diff options
| author | gefeili <gli@keyfactor.com> | 2023-01-25 11:47:18 +1030 |
|---|---|---|
| committer | gefeili <gli@keyfactor.com> | 2023-01-25 11:47:18 +1030 |
| commit | 876ff0e8bacc3bbed2345e25aea8d12b0a75d601 (patch) | |
| tree | 0cf2ac5808cff531240342e4bc5166e90cb04be5 /crypto/test/src | |
| parent | Fix method name (obsolete old one) (diff) | |
| download | BouncyCastle.NET-ed25519-876ff0e8bacc3bbed2345e25aea8d12b0a75d601.tar.xz | |
Add ISAP to the master branch
Diffstat (limited to 'crypto/test/src')
| -rw-r--r-- | crypto/test/src/crypto/test/ISAPTest.cs | 505 |
1 files changed, 505 insertions, 0 deletions
diff --git a/crypto/test/src/crypto/test/ISAPTest.cs b/crypto/test/src/crypto/test/ISAPTest.cs new file mode 100644 index 000000000..664795ea0 --- /dev/null +++ b/crypto/test/src/crypto/test/ISAPTest.cs @@ -0,0 +1,505 @@ +using System; +using NUnit.Framework; +using Org.BouncyCastle.Crypto; +using Org.BouncyCastle.Crypto.Engines; +using Org.BouncyCastle.Crypto.Parameters; +using Org.BouncyCastle.Utilities; +using Org.BouncyCastle.Utilities.Encoders; +using Org.BouncyCastle.Utilities.Test; +using System.Collections.Generic; +using System.IO; +using static Org.BouncyCastle.Crypto.Engines.ISAPEngine; +using NUnit.Framework.Internal; +using Org.BouncyCastle.Crypto.Digests; +using Org.BouncyCastle.Crypto.Modes; + +namespace BouncyCastle.Crypto.Tests +{ + [TestFixture] + public class ISAPTest : SimpleTest + { + public override string Name + { + get { return "ISAP"; } + } + + [Test] + public override void PerformTest() + { + ISAPEngine ISAP = new ISAPEngine(IsapType.ISAP_K_128A); + testExceptions(ISAP, ISAP.GetKeyBytesSize(), ISAP.GetIVBytesSize(), ISAP.GetBlockSize()); + testParameters(ISAP, 16, 16, 16, 18); + ISAP = new ISAPEngine(IsapType.ISAP_K_128); + testExceptions(ISAP, ISAP.GetKeyBytesSize(), ISAP.GetIVBytesSize(), ISAP.GetBlockSize()); + testParameters(ISAP, 16, 16, 16, 18); + ISAP = new ISAPEngine(IsapType.ISAP_A_128A); + testExceptions(ISAP, ISAP.GetKeyBytesSize(), ISAP.GetIVBytesSize(), ISAP.GetBlockSize()); + testParameters(ISAP, 16, 16, 16, 8); + ISAP = new ISAPEngine(IsapType.ISAP_A_128); + testExceptions(ISAP, ISAP.GetKeyBytesSize(), ISAP.GetIVBytesSize(), ISAP.GetBlockSize()); + testParameters(ISAP, 16, 16, 16, 8); + testExceptions(new ISAPDigest(), 32); + testVectors("isapa128av20", IsapType.ISAP_A_128A); + testVectors("isapa128v20", IsapType.ISAP_A_128); + testVectors("isapk128av20", IsapType.ISAP_K_128A); + testVectors("isapk128v20", IsapType.ISAP_K_128); + testVectors(); + } + + + private void testVectors(String filename, IsapType isapType) + { + ISAPEngine isap = new ISAPEngine(isapType); + ICipherParameters param; + var buf = new Dictionary<string, string>(); + //TestSampler sampler = new TestSampler(); + using (var src = new StreamReader(SimpleTest.GetTestDataAsStream("crypto.isap." + filename + "_LWC_AEAD_KAT_128_128.txt"))) + { + string line; + string[] data; + byte[] ptByte, adByte; + byte[] rv; + Dictionary<string, string> map = new Dictionary<string, string>(); + while ((line = src.ReadLine()) != null) + { + data = line.Split(' '); + if (data.Length == 