/* Copyright (c) Citrix Systems Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms,
* with or without modification, are permitted provided
* that the following conditions are met:
*
* * Redistributions of source code must retain the above
* copyright notice, this list of conditions and the
* following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the
* following disclaimer in the documentation and/or other
* materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
* CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.Drawing.Drawing2D;
using System.Linq;
using System.Reflection;
using System.Windows.Forms;
using System.Drawing;
using System.ComponentModel;
using System.Net;
using System.Threading;
using DotNetVnc;
using log4net;
using XenAdmin.Controls.ConsoleTab;
using XenAPI;
using XenAdmin.Core;
using System.IO;
using XenAdmin.Dialogs;
using System.Security.Cryptography;
using XenAdmin.Network;
using Console = XenAPI.Console;
using Message = System.Windows.Forms.Message;
using Timer = System.Threading.Timer;
namespace XenAdmin.ConsoleView
{
public class XSVNCScreen : UserControl
{
private const int SHORT_RETRY_COUNT = 10;
private const int SHORT_RETRY_SLEEP_TIME = 100;
private const int RETRY_SLEEP_TIME = 5000;
private const int RDP_POLL_INTERVAL = 30000;
public const int RDP_PORT = 3389;
private const int VNC_PORT = 5900;
private static readonly ILog Log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
private int ConnectionRetries = 0;
private volatile bool useVNC = true;
private bool autoCaptureKeyboardAndMouse = true;
internal bool showConnectionBar = true;
private readonly Color focusColor = SystemColors.MenuHighlight;
///
/// May only be written on the event thread. May be read off the event thread, to check whether
/// the VNC source has been switched during connection.
///
private volatile VNCGraphicsClient vncClient = null;
private RdpClient rdpClient;
private Timer connectionPoller = null;
private VM sourceVM = null;
private bool sourceIsPV = false;
private readonly Object hostedConsolesLock = new Object();
private List> hostedConsoles = null;
///
/// This is assigned when the hosted connection connects up. It's used by PollPort to check for
/// the IP address from the guest metrics, so for the lifetime of that hosted connection, we can
/// poll for the in-guest VNC using the same session. activeSession must be accessed only under
/// the activeSessionLock.
///
private Session activeSession = null;
private readonly Object activeSessionLock = new Object();
///
/// Xvnc will blacklist us if we're too quick with the disconnect and reconnect that we do
/// when polling for the VNC port. To get around this, we keep the connection open between poll
/// and proper connection. pendingVNCConnection must be accessed only under the
/// pendingVNCConnectionLock. Work under this lock must be non-blocking, because it's used on
/// Dispose.
///
private Stream pendingVNCConnection = null;
private readonly Object pendingVNCConnectionLock = new Object();
internal EventHandler ResizeHandler;
public event EventHandler UserCancelledAuth;
public event EventHandler VncConnectionAttemptCancelled;
internal readonly VNCTabView parentVNCTabView;
[DefaultValue(false)]
public bool UserWantsToSwitchProtocol { get; set; }
private bool hasRDP { get { return Source != null ? Source.HasRDP : false; } }
///
/// Whether we have tried to login without providing a password (covers the case where the user
/// has configured VNC not to require a login password). If no password is saved, passwordless
/// login is tried once.
///
private bool haveTriedLoginWithoutPassword = false;
private bool ignoreNextError = false;
private Dictionary cachedNetworks;
///
/// The last known VNC password for this VM.
///
private char[] vncPassword = null;
internal ConsoleKeyHandler KeyHandler;
internal string ElevatedUsername;
internal string ElevatedPassword;
internal XSVNCScreen(VM source, EventHandler resizeHandler, VNCTabView parent, string elevatedUsername, string elevatedPassword)
: base()
{
this.ResizeHandler = resizeHandler;
this.parentVNCTabView = parent;
this.Source = source;
this.KeyHandler = parentVNCTabView.KeyHandler;
ElevatedUsername = elevatedUsername;
ElevatedPassword = elevatedPassword;
#pragma warning disable 0219
IntPtr _ = Handle;
#pragma warning restore 0219
initSubControl();
//We're going to try and catch when the IP address changes for the VM, and re-scan for ports.
