protected override void Run()
{
// Connect the tunnel.
InternalAnpTunnel = new AnpTunnel(Host, Port);
Tunnel tunnel = InternalAnpTunnel.GetTunnel();
InternalAnpTunnel.BeginConnect(ReconnectHost, ReconnectPort);
while (true)
{
SelectSockets set = new SelectSockets();
set.Timeout = 100;
tunnel.CheckTls();
set.AddRead(tunnel.Sock);
Block(set);
if (set.ReadSockets.Contains(tunnel.Sock))
{
InternalAnpTunnel.CreateTransport();
break;
}
}
// Handle the tunnel.
OnTunnelConnected();
}
/// <summary>
/// Helper method for StartKmod().
/// </summary>
private void SetSelectTimeout(DateTime startTime, int msec, SelectSockets select, String msg)
{
int remaining = msec - (int)(DateTime.Now - startTime).TotalMilliseconds;
if (remaining < 0)
{
throw new Exception(msg);
}
select.Timeout = remaining * 1000;
}
/// <summary>
/// Analyse the result of the select() call for the specified KCD.
/// </summary>
private void UpdateStateAfterSelect(KcdThreadHost k, SelectSockets selectSockets)
{
try
{
k.CheckNoMessageReceivedInvariant();
// We have nothing to do if we don't have an established TCP
// connection.
if (k.ConnStatus != KcdThreadConnStatus.Connected &&
k.ConnStatus != KcdThreadConnStatus.RoleReply)
{
return;
}
// Perform transfers only if the socket is ready.
Debug.Assert(k.Tunnel.Sock != null);
if (!selectSockets.InReadOrWrite(k.Tunnel.Sock))
{
return;
}
// Do up to 20 transfers (the limit exists for quenching purposes).
for (int i = 0; i < 20; i++)
{
// Send a message if possible.
k.SendNextQueuedMsgIfNeeded();
// Remember if we are sending a message.
bool sendingFlag = k.Tunnel.IsSendingMessage();
// Do transfers.
k.Tunnel.DoXfer();
// Stop if no message has been received and no message has been sent.
if (!k.Tunnel.HasReceivedMessage() &&
(!sendingFlag || k.Tunnel.IsSendingMessage()))
{
break;
}
// Process the message received.
if (k.Tunnel.HasReceivedMessage())
{
ProcessIncomingKcdMessage(k, k.Tunnel.GetMsg());
}
}
k.CheckNoMessageReceivedInvariant();
}
catch (Exception ex)
{
HandleDisconnectedKcd(k, ex);
}
}
/// <summary>
/// Update the select set specified with the socket of the tunnel.
/// </summary>
public void UpdateSelect(SelectSockets select)
{
Debug.Assert(transport.isReceiving || transport.doneReceiving);
if (transport.isSending)
{
select.AddWrite(tunnel.Sock);
}
if (transport.isReceiving && !transport.doneReceiving)
{
select.AddRead(tunnel.Sock);
}
}
/// <summary>
/// If the tunnel is connected, a new AnpTransport is created and the
/// method returns true. Otherwise, the method returns false.
/// </summary>
public bool CheckConnect()
{
SelectSockets select = new SelectSockets();
select.Timeout = 0;
select.AddRead(tunnel.Sock);
tunnel.CheckTls();
select.Select();
if (select.ReadSockets.Contains(tunnel.Sock))
{
CreateTransport();
return(true);
}
return(false);
}
protected override void Run()
{
while (true)
{
SelectSockets s = new SelectSockets();
Block(s);
// If we were notified, process the WM messages. This refreshes
// the quench deadline.
if (m_wmNotifFlag)
{
m_wmNotifFlag = false;
ProcessIncomingWmMessages();
}
}
}
/// <summary>
/// Send an AnpMsg. This method blocks if a message is currently being
/// transferred.
/// </summary>
/// <param name="msg"></param>
public void SendMsg(AnpMsg msg)
{
Debug.Assert(transport.isReceiving || transport.doneReceiving);
while (transport.isSending)
{
SelectSockets select = new SelectSockets();
transport.doXfer();
UpdateSelect(select);
if (transport.isSending)
{
select.Select();
}
}
transport.sendMsg(msg);
transport.doXfer();
}
/// <summary>
/// Block until the tunnel is connected or a timeout occurs. If the tunnel
/// is connected, a new AnpTransport is created and the method returns true.
/// Otherwise, the method returns false.
/// </summary>
/// <param name="timeout">Microseconds to wait in the Select.</param>
public bool CheckConnect(int timeout)
{
// FIXME : loop to call tunnel.CheckTls()
// at regular intervals.
SelectSockets select = new SelectSockets();
select.Timeout = timeout;
select.AddRead(tunnel.Sock);
tunnel.CheckTls();
select.Select();
if (select.ReadSockets.Contains(tunnel.Sock))
{
CreateTransport();
return(true);
}
return(false);
}
/// <summary>
/// Get an AnpMsg. This is a blocking method, unless a message has already
/// been received.
