/// <summary>This method is called by a CA to sign the provided Certificate
/// with our RSA key.</summary>
public Certificate Sign(Certificate Signer, RSA PrivateKey)
{
X509CertificateBuilder x509_builder = new X509CertificateBuilder(3);
x509_builder.IssuerName = Signer.Subject.DN;
x509_builder.SubjectName = Subject.DN;
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
// I guess this is reversed for network order or something...
byte[] tmp = sha1.ComputeHash(Signer.UnsignedData);
for (int i = 0; i < tmp.Length / 2; i++)
{
int j = tmp.Length - i - 1;
byte tmpb = tmp[i];
tmp[i] = tmp[j];
tmp[j] = tmpb;
}
x509_builder.SerialNumber = tmp;
x509_builder.NotBefore = System.DateTime.MinValue;
x509_builder.NotAfter = System.DateTime.MaxValue;
x509_builder.SubjectPublicKey = _public_key;
SubjectAltNameExtension sane = new SubjectAltNameExtension(null, null, null, new string[] { NodeAddress });
x509_builder.Extensions.Add(sane);
byte[] cert_data = x509_builder.Sign(PrivateKey);
return(new Certificate(cert_data));
}
public static byte[] CreateServerCert(string subjectName, byte[] rootKey, byte[] rootCert)
{
if (!subjectName.StartsWith("CN="))
{
subjectName = "CN=" + subjectName;
}
// Copy the root key since the PrivateKey constructor will blow away the data
byte[] rootKeyCopy = new byte[rootKey.Length];
Buffer.BlockCopy(rootKey, 0, rootKeyCopy, 0, rootKey.Length);
// Load the server's private key and certificate
PrivateKey pvk = new PrivateKey(rootKeyCopy, null);
RSA issuerKey = pvk.RSA;
X509Certificate issuerCert = new X509Certificate(rootCert);
// Serial number MUST be positive
byte[] sn = Guid.NewGuid().ToByteArray();
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
ExtendedKeyUsageExtension eku = new ExtendedKeyUsageExtension();
eku.KeyPurpose.Add("1.3.6.1.5.5.7.3.1"); // Indicates the cert is intended for server auth
// Generate a server certificate signed by the server root CA
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuerCert.IssuerName;
cb.NotBefore = DateTime.Now;
cb.NotAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
cb.SubjectName = subjectName;
cb.SubjectPublicKey = issuerKey;
cb.Hash = "SHA1";
cb.Extensions.Add(eku);
byte[] serverCert = cb.Sign(issuerKey);
// Generate a PKCS#12 file for the server containing the private key and certificate
PKCS12 p12 = new PKCS12();
p12.Password = null;
ArrayList list = new ArrayList(4);
// We use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[] { 1, 0, 0, 0 });
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(serverCert), attributes);
p12.AddCertificate(issuerCert);
p12.AddPkcs8ShroudedKeyBag(issuerKey, attributes);
return(p12.GetBytes());
}
//adapted from https://github.com/mono/mono/blob/master/mcs/tools/security/makecert.cs
public static PKCS12 GeneratePfx(string certificateName, string password)
{
byte[] sn = GenerateSerialNumber();
string subject = string.Format("CN={0}", certificateName);
DateTime notBefore = DateTime.Now;
DateTime notAfter = DateTime.Now.AddYears(20);
var subjectKey = new RSACryptoServiceProvider(2048);
var hashName = "SHA512";
var cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = subject;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
cb.Hash = hashName;
var rawcert = cb.Sign(subjectKey);
var p12 = new PKCS12();
p12.Password = password;
var attributes = GetAttributes();
p12.AddCertificate(new Mono.Security.X509.X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
return(p12);
}
public void SubjectAltNameGenerator()
{
RSACryptoServiceProvider rsa = new RSACryptoServiceProvider();
X509CertificateBuilder x509 = new X509CertificateBuilder();
x509.IssuerName = "C=ZA, ST=Western Cape, L=Cape Town, O=Thawte Consulting cc, OU=Certification Services Division, CN=Thawte Server";
x509.NotAfter = DateTime.MaxValue;
x509.NotBefore = DateTime.MinValue;
x509.SubjectName = "C=US, ST=Maryland, L=Pasadena, O=Brent Baccala, OU=FreeSoft, CN=www.freesoft.org";
x509.SerialNumber = new byte[] { 12, 34, 56, 78, 90 };
x509.Version = 3;
x509.SubjectPublicKey = rsa;
string[] dns = new string[2];
dns[0] = "one";
dns[1] = "two";
string[] uris = new string[3];
uris[0] = "one:two://three";
uris[1] = "Here:I:AM://12345";
uris[2] = "last:one";
SubjectAltNameExtension sane = new SubjectAltNameExtension(null, dns, null, uris);
x509.Extensions.Add(sane);
byte[] data = x509.Sign(rsa);
X509Certificate x509_loaded = new X509Certificate(data);
SubjectAltNameExtension sane_test = new SubjectAltNameExtension(x509_loaded.Extensions[0]);
Assert.AreEqual(sane_test.RFC822.Length, 0, "RFC822 count");
Assert.AreEqual(sane_test.DNSNames.Length, 2, "DNSName count");
Assert.AreEqual(sane_test.IPAddresses.Length, 0, "IPAddresses count");
Assert.AreEqual(sane_test.UniformResourceIdentifiers.Length, 3, "URI Count");
Assert.AreEqual(sane_test.DNSNames[1], "two", "DNSName test");
Assert.AreEqual(sane_test.UniformResourceIdentifiers[2], "last:one", "URI Test");
}
public static X509Certificate2 CreateSelfSignedCertificate(string subjectName)
{
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = "CN=" + subjectName;
RSA subjectKey = new RSACryptoServiceProvider(2048);
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = subject;
cb.NotBefore = DateTime.Now;
cb.NotAfter = new DateTime(643445675990000000);
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
cb.Hash = "SHA1";
byte[] rawcert = cb.Sign(subjectKey);
PKCS12 p12 = new PKCS12();
p12.AddCertificate(new Mono.Security.X509.X509Certificate(rawcert));
p12.AddPkcs8ShroudedKeyBag(subjectKey);
return(new X509Certificate2(p12.GetBytes()));
}
private static byte[] CreateRawCert(string certName, string password)
{
if (String.IsNullOrEmpty(certName))
{
Log.To.Listener.E(Tag, "An empty certName was received in CreateRawCert, throwing...");
throw new ArgumentException("Must contain a non-empty name", "certName");
}
if (String.IsNullOrEmpty(password))
{
Log.To.Listener.E(Tag, "An empty password was received in CreateRawCert, throwing...");
throw new ArgumentException("Must contain a non-empty password", "password");
}
byte[] sn = GenerateSerialNumber();
string subject = string.Format("CN={0}", certName);
DateTime notBefore = DateTime.Now;
DateTime notAfter = DateTime.Now.AddYears(20);
string hashName = "SHA512";
var key = new RSACryptoServiceProvider(2048);
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = subject;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = key;
cb.Hash = hashName;
Log.To.Listener.I(Tag, "Generating X509 certificate, this is expensive...");
var sw = System.Diagnostics.Stopwatch.StartNew();
byte[] rawcert = cb.Sign(key);
sw.Stop();
Log.To.Listener.I(Tag, "Finished generating X509 certificate; took {0} sec", sw.ElapsedMilliseconds / 1000.0);
PKCS12 p12 = new PKCS12();
if (!String.IsNullOrEmpty(password))
{
p12.Password = password;
}
Hashtable attributes = GetAttributes();
p12.AddCertificate(new Mono.Security.X509.X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(key, attributes);
return(p12.GetBytes());
}
public static void GenerateSelfSignedServiceCertificate(string filename, string hostname)
{
var builder = new X509CertificateBuilder(3);
var sn = Guid.NewGuid().ToByteArray();
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
var rsaKey = RSA.Create();
var eku = new ExtendedKeyUsageExtension();
eku.KeyPurpose.Add("1.3.6.1.5.5.7.3.1"); /* SSL Server */
builder.SerialNumber = sn;
builder.IssuerName = "CN=" + hostname;
builder.NotBefore = DateTime.Now;
var notAfter = DateTime.Now;
builder.NotAfter = notAfter.AddYears(1000);
builder.SubjectName = "CN=" + hostname;
builder.SubjectPublicKey = rsaKey;
builder.Hash = "SHA512";
builder.Extensions.Add(eku);
var rawCert = builder.Sign(rsaKey);
var p12 = new PKCS12
{
Password = string.Empty
};
var list = new ArrayList
{
new byte[4] {
1, 0, 0, 0
}
};
var attributes = new Hashtable(1)
{
[PKCS9.localKeyId] = list
};
p12.AddCertificate(new X509Certificate(rawCert), attributes);
p12.AddPkcs8ShroudedKeyBag(rsaKey, attributes);
p12.SaveToFile(filename);
}
public static void CreateServerRootCA(string issuer, out byte[] rootKey, out byte[] rootCert)
{
if (!issuer.StartsWith("CN="))
{
issuer = "CN=" + issuer;
}
// Create a temporary file
string tempFile = Path.GetTempFileName();
// Generate a new signing key
RSA issuerKey = (RSA)RSA.Create();
// Generate a private key
PrivateKey key = new PrivateKey();
key.RSA = issuerKey;
// Save the private key and load it back into memory
key.Save(tempFile);
rootKey = File.ReadAllBytes(tempFile);
File.Delete(tempFile);
// Serial number MUST be positive
byte[] sn = Guid.NewGuid().ToByteArray();
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
// Generate a self-signed certificate
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = DateTime.Now;
cb.NotAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
cb.SubjectName = issuer;
cb.SubjectPublicKey = issuerKey;
cb.Hash = "SHA1";
rootCert = cb.Sign(issuerKey);
}
/// <summary>
/// Generates a self-signed X509Certificate2.
