// Decompiled with JetBrains decompiler // Type: Microsoft.InfoCards.RoamingStoreFileUtility // 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; using System.IO; using System.Security.Cryptography; using System.Text; namespace Microsoft.InfoCards { internal sealed class RoamingStoreFileUtility { private const int ENCRYPTIONKEYBUFFERSIZE = 32; private const int ENCRYPTIONKEYBITLENGTH = 256; private const int ENCRYPTIONIVBUFFERSIZE = 16; private const int ENCRYPTIONIVBITLENGTH = 128; private const int ITERATIONCOUNT = 1000; private const int SHA256_BUFFERSIZE = 32; private static readonly byte[] DerivedKeySignatureEntropy = new byte[16] { (byte) 196, (byte) 1, (byte) 123, (byte) 241, (byte) 107, (byte) 173, (byte) 47, (byte) 66, (byte) 175, (byte) 244, (byte) 151, (byte) 125, (byte) 4, (byte) 104, (byte) 3, (byte) 219 }; private static readonly byte[] DerivedKeyEncryptionEntropy = new byte[16] { (byte) 217, (byte) 89, (byte) 123, (byte) 38, (byte) 30, (byte) 216, (byte) 179, (byte) 68, (byte) 147, (byte) 35, (byte) 179, (byte) 150, (byte) 133, (byte) 222, (byte) 149, (byte) 252 }; public static int SaltLength => 16; private RoamingStoreFileUtility() { } public static int CalculateEncryptedSize(int decryptedLength) { int num = decryptedLength; return num + (16 - num % 16) + 48; } public static int CalculateDecryptedSize(int encryptedLength) => encryptedLength - 48; public static void Decrypt( Stream source, Stream destination, string passwordString, byte[] salt) { byte[] bytes = Encoding.Unicode.GetBytes(passwordString); byte[] encryptionKey; byte[] signatureKey; try { RoamingStoreFileUtility.CreateKeyPair(bytes, salt, out encryptionKey, out signatureKey); } finally { Array.Clear((Array) bytes, 0, bytes.Length); } try { byte[] numArray1 = new byte[16]; if (numArray1.Length != source.Read(numArray1, 0, numArray1.Length)) throw InfoCardTrace.ThrowHelperError((Exception) new ImportException(SR.GetString("InvalidImportFile"))); using (RijndaelManaged rijndaelManaged = new RijndaelManaged()) { rijndaelManaged.Padding = PaddingMode.PKCS7; rijndaelManaged.Mode = CipherMode.CBC; rijndaelManaged.BlockSize = numArray1.Length * 8; rijndaelManaged.KeySize = encryptionKey.Length * 8; using (RijndaelManagedTransform decryptor = (RijndaelManagedTransform) rijndaelManaged.CreateDecryptor(encryptionKey, numArray1)) { using (SHA256Managed shA256Managed = new SHA256Managed()) { byte[] numArray2 = new byte[decryptor.InputBlockSize]; byte[] numArray3 = new byte[decryptor.OutputBlockSize]; byte[] numArray4 = new byte[shA256Managed.HashSize / 8]; using (MemoryStream inputStream = new MemoryStream(new byte[numArray1.Length + encryptionKey.Length + decryptor.OutputBlockSize])) { if (numArray4.Length != source.Read(numArray4, 0, numArray4.Length)) throw InfoCardTrace.ThrowHelperError((Exception) new ImportException(SR.GetString("InvalidImportFile"))); inputStream.Write(numArray1, 0, numArray1.Length); inputStream.Write(signatureKey, 0, signatureKey.Length); while (source.Position < source.Length - (long) numArray2.Length) { try { int inputCount = source.Read(numArray2, 0, numArray2.Length); int count = decryptor.TransformBlock(numArray2, 0, inputCount, numArray3, 0); if (count > 0) destination.Write(numArray3, 0, count); } finally { Array.Clear((Array) numArray3, 0, numArray3.Length); Array.Clear((Array) numArray2, 0, numArray2.Length); } } int inputCount1 = source.Read(numArray2, 0, numArray2.Length); byte[] buffer = decryptor.TransformFinalBlock(numArray2, 0, inputCount1); destination.Write(buffer, 0, buffer.Length); inputStream.Write(buffer, buffer.Length - decryptor.OutputBlockSize, decryptor.OutputBlockSize); inputStream.Flush(); inputStream.Seek(0L, SeekOrigin.Begin); if (!RoamingStoreFileUtility.CompareSignature(shA256Managed.ComputeHash((Stream) inputStream), numArray4)) throw InfoCardTrace.ThrowHelperError((Exception) new ImportException(SR.GetString("InvalidImportFile"))); } } } } } finally { Array.Clear((Array) encryptionKey, 0, encryptionKey.Length); Array.Clear((Array) signatureKey, 0, signatureKey.Length); } } public static void Encrypt( Stream source, Stream destination, string passwordString, out byte[] salt) { RandomNumberGenerator randomNumberGenerator = (RandomNumberGenerator) new RNGCryptoServiceProvider(); salt = new byte[16]; randomNumberGenerator.GetBytes(salt); byte[] bytes = Encoding.Unicode.GetBytes(passwordString); byte[] encryptionKey; byte[] signatureKey; try { RoamingStoreFileUtility.CreateKeyPair(bytes, salt, out