1) + { + byte[] key = Hex.Decode(map["Key"]); + byte[] nonce = Hex.Decode(map["Nonce"]); + byte[] ad = Hex.Decode(map["AD"]); + byte[] pt = Hex.Decode(map["PT"]); + byte[] ct = Hex.Decode(map["CT"]); + param = new ParametersWithIV(new KeyParameter(key), nonce); + isap.Init(true, param); + isap.ProcessAadBytes(ad, 0, ad.Length); + rv = new byte[isap.GetOutputSize(pt.Length)]; + int len = isap.ProcessBytes(pt, 0, pt.Length, rv, 0); + //byte[] mac = new byte[16]; + isap.DoFinal(rv, len); + //foreach(byte b in Hex.Decode(map["CT"])) + //{ + // Console.Write(b.ToString("X2")); + //} + //Console.WriteLine(); + //foreach (byte b in Arrays.Concatenate(rv, mac)) + //{ + // Console.Write(b.ToString("X2")); + //} + //Console.WriteLine(); + Assert.True(Arrays.AreEqual(rv, ct)); + isap.Reset(); + isap.Init(false, param); + //Decrypt + isap.ProcessAadBytes(ad, 0, ad.Length); + rv = new byte[pt.Length + 16]; + len = isap.ProcessBytes(ct, 0, ct.Length, rv, 0); + isap.DoFinal(rv, len); + byte[] pt_recovered = new byte[pt.Length]; + Array.Copy(rv, 0, pt_recovered, 0, pt.Length); + Assert.True(Arrays.AreEqual(pt, pt_recovered)); + //Console.WriteLine(map["Count"] + " pass"); + map.Clear(); + isap.Reset(); + } + else + { + if (data.Length >= 3) + { + map[data[0].Trim()] = data[2].Trim(); + } + else + { + map[data[0].Trim()] = ""; + } + + } + } + } + } + private void testVectors() + { + ISAPDigest isap = new ISAPDigest(); + ICipherParameters param; + var buf = new Dictionary<string, string>(); + //TestSampler sampler = new TestSampler(); + using (var src = new StreamReader(SimpleTest.GetTestDataAsStream("crypto.isap.LWC_HASH_KAT_256.txt"))) + { + string line; + string[] data; + byte[] ptByte, adByte; + byte[] rv; + Dictionary<string, string> map = new Dictionary<string, string>(); + while ((line = src.ReadLine()) != null) + { + data = line.Split(' '); + if (data.Length == 1) + { + ptByte = Hex.Decode(map["Msg"]); + isap.BlockUpdate(ptByte, 0, ptByte.Length); + byte[] hash = new byte[32]; + isap.DoFinal(hash, 0); + Assert.True(Arrays.AreEqual(hash, Hex.Decode(map["MD"]))); + //Console.WriteLine(map["Count"] + " pass"); + map.Clear(); + isap.Reset(); + } + else + { + if (data.Length >= 3) + { + map[data[0].Trim()] = data[2].Trim(); + } + else + { + map[data[0].Trim()] = ""; + } + + } + } + } + } + + private void testExceptions(IAeadBlockCipher aeadBlockCipher, int keysize, int ivsize, int blocksize) + + { + ICipherParameters param; + byte[] k = new byte[keysize]; + byte[] iv = new byte[ivsize]; + byte[] m = new byte[0]; + byte[] c1 = new byte[aeadBlockCipher.GetOutputSize(m.Length)]; + param = new ParametersWithIV(new KeyParameter(k), iv); + try + { + aeadBlockCipher.ProcessBytes(m, 0, m.Length, c1, 0); + Assert.Fail(aeadBlockCipher.AlgorithmName + " need to be initialed before ProcessBytes"); + } + catch (ArgumentException e) + { + //expected + } + + try + { + aeadBlockCipher.ProcessByte((byte)0, c1, 0); + Assert.Fail(aeadBlockCipher.AlgorithmName + " need to be initialed before ProcessByte"); + } + catch (ArgumentException e) + { + //expected + } + + try + { + aeadBlockCipher.Reset(); + Assert.Fail(aeadBlockCipher.AlgorithmName + " need to be initialed before reset"); + } + catch (ArgumentException e) + { + //expected + } + + try + { + aeadBlockCipher.DoFinal(c1, m.Length); + Assert.Fail(aeadBlockCipher.AlgorithmName + " need to be initialed before dofinal"); + } + catch (ArgumentException e) + { + //expected + } + + try + { + aeadBlockCipher.GetMac(); + aeadBlockCipher.GetOutputSize(0); + aeadBlockCipher.GetUpdateOutputSize(0); + } + catch (ArgumentException e) + { + //expected + Assert.Fail(aeadBlockCipher.AlgorithmName + " functions can be called before initialisation"); + } + Random rand = new Random(); + int randomNum; + while ((randomNum = rand.Next(100)) == keysize) ; + byte[] k1 = new byte[randomNum]; + while ((randomNum = rand.Next(100)) == ivsize) ; + byte[] iv1 = new byte[randomNum]; + try + { + aeadBlockCipher.Init(true, new ParametersWithIV(new KeyParameter(k1), iv)); + Assert.Fail(aeadBlockCipher.AlgorithmName + " k size does not match"); + } + catch (ArgumentException e) + { + //expected + } + try + { + aeadBlockCipher.Init(true, new ParametersWithIV(new KeyParameter(k), iv1)); + Assert.Fail(aeadBlockCipher.AlgorithmName + "iv size does not match"); + } + catch (ArgumentException e) + { + //expected + } + + + aeadBlockCipher.Init(true, param); + try + { + aeadBlockCipher.DoFinal(c1, m.Length); + } + catch (Exception e) + { + Assert.Fail(aeadBlockCipher.AlgorithmName + " allows no input for AAD and plaintext"); + } + byte[] mac2 = aeadBlockCipher.GetMac(); + if (mac2 == null) + { + Assert.Fail("mac should not be empty after dofinal"); + } + if (!Arrays.AreEqual(mac2, c1)) + { + Assert.Fail("mac should be equal when calling dofinal and getMac"); + } + aeadBlockCipher.ProcessAadByte((byte)0); + byte[] mac1 = new byte[aeadBlockCipher.GetOutputSize(0)]; + aeadBlockCipher.DoFinal(mac1, 0); + if (Arrays.AreEqual(mac1, mac2)) + { + Assert.Fail("mac should not match"); + } + aeadBlockCipher.Reset(); + aeadBlockCipher.ProcessBytes(new byte[16], 0, 16, new byte[16], 0); + //try + //{ + // aeadBlockCipher.ProcessAadByte((byte)0); + // Assert.Fail("ProcessAadByte(s) cannot be called after encryption/decryption"); + //} + //catch (ArgumentException e) + //{ + // //expected + //} + //try + //{ + // aeadBlockCipher.ProcessAadBytes(new byte[] { 0 }, 0, 1); + // Assert.Fail("ProcessAadByte(s) cannot be called once only"); + //} + //catch (ArgumentException e) + //{ + // //expected + //} + + aeadBlockCipher.Reset(); + try + { + aeadBlockCipher.ProcessAadBytes(new byte[] { 0 }, 1, 1); + Assert.Fail("input for ProcessAadBytes is too short"); + } + catch (DataLengthException e) + { + //expected + } + try + { + aeadBlockCipher.ProcessBytes(new byte[] { 0 }, 1, 1, c1, 0); + Assert.Fail("input for ProcessBytes is too short"); + } + catch (DataLengthException e) + { + //expected + } + try + { + aeadBlockCipher.ProcessBytes(new byte[blocksize], 0, blocksize, new byte[blocksize], blocksize >> 1); + Assert.Fail("output for ProcessBytes is too short"); + } + catch (OutputLengthException e) + { + //expected + } + try + { + aeadBlockCipher.DoFinal(new byte[2], 2); + Assert.Fail("output for dofinal is too