/// </summary>
/// <param name="subjectName">The server name to generate for</param>
/// <returns>A self-signed certificate</returns>
public static X509Certificate2 CreateSelfSignedCertificate(string subjectName)
{
//Generate a serial number for the certificate.
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = "CN=" + subjectName;
//Use 2048-bit RSA for the public & private key
RSA subjectKey = new RSACryptoServiceProvider(2048);
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
//Use the cert builder to create the certificate
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = subject;
//Sets the date created to DateTime.Now
cb.NotBefore = DateTime.Now;
//Sets the expire date to some time way in the future
cb.NotAfter = new DateTime(643445675990000000);
cb.SubjectName = subject;
//Sets the public key to the 2048-bit RSA key generate before
cb.SubjectPublicKey = subjectKey;
cb.Hash = "SHA1";
//Sign the key with the RSA key
byte[] rawcert = cb.Sign(subjectKey);
//Creates a new PKCS12 bag to add the private key to the cert
PKCS12 p12 = new PKCS12();
p12.AddCertificate(new Mono.Security.X509.X509Certificate(rawcert));
p12.AddPkcs8ShroudedKeyBag(subjectKey);
//Return the generated certificate
return(new X509Certificate2(p12.GetBytes()));
}
private MSX509.X509Certificate2 CreateCertificate(string name, List <X509Extension> extensions, MSX509.X509Certificate2 issuerCertificate, string issuer, MSX509.StoreName storeName, int validity)
{
MSX509.X509Certificate2 certificate = LoadCertificate(name, storeName, location_);
if (certificate != null)
{
return(certificate);
}
state_.Logger.Information("Create X509.v3 certificate for '{0}'", name);
PrivateKey key = new PrivateKey();
key.RSA = RSA.Create();
X509CertificateBuilder builder = new X509CertificateBuilder(3);
builder.SerialNumber = GenerateSerial();
builder.IssuerName = "CN=" + issuer;
builder.SubjectName = "CN=" + name;
builder.SubjectPublicKey = key.RSA;
builder.NotBefore = DateTime.Now;
builder.NotAfter = builder.NotBefore.AddDays(validity);
builder.Hash = "SHA1";
foreach (X509Extension extension in extensions)
{
builder.Extensions.Add(extension);
}
var signator = issuerCertificate == null ? key.RSA : issuerCertificate.PrivateKey;
byte[] raw = builder.Sign(signator);
StoreCertificate(name, raw, key.RSA, storeName, location_);
certificate = new MSX509.X509Certificate2(raw);
certificate.PrivateKey = key.RSA;
return(certificate);
}
/// <summary>
/// Create a self signed certificate in the specified file.
/// </summary>
/// <param name="subjectName">The subject of the certificate to create.</param>
/// <param name="fileName">The file name to write the certificate to.</param>
/// <param name="signatureAlgorithm">The signature algorithm to use</param>
/// <param name="password">True if there is a password, false otherwise. Note that if there is a password, PFX format is assumed.</param>
public static void CreateSelfSignedInFile(string subjectName, string fileName, string signatureAlgorithm, string password = "")
{
byte[] serialNumber = GenerateSerialNumber();
string subject = string.Format("CN={0}", subjectName);
using (RSA key = new RSACryptoServiceProvider(2048))
{
X509CertificateBuilder certificateBuilder = new X509CertificateBuilder
{
SerialNumber = serialNumber,
IssuerName = subject,
NotBefore = DateTime.Now,
NotAfter = DateTime.Now, //expiry time is now for security purposes
SubjectName = subject,
SubjectPublicKey = key,
Hash = signatureAlgorithm
};
//Get the raw certificate data
byte[] rawCert = certificateBuilder.Sign(key);
//If password is not empty, generate a PKCS#12 formatted file
if (!string.IsNullOrEmpty(password))
{
PKCS12 p12 = new PKCS12();
p12.Password = password;
p12.AddCertificate(new Mono.Security.X509.X509Certificate(rawCert));
p12.AddPkcs8ShroudedKeyBag(key);
p12.SaveToFile(fileName);
}
//If password is empty generate a DER formatted file
else
{
File.WriteAllBytes(fileName, rawCert);
}
}
}
//adapted from https://github.com/mono/mono/blob/master/mcs/tools/security/makecert.cs
public static byte[] GeneratePfx(string certificateName, string password)
{
byte[] sn = GenerateSerialNumber();
string subject = $"CN={certificateName}";
DateTime notBefore = DateTime.Now;
DateTime notAfter = DateTime.Now.AddYears(20);
RSA subjectKey = new RSACryptoServiceProvider(2048);
string hashName = "SHA256";
X509CertificateBuilder cb = new X509CertificateBuilder(3)
{
SerialNumber = sn,
IssuerName = subject,
NotBefore = notBefore,
NotAfter = notAfter,
SubjectName = subject,
SubjectPublicKey = subjectKey,
Hash = hashName
};
byte[] rawcert = cb.Sign(subjectKey);
PKCS12 p12 = new PKCS12 {
Password = password
};
Hashtable attributes = GetAttributes();
p12.AddCertificate(new X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
return(p12.GetBytes());
}
// TODO : cleanup and reorganization, as the code below is a almost a direct copypaste from Mono project's Makecert tool.