if (source == null)
return;
Properties.Settings.Default.PropertyChanged += Default_PropertyChanged;
VM_guest_metrics guestMetrics = Source.Connection.Resolve(Source.guest_metrics);
if (guestMetrics == null)
return;
cachedNetworks = guestMetrics.networks;
guestMetrics.PropertyChanged += new PropertyChangedEventHandler(guestMetrics_PropertyChanged);
}
void Default_PropertyChanged(object sender, PropertyChangedEventArgs e)
{
if (e.PropertyName == "EnableRDPPolling")
Program.Invoke(this, startPolling);
}
private void UnregisterEventListeners()
{
if (Source == null)
return;
Source.PropertyChanged -= new PropertyChangedEventHandler(VM_PropertyChanged);
VM_guest_metrics guestMetrics = Source.Connection.Resolve(Source.guest_metrics);
if (guestMetrics == null)
return;
guestMetrics.PropertyChanged -= new PropertyChangedEventHandler(guestMetrics_PropertyChanged);
}
void guestMetrics_PropertyChanged(object sender, PropertyChangedEventArgs e)
{
if (Source == null)
return;
if (e.PropertyName == "networks")
{
Dictionary newNetworks = (sender as VM_guest_metrics).networks;
if (!equateDictionary(newNetworks, cachedNetworks))
{
Log.InfoFormat("Detected IP address change in vm {0}, repolling for VNC/RDP...", Source.Name);
cachedNetworks = newNetworks;
Program.Invoke(this, startPolling);
}
}
}
private static bool equateDictionary(Dictionary d1, Dictionary d2) where S : IEquatable
{
if (d1.Count != d2.Count)
return false;
foreach (T key in d1.Keys)
{
if (!d2.ContainsKey(key) || !d2[key].Equals(d1[key]))
return false;
}
return true;
}
private bool wasPaused = true;
public void Pause()
{
if (RemoteConsole != null)
{
wasPaused = true;
RemoteConsole.Pause();
}
}
public void Unpause()
{
if (RemoteConsole != null)
{
wasPaused = false;
RemoteConsole.Unpause();
}
}
public Size DesktopSize
{
get
{
return RemoteConsole != null ? RemoteConsole.DesktopSize : Size.Empty;
}
}
///
/// Nothrow guarantee.
///
protected override void Dispose(bool disposing)
{
UnregisterEventListeners();
if (disposing)
{
if (connectionPoller != null)
{
connectionPoller.Change(Timeout.Infinite, Timeout.Infinite);
connectionPoller.Dispose();
connectionPoller = null;
}
if (RemoteConsole != null)
{
RemoteConsole.DisconnectAndDispose();
RemoteConsole = null;
}
Log.DebugFormat("Set Pending Vnc connection to null");
SetPendingVNCConnection(null);
}
base.Dispose(disposing);
}
public MethodInvoker OnDetectRDP = null;
public MethodInvoker OnDetectVNC = null;
public String rdpIP = null;
public String vncIP = null;
private void PollRDPPort(Object Sender)
{
if (hasRDP && !Properties.Settings.Default.EnableRDPPolling)
{
if (connectionPoller != null)
connectionPoller.Change(Timeout.Infinite, Timeout.Infinite);
if (OnDetectRDP != null)
Program.Invoke(this, OnDetectRDP);
}
else
{
rdpIP = null;
String openIP = PollPort(RDP_PORT, false);
if (openIP != null)
{
rdpIP = openIP;
if (connectionPoller != null)
connectionPoller.Change(Timeout.Infinite, Timeout.Infinite);
if (OnDetectRDP != null)
Program.Invoke(this, OnDetectRDP);
}
}
}
private void PollVNCPort(Object Sender)
{
vncIP = null;
String openIP = PollPort(VNC_PORT, true);
if (openIP != null)
{
vncIP = openIP;
if (connectionPoller != null)
connectionPoller.Change(Timeout.Infinite, Timeout.Infinite);
if (OnDetectVNC != null)
Program.Invoke(this, OnDetectVNC);
}
}
///
/// scan each ip address (from the guest agent) for an open port
///
///
public String PollPort(int port, bool vnc)
{
try
{
if (Source == null)