short"); + } + catch (DataLengthException e) + { + //expected + } + + mac1 = new byte[aeadBlockCipher.GetOutputSize(0)]; + mac2 = new byte[aeadBlockCipher.GetOutputSize(0)]; + aeadBlockCipher.Reset(); + aeadBlockCipher.ProcessAadBytes(new byte[] { 0, 0 }, 0, 2); + aeadBlockCipher.DoFinal(mac1, 0); + aeadBlockCipher.Reset(); + aeadBlockCipher.ProcessAadByte((byte)0); + aeadBlockCipher.ProcessAadByte((byte)0); + aeadBlockCipher.DoFinal(mac2, 0); + if (!Arrays.AreEqual(mac1, mac2)) + { + Assert.Fail("mac should match for the same AAD with different ways of inputing"); + } + + byte[] c2 = new byte[aeadBlockCipher.GetOutputSize(10)]; + byte[] c3 = new byte[aeadBlockCipher.GetOutputSize(10) + 2]; + byte[] aad2 = { 0, 1, 2, 3, 4 }; + byte[] aad3 = { 0, 0, 1, 2, 3, 4, 5 }; + byte[] m2 = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 }; + byte[] m3 = { 0, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 }; + byte[] m4 = new byte[m2.Length]; + aeadBlockCipher.Reset(); + aeadBlockCipher.ProcessAadBytes(aad2, 0, aad2.Length); + int offset = aeadBlockCipher.ProcessBytes(m2, 0, m2.Length, c2, 0); + aeadBlockCipher.DoFinal(c2, offset); + aeadBlockCipher.Reset(); + aeadBlockCipher.ProcessAadBytes(aad3, 1, aad2.Length); + offset = aeadBlockCipher.ProcessBytes(m3, 1, m2.Length, c3, 1); + aeadBlockCipher.DoFinal(c3, offset + 1); + byte[] c3_partial = new byte[c2.Length]; + Array.Copy(c3, 1, c3_partial, 0, c2.Length); + if (!Arrays.AreEqual(c2, c3_partial)) + { + Assert.Fail("mac should match for the same AAD and message with different offset for both input and output"); + } + aeadBlockCipher.Reset(); + aeadBlockCipher.Init(false, param); + aeadBlockCipher.ProcessAadBytes(aad2, 0, aad2.Length); + offset = aeadBlockCipher.ProcessBytes(c2, 0, c2.Length, m4, 0); + aeadBlockCipher.DoFinal(m4, offset); + if (!Arrays.AreEqual(m2, m4)) + { + Assert.Fail("The encryption and decryption does not recover the plaintext"); + } + Console.WriteLine(aeadBlockCipher.AlgorithmName + " test Exceptions pass"); + c2[c2.Length - 1] ^= 1; + aeadBlockCipher.Reset(); + aeadBlockCipher.Init(false, param); + aeadBlockCipher.ProcessAadBytes(aad2, 0, aad2.Length); + offset = aeadBlockCipher.ProcessBytes(c2, 0, c2.Length, m4, 0); + try + { + aeadBlockCipher.DoFinal(m4, offset); + Assert.Fail("The decryption should fail"); + } + catch (ArgumentException e) + { + //expected; + } + c2[c2.Length - 1] ^= 1; + + byte[] m7 = new byte[blocksize * 2]; + for (int i = 0; i < m7.Length; ++i) + { + m7[i] = (byte)rand.Next(); + } + byte[] c7 = new byte[aeadBlockCipher.GetOutputSize(m7.Length)]; + byte[] c8 = new byte[c7.Length]; + byte[] c9 = new byte[c7.Length]; + aeadBlockCipher.Init(true, param); + aeadBlockCipher.ProcessAadBytes(aad2, 0, aad2.Length); + offset = aeadBlockCipher.ProcessBytes(m7, 0, m7.Length, c7, 0); + aeadBlockCipher.DoFinal(c7, offset); + aeadBlockCipher.Reset(); + aeadBlockCipher.ProcessAadBytes(aad2, 0, aad2.Length); + offset = aeadBlockCipher.ProcessBytes(m7, 0, blocksize, c8, 0); + offset += aeadBlockCipher.ProcessBytes(m7, blocksize, m7.Length - blocksize, c8, offset); + aeadBlockCipher.DoFinal(c8, offset); + aeadBlockCipher.Reset(); + int