public void SetUp() { var certificate = TestCertificates.GetCertificate(); // Отправитель имеет открытый асимметричный ключ для шифрации сессионного ключа _publicKey = certificate.GetPublicKeyAlgorithm(); // Получатель имеет закрытый асимметричный ключ для дешифрации сессионного ключа _privateKey = certificate.GetPrivateKeyAlgorithm(); }
public void ShouldSignXml() { // Given var signingCertificate = TestCertificates.GetCertificate(); var xmlDocument = CreateXmlDocument(); // When var signedXmlDocument = SignXmlDocument(xmlDocument, signingCertificate); // Then Assert.IsTrue(VerifyXmlDocumentSignature(signedXmlDocument)); }
public void ShouldSignXml() { // Given var signingCertificate = TestCertificates.GetCertificate(); var smevRequest = CreateSmevRequest(); // When var signedXmlDocument = SignSmevRequest(smevRequest, signingCertificate); // Then Assert.IsTrue(VerifySmevRequestSignature(signedXmlDocument)); }
public void ShouldSign() { // Given var certificate = TestCertificates.GetCertificate(); var message = CreateMessage(); // When var detachedSignature = SignMessage(certificate, message); var isValudDetachedSignature = VerifyMessage(message, detachedSignature); // Then Assert.IsTrue(isValudDetachedSignature); }
public void ShouldEncryptAndDecrypt() { // Given var certificate = TestCertificates.GetCertificate(); var message = CreateMessage(); // When var encryptedMessage = EncryptMessage(certificate, message); var decryptedMessage = DecryptMessage(encryptedMessage); // Then Assert.IsTrue(message.SequenceEqual(decryptedMessage)); }
public void ShouldSign() { // Given var certificate = TestCertificates.GetCertificate(); var message = CreateMessage(); // When var signedMessage = SignMessage(certificate, message); var isValudSignedMessage = VerifyMessage(signedMessage); // Then Assert.IsTrue(isValudSignedMessage); }
public void ShouldEncryptXml() { // Given var certificate = TestCertificates.GetCertificate(); var xmlDocument = CreateXmlDocument(); var expectedXml = xmlDocument.OuterXml; // When var encryptedXmlDocument = EncryptXmlDocument(xmlDocument, certificate); var decryptedXmlDocument = DecryptXmlDocument(encryptedXmlDocument); var actualXml = decryptedXmlDocument.OuterXml; // Then Assert.AreEqual(expectedXml, actualXml); }
public void ShouldSignDataStream() { // Given var certificate = TestCertificates.GetCertificate(); var privateKey = (Gost3410AsymmetricAlgorithmBase)certificate.GetPrivateKeyAlgorithm(); var publicKey = (Gost3410AsymmetricAlgorithmBase)certificate.GetPrivateKeyAlgorithm(); var dataStream = CreateDataStream(); // When dataStream.Seek(0, SeekOrigin.Begin); var signature = CreateSignature(privateKey, dataStream); dataStream.Seek(0, SeekOrigin.Begin); var isValidSignature = VerifySignature(publicKey, dataStream, signature); // Then Assert.IsTrue(isValidSignature); }
public void ShouldSign() { // Given var certificate = TestCertificates.GetCertificate(); Assert.IsNotNull(certificate); Assert.AreEqual(certificate.SignatureAlgorithm.Value, "1.2.643.2.2.3"); var message = CreateMessage(); // When var signedMessage = SignMessage(certificate, message); var bFile = Convert.ToBase64String(signedMessage); File.WriteAllBytes("test.txt", signedMessage); var isValudSignedMessage = VerifyMessage(signedMessage); // Then Assert.IsTrue(isValudSignedMessage); }