internal /* byte[]*/ PKCS12 GenerateCertificate(/*string[] args,*/ bool isHubRootCA, bool isHubCert, string subjectName, string[] alternateDnsNames)
{
if (isHubRootCA && isHubCert)
{
throw new Exception("incompatible options isHubRootCA & isHubCert");
}
Logger.Append("HUBRN", Severity.INFO, "Asked to create " + ((isHubCert)?"hub certificate, ":"") + ((isHubRootCA)?"root CA, ":"") + ((!isHubCert && !isHubRootCA)?" node certificate for '" + subjectName + "'":""));
string rootKey = ConfigurationManager.AppSettings["Security.CAKey"];
string rootCert = ConfigurationManager.AppSettings["Security.CACertificate"];
byte[] sn = Guid.NewGuid().ToByteArray();
string issuer = defaultIssuer;
DateTime notBefore = DateTime.Now;
DateTime notAfter = DateTime.Now.AddYears(5);
RSA issuerKey = (RSA)RSA.Create();
//issuerKey.FromXmlString(MonoTestRootAgency);
RSA subjectKey = (RSA)RSA.Create();
bool selfSigned = isHubRootCA;
string hashName = "SHA1";
BasicConstraintsExtension bce = null;
ExtendedKeyUsageExtension eku = null;
SubjectAltNameExtension alt = null;
string p12pwd = null;
X509Certificate issuerCertificate = null;
try{
if (subjectName == null)
{
throw new Exception("Missing Subject Name");
}
if (!subjectName.ToLower().StartsWith("cn="))
{
subjectName = "CN=" + subjectName;
}
/*if (alternateDnsNames != null){
* alt = new SubjectAltNameExtension(null, alternateDnsNames, null, null);
* }*/
if (!isHubRootCA)
{
issuerCertificate = LoadCertificate(rootCert);
issuer = issuerCertificate.SubjectName;
//case "-iv":
// TODO password
PrivateKey pvk = PrivateKey.CreateFromFile(rootKey);
issuerKey = pvk.RSA;
}
// Issuer CspParameters options
if (isHubRootCA)
{
//subjectName = defaultSubject;
string pvkFile = rootKey;
if (File.Exists(pvkFile)) // CA key already exists, reuse
{
PrivateKey key = PrivateKey.CreateFromFile(pvkFile);
subjectKey = key.RSA;
}
else
{
PrivateKey key = new PrivateKey();
key.RSA = subjectKey;
key.Save(pvkFile);
// save 'the Mother Of All Keys'
//WriteHubMotherCert(issuerKey.ToXmlString(true));
}
}
else
{
p12pwd = "";
}
// serial number MUST be positive
if ((sn [0] & 0x80) == 0x80)
{
sn [0] -= 0x80;
}
if (selfSigned)
{
if (subjectName != defaultSubject)
{
issuer = subjectName;
issuerKey = subjectKey;
//issuerKey = Hub.MotherKey;
}
else
{
subjectName = issuer;
subjectKey = issuerKey;
}
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subjectName;
cb.SubjectPublicKey = subjectKey;
// extensions
if (bce != null)
{
cb.Extensions.Add(bce);
}
if (eku != null)
{
cb.Extensions.Add(eku);
}
if (alt != null)
{
cb.Extensions.Add(alt);
}
// signature
cb.Hash = hashName;
byte[] rawcert = cb.Sign(issuerKey);
if (isHubRootCA) // Hub CA
{
WriteCACertificate(rawcert);
}
else
{
PKCS12 p12 = new PKCS12();
p12.Password = p12pwd;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte [4] {
1, 0, 0, 0
});
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
if (issuerCertificate != null)
{
p12.AddCertificate(issuerCertificate);
}
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
/*var x509cert2 = new System.Security.Cryptography.X509Certificates.X509Certificate2();
* x509cert2.Import(p12.GetBytes(), "",
* System.Security.Cryptography.X509Certificates.X509KeyStorageFlags.PersistKeySet| System.Security.Cryptography.X509Certificates.X509KeyStorageFlags.Exportable );
* return x509cert2;*/
//return p12.GetBytes();
return(p12);
}
Logger.Append("HUBRN", Severity.INFO, "Created requested key/cert for '" + subjectName + "'.");
}
catch (Exception e) {
Logger.Append("HUBRN", Severity.ERROR, "Error generating certificate for '" + subjectName + "' : " + e.ToString());
}
return(null);
}
byte[] GenerateCertificate(Options options)
{
var builder = new X509CertificateBuilder();
// If the default key container is not used accessing the key will throw a "Key not found" exception
using (var rsa = new RSACryptoServiceProvider(options.keySize, new CspParameters()
{
Flags = CspProviderFlags.UseDefaultKeyContainer | CspProviderFlags.CreateEphemeralKey
}))
{
try
{
#region Key
builder.PublicKey = rsa;
#endregion
builder.SubjectName = options.subjectName;
builder.SubjectAlternativeNames = options.subjectAlternativeNames;
builder.SerialNumber = options.serialNumber;
builder.KeyUsages = options.basicKeyUsages;
builder.KeyUsagesCritical = options.basicKeyUsagesCritical;
if (options.extendedUsages != null)
{
builder.ExtendedKeyUsages = options.extendedUsages.ToArray();
}
builder.ExtendedKeyUsagesCritical = options.extendedUsagesCritical;
builder.NotBefore = options.fromDate;
builder.NotAfter = options.toDate;
builder.IsCertificateAuthority = options.isCA;
builder.CertificateAuthorityPathLength = options.caLength;
if (options.issuerCertificate == null)
{
builder.SelfSign(rsa);
}
else
{
builder.Sign(options.issuerCertificate);
}
File.WriteAllBytes(options.outputFile, builder.ExportPkcs12(rsa, options.outputPassword, 1000));
var certData = builder.Export();
if (false == string.IsNullOrEmpty(options.outputCertFile))
{
File.WriteAllBytes(options.outputCertFile, certData);
}
return(certData);
}
finally
{
// Remove the key from the key container. Otherwise, the key will be kept on the file
// system which is completely undesirable.
rsa.PersistKeyInCsp = false;
}
}
}
static int Main(string[] args)
{
if (args.Length < 1)
{
Help();
return(0);
}
var command = args[0];
if (command.Equals("-h", StringComparison.OrdinalIgnoreCase) ||
command.Equals("/h", StringComparison.OrdinalIgnoreCase) ||
command.Equals("-?", StringComparison.OrdinalIgnoreCase) ||
command.Equals("/?", StringComparison.OrdinalIgnoreCase) ||
command.Equals("?", StringComparison.OrdinalIgnoreCase))
{
// Display the help screen
Help();
return(0);
}
else if (command.Equals("c", StringComparison.OrdinalIgnoreCase))
{
// Generate a certificate
if (args.Length < 2)
{
Error("Too few arguments were specified.");
return(ExitCode_CommandLineError);
}
#region Arguments
var processCommandLinePath = true;
Arguments:
var argIndex = 1;
string outputFile = null;
string outputCertFile = null;
string commonOutputName = null;
string outputPassword = null;
int keySize = DefaultKeySize;
string subjectName = null;
IList <string> subjectAlternativeNameList = null;
var basicKeyUsages = BasicKeyUsages.None;
bool basicKeyUsagesCritical = false;
var extendedUsages = new List <string>();
bool extendedUsagesCritical = false;
DateTime fromDate = DateTime.UtcNow.Date; // The date only
DateTime toDate = fromDate.AddYears(1);
bool toDateExplicitlySet = false;
int years = 0;
bool isCA = false;
int caLength = -1;
byte[] serialNumber = null;
string issuerPath = null;
string issuerPassword = null;
string commandLinePath = null;
#region Collect
while (argIndex < args.Length)
{
var argument = args[argIndex++].ToLower();
if (argument.Length > 0 && argument[0] == '/')
{
argument = '-' + argument.Substring(1);
}
try
{
switch (argument)
{
#region Output file
case "-o":
outputFile = args[argIndex++];
break;
case "-oc":
outputCertFile = args[argIndex++];
break;
case "-on":
commonOutputName = args[argIndex++];
break;
case "-op":
outputPassword = args[argIndex++];
break;
#endregion
#region Basic
case "-k":
if (int.TryParse(args[argIndex++], out keySize) && keySize > 0)
{
break;
}
else
{
Error("Invalid key size.");
return(ExitCode_CommandLineError);
}
case "-s":
subjectName = args[argIndex++];
try
{
X501DistinguishedName.Parse(subjectName);
}
catch (FormatException exc)
{
Error("Invalid subject distinguished name: {0}", exc.Message);
return(ExitCode_CommandLineError);
}
break;
case "-sa":
subjectAlternativeNameList = args[argIndex++].Split(',').Select(x => x.Trim()).Where(x => x.Length > 0).ToList();
break;
case "-sn":
var serialNumberText = args[argIndex++];
if (serialNumberText.StartsWith("0x", StringComparison.InvariantCultureIgnoreCase) ||
serialNumberText.StartsWith("x", StringComparison.InvariantCultureIgnoreCase))