/// </summary>
public AnpMsg GetMsg()
{
Debug.Assert(transport.isReceiving || transport.doneReceiving);
while (!transport.doneReceiving)
{
SelectSockets select = new SelectSockets();
transport.doXfer();
UpdateSelect(select);
if (!transport.doneReceiving)
{
select.Select();
}
}
AnpMsg msg = transport.getRecv();
transport.beginRecv();
return(msg);
}
/// <summary>
/// Send a message on the tunnel.
/// </summary>
protected void SendAnpMsg(AnpMsg m)
{
AnpTransport transfer = InternalAnpTunnel.GetTransport();
Debug.Assert(transfer.IsReceiving || transfer.DoneReceiving);
Debug.Assert(!transfer.IsSending);
transfer.SendMsg(m);
while (transfer.IsSending)
{
transfer.DoXfer();
if (transfer.IsSending)
{
SelectSockets set = new SelectSockets();
InternalAnpTunnel.UpdateSelect(set);
Block(set);
}
}
}
/// <summary>
/// Retrieve a message from the tunnel.
/// </summary>
protected AnpMsg GetAnpMsg()
{
AnpTransport transfer = InternalAnpTunnel.GetTransport();
Debug.Assert(transfer.IsReceiving || transfer.DoneReceiving);
Debug.Assert(!transfer.IsSending);
while (!transfer.DoneReceiving)
{
transfer.DoXfer();
if (!transfer.DoneReceiving)
{
SelectSockets set = new SelectSockets();
InternalAnpTunnel.UpdateSelect(set);
Block(set);
}
}
AnpMsg msg = transfer.GetRecv();
transfer.BeginRecv();
return(msg);
}
/// <summary>
/// Add the socket of the KCD in the select sets as needed and manage
/// ktlstunnel.exe processes.
/// </summary>
private void PrepareStateForSelect(KcdThreadHost k, SelectSockets selectSockets, bool quenchFlag,
ref bool connWatchFlag)
{
// Note: the KCD should never have received a message when this function
// is called. The function UpdateStateAfterSelect() is responsible for
// doing all the transfers and handling any message received after these
// transfers.
try
{
k.CheckNoMessageReceivedInvariant();
if (k.ConnStatus == KcdThreadConnStatus.Scheduled)
{
// Start ktlstunnel.exe.
k.ConnStatus = KcdThreadConnStatus.Connecting;
k.Tunnel.BeginConnect();
}
if (k.ConnStatus == KcdThreadConnStatus.Connecting)
{
// The TCP connection is now open.
if (k.Tunnel.CheckConnect())
{
// Send the select role command.
k.SendSelectRoleMsg();
// Wait for the reply to arrive.
k.ConnStatus = KcdThreadConnStatus.RoleReply;
}
// Wait for the TCP connection to be established. We busy wait
// to monitor the status of ktlstunnel.exe regularly, to detect
// the case where the connection fails.
else
{
connWatchFlag = true;
}
}
if (k.ConnStatus == KcdThreadConnStatus.RoleReply)
{
// Wait for the reply to arrive.
if (!quenchFlag)
{
k.Tunnel.UpdateSelect(selectSockets);
}
}
if (k.ConnStatus == KcdThreadConnStatus.Connected)
{
// Send the next message, if possible.
k.SendNextQueuedMsgIfNeeded();
if (!quenchFlag)
{
k.Tunnel.UpdateSelect(selectSockets);
}
}
k.CheckNoMessageReceivedInvariant();
}
catch (Exception ex)
{
HandleDisconnectedKcd(k, ex);
}
}
/// <summary>
/// Loop processing KCDs.
/// </summary>
private void MainLoop()
{
while (true)
{
Debug.Assert(!MustReplyToWm());
// Refresh the quench deadline if it depends on the amount of
// time elapsed.
if (m_quenchDeadline != DateTime.MinValue && m_quenchDeadline != DateTime.MaxValue)
{
m_wmNotifFlag = true;
}
// If we were notified, process the WM messages. This refreshes
// the quench deadline.
if (m_wmNotifFlag)
{
m_wmNotifFlag = false;
ProcessIncomingWmMessages();
}
Debug.Assert(!MustReplyToWm());
// Determine whether we are quenched and the value of the
// select timeout. By default we wait forever in select().
bool quenchFlag = false;
int timeout = -2;
// Be quenched until we are notified.
if (m_quenchDeadline == DateTime.MaxValue)
{
quenchFlag = true;
}
// Be quenched up to the deadline we were given.
else if (m_quenchDeadline != DateTime.MinValue)
{
DateTime now = DateTime.Now;
if (m_quenchDeadline > now)
{
quenchFlag = true;
timeout = (int)(m_quenchDeadline - now).TotalMilliseconds;
}
}
// Prepare the call to select.
bool connWatchFlag = false;
SelectSockets selectSockets = new SelectSockets();
foreach (KcdThreadHost k in m_kcdTree.Values)
{
PrepareStateForSelect(k, selectSockets,
quenchFlag, ref connWatchFlag);
}
// Our state has changed. Notify the WM and recompute our state.
if (MustReplyToWm())
{
ReplyToWm();
continue;
}
// Reduce the timeout to account for ktlstunnel.exe.
if (connWatchFlag)
{
DecrementTimeout(ref timeout, 300);
}
// Block in the call to select(). Note that we receive notifications
// here.
selectSockets.Timeout = timeout * 1000;
Block(selectSockets);
// If we are not quenched, perform transfers.
if (!quenchFlag)
{
foreach (KcdThreadHost k in m_kcdTree.Values)
{
UpdateStateAfterSelect(k, selectSockets);
}
ReplyToWm();
}
}
}
/// <summary>
/// Start kmod and connect to it.
