/// <summary> /// This takes an input file and encrypts it into the output file /// </summary> /// <param name="inFile">the file to encrypt</param> /// <param name="outFile">the file to write the encrypted data to</param> /// <param name="password">the password for use as the key</param> /// <param name="callback">the method to call to notify of progress</param> public static void EncryptFile(string inFile, string outFile, string password, CryptoProgressCallBack callback) { using (FileStream fin = File.OpenRead(inFile), fout = File.OpenWrite(outFile)) { long lSize = fin.Length; // the size of the input file for storing int size = (int)lSize; // the size of the input file for progress byte[] bytes = new byte[BUFFER_SIZE]; // the buffer int read = -1; // the amount of bytes read from the input file int value = 0; // the amount overall read from the input file for progress // generate IV and Salt byte[] IV = GenerateRandomBytes(16); byte[] salt = GenerateRandomBytes(16); // create the crypting object SymmetricAlgorithm sma = CryptoHelp.CreateRijndael(password, salt); sma.IV = IV; // write the IV and salt to the beginning of the file fout.Write(IV, 0, IV.Length); fout.Write(salt, 0, salt.Length); // create the hashing and crypto streams HashAlgorithm hasher = SHA256.Create(); using (CryptoStream cout = new CryptoStream(fout, sma.CreateEncryptor(), CryptoStreamMode.Write), chash = new CryptoStream(Stream.Null, hasher, CryptoStreamMode.Write)) { // write the size of the file to the output file BinaryWriter bw = new BinaryWriter(cout); bw.Write(lSize); // write the file cryptor tag to the file bw.Write(FC_TAG); // read and the write the bytes to the crypto stream in BUFFER_SIZEd chunks while ((read = fin.Read(bytes, 0, bytes.Length)) != 0) { cout.Write(bytes, 0, read); chash.Write(bytes, 0, read); value += read; callback(0, size, value); } // flush and close the hashing object chash.Flush(); chash.Close(); // read the hash byte[] hash = hasher.Hash; // write the hash to the end of the file cout.Write(hash, 0, hash.Length); // flush and close the cryptostream cout.Flush(); cout.Close(); } } }
/// <summary> /// takes an input file and decrypts it to the output file /// </summary> /// <param name="inFile">the file to decrypt</param> /// <param name="outFile">the to write the decrypted data to</param> /// <param name="password">the password used as the key</param> /// <param name="callback">the method to call to notify of progress</param> public static void DecryptFile(string inFile, string outFile, string password, CryptoProgressCallBack callback) { // NOTE: The encrypting algo was so much easier... // create and open the file streams using (FileStream fin = File.OpenRead(inFile), fout = File.OpenWrite(outFile)) { int size = (int)fin.Length; // the size of the file for progress notification byte[] bytes = new byte[BUFFER_SIZE]; // byte buffer int read = -1; // the amount of bytes read from the stream int value = 0; int outValue = 0; // the amount of bytes written out // read off the IV and Salt byte[] IV = new byte[16]; fin.Read(IV, 0, 16); byte[] salt = new byte[16]; fin.Read(salt, 0, 16); // create the crypting stream SymmetricAlgorithm sma = CryptoHelp.CreateRijndael(password, salt); sma.IV = IV; value = 32; // the value for the progress long lSize = -1; // the size stored in the input stream // create the hashing object, so that we can verify the file HashAlgorithm hasher = SHA256.Create(); // create the cryptostreams that will process the file using (CryptoStream cin = new CryptoStream(fin, sma.CreateDecryptor(), CryptoStreamMode.Read), chash = new CryptoStream(Stream.Null, hasher, CryptoStreamMode.Write)) { // read size from file BinaryReader br = new BinaryReader(cin); lSize = br.ReadInt64(); ulong tag = br.ReadUInt64(); if (FC_TAG != tag) { throw new CryptoHelpException("File Corrupted!"); } //determine number of reads to process on the file long numReads = lSize / BUFFER_SIZE; // determine what is left of the file, after numReads long slack = (long)lSize % BUFFER_SIZE; // read the buffer_sized chunks for (int i = 0; i < numReads; ++i) { read = cin.Read(bytes, 0, bytes.Length); fout.Write(bytes, 0, read); chash.Write(bytes, 0, read); value += read; outValue += read; callback(0, size, value); } // now read the slack if (slack > 0) { read = cin.Read(bytes, 0, (int)slack); fout.Write(bytes, 0, read); chash.Write(bytes, 0, read); value += read; outValue += read; callback(0, size, value); } // flush and close the hashing stream chash.Flush(); chash.Close(); // flush and close the output file fout.Flush(); fout.Close(); // read the current hash value byte[] curHash = hasher.Hash; // get and compare the current and old hash values byte[] oldHash = new byte[hasher.HashSize / 8]; read = cin.Read(oldHash, 0, oldHash.Length); if ((oldHash.Length != read) || (!CheckByteArrays(oldHash, curHash))) { throw new CryptoHelpException("File Corrupted!"); } } // make sure the written and stored size are equal if (outValue != lSize) { throw new CryptoHelpException("File Sizes don't match!"); } } }