return null;
VM vm = Source;
XenRef guestMetricsRef = vm.guest_metrics;
if (guestMetricsRef == null || Helper.IsNullOrEmptyOpaqueRef(guestMetricsRef.opaque_ref))
return null;
VM_guest_metrics metrics = vm.Connection.Resolve(guestMetricsRef);
if (metrics == null)
return null;
Dictionary networks = metrics.networks;
if (networks == null)
return null;
List ipAddresses = new List();
List ipv6Addresses = new List();
foreach (VIF vif in vm.Connection.ResolveAll(vm.VIFs))
{
XenAPI.Network network = vif.Connection.Resolve(vif.network);
XenAPI.Host host = vm.Connection.Resolve(vm.resident_on);
XenAPI.PIF pif = Helpers.FindPIF(network, host);
if (pif != null && pif.LinkStatus == PIF.LinkState.Connected)
{
foreach (var networkInfo in networks.Where(n => n.Key.StartsWith(String.Format("{0}/ip", vif.device))))
{
if (networkInfo.Key.EndsWith("ip")) // IPv4 address
ipAddresses.Add(networkInfo.Value);
else
{
if (networkInfo.Key.Contains("ipv6")) // IPv6 address, enclose in square brackets
ipv6Addresses.Add(String.Format("[{0}]", networkInfo.Value));
else
continue;
}
}
}
}
ipAddresses.AddRange(ipv6Addresses); // make sure IPv4 addresses are scanned first (CA-102755)
foreach (String ipAddress in ipAddresses)
{
try
{
Log.DebugFormat("Poll port {0}:{1}", ipAddress, port);
Stream s = connectGuest(ipAddress, port, vm.Connection);
if (vnc)
{
Log.DebugFormat("Connected. Set Pending Vnc connection {0}:{1}", ipAddress, port);
SetPendingVNCConnection(s);
}
else
{
s.Close();
}
return ipAddress;
}
catch (Exception exn)
{
Log.Debug(exn);
}
}
}
catch (WebException)
{
// xapi has gone away.
}
catch (IOException)
{
// xapi has gone away.
}
catch (Failure exn)
{
if (exn.ErrorDescription[0] == Failure.HANDLE_INVALID)
{
// HANDLE_INVALID is fine -- the guest metrics are not there yet.
}
else if (exn.ErrorDescription[0] == Failure.SESSION_INVALID)
{
// SESSION_INVALID is fine -- these will expire from time to time.
// We need to invalidate the session though.
lock (activeSessionLock)
{
activeSession = null;
}
}
else
{
Log.Warn("Exception while polling VM for port " + port + ".", exn);
}
}
catch (Exception e)
{
Log.Warn("Exception while polling VM for port " + port + ".", e);
}
return null;
}
///
/// Exchange the current value of pendingVNCConnection with the given one, and close the old
/// connection, if any.
/// Nothrow guarantee.
///
/// May be null
private void SetPendingVNCConnection(Stream s)
{
Stream old_pending;
lock (pendingVNCConnectionLock)
{
old_pending = pendingVNCConnection;
pendingVNCConnection = s;
}
if (old_pending != null)
{
try
{
old_pending.Close();
}
catch (Exception)
{
}
}
}
private bool scaling;
public bool Scaling
{
get
{
Program.AssertOnEventThread();
return scaling;
}
set
{
Program.AssertOnEventThread();
scaling = value;
if (RemoteConsole != null)
RemoteConsole.Scaling = value;
}
}
public IRemoteConsole RemoteConsole
{
get { return vncClient != null ? (IRemoteConsole)vncClient : rdpClient; }
set
{
if (vncClient != null)
vncClient = (VNCGraphicsClient) value ;
else if (rdpClient != null)
rdpClient = (RdpClient)value;
}
}
///
/// Creates the actual VNC or RDP client control.
///
private void initSubControl()
{
Program.AssertOnEventThread();
//When switch to RDP from VNC, if RDP IP is empty, do not try to switch.
if (String.IsNullOrEmpty(rdpIP) && !UseVNC && RemoteConsole != null)
return;
bool wasFocused = false;
this.Controls.Clear();
Size oldSize = new Size(1024, 768);
// Kill the old client.
