public ProtocolsViewModel(Repositories.IConfigurationRepository ConfigurationRepository)
{
this.ConfigurationRepository = ConfigurationRepository;
for (int i = 0; i < protocolMap.Count; i++)
{
var item = protocolMap[i];
var id = i;
var name = item.Item1;
var enabled = item.Item2(this.ConfigurationRepository).Enabled;
protocols.Add(new Protocol { ID = id, Name = name, Enabled = enabled });
}
}
public ProtocolsViewModel(Repositories.IConfigurationRepository ConfigurationRepository)
{
this.ConfigurationRepository = ConfigurationRepository;
for (int i = 0; i < protocolMap.Count; i++)
{
var item = protocolMap[i];
var id = i;
var name = item.Item1;
var enabled = item.Item2(this.ConfigurationRepository).Enabled;
protocols.Add(new Protocol {
ID = id, Name = name, Enabled = enabled
});
}
}
public void Update(Repositories.IConfigurationRepository ConfigurationRepository)
{
var keys = ConfigurationRepository.Keys;
try
{
//var cert = X509.LocalMachine.My.SubjectDistinguishedName.Find(SigningCertificate, false).First();
var cert = X509.CurrentUser.My.SubjectDistinguishedName.Find(SigningCertificate, false).First();
// make sure we can access the private key
var pk = cert.PrivateKey;
keys.SigningCertificate = cert;
}
catch (CryptographicException)
{
throw new ValidationException(string.Format(Resources.KeyConfigurationViewModel.NoReadAccessToPrivateKey, WindowsIdentity.GetCurrent().Name));
}
if (DecryptionCertificate == null)
{
keys.DecryptionCertificate = null;
}
else
{
try
{
// var cert = X509.LocalMachine.My.SubjectDistinguishedName.Find(DecryptionCertificate, false).First();
var cert = X509.CurrentUser.My.SubjectDistinguishedName.Find(DecryptionCertificate, false).First();
// make sure we can access the private key
var pk = cert.PrivateKey;
keys.DecryptionCertificate = cert;
}
catch (CryptographicException)
{
throw new ValidationException(string.Format(Resources.KeyConfigurationViewModel.NoReadAccessToPrivateKey, WindowsIdentity.GetCurrent().Name));
}
}
keys.SymmetricSigningKey = SymmetricSigningKey;
// updates key material config
ConfigurationRepository.Keys = keys;
}
public void Update(Repositories.IConfigurationRepository ConfigurationRepository)
{
var keys = ConfigurationRepository.Keys;
try
{
var cert = X509.LocalMachine.My.SubjectDistinguishedName.Find(SigningCertificate, false).First();
// make sure we can access the private key
var pk = cert.PrivateKey;
keys.SigningCertificate = cert;
}
catch (CryptographicException)
{
throw new ValidationException(WindowsIdentity.GetCurrent().Name + " does not have read access to the private key of the signing certificate you selected (see http://technet.microsoft.com/en-us/library/ee662329.aspx).");
}
if (DecryptionCertificate == null)
{
keys.DecryptionCertificate = null;
}
else
{
try
{
var cert = X509.LocalMachine.My.SubjectDistinguishedName.Find(DecryptionCertificate, false).First();
// make sure we can access the private key
var pk = cert.PrivateKey;
keys.DecryptionCertificate = cert;
}
catch (CryptographicException)
{
throw new ValidationException(WindowsIdentity.GetCurrent().Name + " does not have read access to the private key of the signing certificate you selected (see http://technet.microsoft.com/en-us/library/ee662329.aspx).");
}
}
keys.SymmetricSigningKey = SymmetricSigningKey;
// updates key material config
ConfigurationRepository.Keys = keys;
}
public void Update(Repositories.IConfigurationRepository configurationRepository)
{
new ProtocolsViewModel(configurationRepository).Update(this.Protocols);
}
public ConfigurationService(Repositories.IConfigurationRepository configurations)
{
_configurations = configurations;
}
