| public static Supports ( int Index ) : bool | ||
| Index | int | |
| Результат | bool | |
/// <summary>This is SecureData that needs to get to an SA.</summary>
protected void HandleData(MemBlock b, ISender return_path)
{
SecurityDataMessage sdm = new SecurityDataMessage(b);
Dictionary <ISender, PeerSecAssociation> sender_to_sa = null;
PeerSecAssociation sa = null;
try {
sender_to_sa = _spi[sdm.SPI];
sa = sender_to_sa[return_path];
sa.HandleData(b, return_path, null);
} catch {
if (sender_to_sa == null && !SecurityPolicy.Supports(sdm.SPI))
{
throw new Exception("Invalid SPI: " + sdm.SPI);
}
else if (sa == null)
{
NoSuchSA(sdm.SPI, return_path);
throw new Exception("No SA for: " + return_path);
}
else if (sa.Closed)
{
throw new Exception("SA has been closed.");
}
else
{
throw;
}
}
}
/// <summary>This (idempotently) returns a new SecurityAssociation for the
/// specified sender using the specified SA.</summary>
protected PeerSecAssociation CreateSecurityAssociation(ISender Sender,
int SPI, bool start)
{
if (!SecurityPolicy.Supports(SPI))
{
throw new Exception("Unsupported SPI");
}
PeerSecAssociation sa = null;
lock (_sync) {
Dictionary <ISender, PeerSecAssociation> sender_to_sa = null;
if (_spi.ContainsKey(SPI))
{
sender_to_sa = _spi[SPI];
}
else
{
sender_to_sa = new Dictionary <ISender, PeerSecAssociation>();
_spi[SPI] = sender_to_sa;
}
if (sender_to_sa.ContainsKey(Sender))
{
sa = sender_to_sa[Sender];
}
else
{
sa = new PeerSecAssociation(Sender, _ch, SPI);
sa.Subscribe(this, null);
sa.StateChangeEvent += SAStateChange;
sa.RequestUpdate += SARequestUpdate;
sender_to_sa[Sender] = sa;
}
}
if (start && sa.State != SecurityAssociation.States.Active)
{
StartSA(sa);
}
return(sa);
}
/// <summary>This is SecureData that needs to get to an SA.</summary>
protected void HandleData(MemBlock b, ISender return_path)
{
SecurityDataMessage sdm = new SecurityDataMessage(b);
Dictionary <ISender, PeerSecAssociation> sender_to_sa = null;
PeerSecAssociation sa = null;
try {
sender_to_sa = _spi[sdm.SPI];
sa = sender_to_sa[return_path];
sa.HandleData(b, return_path, null);
} catch (Exception e) {
if (sender_to_sa == null && !SecurityPolicy.Supports(sdm.SPI))
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"Unsupported SPI, from {0}, message: {1}", return_path, sdm));
}
else
{
if (sa == null)
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"No SA, from {0}, message: {1}", return_path, sdm));
}
else if (sa.Closed)
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"SA, {0}, has been closed, from {1}, message: {2}.", sa,
return_path, sdm));
}
else
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"SA, {0}, from {1}, message: {2}, causes unhandled exception : {3}",
sa, return_path, sdm, e));
}
NoSuchSA(sdm.SPI, return_path);
}
}
}
/// <summary>This is the control state machine. There are three paths in
/// the state machine, iniator, receiver, and bidirectional. The
/// bidirectional case occurs when two remote ISenders that are matched
/// together initiate a handshake at the same time, otherwise the initiator
/// /receiver pattern is followed. The high level overview for the states
/// are:
/// 1a) Send a Cookie
/// 1b) Receive a Cookie which responds with a CookieResponse
/// 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.
/// 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
/// 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.
/// 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>
protected void HandleControl(MemBlock b, ISender return_path)
{
ISender low_level_sender = return_path;
if (low_level_sender is ReqrepManager.ReplyState)
{
low_level_sender = ((ReqrepManager.ReplyState)low_level_sender).ReturnPath;
}
SecurityControlMessage scm = new SecurityControlMessage(b);
MemBlock calc_cookie = CalculateCookie(low_level_sender);
if (scm.Version != Version)
{
throw new Exception("Invalid version: " + scm.Version);
}
else if (!SecurityPolicy.Supports(scm.SPI))
{
throw new Exception("No support for SPI: " + scm.SPI);
}
else if (!scm.RemoteCookie.Equals(calc_cookie))
{
if (scm.Type != SecurityControlMessage.MessageType.Cookie &&
scm.Type != SecurityControlMessage.MessageType.NoSuchSA)
{
throw new Exception("Invalid cookie!");
}
}
SecurityControlMessage scm_reply = new SecurityControlMessage();
scm_reply.Version = Version;
scm_reply.SPI = scm.SPI;
PeerSecAssociation sa = null;
// This can be in a try statement since this is best effort anyway
try {
Dictionary <ISender, PeerSecAssociation> sender_to_sa = _spi[scm.SPI];
sa = sender_to_sa[low_level_sender];
} catch { }
if (sa != null)
{
sa.Reset();
if (sa.Closed)
{
throw new Exception("SA closed!");
}
else if (sa.State == SecurityAssociation.States.Active)
{
return;
}
}
try {
switch (scm.Type)
{
case SecurityControlMessage.MessageType.NoSuchSA:
HandleControlNoSuchSA(sa);
break;
case SecurityControlMessage.MessageType.Cookie:
HandleControlCookie(sa, calc_cookie, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.CookieResponse:
HandleControlCookieResponse(sa, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.DHEWithCertificateAndCAs:
HandleControlDHEWithCertificateAndCAs(sa, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.DHEWithCertificate:
HandleControlDHEWithCertificates(sa, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.Confirm:
HandleControlConfirm(sa, scm, scm_reply, return_path, low_level_sender);
break;
default:
throw new Exception("Invalid message!");
}
} catch {
if (sa != null && sa.Closed)
{
throw new Exception("SA closed.");
}
else
{
throw;
}
}
}
/// <summary>This is the control state machine. There are three paths in
/// the state machine, iniator, receiver, and bidirectional. The
/// bidirectional case occurs when two remote ISenders that are matched
/// together initiate a handshake at the same time, otherwise the initiator
/// /receiver pattern is followed. The high level overview for the states
/// are:
/// 1a) Send a Cookie
/// 1b) Receive a Cookie which responds with a CookieResponse
/// 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.