if (RemoteConsole != null)
{
oldSize = RemoteConsole.DesktopSize;
wasFocused = RemoteConsole.ConsoleControl != null && RemoteConsole.ConsoleControl.Focused;
RemoteConsole.DisconnectAndDispose();
RemoteConsole = null;
this.vncPassword = null;
}
// Reset
haveTriedLoginWithoutPassword = false;
if (UseVNC || String.IsNullOrEmpty(rdpIP))
{
this.AutoScroll = false;
this.AutoScrollMinSize = new Size(0, 0);
vncClient = new VNCGraphicsClient(this);
vncClient.UseSource = UseSource;
vncClient.DesktopResized += ResizeHandler;
vncClient.Resize += ResizeHandler;
vncClient.ErrorOccurred += ErrorHandler;
vncClient.ConnectionSuccess += ConnectionSuccess;
vncClient.Dock = DockStyle.Fill;
}
else
{
if (rdpClient == null)
{
if (this.ParentForm is FullScreenForm)
oldSize = ((FullScreenForm)ParentForm).contentPanel.Size;
this.AutoScroll = true;
this.AutoScrollMinSize = oldSize;
rdpClient = new RdpClient(this, oldSize, ResizeHandler);
rdpClient.OnDisconnected += new EventHandler(parentVNCTabView.RdpDisconnectedHandler);
}
}
if (RemoteConsole != null && RemoteConsole.ConsoleControl != null)
{
RemoteConsole.KeyHandler = this.KeyHandler;
RemoteConsole.SendScanCodes = !this.sourceIsPV;
RemoteConsole.Scaling = Scaling;
RemoteConsole.DisplayBorder = this.displayFocusRectangle;
SetKeyboardAndMouseCapture(autoCaptureKeyboardAndMouse);
if (wasPaused)
RemoteConsole.Pause();
else
RemoteConsole.Unpause();
ConnectToRemoteConsole();
if (wasFocused)
RemoteConsole.Activate();
}
parentVNCTabView.ShowGpuWarningIfRequired();
}
private void SetKeyboardAndMouseCapture(bool value)
{
if (RemoteConsole != null && RemoteConsole.ConsoleControl != null)
RemoteConsole.ConsoleControl.TabStop = value;
}
private void ConnectToRemoteConsole()
{
if (vncClient != null)
ThreadPool.QueueUserWorkItem(new WaitCallback(Connect), new KeyValuePair(vncClient, null));
else if (rdpClient != null)
rdpClient.Connect(rdpIP);
}
void ConnectionSuccess(object sender, EventArgs e)
{
ConnectionRetries = 0;
if (AutoSwitchRDPLater)
{
if (OnDetectRDP != null)
Program.Invoke(this, OnDetectRDP);
AutoSwitchRDPLater = false;
}
if (Helpers.CreamOrGreater(Source.Connection) && parentVNCTabView.IsRDPControlEnabled())
parentVNCTabView.EnableToggleVNCButton();
}
internal bool AutoSwitchRDPLater
{
get;
set;
}
internal bool UseVNC
{
get
{
return useVNC;
}
set
{
if (value != useVNC)
{
ConnectionRetries = 0;
useVNC = value;
scaling = false;
initSubControl();
// Check if we have really switched. If not, change useVNC back (CA-102755)
bool switched = true;
if (useVNC) // we wanted VNC
{
if (vncClient == null && rdpClient != null) // it is actually RDP
switched = false;
}
else // we wanted RDP
{
if (rdpClient == null && vncClient != null) // it is actually VNC
switched = false;
}
if (!switched)
{
useVNC = !useVNC;
}
}
}
}
private volatile bool useSource = true;
///
/// Indicates whether to use the source or the detected vncIP
///
public bool UseSource
{
get
{
return useSource;
}
set
{
if (value != useSource)
{
useSource = value;
ConnectionRetries = 0;
initSubControl();
}
}
}
public VM Source
{
get
{
return this.sourceVM;
}
set
{
if (connectionPoller != null)
{
connectionPoller.Change(Timeout.Infinite, Timeout.Infinite);
connectionPoller = null;
}
if (sourceVM != null)
{
sourceVM.PropertyChanged -= new PropertyChangedEventHandler(VM_PropertyChanged);
sourceVM = null;
}
sourceVM = value;
if (value != null)
{
value.PropertyChanged += new PropertyChangedEventHandler(VM_PropertyChanged);
sourceIsPV = !value.IsHVM;
startPolling();
lock (hostedConsolesLock)
{
hostedConsoles = Source.consoles;
}
VM_PropertyChanged(value, new PropertyChangedEventArgs("consoles"));
}
}
}
private bool InDefaultConsole()
{
// Windows VMs:
// - UseVNC indicates whether to use the default desktop (true) or the remote desktop (false);