/// </summary>
private void StartKmod()
{
FileStream file = null;
Socket listenSock = null;
RegistryKey kwmRegKey = null;
try
{
// Get the path to the kmod executable in the registry.
kwmRegKey = Base.GetKwmLMRegKey();
String Kmod = "\"" + (String)kwmRegKey.GetValue("InstallDir", @"C:\Program Files\Teambox\Teambox Manager") + "\\kmod\\kmod.exe\"";
// The directory where KMOD will save logs and its database for use with the kwm.
String KmodDir = Misc.GetKmodDirPath();
Directory.CreateDirectory(KmodDir);
// Start listening for kmod to connect when it'll be started.
IPEndPoint endPoint = new IPEndPoint(IPAddress.Loopback, 0);
listenSock = new Socket(endPoint.AddressFamily, SocketType.Stream, ProtocolType.Tcp);
listenSock.Bind(endPoint);
listenSock.Listen(1);
int port = ((IPEndPoint)listenSock.LocalEndPoint).Port;
// Start KMOD in debugging mode if our settings say so.
//String debug = Misc.ApplicationSettings.ktlstunnelLoggingLevel > 0 ? " -l 3" : "";
String debug = "-l 3";
String args = " -C kmod_connect -p " + port + debug + " -m 20000 -k \"" + KmodDir + "\"";
String cmdLine = Kmod + args;
Logging.Log("About to start kmod.exe: " + cmdLine);
m_kmodProc = new RawProcess(cmdLine);
m_kmodProc.InheritHandles = false;
m_kmodProc.CreationFlags = (uint)Syscalls.CREATION_FLAGS.CREATE_NO_WINDOW;
m_kmodProc.Start();
// Wait for KMOD to connect for about 10 seconds.
DateTime startTime = DateTime.Now;
while (true)
{
SelectSockets select = new SelectSockets();
select.AddRead(listenSock);
SetSelectTimeout(startTime, 10000, select, "no KMOD connection received");
Block(select);
if (select.InRead(listenSock))
{
m_kmodSock = listenSock.Accept();
m_kmodSock.Blocking = false;
break;
}
}
// Read the authentication data.
byte[] authSockData = new byte[32];
byte[] authFileData = new byte[32];
startTime = DateTime.Now;
int nbRead = 0;
while (nbRead != 32)
{
SelectSockets select = new SelectSockets();
select.AddRead(m_kmodSock);
SetSelectTimeout(startTime, 2000, select, "no authentication data received");
Block(select);
int r = Base.SockRead(m_kmodSock, authSockData, nbRead, 32 - nbRead);
if (r > 0)
{
nbRead += r;
}
}
file = File.Open(KmodDir + "\\connect_secret", FileMode.Open);
file.Read(authFileData, 0, 32);
if (!Base.ByteArrayEqual(authFileData, authSockData))
{
throw new Exception("invalid authentication data received");
}
// Set the transport.
m_transport = new K3pTransport(m_kmodSock);
}
finally
{
if (file != null)
{
file.Close();
}
if (listenSock != null)
{
listenSock.Close();
}
if (kwmRegKey != null)
{
kwmRegKey.Close();
}
}
}
/// <summary>
/// Run one pass of the main loop.
/// </summary>
private void RunPass()
{
// Wait for a command.
while (m_commandQueue.Count == 0)
{
Block(new SelectSockets());
}
// Get the next command.
KmodThreadCommand command = m_commandQueue.Dequeue();
// Send the command.
m_transport.sendMsg(command.Msg);
while (true)
{
m_transport.doXfer();
if (!m_transport.isSending)
{
break;
}
SelectSockets select = new SelectSockets();
select.AddWrite(m_kmodSock);
Block(select);
}
// We're done.
if (!command.HaveResultFlag)
{
return;
}
// Wait for the results or the next command.
bool firstFlag = true;
while (m_commandQueue.Count == 0)
{
if (!m_transport.isReceiving)
{
m_transport.beginRecv();
}
m_transport.doXfer();
// Push the next result.
if (m_transport.doneReceiving)
{
lock (Mon)
{
m_elementQueue.Enqueue(m_transport.getRecv());
Monitor.Pulse(Mon);
}
// Send the notification that results are ready for this command.
if (firstFlag)
{
firstFlag = false;
PostToUI(new KmodThreadNotif(m_broker, command));
}
}
// Wait for the next result or the next command.
else
{
SelectSockets select = new SelectSockets();
select.AddRead(m_kmodSock);
Block(select);
}
}
}
/// <summary>
/// Update the select set specified with the socket of the tunnel.
/// </summary>
public void UpdateSelect(SelectSockets selectSocket)
{
transport.UpdateSelect(selectSocket);
}