encryptionKey, out signatureKey); } finally { Array.Clear((Array) bytes, 0, bytes.Length); } try { byte[] numArray1 = new byte[16]; randomNumberGenerator.GetBytes(numArray1); using (RijndaelManaged rijndaelManaged = new RijndaelManaged()) { rijndaelManaged.Padding = PaddingMode.PKCS7; rijndaelManaged.Mode = CipherMode.CBC; rijndaelManaged.BlockSize = numArray1.Length * 8; rijndaelManaged.KeySize = encryptionKey.Length * 8; using (RijndaelManagedTransform encryptor = (RijndaelManagedTransform) rijndaelManaged.CreateEncryptor(encryptionKey, numArray1)) { using (SHA256Managed shA256Managed = new SHA256Managed()) { byte[] numArray2 = new byte[encryptor.InputBlockSize]; byte[] buffer1 = (byte[]) null; byte[] numArray3 = new byte[encryptor.OutputBlockSize]; byte[] numArray4 = new byte[numArray1.Length + shA256Managed.HashSize / 8]; using (MemoryStream inputStream = new MemoryStream(new byte[numArray1.Length + signatureKey.Length + encryptor.InputBlockSize])) { inputStream.Write(numArray1, 0, numArray1.Length); inputStream.Write(signatureKey, 0, signatureKey.Length); try { destination.Write(numArray4, 0, numArray4.Length); int num = 0; while (source.Position < source.Length - (long) numArray2.Length) { num = source.Read(numArray2, 0, numArray2.Length); try { int count = encryptor.TransformBlock(numArray2, 0, numArray2.Length, numArray3, 0); destination.Write(numArray3, 0, count); } finally { Array.Clear((Array) numArray2, 0, numArray2.Length); Array.Clear((Array) numArray3, 0, numArray3.Length); } } int inputCount = source.Read(numArray2, 0, numArray2.Length); if (inputCount != numArray2.Length) { byte[] buffer2 = new byte[numArray2.Length]; source.Seek(source.Length - (long) numArray2.Length, SeekOrigin.Begin); InfoCardTrace.Assert(source.Read(buffer2, 0, buffer2.Length) == buffer2.Length && buffer2.Length == numArray2.Length, "Should have read exactly 0x20 bytes"); inputStream.Write(buffer2, 0, buffer2.Length); } else inputStream.Write(numArray2, 0, numArray2.Length); buffer1 = encryptor.TransformFinalBlock(numArray2, 0, inputCount); destination.Write(buffer1, 0, buffer1.Length); destination.Flush(); inputStream.Flush(); inputStream.Seek(0L, SeekOrigin.Begin); byte[] hash = shA256Managed.ComputeHash((Stream) inputStream); Array.Copy((Array) numArray1, 0, (Array) numArray4, 0, numArray1.Length); Array.Copy((Array) hash, 0, (Array) numArray4, numArray1.Length, hash.Length); destination.Seek(0L, SeekOrigin.Begin); destination.Write(numArray4, 0, numArray4.Length); destination.Flush(); destination.Seek(0L, SeekOrigin.End); } finally { Array.Clear((Array) numArray2, 0, numArray2.Length); Array.Clear((Array) numArray3, 0, numArray3.Length); Array.Clear((Array) numArray4, 0, numArray4.Length); if (buffer1 != null) Array.Clear((Array) buffer1, 0, buffer1.Length); } } } } } } finally { Array.Clear((Array) encryptionKey, 0, encryptionKey.Length); Array.Clear((Array) signatureKey, 0, signatureKey.Length); } } private static void CreateKeyPair( byte[] password, byte[] salt, out byte[] encryptionKey, out byte[] signatureKey) { byte[] sourceArray = RoamingStoreFileUtility.DoPkcs5(password, salt); using (SHA256Managed shA256Managed = new SHA256Managed()) { byte[] numArray1 = new byte[32 + RoamingStoreFileUtility.DerivedKeyEncryptionEntropy.Length]; byte[] numArray2 = new byte[32 + RoamingStoreFileUtility.DerivedKeySignatureEntropy.Length]; Array.Copy((Array) RoamingStoreFileUtility.DerivedKeyEncryptionEntropy, 0, (Array) numArray1, 0, RoamingStoreFileUtility.DerivedKeyEncryptionEntropy.Length); Array.Copy((Array) RoamingStoreFileUtility.DerivedKeySignatureEntropy, 0, (Array) numArray2, 0, RoamingStoreFileUtility.DerivedKeySignatureEntropy.Length); Array.Copy((Array) sourceArray, 0, (Array) numArray1, RoamingStoreFileUtility.DerivedKeyEncryptionEntropy.Length, 32); Array.Copy((Array) sourceArray, 0, (Array) numArray2, RoamingStoreFileUtility.DerivedKeySignatureEntropy.Length, 32); encryptionKey = shA256Managed.ComputeHash(numArray1); signatureKey = shA256Managed.ComputeHash(numArray2); } } private static byte[] DoPkcs5(byte[] password, byte[] salt) => new PasswordDeriveBytes(password, salt, "SHA256", 1000).GetBytes(32); internal static bool CompareSignature(byte[] input, byte[] expected) { if (input.Length == 0 || input.Length != expected.Length) return false; for (int index = 0; index < input.Length; ++index) { if ((int) expected[index] != (int) input[index]) return false; } return true; } } }