{
// A hexadecimal string
try
{
serialNumber = ToBytes(serialNumberText.Substring(1));
break;
}
catch (FormatException)
{
Error("Invalid serial number: invalid hexadecimal string.");
return(ExitCode_CommandLineError);
}
}
else
{
// An integer number
long serialNumberLong;
if (long.TryParse(serialNumberText, out serialNumberLong))
{
serialNumber = BitConverter.GetBytes(serialNumberLong);
// Remove trailing zero bytes
serialNumber = serialNumber.Reverse().SkipWhile(x => x == 0).Reverse().ToArray();
if (serialNumber.Length == 0)
{
serialNumber = new byte[] { 0 };
}
break;
}
else
{
Error("Invalid serial number: the specified value is not an integer or is too large.");
return(ExitCode_CommandLineError);
}
}
#endregion
#region Key usage
case "-bu":
case "-buc":
basicKeyUsagesCritical = argument == "-buc";
try
{
basicKeyUsages = (BasicKeyUsages)Enum.Parse(typeof(BasicKeyUsages), args[argIndex++], true);
}
catch (ArgumentException exc)
{
Error("Invalid certificate usages: {0}", exc.Message);
return(ExitCode_CommandLineError);
}
break;
case "-eu":
case "-euc":
extendedUsagesCritical = argument == "-euc";
foreach (var item in args[argIndex++].Split(','))
{
var usage = item.Trim();
if (item.Length == 0)
{
continue;
}
string result;
switch (item.ToLower())
{
case "serverauthentication":
result = ExtendedKeyUsages.ServerAuthentication;
break;
case "clientauthentication":
result = ExtendedKeyUsages.ClientAuthentication;
break;
case "codesigning":
result = ExtendedKeyUsages.CodeSigning;
break;
case "emailprotection":
result = ExtendedKeyUsages.EmailProtection;
break;
case "timestamping":
result = ExtendedKeyUsages.TimeStamping;
break;
case "ocspsigning":
result = ExtendedKeyUsages.OCSPSigning;
break;
default:
if (item.StartsWith("oid:"))
{
result = item.Substring(4);
break;
}
else
{
Error("Invalid extended usage: '{0}'.", item);
return(ExitCode_CommandLineError);
}
}
extendedUsages.Add(result);
}
break;
#endregion
#region Validity period
case "-f":
if (DateTime.TryParse(args[argIndex++], out fromDate))
{
break;
}
else
{
Error("Invalid validity period starting date.");
return(ExitCode_CommandLineError);
}
case "-t":
if (DateTime.TryParse(args[argIndex++], out toDate))
{
toDateExplicitlySet = true;
break;
}
else
{
Error("Invalid validity period ending date.");
return(ExitCode_CommandLineError);
}
case "-y":
if (int.TryParse(args[argIndex++], out years) && years > 0)
{
break;
}
else
{
Error("Invalid number of years for which the certificate is valid.");
return(ExitCode_CommandLineError);
}
#endregion
#region CA
case "-ca":
isCA = true;
break;
case "-calen":
if (int.TryParse(args[argIndex++], out caLength) && caLength >= 0)
{
break;
}
else
{
Error("Invalid 'calen' value.");
return(ExitCode_CommandLineError);
}
#endregion
#region Issuer
case "-i":
issuerPath = args[argIndex++];
break;
case "-ip":
issuerPassword = args[argIndex++];
break;
#endregion
#region Other
case "-r":
commandLinePath = args[argIndex++];
break;
#endregion
#region Basic
case "?":
case "-?":
case "-h":
Help();
return(ExitCode_CommandLineError);
default:
Error("Invalid argument: '{0}'.", argument);
return(ExitCode_CommandLineError);
#endregion
}
}
catch (IndexOutOfRangeException)
{
Error("'{0}' must be followed by an additional parameter.", argument);
return(ExitCode_CommandLineError);
}
}
#endregion
#region Process
if (processCommandLinePath && false == string.IsNullOrEmpty(commandLinePath))
{
if (false == File.Exists(commandLinePath))
{
Error("The file containing command line arguments was not found.");
return(ExitCode_CommandLineError);
}
string[] readCommandLineArguments;
try
{
readCommandLineArguments = File.ReadAllLines(commandLinePath);
}
catch (Exception exc)
{
Error("Could not read the file containing command line arguments: {0}", exc.Message);
return(ExitCode_CommandLineError);
}
try
{
var readCommandLine = string.Join(" ", readCommandLineArguments);
readCommandLineArguments = ParseCommandLine(readCommandLine);
}
catch (Win32Exception exc)
{
Error("Could not parse the arguments read from file: {0}", exc.Message);
return(ExitCode_CommandLineError);
}
// Indicate that the command line arguments has been already processed
processCommandLinePath = false;
// The arguments specified on the command line MUST override the arguments read from the file.
// Therefore, they must follow the read arguments in the array.
// Move the command argument at the front
args = new string[] { args[0] }.Concat(readCommandLineArguments).Concat(args.Skip(1)).ToArray();
Console.WriteLine();
// Reprocess the command-line arguments
goto Arguments;
}
if (false == string.IsNullOrEmpty(commonOutputName))
{
// Apply the common name to the other parameters
if (string.IsNullOrEmpty(outputFile))
{
outputFile = Path.ChangeExtension(commonOutputName, ".pfx");
}
if (string.IsNullOrEmpty(outputCertFile))
{
outputCertFile = Path.ChangeExtension(commonOutputName, ".cer");
}
}
if (string.IsNullOrEmpty(outputFile))
{
Error("An output file must be specified.");
return(ExitCode_CommandLineError);
}
if (string.IsNullOrEmpty(subjectName))
{
Error("A subject distinguished name (DN) must be specified.");
return(ExitCode_CommandLineError);
}
if (outputPassword == null)
{
Console.Write("Enter OUTPUT file password: "******"Enter ISSUER certificate password: "******"Cannot load the certificate of the issuer: {0}", exc.Message);
return(ExitCode_CommandLineError);
}
if (false == issuerCertificate.Extensions.OfType <X509BasicConstraintsExtension>().Any(x => x.CertificateAuthority))
{
Error("The certificate of the issuer must be a CA.");
return(ExitCode_CommandLineError);
}
if (false == issuerCertificate.HasPrivateKey)
{
Error("The certificate of the issuer must has an associated private key.");
return(ExitCode_CommandLineError);
}
}
else
{
issuerCertificate = null;
}
if (serialNumber == null)
{
serialNumber = Guid.NewGuid().ToByteArray();
}
if (false == toDateExplicitlySet && years > 0)
{
toDate = fromDate.AddYears(years);
}
if (fromDate >= toDate)
{
Error("The ending of the validity period must follow its ending.");
return(ExitCode_CommandLineError);
}
#endregion
#endregion
#region Work
try
{
var builder = new X509CertificateBuilder();
Console.Write("Generating RSA key...");
// If the default key container is not used accessing the key will throw a "Key not found" exception
using (var rsa = new RSACryptoServiceProvider(keySize, new CspParameters()
{
Flags = CspProviderFlags.UseDefaultKeyContainer | CspProviderFlags.CreateEphemeralKey
}))
{
try
{
#region Key
Console.WriteLine(" Done");
builder.PublicKey = rsa;
#endregion
builder.SubjectName = subjectName;
builder.SubjectAlternativeNames = subjectAlternativeNameList;
builder.SerialNumber = serialNumber;
builder.KeyUsages = basicKeyUsages;
builder.KeyUsagesCritical = basicKeyUsagesCritical;
builder.ExtendedKeyUsages = extendedUsages.ToArray();
builder.ExtendedKeyUsagesCritical = extendedUsagesCritical;
builder.NotBefore = fromDate;
builder.NotAfter = toDate;
builder.IsCertificateAuthority = isCA;
builder.CertificateAuthorityPathLength = caLength;
if (issuerCertificate == null)
{
builder.SelfSign(rsa);
}
else
{
builder.Sign(issuerCertificate);
}
File.WriteAllBytes(outputFile, builder.ExportPkcs12(rsa, outputPassword, 1000));
var certData = builder.Export();
if (false == string.IsNullOrEmpty(outputCertFile))
{
File.WriteAllBytes(outputCertFile, certData);
}
// Display the hash of the certificate
Console.WriteLine("Certificate hash:");
foreach (var alg in HashAlgorithmList)
{
using (var hash = HashAlgorithm.Create(alg))
{
var binaryHash = hash.ComputeHash(certData);
Console.WriteLine("{0,-8}{1}", alg, BitConverter.ToString(binaryHash).Replace("-", ""));
}
}
}
finally
{
// Remove the key from the key container. Otherwise, the key will be kept on the file
// system which is completely undesirable.