// - UseSource is true by default and not used
// Linux VMs:
// - UseVNC is true by default and not used;
// - UseSource indicates whether to use the text console (true) or the graphical vnc console (false);
return UseVNC && UseSource;
}
private void startPolling()
{
//Disable the button first, but only if in text/default console (to allow user to return to the text console - ref. CA-70314)
if (InDefaultConsole())
{
parentVNCTabView.DisableToggleVNCButton();
}
if (!Helpers.CreamOrGreater(Source.Connection) || !parentVNCTabView.IsRDPControlEnabled())
{
if (InDefaultConsole())
{
parentVNCTabView.DisableToggleVNCButton();
}
//Start the polling again
if (Source != null && !Source.IsControlDomainZero)
{
if (!Source.IsHVM)
{
connectionPoller = new Timer(PollVNCPort, null, RETRY_SLEEP_TIME, RDP_POLL_INTERVAL);
}
else if (hasRDP)
{
connectionPoller = new Timer(PollRDPPort, null, RETRY_SLEEP_TIME, RDP_POLL_INTERVAL);
}
}
}
}
private void VM_PropertyChanged(object sender, PropertyChangedEventArgs e)
{
VM vm = (VM)sender;
if (vm.uuid != Source.uuid)
return;
//We only want to reconnect the consoles when they change
//if the vm is running and if we are using vncTerm / qemu
if (e.PropertyName == "consoles" && vm.power_state == vm_power_state.Running && UseSource)
{
ConnectNewHostedConsole();
}
//If the consoles change under us then refresh hostedConsoles
else if (e.PropertyName == "consoles" && vm.power_state == vm_power_state.Running && !UseSource)
{
lock (hostedConsolesLock)
{
hostedConsoles = Source.consoles;
}
}
//Or if the VM legitimately turns on
else if (e.PropertyName == "power_state" && vm.power_state == vm_power_state.Running)
{
parentVNCTabView.VMPowerOn();
ConnectNewHostedConsole();
if (connectionPoller != null)
connectionPoller.Change(RETRY_SLEEP_TIME, RDP_POLL_INTERVAL);
}
else if (e.PropertyName == "power_state" &&
(vm.power_state == vm_power_state.Halted || vm.power_state == vm_power_state.Suspended))
{
parentVNCTabView.VMPowerOff();
if (connectionPoller != null)
connectionPoller.Change(Timeout.Infinite, Timeout.Infinite);
}
else if (e.PropertyName == "domid")
{
// Reboot / start / shutdown
Program.Invoke(this, startPolling);
}
if (e.PropertyName == "power_state" || e.PropertyName == "VGPUs")
parentVNCTabView.ShowGpuWarningIfRequired();
}
internal void imediatelyPollForConsole()
{
if (connectionPoller != null)
connectionPoller.Change(0, RDP_POLL_INTERVAL);
}
private void ConnectNewHostedConsole()
{
Program.AssertOnEventThread();
lock (hostedConsolesLock)
{
hostedConsoles = Source.consoles;
}
if (UseVNC && vncClient != null && ConnectionSuperceded())
{
initSubControl();
}
}
///
/// A connection is superceded if it's connected to a console that's no longer being
/// advertised by the server and there's a replacement that _is_ being advertised, or
/// if its not connected at all.
///
/// The server will leave the console open until we close, so that the user may see any crash messages.
/// For this reason, we need to close down ourselves when we see that the console has
/// been replaced by a newer one (i.e. after a reboot).
///
private bool ConnectionSuperceded()
{
return !vncClient.Connected || ConsoleSuperceded((Console)vncClient.Console);
}
private bool ConsoleSuperceded(Console old_console)
{
if (old_console == null)
return true;
List consoles;
lock (hostedConsolesLock)
{
consoles = Source.Connection.ResolveAll(hostedConsoles);
}
bool good_console = false;
foreach (Console console in consoles)
{
if (console.opaque_ref == old_console.opaque_ref &&
console.location == old_console.location)
return false;
else if (console.protocol == console_protocol.rfb)
good_console = true;
}
return good_console;
}
///
/// CA-11201: GUI logs are being massively spammed. Prevent "INTERNAL_ERROR Host has disappeared"
/// appearing more than once.