/// 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
/// 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.
/// 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>
protected void HandleControl(MemBlock b, ISender return_path)
{
ISender low_level_sender = return_path;
if (low_level_sender is ReqrepManager.ReplyState)
{
low_level_sender = ((ReqrepManager.ReplyState)low_level_sender).ReturnPath;
}
SecurityControlMessage scm = new SecurityControlMessage(b);
MemBlock calc_cookie = CalculateCookie(low_level_sender);
if (scm.Version != Version)
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"Invalid version expected {0}, found {1}, from {2}, message: {3}",
Version, scm.Version, low_level_sender, scm));
return;
}
else if (!SecurityPolicy.Supports(scm.SPI))
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"Unsupported SPI, from {0}, message: {1}", low_level_sender, scm));
return;
}
else if ((scm.Type != SecurityControlMessage.MessageType.Cookie &&
scm.Type != SecurityControlMessage.MessageType.NoSuchSA) &&
!scm.RemoteCookie.Equals(calc_cookie))
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"Invalid cookie, Expected {0}, Found {1}, From {2}, Message {3}",
calc_cookie, scm.RemoteCookie, low_level_sender, scm));
return;
}
SecurityControlMessage scm_reply = new SecurityControlMessage();
scm_reply.Version = Version;
scm_reply.SPI = scm.SPI;
PeerSecAssociation sa = null;
// This can be in a try statement since this is best effort anyway
try {
Dictionary <ISender, PeerSecAssociation> sender_to_sa = _spi[scm.SPI];
sa = sender_to_sa[low_level_sender];
} catch { }
if (sa != null)
{
// Reset cases where no state has been set yet or state is attempting
// to be re-established, if other message types arrive, they will
// expect pre-set state and will fail. The mechanisms instilled thus
// far should prevent this, but this makes it explicit. Now only
// wayward messages will arrive to other states.
if (scm.Type == SecurityControlMessage.MessageType.NoSuchSA ||
scm.Type == SecurityControlMessage.MessageType.Cookie ||
scm.Type == SecurityControlMessage.MessageType.CookieResponse ||
scm.Type == SecurityControlMessage.MessageType.DHEWithCertificateAndCAs)
{
sa.TryReset();
}
if (sa.Closed)
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, GetHashCode() + " SA closed, clearing SA state! " + sa);
sa = null;
}
else if (sa.State == SecurityAssociation.States.Active &&
// Two nodes can demand a confirm at the same time, if this
// message doesn't pass, then one side will close due to timeout
scm.Type != SecurityControlMessage.MessageType.Confirm)
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"{0}, {1}: {2}", GetHashCode(), "SA Active, received message",
scm.Type));
return;
}
}
try {
switch (scm.Type)
{
case SecurityControlMessage.MessageType.NoSuchSA:
HandleControlNoSuchSA(sa);
break;
case SecurityControlMessage.MessageType.Cookie:
HandleControlCookie(sa, calc_cookie, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.CookieResponse:
HandleControlCookieResponse(sa, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.DHEWithCertificateAndCAs:
HandleControlDHEWithCertificateAndCAs(sa, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.DHEWithCertificate:
HandleControlDHEWithCertificate(sa, scm, scm_reply, return_path, low_level_sender);
break;
case SecurityControlMessage.MessageType.Confirm:
HandleControlConfirm(sa, scm, scm_reply, return_path, low_level_sender);
break;
default:
throw new Exception("Invalid message!");
}
} catch (Exception e) {
if (scm.Type == SecurityControlMessage.MessageType.DHEWithCertificateAndCAs ||
scm.Type == SecurityControlMessage.MessageType.DHEWithCertificate ||
scm.Type == SecurityControlMessage.MessageType.Confirm)
{
NoSuchSA(scm.SPI, return_path);
}
if (sa != null && sa.Closed)
{
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, GetHashCode() + " SA closed! " + sa);
return;
}
ProtocolLog.WriteIf(ProtocolLog.SecurityExceptions, String.Format(
"Error in {0}, unhandled exception from {1}, message: {2}, exception: {3}",
GetHashCode(), low_level_sender, scm, e));
}
}