rsa.PersistKeyInCsp = false;
}
}
}
catch (Exception exc)
{
Error("Unexpected error: {0}", exc.Message);
return(ExitCode_ProcessingError);
}
#endregion
Console.WriteLine();
Console.WriteLine("All done.");
return(0);
}
else if (command.Equals("h", StringComparison.OrdinalIgnoreCase))
{
// Output the hash of a certificate
if (args.Length < 2)
{
Error("Too few arguments were specified.");
return(ExitCode_CommandLineError);
}
#region Arguments
var argIndex = 1;
string fileName = args[argIndex++];
string password = null;
string algorithm = null;
while (argIndex < args.Length)
{
var argument = args[argIndex++].ToLower();
if (argument.Length > 0 && argument[0] == '/')
{
argument = '-' + argument.Substring(1);
}
try
{
switch (argument)
{
case "-p":
password = args[argIndex++];
break;
case "-a":
algorithm = args[argIndex++];
if (false == ValidHashAlgorithmList.Contains(algorithm, StringComparer.OrdinalIgnoreCase))
{
Error("Invalid hash algorithm: '{0}'.", algorithm);
return(ExitCode_CommandLineError);
}
break;
#region Basic
case "?":
case "-?":
case "-h":
Help();
return(ExitCode_CommandLineError);
default:
Error("Invalid argument: '{0}'.", argument);
return(ExitCode_CommandLineError);
#endregion
}
}
catch (IndexOutOfRangeException)
{
Error("'{0}' must be followed by an additional parameter.", argument);
return(ExitCode_CommandLineError);
}
}
#endregion
#region Processing
try
{
#region Load file
if (false == File.Exists(fileName))
{
Error("The certificate file was not found.");
return(ExitCode_CommandLineError);
}
X509Certificate2 certificate = null;
if (false == fileName.EndsWith(".pfx", StringComparison.InvariantCultureIgnoreCase))
{
// Assume that the file may be in DER format
try
{
certificate = new X509Certificate2(fileName);
}
catch (CryptographicException)
{
// The file may be encrypted so ignore the error
}
}
if (certificate == null)
{
if (password == null)
{
// Prompt the user for a password
Console.Write("Enter PFX password: "******"Cannot load the certificate: {0}", exc.Message);
return(ExitCode_CommandLineError);
}
}
#endregion
if (string.Equals(algorithm, "SHA1", StringComparison.OrdinalIgnoreCase))
{
// Only the SHA1 hash must be displayed
Console.WriteLine(certificate.GetCertHashString());
}
else if (algorithm != null)
{
// Display the hash only for the specified algorithm
using (var hash = HashAlgorithm.Create(algorithm))
{
var binaryHash = hash.ComputeHash(certificate.GetRawCertData());
Console.WriteLine(BitConverter.ToString(binaryHash).Replace("-", ""));
}
}
else
{
// Display the hash for all supported algorithms
var certData = certificate.GetRawCertData();
foreach (var alg in HashAlgorithmList)
{
using (var hash = HashAlgorithm.Create(alg))
{
var binaryHash = hash.ComputeHash(certData);
Console.WriteLine("{0,-8}{1}", alg, BitConverter.ToString(binaryHash).Replace("-", ""));
}
}
}
}
catch (Exception exc)
{
Error("Unexpected error: {0}", exc.Message);
return(ExitCode_ProcessingError);
}
#endregion
return(0);
}
else
{
Error("Unknown command '{0}'. Run the program without arguments to see the help screen.", command);
return(ExitCode_CommandLineError);
}
}
internal static void CreateSelfSignCertificatePfx(
string fileName,
string hostname,
ILogger logger)
{
if (string.IsNullOrWhiteSpace(fileName))
{
throw new ArgumentNullException("fileName");
}
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = string.Format("CN={0}", hostname);
string issuer = subject;
DateTime notBefore = DateTime.Now.AddDays(-2);
DateTime notAfter = DateTime.Now.AddYears(10);
RSA issuerKey = RSA.Create();
issuerKey.FromXmlString(MonoTestRootAgency);
RSA subjectKey = RSA.Create();
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
issuer = subject;
issuerKey = subjectKey;
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
// signature
cb.Hash = "SHA256";
byte[] rawcert = cb.Sign(issuerKey);
PKCS12 p12 = new PKCS12();
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[4] {
1, 0, 0, 0
});
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
p12.SaveToFile(fileName);
}
/// <summary>
/// Generates an X509 certificate using the Mono.Security assembly.
/// Potentially could prise out the relevant classes from the Mono
/// source code in order to reduce plgx size and complexity... one day
/// </summary>
/// <param name="subject">The subject.</param>
/// <param name="issuer">The issuer.</param>
/// <returns></returns>
public static PKCS12 Generate(string subject, string issuer, string password, KeePassRPCExt KeePassRPCPlugin)
{
byte[] sn = Guid.NewGuid().ToByteArray();
DateTime notBefore = DateTime.Now;
DateTime notAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
subject = "CN=" + subject;
issuer = "CN=" + issuer;
RSA subjectKey = (RSA)RSA.Create();
RSA issuerKey = (RSA)RSA.Create();
subjectKey.KeySize = 2048;
issuerKey.KeySize = 2048;
string hashName = "SHA1";
CspParameters subjectParams = new CspParameters();
CspParameters issuerParams = new CspParameters();
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
//issuer = subject;
//RSA issuerKey = subjectKey;
if (subject == null)
{
throw new Exception("Missing Subject Name");
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
cb.Hash = hashName;
//X509 extensions
KeyUsageExtension keyUsage = new KeyUsageExtension();
keyUsage.KeyUsage = KeyUsages.keyEncipherment | KeyUsages.digitalSignature;
cb.Extensions.Add(keyUsage);
ExtendedKeyUsageExtension extendedKeyUsage = new ExtendedKeyUsageExtension();
extendedKeyUsage.KeyPurpose.Add("1.3.6.1.5.5.7.3.1");
cb.Extensions.Add(extendedKeyUsage);
byte[] rawcert = cb.Sign(issuerKey);
PKCS12 p12 = new PKCS12();
p12.Password = password;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[4] {
1, 0, 0, 0
});
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
/*
* if (Type.GetType("Mono.Runtime") != null)
* {
* string fileName = Path.Combine(Path.Combine(Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData), "KeePassRPC"), "cert.p12");
* if (KeePassRPCPlugin.logger != null) KeePassRPCPlugin.logger.WriteLine(fileName);
* try
* {
* p12.SaveToFile(fileName);
* }
* catch (Exception)
* {
* if (KeePassRPCPlugin.logger != null) KeePassRPCPlugin.logger.WriteLine("Could not write to " + fileName + " security between KPRPC and clients may not be established.");
* }
* }
*
* return p12.GetBytes();
*/
return(p12);
}
public static int MakeCertMain(string[] args)
{
if (args.Length < 1)
{
Header();
Console.WriteLine("ERROR: Missing output filename {0}", Environment.NewLine);
Help();
return(-1);
}
string fileName = args [args.Length - 1];
// default values
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = defaultSubject;
string issuer = defaultIssuer;
DateTime notBefore = DateTime.Now;
DateTime notAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
RSA issuerKey = (RSA)RSA.Create();
issuerKey.FromXmlString(MonoTestRootAgency);
RSA subjectKey = (RSA)RSA.Create();
bool selfSigned = false;
string hashName = "SHA1";
CspParameters subjectParams = new CspParameters();
CspParameters issuerParams = new CspParameters();
BasicConstraintsExtension bce = null;
ExtendedKeyUsageExtension eku = null;
SubjectAltNameExtension alt = null;
string p12file = null;
string p12pwd = null;
X509Certificate issuerCertificate = null;
Header();
try {
int i = 0;
while (i < args.Length)
{
switch (args [i++])
{
// Basic options
case "-#":
// Serial Number
sn = BitConverter.GetBytes(Convert.ToInt32(args [i++]));
break;
case "-n":
// Subject Distinguish Name
subject = args [i++];
break;
case "-$":
// (authenticode) commercial or individual
// CRITICAL KeyUsageRestriction extension
// hash algorithm
string usageRestriction = args [i++].ToLower();
switch (usageRestriction)
{
case "commercial":
case "individual":
Console.WriteLine("WARNING: Unsupported deprecated certification extension KeyUsageRestriction not included");
// Console.WriteLine ("WARNING: ExtendedKeyUsage for codesigning has been included.");
break;
default:
Console.WriteLine("Unsupported restriction " + usageRestriction);
return(-1);
}
break;
// Extended Options
case "-a":
// hash algorithm
switch (args [i++].ToLower())
{
case "sha1":
hashName = "SHA1";
break;
case "md5":
Console.WriteLine("WARNING: MD5 is no more safe for this usage.");
hashName = "MD5";
break;
default:
Console.WriteLine("Unsupported hash algorithm");
break;
}
break;
case "-b":
// Validity / notBefore
notBefore = DateTime.Parse(args [i++] + " 23:59:59", CultureInfo.InvariantCulture);
break;
case "-cy":
// basic constraints - autority or end-entity
switch (args [i++].ToLower())
{
case "authority":
if (bce == null)
{
bce = new BasicConstraintsExtension();
}
bce.CertificateAuthority = true;
break;
case "end":
// do not include extension
bce = null;
break;
case "both":
Console.WriteLine("ERROR: No more supported in X.509");
return(-1);
default:
Console.WriteLine("Unsupported certificate type");
return(-1);
}
break;
case "-d":
// CN private extension ?