///
private bool _suppressHostGoneMessage = false;
private void Connect(object o)
{
if (Program.RunInAutomatedTestMode)
return;
Program.AssertOffEventThread();
KeyValuePair kvp = (KeyValuePair)o;
VNCGraphicsClient v = kvp.Key;
Exception error = kvp.Value;
try
{
if (UseSource)
{
List consoles;
lock (hostedConsolesLock)
{
consoles = sourceVM.Connection.ResolveAll(hostedConsoles);
}
foreach (Console console in consoles)
{
if (vncClient != v)
{
// We've been replaced. Give up.
return;
}
if (console.protocol == console_protocol.rfb)
{
try
{
ConnectHostedConsole(v, console);
return;
}
catch (Exception exn)
{
Failure failure = exn as Failure;
bool isHostGoneMessage = failure != null
&& failure.ErrorDescription.Count == 2
&& failure.ErrorDescription[0] == Failure.INTERNAL_ERROR
&& failure.ErrorDescription[1] == Messages.VNC_HOST_GONE;
if (isHostGoneMessage)
{
if (!_suppressHostGoneMessage)
{
Log.Debug(exn, exn);
_suppressHostGoneMessage = true;
}
}
else
{
Log.Debug(exn, exn);
_suppressHostGoneMessage = false;
}
}
}
}
Log.Debug("Did not find any hosted consoles");
SleepAndRetryConnection(v);
}
else
{
if (vncIP == null)
{
Log.DebugFormat("vncIP is null. Abort VNC connection attempt");
OnVncConnectionAttemptCancelled();
return;
}
this.vncPassword = Settings.GetVNCPassword(sourceVM.uuid);
if (this.vncPassword == null)
{
bool lifecycleOperationInProgress = sourceVM.current_operations.Values.Any(VM.is_lifecycle_operation);
if (haveTriedLoginWithoutPassword && !lifecycleOperationInProgress)
{
Program.Invoke(this, delegate
{
promptForPassword(ignoreNextError ? null : error);
});
ignoreNextError = false;
if (this.vncPassword == null)
{
Log.Debug("User cancelled VNC password prompt: aborting connection attempt");
OnUserCancelledAuth();
return;
}
}
else
{
Log.Debug("Attempting passwordless VNC login");
this.vncPassword = new char[0];
ignoreNextError = true;
haveTriedLoginWithoutPassword = true;
}
}
Stream s;
lock (pendingVNCConnectionLock)
{
s = pendingVNCConnection;
Log.DebugFormat("Using pending VNC connection");
pendingVNCConnection = null;
}
if (s == null)
{
Log.DebugFormat("Connecting to vncIP={0}, port={1}", this.vncIP, VNC_PORT);
s = connectGuest(this.vncIP, VNC_PORT, sourceVM.Connection);
Log.DebugFormat("Connected to vncIP={0}, port={1}", this.vncIP, VNC_PORT);
}
InvokeConnection(v, s, null);
// store the empty vnc password after a successful passwordless login
if (haveTriedLoginWithoutPassword && this.vncPassword.Length == 0)
Program.Invoke(this, () => Settings.SetVNCPassword(sourceVM.uuid, this.vncPassword));
}
}
catch (Exception exn)
{
Log.Warn(exn, exn);
SleepAndRetryConnection(v);
}
}
private void promptForPassword(Exception error)
{
Program.AssertOnEventThread();
// Prompt for password
VNCPasswordDialog f = new VNCPasswordDialog(error, sourceVM);
try
{
if (f.ShowDialog(this) == DialogResult.OK)
{
// Store password for next time
this.vncPassword = f.Password;
Settings.SetVNCPassword(sourceVM.uuid, this.vncPassword);
}
else
{
// User cancelled
}
}
finally
{
f.Dispose();
}
}
private void OnUserCancelledAuth()
{
Program.Invoke(this, delegate
{
Log.Debug("User cancelled during VNC authentication");
if (UserCancelledAuth != null)
UserCancelledAuth(this, null);
});
}
private void OnVncConnectionAttemptCancelled()
{
Program.Invoke(this, delegate
{
Log.Debug("Cancelled VNC connection attempt");
if (VncConnectionAttemptCancelled != null)
VncConnectionAttemptCancelled(this, null);
});
}
private Stream connectGuest(string ip_address, int port, IXenConnection connection)
{
string uriString = String.Format("http://{0}:{1}/", ip_address, port);
Log.DebugFormat("Trying to connect to: {0}", uriString);
return HTTP.ConnectStream(new Uri(uriString), XenAdminConfigManager.Provider.GetProxyFromSettings(connection), true, 0);
}
private void ConnectHostedConsole(VNCGraphicsClient v, Console console)
{
Program.AssertOffEventThread();
Host host = console.Connection.Resolve(Source.resident_on);
if (host == null)
{
throw new Failure(Failure.INTERNAL_ERROR, Messages.VNC_HOST_GONE);
}
Uri uri = new Uri(console.location);
String SessionUUID;
lock (activeSessionLock)
{
// use the elevated credentials, if provided, for connecting to the console (CA-91132)
activeSession = (string.IsNullOrEmpty(ElevatedUsername) || string.IsNullOrEmpty(ElevatedPassword)) ?
