/// <summary>3a) Receive a DHEWithCertificate, verify the certificate and DHE and
/// send a Confirm that you are ready to Verify the stack and start the
/// system.</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlDHEWithCertificates(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received DHEWithCertificate from: " + low_level_sender);
if (sa == null)
{
throw new Exception("No valid SA!");
}
byte[] cert = new byte[scm.Certificate.Length];
scm.Certificate.CopyTo(cert, 0);
X509Certificate rcert = new X509Certificate(cert);
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
scm.Verify((RSACryptoServiceProvider)rcert.RSA, sha1);
_ch.Verify(rcert);
sa.RemoteCertificate.Value = rcert;
sa.RDHE.Value = scm.DHE;
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.Hash = MemBlock.Reference(sha1.ComputeHash((byte[])scm.Packet));
scm_reply.Type = SecurityControlMessage.MessageType.Confirm;
lock (_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
ICopyable to_send = new CopyList(Security, SecureControl, scm_reply.Packet);
_rrman.SendRequest(return_path, ReqrepManager.ReqrepType.Request,
to_send, this, sa);
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful DHEWithCertificate from: " + low_level_sender);
}
/// <summary>2a) Receive a CookieResponse that contains a list of CAs, if you have
/// a Certificate that supports one of the CAs send it along with a DHE
/// and a list of your supported CAs in a DHEWithCertificateAndCAs.</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlCookieResponse(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received CookieResponse from: " + low_level_sender);
if (sa == null)
{
throw new Exception("No valid SA!");
}
// This seems like unnecessary code
scm_reply.Type = SecurityControlMessage.MessageType.CookieResponse;
X509Certificate lcert = null;
if (SecurityPolicy.GetPolicy(scm.SPI).PreExchangedKeys)
{
lcert = _ch.DefaultCertificate;
}
else
{
lcert = _ch.FindCertificate(scm.CAs);
}
sa.RemoteCookie.Value = scm.LocalCookie;
sa.LocalCertificate.Value = lcert;
scm_reply.Certificate = lcert.RawData;
scm_reply.DHE = sa.LDHE;
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.Type = SecurityControlMessage.MessageType.DHEWithCertificateAndCAs;
if (SecurityPolicy.GetPolicy(scm.SPI).PreExchangedKeys)
{
scm_reply.CAs = new List <MemBlock>(0);
}
else
{
scm_reply.CAs = _ch.SupportedCAs;
}
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
lock (_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
sa.DHEWithCertificateAndCAsOutHash.Value = sha1.ComputeHash((byte[])scm_reply.Packet);
ICopyable to_send = new CopyList(Security, SecureControl, scm_reply.Packet);
_rrman.SendRequest(return_path, ReqrepManager.ReqrepType.Request,
to_send, this, sa);
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful CookieResponse from: " + low_level_sender);
}
/// <summary>2b) Receive a DHEWithCertificateAndCAs, verify the certificate and attempt
/// to find a matching Certificate for the list of CAs, if you find one,
/// finish the DHE handshake and send the certificate via a DHEWithCertificate</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlDHEWithCertificateAndCAs(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received DHEWithCertificateAndCAs from: " + low_level_sender);
if (sa == null)
{
sa = CreateSecurityAssociation(low_level_sender, scm.SPI, false);
}
byte[] cert = new byte[scm.Certificate.Length];
scm.Certificate.CopyTo(cert, 0);
X509Certificate rcert = new X509Certificate(cert);
_ch.Verify(rcert);
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
scm.Verify((RSACryptoServiceProvider)rcert.RSA, sha1);
X509Certificate lcert = null;
if (SecurityPolicy.GetPolicy(scm.SPI).PreExchangedKeys)
{
lcert = _ch.DefaultCertificate;
}
else
{
lcert = _ch.FindCertificate(scm.CAs);
}
sa.LocalCertificate.Value = lcert;
sa.RemoteCertificate.Value = rcert;
sa.RDHE.Value = scm.DHE;
sa.DHEWithCertificateAndCAsInHash.Value = MemBlock.Reference(sha1.ComputeHash((byte[])scm.Packet));
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.DHE = sa.LDHE;
scm_reply.Certificate = MemBlock.Reference(lcert.RawData);
scm_reply.Type = SecurityControlMessage.MessageType.DHEWithCertificate;