Console.WriteLine("Unsupported option");
break;
case "-e":
// Validity / notAfter
notAfter = DateTime.Parse(args [i++] + " 23:59:59", CultureInfo.InvariantCulture);
break;
case "-eku":
// extendedKeyUsage extension
char[] sep = { ',' };
string[] purposes = args [i++].Split(sep);
if (eku == null)
{
eku = new ExtendedKeyUsageExtension();
}
foreach (string purpose in purposes)
{
eku.KeyPurpose.Add(purpose);
}
break;
case "-h":
// pathLength (basicConstraints)
// MS use an old basicConstrains (2.5.29.10) which
// allows both CA and End-Entity. This is no
// more supported with 2.5.29.19.
if (bce == null)
{
bce = new BasicConstraintsExtension();
bce.CertificateAuthority = true;
}
bce.PathLenConstraint = Convert.ToInt32(args [i++]);
break;
case "-alt":
if (alt == null)
{
string [] dnsNames = File.ReadAllLines(args [i++]);
alt = new SubjectAltNameExtension(null, dnsNames, null, null);
}
break;
case "-ic":
issuerCertificate = LoadCertificate(args [i++]);
issuer = issuerCertificate.SubjectName;
break;
case "-in":
issuer = args [i++];
break;
case "-iv":
// TODO password
PrivateKey pvk = PrivateKey.CreateFromFile(args [i++]);
issuerKey = pvk.RSA;
break;
case "-l":
// link (URL)
// spcSpAgencyInfo private extension
Console.WriteLine("Unsupported option");
break;
case "-m":
// validity period (in months)
notAfter = notBefore.AddMonths(Convert.ToInt32(args [i++]));
break;
case "-nscp":
// Netscape's private extensions - NetscapeCertType
// BasicContraints - End Entity
Console.WriteLine("Unsupported option");
break;
case "-r":
selfSigned = true;
break;
case "-sc":
// subject certificate ? renew ?
Console.WriteLine("Unsupported option");
break;
// Issuer CspParameters options
case "-ik":
issuerParams.KeyContainerName = args [i++];
break;
case "-iky":
// select a key in the provider
string ikn = args [i++].ToLower();
switch (ikn)
{
case "signature":
issuerParams.KeyNumber = 0;
break;
case "exchange":
issuerParams.KeyNumber = 1;
break;
default:
issuerParams.KeyNumber = Convert.ToInt32(ikn);
break;
}
break;
case "-ip":
issuerParams.ProviderName = args [i++];
break;
case "-ir":
switch (args [i++].ToLower())
{
case "localmachine":
issuerParams.Flags = CspProviderFlags.UseMachineKeyStore;
break;
case "currentuser":
issuerParams.Flags = CspProviderFlags.UseDefaultKeyContainer;
break;
default:
Console.WriteLine("Unknown key store for issuer");
return(-1);
}
break;
case "-is":
Console.WriteLine("Unsupported option");
return(-1);
case "-iy":
issuerParams.ProviderType = Convert.ToInt32(args [i++]);
break;
// Subject CspParameters Options
case "-sk":
subjectParams.KeyContainerName = args [i++];
break;
case "-sky":
// select a key in the provider
string skn = args [i++].ToLower();
switch (skn)
{
case "signature":
subjectParams.KeyNumber = 0;
break;
case "exchange":
subjectParams.KeyNumber = 1;
break;
default:
subjectParams.KeyNumber = Convert.ToInt32(skn);
break;
}
break;
case "-sp":
subjectParams.ProviderName = args [i++];
break;
case "-sr":
switch (args [i++].ToLower())
{
case "localmachine":
subjectParams.Flags = CspProviderFlags.UseMachineKeyStore;
break;
case "currentuser":
subjectParams.Flags = CspProviderFlags.UseDefaultKeyContainer;
break;
default:
Console.WriteLine("Unknown key store for subject");
return(-1);
}
break;
case "-ss":
Console.WriteLine("Unsupported option");
return(-1);
case "-sv":
string pvkFile = args [i++];
if (File.Exists(pvkFile))
{
PrivateKey key = PrivateKey.CreateFromFile(pvkFile);
subjectKey = key.RSA;
}
else
{
PrivateKey key = new PrivateKey();
key.RSA = subjectKey;
key.Save(pvkFile);
}
break;
case "-sy":
subjectParams.ProviderType = Convert.ToInt32(args [i++]);
break;
// Mono Specific Options
case "-p12":
p12file = args [i++];
p12pwd = args [i++];
break;
// Other options
case "-?":
Help();
return(0);
case "-!":
ExtendedHelp();
return(0);
default:
if (i != args.Length)
{
Console.WriteLine("ERROR: Unknown parameter");
Help();
return(-1);
}
break;
}
}
// serial number MUST be positive
if ((sn [0] & 0x80) == 0x80)
{
sn [0] -= 0x80;
}
if (selfSigned)
{
if (subject != defaultSubject)
{
issuer = subject;
issuerKey = subjectKey;
}
else
{
subject = issuer;
subjectKey = issuerKey;
}
}
if (subject == null)
{
throw new Exception("Missing Subject Name");
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
// extensions
if (bce != null)
{
cb.Extensions.Add(bce);
}
if (eku != null)
{
cb.Extensions.Add(eku);
}
if (alt != null)
{
cb.Extensions.Add(alt);
}
// signature
cb.Hash = hashName;
byte[] rawcert = cb.Sign(issuerKey);
if (p12file == null)
{
WriteCertificate(fileName, rawcert);
}
else
{
PKCS12 p12 = new PKCS12();
p12.Password = p12pwd;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte [4] {
1, 0, 0, 0
});
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
if (issuerCertificate != null)
{
p12.AddCertificate(issuerCertificate);
}
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
p12.SaveToFile(p12file);
}
return(0);
}
catch (Exception e) {
Console.WriteLine("ERROR: " + e.ToString());
Help();
}
return(1);
}
public SelfCertificateDialog(IServiceProvider serviceProvider)
: base(serviceProvider)
{
InitializeComponent();
cbStore.SelectedIndex = 0;
cbLength.SelectedIndex = 3;
cbHashing.SelectedIndex = 1;
txtCommonName.Text = Environment.MachineName;
if (Environment.OSVersion.Version.Major < 8)
{
// IMPORTANT: WebHosting store is available since Windows 8.
