte (length) for (int i=0; i < bs - 1; i++) Assert.AreEqual (0x00, decdata [decdata.Length - pd + i], i.ToString ()); Assert.AreEqual (pd, decdata [decdata.Length - 1], "last byte"); } private void ANSIX923_Partial (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one and an half block byte[] data = new byte [bs + (bs >> 1)]; // in bytes ICryptoTransform enc = GetEncryptor (sa, PaddingMode.ANSIX923); byte[] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (bs * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte[] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - ANSI X.923 is all 0 except last byte (length) for (int i = 0; i < pd - 1; i++) Assert.AreEqual (0x00, decdata [decdata.Length - pd + i], i.ToString ()); Assert.AreEqual (pd, decdata [decdata.Length - 1], "last byte"); } private void ISO10126_Full (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one full block byte [] data = new byte [bs]; // in bytes ICryptoTransform enc = GetEncryptor (sa, PaddingMode.ISO10126); byte [] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (data.Length * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte [] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - ISO10126 is all random except last byte (length) Assert.AreEqual (pd, decdata [decdata.Length - 1], "last byte"); } private void ISO10126_Partial (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one and an half block byte [] data = new byte [bs + (bs >> 1)]; // in bytes ICryptoTransform enc = GetEncryptor (sa, PaddingMode.ISO10126); byte [] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (bs * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte [] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - ISO10126 is all random except last byte (length) Assert.AreEqual (pd, decdata [decdata.Length - 1], "last byte"); } #endif private void PKCS7_Full (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one full block byte[] data = new byte [bs]; // in bytes ICryptoTransform enc = GetEncryptor (sa, PaddingMode.PKCS7); byte[] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (data.Length * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte[] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - PKCS7 is all padding char for (int i = 0; i < bs; i++) Assert.AreEqual (pd, decdata [decdata.Length - pd + i], i.ToString ()); } private void PKCS7_Partial (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one and an half block byte[] data = new byte[bs + (bs >> 1)]; // in bytes ICryptoTransform enc = GetEncryptor (sa, PaddingMode.PKCS7); byte[] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (bs * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte[] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - PKCS7 is all padding char for (int i = 0; i < pd; i++) Assert.AreEqual (pd, decdata [decdata.Length - pd + i], i.ToString ()); } private void Zeros_Full (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one full block byte [] data = new byte [bs]; // in bytes for (int i = 0; i < data.Length; i++) data [i] = 0xFF; ICryptoTransform enc = GetEncryptor (sa, PaddingMode.Zeros); byte [] encdata = enc.TransformFinalBlock (data, 0, data.Length); // NO extra block is used for zero padding Assert.AreEqual (data.Length, encdata.Length, "no extra block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte [] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); // now validate absence of padding Assert.AreEqual (0xFF, decdata [decdata.Length - 1], "no padding"); } private void Zeros_Partial (SymmetricAlgorithm sa) { int bs = (sa.BlockSize >> 3); // one and an half block byte [] data = new byte [bs + (bs >> 1)]; // in bytes for (int i=0; i < data.Length; i++) data [i] = 0xFF; ICryptoTransform enc = GetEncryptor (sa, PaddingMode.Zeros); byte [] encdata = enc.TransformFinalBlock (data, 0, data.Length); // one block of padding is added Assert.AreEqual (bs * 2, encdata.Length, "one more block added"); ICryptoTransform dec = GetDecryptor (sa, PaddingMode.None); byte [] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (encdata.Length, decdata.Length, "no unpadding"); int pd = decdata.Length - data.Length; // now validate padding - Zeros is all 0x00 char for (int i = 0; i < pd; i++) Assert.AreEqual (0x00, decdata [decdata.Length - pd + i], i.ToString ()); } #if NET_2_0 // ANSI X.923 [Test] public void DES_ANSIX923_Full () { ANSIX923_Full (DES.Create ()); } [Test] public void DES_ANSIX923_Partial () { ANSIX923_Partial (DES.Create ()); } [Test] public void RC2_ANSIX923_Full () { ANSIX923_Full (RC2.Create ()); } [Test] public void RC2_ANSIX923_Partial () { ANSIX923_Partial (RC2.Create ()); } [Test] public void Rijndael_ANSIX923_Full () { ANSIX923_Full (Rijndael.Create ()); } [Test] public void Rijndael_ANSIX923_Partial () { ANSIX923_Partial (Rijndael.Create ()); } [Test] public void TripleDES_ANSIX923_Full () { ANSIX923_Full (TripleDES.Create ()); } [Test] public void TripleDES_ANSIX923_Partial () { ANSIX923_Partial (TripleDES.Create ()); } // ISO 10126 [Test] public void DES_ISO10126_Full () { ISO10126_Full (DES.Create ()); } [Test] public void DES_ISO10126_Partial () { ISO10126_Partial (DES.Create ()); } [Test] public void RC2_ISO10126_Full () { ISO10126_Full (RC2.Create ()); } [Test] public void RC2_ISO10126_Partial () { ISO10126_Partial (RC2.Create ()); } [Test] public void Rijndael_ISO10126_Full () { ISO10126_Full (Rijndael.Create ()); } [Test] public void Rijndael_ISO10126_Partial () { ISO10126_Partial (Rijndael.Create ()); } [Test] public void TripleDES_ISO10126_Full () { ISO10126_Full (TripleDES.Create ()); } [Test] public void TripleDES_ISO10126_Partial () { ISO10126_Partial (TripleDES.Create ()); } #endif // PKCS #7 [Test] public void DES_PKCS7_Full () { PKCS7_Full (DES.Create ()); } [Test] public void DES_PKCS7_Partial () { PKCS7_Partial (DES.Create ()); } [Test] public void RC2_PKCS7_Full () { PKCS7_Full (RC2.Create ()); } [Test] public void RC2_PKCS7_Partial () { PKCS7_Partial (RC2.Create ()); } [Test] public void Rijndael_PKCS7_Full () { PKCS7_Full (Rijndael.Create ()); } [Test] public void Rijndael_PKCS7_Partial () { PKCS7_Partial (Rijndael.Create ()); } [Test] public void TripleDES_PKCS7_Full () { PKCS7_Full (TripleDES.Create ()); } [Test] public void TripleDES_PKCS7_Partial () { PKCS7_Partial (TripleDES.Create ()); } // Zeros [Test] public void DES_Zeros_Full () { Zeros_Full (DES.Create ()); } [Test] public void DES_Zeros_Partial () { Zeros_Partial (DES.Create ()); } [Test] public void RC2_Zeros_Full () { Zeros_Full (RC2.Create ()); } [Test] public void RC2_Zeros_Partial () { Zeros_Partial (RC2.Create ()); } [Test] public void Rijndael_Zeros_Full () { Zeros_Full (Rijndael.Create ()); } [Test] public void Rijndael_Zeros_Partial () { Zeros_Partial (Rijndael.Create ()); } [Test] public void TripleDES_Zeros_Full () { Zeros_Full (TripleDES.Create ()); } [Test] public void TripleDES_Zeros_Partial () { Zeros_Partial (TripleDES.Create ()); } // Padding mismatches // the best way to test bad padding is to: // a. encrypt data larger than one block with a padding mode "X" // b. decrypt the data with padding mode "Y" (different with Y) // c. check if the "bad" padding was removed correctly // // returns (bitmask) // 1 - length difference // 2 - original data lost // 4 - CryptographicException thrown while decryption private int Mismatch (PaddingMode encrypt, PaddingMode decrypt) { SymmetricAlgorithm sa = SymmetricAlgorithm.Create (); int bs = (sa.BlockSize >> 3); // one full block byte [] data = new byte [bs]; // in bytes ICryptoTransform enc = GetEncryptor (sa, encrypt); byte [] encdata = enc.TransformFinalBlock (data, 0, data.Length); int result = 0; try { ICryptoTransform dec = GetDecryptor (sa, decrypt); byte [] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); if (data.Length != decdata.Length) result += 1; for (int i=0; i < data.Length; i++) { if (data [i] != decdata [i]) { result += 2; break; } } } catch (CryptographicException) { result += 4; } return result; } #if NET_2_0 [Test] public void ANSIX923_ISO10126 () { Assert.AreEqual (0, Mismatch (PaddingMode.ANSIX923, PaddingMode.ISO10126)); } [Test] public void ANSIX923_None () { Assert.AreEqual (1, Mismatch (PaddingMode.ANSIX923, PaddingMode.None)); } [Test] public void ANSIX923_PKCS7 () { Assert.AreEqual (4, Mismatch (PaddingMode.ANSIX923, PaddingMode.PKCS7)); } [Test] public void ANSIX923_Zeros () { Assert.AreEqual (1, Mismatch (PaddingMode.ANSIX923, PaddingMode.Zeros)); } [Test] public void ISO10126_ANSIX923 () { Assert.AreEqual (4, Mismatch (PaddingMode.ISO10126, PaddingMode.ANSIX923)); } [Test] public