lock (_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
sa.DHEWithCertificateHash.Value = MemBlock.Reference(sha1.ComputeHash((byte[])scm_reply.Packet));
ICopyable to_send = new CopyList(SecureControl, scm_reply.Packet);
return_path.Send(to_send);
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful DHEWithCertificateAndCAs from: " + low_level_sender);
}
/// <summary>3b) Receive a Confirm, verify the entire stack and send a Confirm
/// 4a)Receive a Confirm, verify the entire stack and all set to go</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlConfirm(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received Confirm from: " + low_level_sender);
if (sa == null)
{
throw new Exception("No valid SA!");
}
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
scm.Verify((RSACryptoServiceProvider)sa.RemoteCertificate.Value.RSA, sha1);
if (return_path == low_level_sender)
{
sa.VerifyResponse(scm.Hash);
}
else
{
sa.VerifyRequest(scm.Hash);
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.Hash = sa.DHEWithCertificateAndCAsInHash.Value;
scm_reply.Type = SecurityControlMessage.MessageType.Confirm;
lock (_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
ICopyable to_send = new CopyList(SecureControl, scm_reply.Packet);
return_path.Send(to_send);
}
if (Verify(sa))
{
sa.Enable();
}
else
{
sa.Close("Unable to verify the SA as being valid!");
}
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful Confirm from: " + low_level_sender);
}
public void Incoming()
{
Random rand = new Random();
byte[] local_cookie = new byte[SecurityControlMessage.CookieLength];
byte[] remote_cookie = new byte[SecurityControlMessage.CookieLength];
byte[] dhe = new byte[144];
byte[] cas = new byte[120];
byte[] cert = new byte[100];
RSACryptoServiceProvider rsa = new RSACryptoServiceProvider();
HashAlgorithm hash = new SHA1CryptoServiceProvider();
rand.NextBytes(local_cookie);
rand.NextBytes(remote_cookie);
rand.NextBytes(dhe);
rand.NextBytes(cas);
rand.NextBytes(cert);
MemBlock mlocal_cookie = MemBlock.Reference(local_cookie);
MemBlock mremote_cookie = MemBlock.Reference(remote_cookie);
MemBlock mdhe = MemBlock.Reference(dhe);
MemBlock mcert = MemBlock.Reference(cert);
MemBlock mcas = MemBlock.Reference(cas);
List <MemBlock> lcas = new List <MemBlock>();
for (int i = 0; i < cas.Length; i += SecurityControlMessage.CALength)
{
lcas.Add(MemBlock.Reference(mcas.Slice(i, SecurityControlMessage.CALength)));
}
int length = 4 + 4 + 4 + 2 * SecurityControlMessage.CookieLength +
4 + cas.Length + 4 + dhe.Length +
4 + cert.Length;
byte[] b = new byte[length];
int pos = 0;
NumberSerializer.WriteInt(5, b, pos);
pos += 4;
NumberSerializer.WriteInt(12345, b, pos);
pos += 4;
NumberSerializer.WriteInt((int)SecurityControlMessage.MessageType.DHEWithCertificateAndCAs, b, pos);
pos += 4;
local_cookie.CopyTo(b, pos);
pos += SecurityControlMessage.CookieLength;
remote_cookie.CopyTo(b, pos);
pos += SecurityControlMessage.CookieLength;
NumberSerializer.WriteInt(dhe.Length, b, pos);
pos += 4;
dhe.CopyTo(b, pos);
pos += dhe.Length;
NumberSerializer.WriteInt(cert.Length, b, pos);
pos += 4;
cert.CopyTo(b, pos);
pos += cert.Length;
NumberSerializer.WriteInt(cas.Length, b, pos);
pos += 4;
mcas.CopyTo(b, pos);
pos += cas.Length;
byte[] signature = rsa.SignData(b, hash);
byte[] nb = new byte[b.Length + signature.Length];
b.CopyTo(nb, 0);
signature.CopyTo(nb, b.Length);
MemBlock packet = MemBlock.Reference(nb);
// check
SecurityControlMessage scm = new SecurityControlMessage(packet);
Assert.AreEqual(5, scm.Version, "Version");
Assert.AreEqual(12345, scm.SPI, "SPI");
Assert.AreEqual(SecurityControlMessage.MessageType.DHEWithCertificateAndCAs, scm.Type, "Type");
Assert.AreEqual(mlocal_cookie, scm.LocalCookie, "LocalCookie");
Assert.AreEqual(mremote_cookie, scm.RemoteCookie, "RemoteCookie");
Assert.AreEqual(mdhe, scm.DHE, "DHE");
Assert.AreEqual(mcert, scm.Certificate, "Certificate");
int contains = 0;
foreach (MemBlock ca in scm.CAs)
{
if (scm.CAs.Contains(ca))
{
contains++;
}
}
Assert.AreEqual(contains, lcas.Count, "Contains CAs");
Assert.IsTrue(scm.Verify(rsa, hash), "Signature");
Assert.AreEqual(packet, scm.Packet, "Packet");
// change a few things around and check again!