cbStore.Enabled = false;
}
if (!Helper.IsRunningOnMono())
{
NativeMethods.TryAddShieldToButton(btnOK);
}
var container = new CompositeDisposable();
FormClosed += (sender, args) => container.Dispose();
container.Add(
Observable.FromEventPattern <EventArgs>(txtName, "TextChanged")
.Subscribe(evt =>
{
btnOK.Enabled = !string.IsNullOrWhiteSpace(txtName.Text);
}));
container.Add(
Observable.FromEventPattern <EventArgs>(btnOK, "Click")
.Subscribe(evt =>
{
// Generate certificate
string defaultIssuer = string.Format("CN={0}", txtCommonName.Text);
string defaultSubject = defaultIssuer;
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = defaultSubject;
string issuer = defaultIssuer;
DateTime notBefore = DateTime.Now;
DateTime notAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
RSA issuerKey = new RSACryptoServiceProvider(int.Parse(cbLength.Text));
RSA subjectKey = null;
CspParameters subjectParams = new CspParameters();
CspParameters issuerParams = new CspParameters();
BasicConstraintsExtension bce = new BasicConstraintsExtension
{
PathLenConstraint = BasicConstraintsExtension.NoPathLengthConstraint,
CertificateAuthority = true
};
ExtendedKeyUsageExtension eku = new ExtendedKeyUsageExtension();
eku.KeyPurpose.Add("1.3.6.1.5.5.7.3.1");
SubjectAltNameExtension alt = null;
string p12File = Path.GetTempFileName();
string p12pwd = "test";
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
if (subject != defaultSubject)
{
issuer = subject;
issuerKey = null;
}
else
{
subject = issuer;
subjectKey = issuerKey;
}
if (subject == null)
{
throw new Exception("Missing Subject Name");
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
// extensions
if (bce != null)
{
cb.Extensions.Add(bce);
}
if (eku != null)
{
cb.Extensions.Add(eku);
}
if (alt != null)
{
cb.Extensions.Add(alt);
}
IDigest digest = new Sha1Digest();
byte[] resBuf = new byte[digest.GetDigestSize()];
var spki = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(DotNetUtilities.GetRsaPublicKey(issuerKey));
byte[] bytes = spki.PublicKeyData.GetBytes();
digest.BlockUpdate(bytes, 0, bytes.Length);
digest.DoFinal(resBuf, 0);
cb.Extensions.Add(new SubjectKeyIdentifierExtension {
Identifier = resBuf
});
cb.Extensions.Add(new AuthorityKeyIdentifierExtension {
Identifier = resBuf
});
// signature
string hashName = cbHashing.SelectedIndex == 0 ? "SHA1" : "SHA256";
cb.Hash = hashName;
byte[] rawcert = cb.Sign(issuerKey);
PKCS12 p12 = new PKCS12();
p12.Password = p12pwd;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[] { 1, 0, 0, 0 });
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
p12.SaveToFile(p12File);
Item = new X509Certificate2(p12File, p12pwd)
{
FriendlyName = txtName.Text
};
Store = cbStore.SelectedIndex == 0 ? "Personal" : "WebHosting";
try
{
using (var process = new Process())
{
// add certificate
var start = process.StartInfo;
start.Verb = "runas";
start.FileName = "cmd";
start.Arguments = string.Format("/c \"\"{4}\" /f:\"{0}\" /p:{1} /n:\"{2}\" /s:{3}\"",
p12File,
p12pwd,
txtName.Text,
cbStore.SelectedIndex == 0 ? "MY" : "WebHosting",
Path.Combine(Environment.CurrentDirectory, "certificateinstaller.exe"));
start.CreateNoWindow = true;
start.WindowStyle = ProcessWindowStyle.Hidden;
process.Start();
process.WaitForExit();
File.Delete(p12File);
if (process.ExitCode == 0)
{
this.DialogResult = DialogResult.OK;
}
else
{
MessageBox.Show(process.ExitCode.ToString());
}
}
}
catch (Exception)
{
// elevation is cancelled.
}
}));
}
static void Main(string[] args)
{
var assembly = Assembly.GetExecutingAssembly();
var title = (AssemblyTitleAttribute)Attribute.GetCustomAttribute(assembly, typeof(AssemblyTitleAttribute));
Console.WriteLine("{0} version {1}", title.Title, assembly.GetName().Version);
var copyright = (AssemblyCopyrightAttribute)Attribute.GetCustomAttribute(assembly, typeof(AssemblyCopyrightAttribute));
Console.WriteLine(copyright.Copyright);
Console.WriteLine("More information can be found at https://www.jexusmanager.com");
Console.WriteLine();
var baseAddress = args.Length > 0 ? args[0] : "https://*****:*****@"Remote services must be run as root on Linux.");
return;
}
if (!File.Exists("jws"))
{
Console.WriteLine(@"Remote services must be running in Jexus installation folder.");
return;
}
var loc = baseAddress.LastIndexOf(':');
var port = "443";
if (loc != -1)
{
port = baseAddress.Substring(loc + 1);
}
string dirname = Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData);
string path = Path.Combine(dirname, ".mono", "httplistener");
if (false == Directory.Exists(path))
{
Directory.CreateDirectory(path);
}
string target_cert = Path.Combine(path, string.Format("{0}.cer", port));
if (File.Exists(target_cert))
{
Console.WriteLine("Use {0}", target_cert);
}
else
{
Console.WriteLine("Generating a self-signed certificate for Jexus Manager");
// Generate certificate
string defaultIssuer = "CN=jexus.lextudio.com";
string defaultSubject = "CN=jexus.lextudio.com";
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = defaultSubject;
string issuer = defaultIssuer;
DateTime notBefore = DateTime.Now;
DateTime notAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
RSA issuerKey = new RSACryptoServiceProvider(2048);
RSA subjectKey = null;
bool selfSigned = true;
string hashName = "SHA1";
CspParameters subjectParams = new CspParameters();
CspParameters issuerParams = new CspParameters();
BasicConstraintsExtension bce = new BasicConstraintsExtension
{
PathLenConstraint = BasicConstraintsExtension.NoPathLengthConstraint,
CertificateAuthority = true
};
ExtendedKeyUsageExtension eku = new ExtendedKeyUsageExtension();
eku.KeyPurpose.Add("1.3.6.1.5.5.7.3.1");
SubjectAltNameExtension alt = null;
string p12file = Path.Combine(path, "temp.pfx");
string p12pwd = "test";
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
if (selfSigned)
{
if (subject != defaultSubject)
{
issuer = subject;
issuerKey = subjectKey;
}
else
{
subject = issuer;
subjectKey = issuerKey;
}
}
if (subject == null)
{
throw new Exception("Missing Subject Name");
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
// extensions
if (bce != null)
{
cb.Extensions.Add(bce);
}
if (eku != null)
{
cb.Extensions.Add(eku);
}
if (alt != null)
{
cb.Extensions.Add(alt);
}
IDigest digest = new Sha1Digest();
byte[] resBuf = new byte[digest.GetDigestSize()];
var spki = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(DotNetUtilities.GetRsaPublicKey(issuerKey));
byte[] bytes = spki.PublicKeyData.GetBytes();
digest.BlockUpdate(bytes, 0, bytes.Length);
digest.DoFinal(resBuf, 0);
cb.Extensions.Add(new SubjectKeyIdentifierExtension {
Identifier = resBuf
});
cb.Extensions.Add(new AuthorityKeyIdentifierExtension {
Identifier = resBuf
});
// signature
cb.Hash = hashName;
byte[] rawcert = cb.Sign(issuerKey);
PKCS12 p12 = new PKCS12();
p12.Password = p12pwd;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[4] {
1, 0, 0, 0
});
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new Mono.Security.X509.X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
p12.SaveToFile(p12file);
var x509 = new System.Security.Cryptography.X509Certificates.X509Certificate2(p12file, p12pwd, System.Security.Cryptography.X509Certificates.X509KeyStorageFlags.Exportable);
// Install certificate
string target_pvk = Path.Combine(path, string.Format("{0}.pvk", port));
using (Stream cer = File.OpenWrite(target_cert))
{
byte[] raw = x509.RawData;
cer.Write(raw, 0, raw.Length);
}
PrivateKey pvk = new PrivateKey();
pvk.RSA = subjectKey;
pvk.Save(target_pvk);
}
}
JexusServer.Credentials = args.Length > 2 ? args[1] + "|" + args[2] : "jexus|lextudio.com";
JexusServer.Timeout = args.Length > 3 ? double.Parse(args[3]) : 30D;
using (WebApp.Start <Startup>(url: baseAddress))
{
Console.WriteLine("Remote services have started at {0}.", baseAddress);
Console.WriteLine("Credentials is {0}", JexusServer.Credentials);
Console.WriteLine("Press Enter to quit.");
Console.ReadLine();
}
}
public SelfCertificateDialog(IServiceProvider serviceProvider, CertificatesFeature feature)
: base(serviceProvider)
{
InitializeComponent();
cbStore.SelectedIndex = 0;
cbLength.SelectedIndex = 3;
cbHashing.SelectedIndex = 1;
txtCommonName.Text = Environment.MachineName;
dtpFrom.Value = DateTime.Now;
dtpTo.Value = dtpFrom.Value.AddYears(1);
if (Environment.OSVersion.Version < Version.Parse("6.2"))
{
// IMPORTANT: WebHosting store is available since Windows 8.
