public void JSONSerialisation()
{
String id = String.Empty;
String name = String.Empty;
String description = String.Empty;
DateTime createdAt = DateTime.MinValue;
DateTime lastUpdatedAt = DateTime.MinValue;
Credential[] credentials = null;
AuditLogEntry[] auditLogEntries = null;
Vault vault = CreateRandomVault(_rng,
out id,
out name,
out description,
out createdAt,
out lastUpdatedAt,
out credentials,
out auditLogEntries);
JSONVaultSerialiser serialiser = new JSONVaultSerialiser();
JObject json = (JObject)serialiser.Write(vault, String.Empty);
Vault vaultReloaded = (Vault)serialiser.Read(json, String.Empty);
Assert.IsTrue(vault.CompareTo(vaultReloaded) == 0);
}
public object Read(
object data,
string masterPassphrase,
params KeyValuePair<string, string>[] parameters)
{
if (data.GetType() != typeof(Byte[])) throw new ArgumentException("Data must be of type 'Byte[]'.", "data");
DLoggerManager.Instance.Logger.Log(DFramework.Logging.Interfaces.LoggerMessageType.VerboseHigh | DFramework.Logging.Interfaces.LoggerMessageType.Information, "Reading Vault from AES encrypted byte array.");
Dictionary<string, string> parametersDict = parameters.ToDictionary(x => x.Key, x => x.Value);
byte[] dataBytesWithSalt = (Byte[])data;
byte[] dataBytes;
byte[] salt;
dataBytesWithSalt.RemoveFromEnd(16, out dataBytes, out salt);
GraphBuilder decryptGraph = new GraphBuilder("AESEncryptedVaultSerialiser.Read");
GraphIO<Byte[]> encryptedInput = new GraphIO<Byte[]>(dataBytes);
GraphIO<Byte[]> saltInput = new GraphIO<Byte[]>(salt);
IGraphNode keyDerivationNode = null;
if(parametersDict.ContainsKey("KeyDerivationFunction"))
{
string keyDerivationFunction = parametersDict["KeyDerivationFunction"];
switch (keyDerivationFunction)
{
case "PBKDF2":
{
int iterationCount = int.Parse(parametersDict["IterationCount"]);
keyDerivationNode = new Rfc2898DeriveBytesNode(new GraphIO<String>(String.Empty), new GraphIO<Int32>(32), saltInput, new GraphIO<int>(iterationCount));
decryptGraph.AddNode("deriveNode", keyDerivationNode);
break;
}
case "SCRYPT":
{
int iterationCount = int.Parse(parametersDict["IterationCount"]);
int blockSize = int.Parse(parametersDict["BlockSize"]);
int threadCount = int.Parse(parametersDict["ThreadCount"]);
keyDerivationNode = new SCryptDeriveBytesNode(new GraphIO<String>(String.Empty), new GraphIO<Int32>(32), saltInput, new GraphIO<int>(iterationCount), new GraphIO<int>(blockSize), new GraphIO<int>(threadCount));
decryptGraph.AddNode("deriveNode", keyDerivationNode);
break;
}
default:
{
throw new InvalidOperationException(String.Format("Unknown key derivation function '{0}'.", keyDerivationFunction));
}
}
}
else
{
keyDerivationNode = new Rfc2898DeriveBytesNode(new GraphIO<String>(String.Empty), new GraphIO<Int32>(32), saltInput, new GraphIO<Int32>(10000));
decryptGraph.AddNode("deriveNode", keyDerivationNode);
}
AESDecryptNode decryptNode = new AESDecryptNode(encryptedInput, new GraphIO<Byte[]>(null), keyDerivationNode.GetBytesIO("DerivedKey"));
decryptGraph.AddNode("decryptNode", decryptNode);
decryptGraph.CreateRoute("decrypt",
keyDerivationNode.GetStringIO("Password"),
decryptNode.UnencryptedData,
"deriveNode",
new String[] { "deriveNode", "decryptNode" });
Object output = null;
if (decryptGraph.Process(true, "decrypt", masterPassphrase, out output))
{
String decryptedJSON = (String)output;
JObject json = JObject.Parse(decryptedJSON);
JSONVaultSerialiser jsonSerialiser = new JSONVaultSerialiser();
Vault vault = (Vault)jsonSerialiser.Read(json, String.Empty);
return (vault);
}
else
{
throw new Exception("Failed to decrypt Vault.");
}
}