scm.Version = 0;
SecurityControlMessage scm1 = new SecurityControlMessage(scm.Packet);
scm1.Sign(rsa, hash);
Assert.AreEqual(scm1.Version, scm.Version, "Version 1");
Assert.AreEqual(scm1.SPI, scm.SPI, "SPI 1");
Assert.AreEqual(scm1.Type, scm.Type, "Type 1");
Assert.AreEqual(scm1.LocalCookie, scm.LocalCookie, "LocalCookie 1");
Assert.AreEqual(scm1.RemoteCookie, scm.RemoteCookie, "RemoteCookie 1");
Assert.AreEqual(mdhe, scm.DHE, "DHE 1");
Assert.AreEqual(mcert, scm.Certificate, "Certificate 1");
contains = 0;
foreach (MemBlock ca in scm.CAs)
{
if (scm.CAs.Contains(ca))
{
contains++;
}
}
Assert.AreEqual(contains, lcas.Count, "Contains CAs 1");
Assert.IsTrue(scm1.Signature != scm.Signature, "Signature 1");
Assert.AreEqual(scm1.Packet.Slice(4, scm1.Signature.Length),
scm.Packet.Slice(4, scm.Signature.Length), "Packet 1");
}
public void Incoming() {
Random rand = new Random();
byte[] local_cookie = new byte[SecurityControlMessage.CookieLength];
byte[] remote_cookie = new byte[SecurityControlMessage.CookieLength];
byte[] dhe = new byte[144];
byte[] cas = new byte[120];
byte[] cert = new byte[100];
RSACryptoServiceProvider rsa = new RSACryptoServiceProvider();
HashAlgorithm hash = new SHA1CryptoServiceProvider();
rand.NextBytes(local_cookie);
rand.NextBytes(remote_cookie);
rand.NextBytes(dhe);
rand.NextBytes(cas);
rand.NextBytes(cert);
MemBlock mlocal_cookie = MemBlock.Reference(local_cookie);
MemBlock mremote_cookie = MemBlock.Reference(remote_cookie);
MemBlock mdhe = MemBlock.Reference(dhe);
MemBlock mcert = MemBlock.Reference(cert);
MemBlock mcas = MemBlock.Reference(cas);
List<MemBlock> lcas = new List<MemBlock>();
for(int i = 0; i < cas.Length; i+= SecurityControlMessage.CALength) {
lcas.Add(MemBlock.Reference(mcas.Slice(i, SecurityControlMessage.CALength)));
}
int length = 4 + 4 + 4 + 2 * SecurityControlMessage.CookieLength +
4 + cas.Length + 4 + dhe.Length +
4 + cert.Length;
byte[] b = new byte[length];
int pos = 0;
NumberSerializer.WriteInt(5, b, pos);
pos += 4;
NumberSerializer.WriteInt(12345, b, pos);
pos += 4;
NumberSerializer.WriteInt((int) SecurityControlMessage.MessageType.DHEWithCertificateAndCAs, b, pos);
pos += 4;
local_cookie.CopyTo(b, pos);
pos += SecurityControlMessage.CookieLength;
remote_cookie.CopyTo(b, pos);
pos += SecurityControlMessage.CookieLength;
NumberSerializer.WriteInt(dhe.Length, b, pos);
pos += 4;
dhe.CopyTo(b, pos);
pos += dhe.Length;
NumberSerializer.WriteInt(cert.Length, b, pos);
pos += 4;
cert.CopyTo(b, pos);
pos += cert.Length;
NumberSerializer.WriteInt(cas.Length, b, pos);
pos += 4;
mcas.CopyTo(b, pos);
pos += cas.Length;
byte[] signature = rsa.SignData(b, hash);
byte[] nb = new byte[b.Length + signature.Length];
b.CopyTo(nb, 0);
signature.CopyTo(nb, b.Length);
MemBlock packet = MemBlock.Reference(nb);
// check
SecurityControlMessage scm = new SecurityControlMessage(packet);
Assert.AreEqual(5, scm.Version, "Version");
Assert.AreEqual(12345, scm.SPI, "SPI");
Assert.AreEqual(SecurityControlMessage.MessageType.DHEWithCertificateAndCAs, scm.Type, "Type");
Assert.AreEqual(mlocal_cookie, scm.LocalCookie, "LocalCookie");
Assert.AreEqual(mremote_cookie, scm.RemoteCookie, "RemoteCookie");
Assert.AreEqual(mdhe, scm.DHE, "DHE");
Assert.AreEqual(mcert, scm.Certificate, "Certificate");
int contains = 0;
foreach(MemBlock ca in scm.CAs) {
if(scm.CAs.Contains(ca)) {
contains++;
}
}
Assert.AreEqual(contains, lcas.Count, "Contains CAs");
Assert.IsTrue(scm.Verify(rsa, hash), "Signature");
Assert.AreEqual(packet, scm.Packet, "Packet");
// change a few things around and check again!