split = rand.Next(blocksize * 2); + aeadBlockCipher.ProcessAadBytes(aad2, 0, aad2.Length); + offset = aeadBlockCipher.ProcessBytes(m7, 0, split, c9, 0); + offset += aeadBlockCipher.ProcessBytes(m7, split, m7.Length - split, c9, offset); + aeadBlockCipher.DoFinal(c9, offset); + if (!Arrays.AreEqual(c7, c8) || !Arrays.AreEqual(c7, c9)) + { + Assert.Fail("Splitting input of plaintext should output the same ciphertext"); + } +#if NET6_0_OR_GREATER || NETSTANDARD2_1_OR_GREATER + Span<byte> c4_1 = new byte[c2.Length]; + Span<byte> c4_2 = new byte[c2.Length]; + ReadOnlySpan<byte> m5 = new ReadOnlySpan<byte>(m2); + ReadOnlySpan<byte> aad4 = new ReadOnlySpan<byte>(aad2); + aeadBlockCipher.Init(true, param); + aeadBlockCipher.ProcessAadBytes(aad4); + offset = aeadBlockCipher.ProcessBytes(m5, c4_1); + aeadBlockCipher.DoFinal(c4_2); + byte[] c5 = new byte[c2.Length]; + Array.Copy(c4_1.ToArray(), 0, c5, 0, offset); + Array.Copy(c4_2.ToArray(), 0, c5, offset, c5.Length - offset); + if (!Arrays.AreEqual(c2, c5)) + { + Assert.Fail("mac should match for the same AAD and message with different offset for both input and output"); + } + aeadBlockCipher.Reset(); + aeadBlockCipher.Init(false, param); + Span<byte> m6_1 = new byte[m2.Length]; + Span<byte> m6_2 = new byte[m2.Length]; + ReadOnlySpan<byte> c6 = new ReadOnlySpan<byte>(c2); + aeadBlockCipher.ProcessAadBytes(aad4); + offset = aeadBlockCipher.ProcessBytes(c6, m6_1); + aeadBlockCipher.DoFinal(m6_2); + byte[] m6 = new byte[m2.Length]; + Array.Copy(m6_1.ToArray(), 0, m6, 0, offset); + Array.Copy(m6_2.ToArray(), 0, m6, offset, m6.Length - offset); + if (!Arrays.AreEqual(m2, m6)) + { + Assert.Fail("mac should match for the same AAD and message with different offset for both input and output"); + } +#endif + + } + + private void testParameters(ISAPEngine ascon, int keySize, int ivSize, int macSize, int blockSize) + { + if (ascon.GetKeyBytesSize() != keySize) + { + Assert.Fail("key bytes of " + ascon.AlgorithmName + " is not correct"); + } + if (ascon.GetIVBytesSize() != ivSize) + { + Assert.Fail("iv bytes of " + ascon.AlgorithmName + " is not correct"); + } + if (ascon.GetOutputSize(0) != macSize) + { + Assert.Fail("mac bytes of " + ascon.AlgorithmName + " is not correct"); + } + if (ascon.GetBlockSize() != blockSize) + { + Assert.Fail("block size of " + ascon.AlgorithmName + " is not correct"); + } + Console.WriteLine(ascon.AlgorithmName + " test Parameters pass"); + } + + private void testExceptions(IDigest digest, int digestsize) + { + if (digest.GetDigestSize() != digestsize) + { + Assert.Fail(digest.AlgorithmName + ": digest size is not correct"); + } + + try + { + digest.BlockUpdate(new byte[1], 1, 1); + Assert.Fail(digest.AlgorithmName + ": input for update is too short"); + } + catch (DataLengthException e) + { + //expected + } + try + { + digest.DoFinal(new byte[digest.GetDigestSize() - 1], 2); + Assert.Fail(digest.AlgorithmName + ": output for dofinal is too short"); + } + catch (DataLengthException e) + { + //expected + } + Console.WriteLine(digest.AlgorithmName + " test Exceptions pass"); + } + } +} \ No newline at end of file |