// Decompiled with JetBrains decompiler // Type: Microsoft.InfoCards.EncryptedData // Assembly: infocard, Version=3.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089 // MVID: ADE0A079-11DB-4A46-8BDE-D2A592CA8DEA // Assembly location: C:\Users\Administrateur\Downloads\Virusshare-00001-msil\Virus.Win32.Expiro.w-1f15ee7e9f7da02b6bfb4c5a5e6484eb9fa71b82d3699c54bcc7a31794b4a66d.exe using Microsoft.InfoCards.Diagnostics; using System.IdentityModel.Selectors; using System.IdentityModel.Tokens; using System.Security.Cryptography; using System.Xml; namespace Microsoft.InfoCards { internal class EncryptedData { private string m_type; private EncryptedData.EncryptionMethodElement m_encryptionMethod; private EncryptedData.CipherData m_cipherData; private SecurityKeyIdentifier m_keyIdentifier; private SecurityTokenSerializer m_tokenSerializer; public EncryptedData() { this.m_cipherData = new EncryptedData.CipherData(); this.m_encryptionMethod = new EncryptedData.EncryptionMethodElement(); } public string EncryptionMethod { set => this.m_encryptionMethod.algorithm = value; } public SecurityKeyIdentifier KeyIdentifier { set => this.m_keyIdentifier = value; } public string Type { set => this.m_type = value; } public SecurityTokenSerializer TokenSerializer { set => this.m_tokenSerializer = value; } public void SetUpEncryption( SymmetricAlgorithm algorithm, byte[] buffer, int offset, int length) { InfoCardTrace.ThrowInvalidArgumentConditional(null == algorithm, nameof (algorithm)); byte[] iv; byte[] cipherText; this.GenerateIVAndEncrypt(algorithm, buffer, offset, length, out iv, out cipherText); this.m_cipherData.SetCipherValueFragments(iv, cipherText); } public void WriteTo(XmlWriter writer) { writer.WriteStartElement("enc", nameof (EncryptedData), "http://www.w3.org/2001/04/xmlenc#"); if (!string.IsNullOrEmpty(this.m_type)) writer.WriteAttributeString("Type", (string) null, this.m_type); if (!string.IsNullOrEmpty(this.m_encryptionMethod.algorithm)) this.m_encryptionMethod.WriteTo(writer); if (this.m_keyIdentifier != null) this.m_tokenSerializer.WriteKeyIdentifier((XmlWriter) XmlDictionaryWriter.CreateDictionaryWriter(writer), this.m_keyIdentifier); this.m_cipherData.WriteTo(writer); writer.WriteEndElement(); } private void GenerateIVAndEncrypt( SymmetricAlgorithm algorithm, byte[] plainText, int offset, int length, out byte[] iv, out byte[] cipherText) { RandomNumberGenerator randomNumberGenerator = (RandomNumberGenerator) new RNGCryptoServiceProvider(); int length1 = algorithm.BlockSize / 8; iv = new byte[length1]; randomNumberGenerator.GetBytes(iv); algorithm.Padding = PaddingMode.PKCS7; algorithm.Mode = CipherMode.CBC; using (ICryptoTransform encryptor = algorithm.CreateEncryptor(algorithm.Key, iv)) cipherText = encryptor.TransformFinalBlock(plainText, offset, length); } private struct CipherData { private byte[] m_iv; private byte[] m_cipherText; public byte[] CipherValue => this.m_cipherText; public void SetCipherValueFragments(byte[] iv, byte[] cipherText) { this.m_iv = iv; this.m_cipherText = cipherText; } public void WriteTo(XmlWriter writer) { writer.WriteStartElement("enc", nameof (CipherData), "http://www.w3.org/2001/04/xmlenc#"); writer.WriteStartElement("enc", "CipherValue", "http://www.w3.org/2001/04/xmlenc#"); if (this.m_iv != null) writer.WriteBase64(this.m_iv, 0, this.m_iv.Length); writer.WriteBase64(this.m_cipherText, 0, this.m_cipherText.Length); writer.WriteEndElement(); writer.WriteEndElement(); } } private struct EncryptionMethodElement { internal string algorithm; public void WriteTo(XmlWriter writer) { writer.WriteStartElement("enc", "EncryptionMethod", "http://www.w3.org/2001/04/xmlenc#"); writer.WriteAttributeString("Algorithm", (string) null, this.algorithm); writer.WriteEndElement(); } } } }