scm.Version = 0;
SecurityControlMessage scm1 = new SecurityControlMessage(scm.Packet);
scm1.Sign(rsa, hash);
Assert.AreEqual(scm1.Version, scm.Version, "Version 1");
Assert.AreEqual(scm1.SPI, scm.SPI, "SPI 1");
Assert.AreEqual(scm1.Type, scm.Type, "Type 1");
Assert.AreEqual(scm1.LocalCookie, scm.LocalCookie, "LocalCookie 1");
Assert.AreEqual(scm1.RemoteCookie, scm.RemoteCookie, "RemoteCookie 1");
Assert.AreEqual(mdhe, scm.DHE, "DHE 1");
Assert.AreEqual(mcert, scm.Certificate, "Certificate 1");
contains = 0;
foreach(MemBlock ca in scm.CAs) {
if(scm.CAs.Contains(ca)) {
contains++;
}
}
Assert.AreEqual(contains, lcas.Count, "Contains CAs 1");
Assert.IsTrue(scm1.Signature != scm.Signature, "Signature 1");
Assert.AreEqual(scm1.Packet.Slice(4, scm1.Signature.Length),
scm.Packet.Slice(4, scm.Signature.Length), "Packet 1");
}
/// <summary>3b) Receive a Confirm, verify the entire stack and send a Confirm
/// 4a)Receive a Confirm, verify the entire stack and all set to go</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlConfirm(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received Confirm from: " + low_level_sender);
if(sa == null) {
throw new Exception("No valid SA!");
}
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
scm.Verify((RSACryptoServiceProvider) sa.RemoteCertificate.Value.RSA, sha1);
if(return_path == low_level_sender) {
sa.VerifyResponse(scm.Hash);
} else {
sa.VerifyRequest(scm.Hash);
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.Hash = sa.DHEWithCertificateAndCAsInHash.Value;
scm_reply.Type = SecurityControlMessage.MessageType.Confirm;
lock(_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
ICopyable to_send = new CopyList(SecureControl, scm_reply.Packet);
return_path.Send(to_send);
}
if(Verify(sa)) {
sa.Enable();
} else {
sa.Close("Unable to verify the SA as being valid!");
}
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful Confirm from: " + low_level_sender);
}
/// <summary>3a) Receive a DHEWithCertificate, verify the certificate and DHE and
/// send a Confirm that you are ready to Verify the stack and start the
/// system.</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlDHEWithCertificates(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received DHEWithCertificate from: " + low_level_sender);
if(sa == null) {
throw new Exception("No valid SA!");
}
byte[] cert = new byte[scm.Certificate.Length];
scm.Certificate.CopyTo(cert, 0);
X509Certificate rcert = new X509Certificate(cert);
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
scm.Verify((RSACryptoServiceProvider) rcert.RSA, sha1);
_ch.Verify(rcert);
sa.RemoteCertificate.Value = rcert;
sa.RDHE.Value = scm.DHE;
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.Hash = MemBlock.Reference(sha1.ComputeHash((byte[]) scm.Packet));
scm_reply.Type = SecurityControlMessage.MessageType.Confirm;
lock(_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
ICopyable to_send = new CopyList(Security, SecureControl, scm_reply.Packet);
_rrman.SendRequest(return_path, ReqrepManager.ReqrepType.Request,
to_send, this, sa);
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful DHEWithCertificate from: " + low_level_sender);
}
/// <summary>2b) Receive a DHEWithCertificateAndCAs, verify the certificate and attempt
/// to find a matching Certificate for the list of CAs, if you find one,
/// finish the DHE handshake and send the certificate via a DHEWithCertificate</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlDHEWithCertificateAndCAs(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received DHEWithCertificateAndCAs from: " + low_level_sender);