cbStore.Enabled = false;
}
if (!Helper.IsRunningOnMono())
{
NativeMethods.TryAddShieldToButton(btnOK);
}
var container = new CompositeDisposable();
FormClosed += (sender, args) => container.Dispose();
container.Add(
Observable.FromEventPattern <EventArgs>(txtName, "TextChanged")
.ObserveOn(System.Threading.SynchronizationContext.Current)
.Subscribe(evt =>
{
btnOK.Enabled = !string.IsNullOrWhiteSpace(txtName.Text);
}));
container.Add(
Observable.FromEventPattern <EventArgs>(btnOK, "Click")
.ObserveOn(System.Threading.SynchronizationContext.Current)
.Subscribe(evt =>
{
var names = txtCommonName.Text;
if (string.IsNullOrWhiteSpace(names))
{
ShowMessage("DNS names cannot be empty.", MessageBoxButtons.OK, MessageBoxIcon.Error, MessageBoxDefaultButton.Button1);
return;
}
var dnsNames = names.Split(new[] { ',' }, StringSplitOptions.RemoveEmptyEntries).Select(item => item.Trim()).ToArray();
if (dnsNames.Length == 0)
{
ShowMessage("DNS names cannot be empty.", MessageBoxButtons.OK, MessageBoxIcon.Error, MessageBoxDefaultButton.Button1);
return;
}
// Generate certificate
string defaultIssuer = string.Format("CN={0}", dnsNames[0]);
string defaultSubject = defaultIssuer;
byte[] sn = Guid.NewGuid().ToByteArray();
string subject = defaultSubject;
string issuer = defaultIssuer;
DateTime notBefore = dtpFrom.Value;
DateTime notAfter = dtpTo.Value;
RSA issuerKey = new RSACryptoServiceProvider(int.Parse(cbLength.Text));
RSA subjectKey = null;
CspParameters subjectParams = new CspParameters();
CspParameters issuerParams = new CspParameters();
BasicConstraintsExtension bce = new BasicConstraintsExtension
{
PathLenConstraint = BasicConstraintsExtension.NoPathLengthConstraint,
CertificateAuthority = true
};
ExtendedKeyUsageExtension eku = new ExtendedKeyUsageExtension();
eku.KeyPurpose.Add("1.3.6.1.5.5.7.3.1");
SubjectAltNameExtension alt = null;
string p12File = Path.GetTempFileName();
string p12pwd = "test";
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
{
sn[0] -= 0x80;
}
if (subject != defaultSubject)
{
issuer = subject;
issuerKey = null;
}
else
{
subject = issuer;
subjectKey = issuerKey;
}
if (subject == null)
{
throw new Exception("Missing Subject Name");
}
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
// extensions
if (bce != null)
{
cb.Extensions.Add(bce);
}
if (eku != null)
{
cb.Extensions.Add(eku);
}
if (alt != null)
{
cb.Extensions.Add(alt);
}
IDigest digest = new Sha1Digest();
byte[] resBuf = new byte[digest.GetDigestSize()];
var spki = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(DotNetUtilities.GetRsaPublicKey(issuerKey));
byte[] bytes = spki.PublicKeyData.GetBytes();
digest.BlockUpdate(bytes, 0, bytes.Length);
digest.DoFinal(resBuf, 0);
cb.Extensions.Add(new SubjectKeyIdentifierExtension {
Identifier = resBuf
});
cb.Extensions.Add(new AuthorityKeyIdentifierExtension {
Identifier = resBuf
});
if (cbGenerate.Checked)
{
SubjectAltNameExtension subjectAltNameExtension = new SubjectAltNameExtension(
new string[0],
dnsNames,
new string[0],
new string[0])
{
Critical = false
};
cb.Extensions.Add(subjectAltNameExtension);
}
// signature
string hashName = cbHashing.SelectedIndex == 0 ? "SHA1" : "SHA256";
cb.Hash = hashName;
byte[] rawcert = null;
try
{
rawcert = cb.Sign(issuerKey);
}
catch (Exception ex)
{
RollbarLocator.RollbarInstance.Error(ex);
ShowError(ex, "Certificate generation error", false);
return;
}
PKCS12 p12 = new PKCS12();
p12.Password = p12pwd;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[] { 1, 0, 0, 0 });
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
p12.SaveToFile(p12File);
Item = new X509Certificate2(p12File, p12pwd)
{
FriendlyName = txtName.Text
};
Store = cbStore.SelectedIndex == 0 ? "Personal" : "WebHosting";
try
{
using (var process = new Process())
{
// add certificate
var start = process.StartInfo;
start.Verb = "runas";
start.FileName = "cmd";
start.Arguments = string.Format("/c \"\"{4}\" /f:\"{0}\" /p:{1} /n:\"{2}\" /s:{3}\"",
p12File,
p12pwd,
txtName.Text,
cbStore.SelectedIndex == 0 ? "MY" : "WebHosting",
Path.Combine(Environment.CurrentDirectory, "certificateinstaller.exe"));
start.CreateNoWindow = true;
start.WindowStyle = ProcessWindowStyle.Hidden;
process.Start();
process.WaitForExit();
File.Delete(p12File);
if (process.ExitCode == 0)
{
DialogResult = DialogResult.OK;
}
else
{
ShowMessage(process.ExitCode.ToString(), MessageBoxButtons.OK, MessageBoxIcon.Error, MessageBoxDefaultButton.Button1);
}
}
}
catch (Win32Exception ex)
{
// elevation is cancelled.
if (ex.NativeErrorCode != Microsoft.Web.Administration.NativeMethods.ErrorCancelled)
{
RollbarLocator.RollbarInstance.Error(ex, new Dictionary <string, object> {
{ "native", ex.NativeErrorCode }
});
// throw;
}
}
catch (Exception ex)
{
RollbarLocator.RollbarInstance.Error(ex);
}
}));
container.Add(
Observable.FromEventPattern <CancelEventArgs>(this, "HelpButtonClicked")
.ObserveOn(System.Threading.SynchronizationContext.Current)
.Subscribe(EnvironmentVariableTarget =>
{
feature.ShowHelp();
}));
}
/// <summary>
/// Generates an X509 certificate using the Mono.Security assembly.
/// Potentially could prise out the relevant classes from the Mono
/// source code in order to reduce plgx size and complexity... one day
/// </summary>
/// <param name="subject">The subject.</param>
/// <param name="issuer">The issuer.</param>
/// <returns></returns>
public static PKCS12 Generate(string subject, string issuer, string password, KeePassRPCExt KeePassRPCPlugin)
{
byte[] sn = Guid.NewGuid().ToByteArray();
DateTime notBefore = DateTime.Now;
DateTime notAfter = new DateTime(643445675990000000); // 12/31/2039 23:59:59Z
subject = "CN=" + subject;
issuer = "CN=" + issuer;
RSA subjectKey = (RSA)RSA.Create();
RSA issuerKey = (RSA)RSA.Create();
subjectKey.KeySize = 2048;
issuerKey.KeySize = 2048;
string hashName = "SHA1";
CspParameters subjectParams = new CspParameters();
CspParameters issuerParams = new CspParameters();
// serial number MUST be positive
if ((sn[0] & 0x80) == 0x80)
sn[0] -= 0x80;
//issuer = subject;
//RSA issuerKey = subjectKey;
if (subject == null)
throw new Exception("Missing Subject Name");
X509CertificateBuilder cb = new X509CertificateBuilder(3);
cb.SerialNumber = sn;
cb.IssuerName = issuer;
cb.NotBefore = notBefore;
cb.NotAfter = notAfter;
cb.SubjectName = subject;
cb.SubjectPublicKey = subjectKey;
cb.Hash = hashName;
//X509 extensions
KeyUsageExtension keyUsage = new KeyUsageExtension();
keyUsage.KeyUsage = KeyUsages.keyEncipherment | KeyUsages.digitalSignature;
cb.Extensions.Add(keyUsage);
ExtendedKeyUsageExtension extendedKeyUsage = new ExtendedKeyUsageExtension();
extendedKeyUsage.KeyPurpose.Add("1.3.6.1.5.5.7.3.1");
cb.Extensions.Add(extendedKeyUsage);
byte[] rawcert = cb.Sign(issuerKey);
PKCS12 p12 = new PKCS12();
p12.Password = password;
ArrayList list = new ArrayList();
// we use a fixed array to avoid endianess issues
// (in case some tools requires the ID to be 1).
list.Add(new byte[4] { 1, 0, 0, 0 });
Hashtable attributes = new Hashtable(1);
attributes.Add(PKCS9.localKeyId, list);
p12.AddCertificate(new X509Certificate(rawcert), attributes);
p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes);
/*
if (Type.GetType("Mono.Runtime") != null)
{
string fileName = Path.Combine(Path.Combine(Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData), "KeePassRPC"), "cert.p12");
if (KeePassRPCPlugin.logger != null) KeePassRPCPlugin.logger.WriteLine(fileName);
try
{
p12.SaveToFile(fileName);
}
catch (Exception)
{
if (KeePassRPCPlugin.logger != null) KeePassRPCPlugin.logger.WriteLine("Could not write to " + fileName + " security between KPRPC and clients may not be established.");
}
}
return p12.GetBytes();
*/
return p12;
}