void ISO10126_None () { Assert.AreEqual (1, Mismatch (PaddingMode.ISO10126, PaddingMode.None)); } [Test] public void ISO10126_PKCS7 () { Assert.AreEqual (4, Mismatch (PaddingMode.ISO10126, PaddingMode.PKCS7)); } [Test] public void ISO10126_Zeros () { Assert.AreEqual (1, Mismatch (PaddingMode.ISO10126, PaddingMode.Zeros)); } [Test] public void None_ANSIX923 () { Assert.AreEqual (4, Mismatch (PaddingMode.None, PaddingMode.ANSIX923)); } [Test] public void None_ISO10126 () { Assert.AreEqual (4, Mismatch (PaddingMode.None, PaddingMode.ISO10126)); } #endif [Test] public void None_PKCS7 () { #if NET_2_0 Assert.AreEqual (4, Mismatch (PaddingMode.None, PaddingMode.PKCS7)); #else Assert.AreEqual (0, Mismatch (PaddingMode.None, PaddingMode.PKCS7)); #endif } [Test] public void None_Zeros () { Assert.AreEqual (0, Mismatch (PaddingMode.None, PaddingMode.Zeros)); } #if NET_2_0 [Test] public void PKCS7_ANSIX923 () { Assert.AreEqual (4, Mismatch (PaddingMode.PKCS7, PaddingMode.ANSIX923)); } [Test] public void PKCS7_ISO10126 () { Assert.AreEqual (0, Mismatch (PaddingMode.PKCS7, PaddingMode.ISO10126)); } #endif [Test] public void PKCS7_None () { Assert.AreEqual (1, Mismatch (PaddingMode.PKCS7, PaddingMode.None)); } [Test] public void PKCS7_Zeros () { Assert.AreEqual (1, Mismatch (PaddingMode.PKCS7, PaddingMode.Zeros)); } #if NET_2_0 [Test] public void Zeros_ANSIX923 () { Assert.AreEqual (4, Mismatch (PaddingMode.Zeros, PaddingMode.ANSIX923)); } [Test] public void Zeros_ISO10126 () { Assert.AreEqual (4, Mismatch (PaddingMode.Zeros, PaddingMode.ISO10126)); } #endif [Test] public void Zeros_None () { Assert.AreEqual (0, Mismatch (PaddingMode.Zeros, PaddingMode.None)); } [Test] public void Zeros_PKCS7 () { #if NET_2_0 Assert.AreEqual (4, Mismatch (PaddingMode.Zeros, PaddingMode.PKCS7)); #else Assert.AreEqual (0, Mismatch (PaddingMode.Zeros, PaddingMode.PKCS7)); #endif } // MACTripleDES tests #if NET_2_0 private string MAC (PaddingMode padding, int length) { byte[] key = new byte [24] { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x08, 0x07, 0x06, 0x05, 0x04, 0x03, 0x02, 0x01, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08 }; MACTripleDES mac = new MACTripleDES (key); mac.Padding = padding; byte[] data = new byte [length]; byte[] hash = mac.TransformFinalBlock (data, 0, data.Length); string result = BitConverter.ToString (mac.Hash); return result; } // Note: TripleDES block size is 8 bytes [Test] public void MACTripleDES_ANSIX923 () { Assert.AreEqual ("F6-61-3E-C8-E4-A4-D1-A8", MAC (PaddingMode.ANSIX923, 8), "Full"); Assert.AreEqual ("62-C3-78-B0-27-FC-EB-E0", MAC (PaddingMode.ANSIX923, 4), "Partial"); } [Test] public void MACTripleDES_ISO10126 () { // ISO 10126 use random in it's padding so we can't use it to get "repeatable" results // (i.e. each call will get different result). This isn't a padding to use for MACing!!! Assert.AreEqual (23, MAC (PaddingMode.ISO10126, 8).Length, "Full"); Assert.AreEqual (23, MAC (PaddingMode.ISO10126, 4).Length, "Partial"); } [Test] public void MACTripleDES_None () { Assert.AreEqual ("46-34-5C-8E-EB-DC-74-5C", MAC (PaddingMode.None, 8), "Full"); } [Test] [ExpectedException (typeof (CryptographicException))] public void MACTripleDES_None_Partial () { // Illegal - must be a multiple of block size MAC (PaddingMode.None, 4); } [Test] public void MACTripleDES_PKCS7 () { Assert.AreEqual ("17-71-9F-D5-0B-EF-1D-07", MAC (PaddingMode.PKCS7, 8), "Full"); Assert.AreEqual ("5B-3A-13-6F-3F-6F-13-22", MAC (PaddingMode.PKCS7, 4), "Partial"); } [Test] public void MACTripleDES_Zeros () { Assert.AreEqual ("46-34-5C-8E-EB-DC-74-5C", MAC (PaddingMode.Zeros, 8)); Assert.AreEqual ("46-34-5C-8E-EB-DC-74-5C", MAC (PaddingMode.Zeros, 4)); } // https://bugzilla.novell.com/show_bug.cgi?id=366623 [Test] public void ANSIX923_366623 () { TripleDES algo = GetTripleDES (); algo.IV = new byte [algo.BlockSize >> 3]; algo.Mode = CipherMode.ECB; algo.Padding = PaddingMode.ANSIX923; ICryptoTransform enc = algo.CreateEncryptor (); byte[] data = new byte [2] { 0xff, 0xff }; byte[] encdata = enc.TransformFinalBlock (data, 0, 2); ICryptoTransform dec = algo.CreateDecryptor (); byte[] decdata = dec.TransformFinalBlock (encdata, 0, encdata.Length); Assert.AreEqual (data, decdata); } #endif } }