console.Connection.DuplicateSession() : console.Connection.ElevatedSession(ElevatedUsername, ElevatedPassword);
SessionUUID = activeSession.uuid;
}
Stream stream = HTTPHelper.CONNECT(uri, console.Connection, SessionUUID, false, true);
InvokeConnection(v, stream, console);
}
private void InvokeConnection(VNCGraphicsClient v, Stream stream, Console console)
{
Program.Invoke(this, delegate()
{
// This is the last chance that we have to make sure that we've not already
// connected this VNCGraphicsClient. Now that we are back on the event thread,
// we're guaranteed that no-one will beat us to the v.connect() call. We
// hand over responsibility for closing the stream at that point, so we have to
// close it ourselves if the client is already connected.
if (v.Connected || v.Terminated)
{
stream.Close();
}
else
{
v.SendScanCodes = UseSource && !this.sourceIsPV;
v.SourceVM = sourceVM;
v.Console = console;
v.connect(stream, this.vncPassword);
}
});
}
private void RetryConnection(VNCGraphicsClient v, Exception exn)
{
if (vncClient == v && !v.Terminated && Source.power_state == vm_power_state.Running)
{
ThreadPool.QueueUserWorkItem(new WaitCallback(Connect), new KeyValuePair(v, exn));
}
}
public void SendCAD()
{
Program.AssertOnEventThread();
if (RemoteConsole != null)
{
RemoteConsole.SendCAD();
}
}
private String errorMessage = null;
private void ErrorHandler(object sender, Exception exn)
{
Program.AssertOffEventThread();
if (this.Disposing || this.IsDisposed)
return;
Program.Invoke(this, delegate()
{
VNCGraphicsClient v = (VNCGraphicsClient)sender;
if (exn is VNCAuthenticationException || exn is CryptographicException)
{
Log.Debug(exn, exn);
// Clear the stored VNC password for this server.
Settings.SetVNCPassword(sourceVM.uuid, null);
RetryConnection(v, exn);
}
else if (exn is IOException || exn is Failure)
{
Log.Debug(exn, exn);
SleepAndRetryConnection_(v);
}
else
{
Log.Warn(exn, exn);
this.errorMessage = exn.Message;
}
});
}
private void SleepAndRetryConnection_(VNCGraphicsClient v)
{
ThreadPool.QueueUserWorkItem(new WaitCallback(SleepAndRetryConnection), v);
}
private void SleepAndRetryConnection(object o)
{
VNCGraphicsClient v = (VNCGraphicsClient)o;
Program.AssertOffEventThread();
ConnectionRetries++;
Thread.Sleep(ConnectionRetries < SHORT_RETRY_COUNT ? SHORT_RETRY_SLEEP_TIME : RETRY_SLEEP_TIME);
RetryConnection(v, null);
}
protected override void OnPaint(PaintEventArgs e)
{
base.OnPaint(e);
if (this.errorMessage != null)
{
SizeF size = e.Graphics.MeasureString(this.errorMessage, this.Font);
e.Graphics.DrawString(this.errorMessage, this.Font, Brushes.Black,
((this.Width - size.Width) / 2), ((this.Height - size.Height) / 2));
}
// draw focus rectangle
if (DisplayFocusRectangle && this.ContainsFocus && RemoteConsole != null)
{
Rectangle focusRect = Rectangle.Inflate(RemoteConsole.ConsoleBounds, VNCGraphicsClient.BORDER_PADDING / 2,
VNCGraphicsClient.BORDER_PADDING / 2);
using (Pen pen = new Pen(focusColor, VNCGraphicsClient.BORDER_WIDTH))
{
if (this.Focused)
pen.DashStyle = DashStyle.Dash;
e.Graphics.DrawRectangle(pen, focusRect);
}
}
}
// Save this for when we init a new vncClient.