if(sa == null) {
sa = CreateSecurityAssociation(low_level_sender, scm.SPI, false);
}
byte[] cert = new byte[scm.Certificate.Length];
scm.Certificate.CopyTo(cert, 0);
X509Certificate rcert = new X509Certificate(cert);
_ch.Verify(rcert);
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
scm.Verify((RSACryptoServiceProvider) rcert.RSA, sha1);
X509Certificate lcert = null;
if(SecurityPolicy.GetPolicy(scm.SPI).PreExchangedKeys) {
lcert = _ch.DefaultCertificate;
} else {
lcert = _ch.FindCertificate(scm.CAs);
}
sa.LocalCertificate.Value = lcert;
sa.RemoteCertificate.Value = rcert;
sa.RDHE.Value = scm.DHE;
sa.DHEWithCertificateAndCAsInHash.Value = MemBlock.Reference(sha1.ComputeHash((byte[]) scm.Packet));
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.DHE = sa.LDHE;
scm_reply.Certificate = MemBlock.Reference(lcert.RawData);
scm_reply.Type = SecurityControlMessage.MessageType.DHEWithCertificate;
lock(_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
sa.DHEWithCertificateHash.Value = MemBlock.Reference(sha1.ComputeHash((byte[]) scm_reply.Packet));
ICopyable to_send = new CopyList(SecureControl, scm_reply.Packet);
return_path.Send(to_send);
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful DHEWithCertificateAndCAs from: " + low_level_sender);
}
/// <summary>2a) Receive a CookieResponse that contains a list of CAs, if you have
/// a Certificate that supports one of the CAs send it along with a DHE
/// and a list of your supported CAs in a DHEWithCertificateAndCAs.</summary>
/// <param name="sa">A security association that we wish to perform the
/// specified control operation on.</param>
/// <param name="scm">The received SecurityControlMessage.</param>
/// <param name="scm_reply">A prepared reply message (with headers and such.</param>
/// <param name="return_path">Where to send the result.</param>
/// <param name="low_level_sender">We expect the return_path to not be an edge or
/// some other type of "low level" sender, so this contains the parsed out value.</param>
protected void HandleControlCookieResponse(SecurityAssociation sa,
SecurityControlMessage scm, SecurityControlMessage scm_reply,
ISender return_path, ISender low_level_sender)
{
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Received CookieResponse from: " + low_level_sender);
if(sa == null) {
throw new Exception("No valid SA!");
}
// This seems like unnecessary code
scm_reply.Type = SecurityControlMessage.MessageType.CookieResponse;
X509Certificate lcert = null;
if(SecurityPolicy.GetPolicy(scm.SPI).PreExchangedKeys) {
lcert = _ch.DefaultCertificate;
} else {
lcert = _ch.FindCertificate(scm.CAs);
}
sa.RemoteCookie.Value = scm.LocalCookie;
sa.LocalCertificate.Value = lcert;
scm_reply.Certificate = lcert.RawData;
scm_reply.DHE = sa.LDHE;
scm_reply.LocalCookie = scm.RemoteCookie;
scm_reply.RemoteCookie = scm.LocalCookie;
scm_reply.Type = SecurityControlMessage.MessageType.DHEWithCertificateAndCAs;
if(SecurityPolicy.GetPolicy(scm.SPI).PreExchangedKeys) {
scm_reply.CAs = new List<MemBlock>(0);
} else {
scm_reply.CAs = _ch.SupportedCAs;
}
HashAlgorithm sha1 = new SHA1CryptoServiceProvider();
lock(_private_key_lock) {
scm_reply.Sign(_private_key, sha1);
}
sa.DHEWithCertificateAndCAsOutHash.Value = sha1.ComputeHash((byte[]) scm_reply.Packet);
ICopyable to_send = new CopyList(Security, SecureControl, scm_reply.Packet);
_rrman.SendRequest(return_path, ReqrepManager.ReqrepType.Request,
to_send, this, sa);
ProtocolLog.WriteIf(ProtocolLog.Security, GetHashCode() + " Successful CookieResponse from: " + low_level_sender);
}