private bool displayFocusRectangle = true;
public bool DisplayFocusRectangle
{
get { return displayFocusRectangle; }
set
{
displayFocusRectangle = value;
if (RemoteConsole != null)
{
RemoteConsole.DisplayBorder = displayFocusRectangle;
}
}
}
internal Image Snapshot()
{
if (RemoteConsole != null)
return RemoteConsole.Snapshot();
return null;
}
internal void RefreshScreen()
{
Program.AssertOnEventThread();
if (RemoteConsole != null && RemoteConsole.ConsoleControl != null)
{
RemoteConsole.ConsoleControl.Refresh();
}
Invalidate();
Update();
}
protected override void OnGotFocus(EventArgs e)
{
Program.AssertOnEventThread();
base.OnGotFocus(e);
RefreshScreen();
}
protected override void OnLostFocus(EventArgs e)
{
Program.AssertOnEventThread();
base.OnLostFocus(e);
this.pressedKeys = new Set();
// reset tab stop
SetKeyboardAndMouseCapture(autoCaptureKeyboardAndMouse);
RefreshScreen();
}
protected override void OnEnter(EventArgs e)
{
Program.AssertOnEventThread();
base.OnEnter(e);
CaptureKeyboardAndMouse();
RefreshScreen();
}
protected override void OnLeave(EventArgs e)
{
Program.AssertOnEventThread();
base.OnLeave(e);
// reset tab stop
SetKeyboardAndMouseCapture(autoCaptureKeyboardAndMouse);
RefreshScreen();
}
internal void UncaptureKeyboardAndMouse()
{
if (autoCaptureKeyboardAndMouse)
{
SetKeyboardAndMouseCapture(false);
}
ActiveControl = null;
EnableMenuShortcuts();
}
internal void CaptureKeyboardAndMouse()
{
if (RemoteConsole != null)
{
RemoteConsole.Activate();
if (autoCaptureKeyboardAndMouse)
{
SetKeyboardAndMouseCapture(true);
}
Unpause();
}
DisableMenuShortcuts();
}
public static void DisableMenuShortcuts()
{
Program.MainWindow.MenuShortcuts = false;
}
public static void EnableMenuShortcuts()
{
Program.MainWindow.MenuShortcuts = true;
}
private Set pressedKeys = new Set();
private bool modifierKeyPressedAlone = false;
protected override bool ProcessCmdKey(ref Message msg, Keys keyData)
{
const int WM_KEYDOWN = 0x100;
const int WM_SYSKEYDOWN = 0x104;
bool down = ((msg.Msg == WM_KEYDOWN) || (msg.Msg == WM_SYSKEYDOWN));
Keys key = keyData;
if ((key & Keys.Control) == Keys.Control)
key = key & ~Keys.Control;
if ((key & Keys.Alt) == Keys.Alt)
key = key & ~Keys.Alt;
if ((key & Keys.Shift) == Keys.Shift)
key = key & ~Keys.Shift;
// use TranslateKeyMessage to identify if Left or Right modifier keys have been pressed/released
Keys extKey = ConsoleKeyHandler.TranslateKeyMessage(msg);
return Keysym(down, key, extKey);
}
protected override void OnKeyUp(KeyEventArgs e)
{
e.Handled = Keysym(false, e.KeyCode, e.KeyCode);
}
private bool Keysym(bool pressed, Keys key, Keys extendedKey)
{
if (!pressed && pressedKeys.Count == 0) // we received key-up, but not key-down - ignore
return true;
if (KeyHandler.handleExtras(pressed, pressedKeys, KeyHandler.ExtraKeys, extendedKey, KeyHandler.ModifierKeys, ref modifierKeyPressedAlone))
{
this.Focus();
return true;
}
// on keyup, try to remove extended keys (i.e. LControlKey, LControlKey, RShiftKey, LShiftKey, RMenu, LMenu)
// we need to do this here, because we cannot otherwise distinguish between Left and Right modifier keys on KeyUp
if (!pressed)
{
List extendedKeys = ConsoleKeyHandler.GetExtendedKeys(key);
foreach (var k in extendedKeys)
{
pressedKeys.Remove(k);
}
}
if (key == Keys.Tab || (key == (Keys.Tab | Keys.Shift)))
return false;
return false;
}
}
}