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DicomNetIpTypeFlags Enumeration

Summary

Specifies which Internet Protocol Version will be supported with DICOM Communication.

Syntax

C#
VB
WinRT C#
C++
[FlagsAttribute()] 
public enum DicomNetIpTypeFlags   
<FlagsAttribute()> 
Public Enum DicomNetIpTypeFlags  
    
    
[FlagsAttribute()] 
public enum DicomNetIpTypeFlags    
Leadtools.Dicom.DicomNetIpTypeFlags = function() { }; 
Leadtools.Dicom.DicomNetIpTypeFlags.prototype = { 
 
  LeadtoolsMemberMarker(replace me) 
 }; 
[FlagsAttribute()] 
public enum class DicomNetIpTypeFlags   

Members

ValueMemberDescription
0x00000000None None.
0x00000001Ipv4 Only support IPv4 addresses.
0x00000002Ipv6 Only support IPv6 addresses.
0x00000003Ipv4OrIpv6 Support both IPv4 and IPv6 addresses.
Remarks

This enumeration is used with Listen and Connect to specify the version of the Internet Protocol that will be used.

Example

C#
VB
using Leadtools; 
using Leadtools.Dicom; 
 
/// 
[StructLayout(LayoutKind.Sequential)] 
public struct MYMSG 
{ 
   public IntPtr hwnd; 
   public uint message; 
   public IntPtr wParam; 
   public IntPtr lParam; 
   public uint time; 
   public System.Drawing.Point p; 
} 
public enum MyWaitReturn 
{ 
   Complete, 
   Timeout, 
} 
 
class MyUtils 
{ 
   [DllImport("user32.dll")] 
   [return: MarshalAs(UnmanagedType.Bool)] 
   static extern bool PeekMessage(out MYMSG lpMsg, IntPtr hWnd, 
                                  uint wMsgFilterMin, uint wMsgFilterMax, 
                                  uint wRemoveMsg); 
 
   [DllImport("user32.dll")] 
   static extern bool TranslateMessage([In] ref MYMSG lpMsg); 
   [DllImport("user32.dll")] 
   static extern IntPtr DispatchMessage([In] ref MYMSG lpmsg); 
 
   const uint PM_REMOVE = 1; 
 
   public static MyWaitReturn WaitForComplete(double mill, WaitHandle wh) 
   { 
      TimeSpan goal = new TimeSpan(DateTime.Now.AddMilliseconds(mill).Ticks); 
 
      do 
      { 
         MYMSG msg = new MYMSG(); 
 
         if (PeekMessage(out msg, IntPtr.Zero, 0, 0, PM_REMOVE)) 
         { 
            TranslateMessage(ref msg); 
            DispatchMessage(ref msg); 
         } 
 
         if (wh.WaitOne(new TimeSpan(0, 0, 0), false)) 
         { 
            return MyWaitReturn.Complete; 
         } 
 
         if (goal.CompareTo(new TimeSpan(DateTime.Now.Ticks)) < 0) 
         { 
            return MyWaitReturn.Timeout; 
         } 
 
      } while (true); 
   } 
} 
 
class MyClient : DicomNet 
{ 
   DicomExceptionCode _LastError = DicomExceptionCode.Success; 
   AutoResetEvent waitEvent = new AutoResetEvent(false); 
 
   public MyClient() 
      : base(null, DicomNetSecurityeMode.None) 
   { 
   } 
 
   public DicomExceptionCode LastError 
   { 
      get 
      { 
         return _LastError; 
      } 
   } 
 
   public bool Wait() 
   { 
      _LastError = DicomExceptionCode.Success; 
      MyWaitReturn ret = MyUtils.WaitForComplete((5 * 60) * 1000, waitEvent); 
 
      return (ret == MyWaitReturn.Complete); 
   } 
 
   protected override void OnConnect(DicomExceptionCode error) 
   { 
      Debug.WriteLine("Client: Receive OnConnect"); 
      _LastError = error; 
      waitEvent.Set(); 
   } 
 
   protected override void OnReceiveReleaseResponse() 
   { 
      Debug.WriteLine("Client: Receive OnReceiveReleaseResponse"); 
      waitEvent.Set(); 
   } 
} 
 
class MyServerConnection : DicomNet 
{ 
   public bool Fail = false; 
 
   public MyServerConnection() 
      : base(null, DicomNetSecurityeMode.None) 
   { 
   } 
 
   protected override void OnReceiveReleaseRequest() 
   { 
      Debug.WriteLine("Server: Receive OnReceiveReleaseRequest"); 
      SendReleaseResponse(); 
   } 
}; 
 
class MyServer : DicomNet 
{ 
   MyServerConnection client; 
 
   public MyServer() 
      : base(null, DicomNetSecurityeMode.None) 
   { 
   } 
 
   public bool Fail 
   { 
      get 
      { 
         if (client == null) 
            return false; 
 
         return client.Fail; 
      } 
 
      set 
      { 
         if (client != null) 
         { 
            client.Fail = value; 
         } 
      } 
   } 
 
   protected override void OnAccept(DicomExceptionCode error) 
   { 
      Debug.WriteLine("Server: Receive OnAccept"); 
      client = new MyServerConnection(); 
 
      Accept(client); 
      string s = string.Format("\tPeerAddress: {0}\n\tPeerPort: {1}", client.PeerAddress, client.PeerPort); 
      Debug.WriteLine(s); 
   } 
} 
 
public void DicomDataSet_ListenExample() 
{ 
   DicomEngine.Startup(); 
   DicomNet.Startup(); 
 
   using (MyServer server = new MyServer()) 
   { 
      using (MyClient client = new MyClient()) 
      { 
         // The * below means to listen on all local IP addresses. 
         // The DicomNetIpTypeFlags.Ipv4OrIpv6 means to listen on both IPv4 and IPv6 addresses 
         server.Listen("*", 104, 1, DicomNetIpTypeFlags.Ipv4OrIpv6); // start server  
 
         // The client is connecting to the server using an IPv6 address. 
         // Note that "::1" is the IPv6 loopback address 
         // Alternatively, you can get type ipconfig from a command box on the local computer to get the local IPv6 address. 
         // The following is an example of a local IPv6 address: 
         //    "fe80::18bd:81f:6b02:759f" 
         client.Connect(null, 1000, "::1", 104, DicomNetIpTypeFlags.Ipv6); // connect to server  
 
         if (!client.Wait()) // wait for connection to finish  
         { 
            Debug.Fail("Connection timed out"); 
         } 
         Debug.Assert(client.LastError == DicomExceptionCode.Success, "Connection failed"); 
         Debug.Assert(client.IsConnected(), "Client not connected"); 
 
         client.SendReleaseRequest(); 
         if (!client.Wait()) // wait for connection to finish  
         { 
            Debug.Fail("Timed Out"); 
         } 
 
         // Close the connections 
         client.CloseForced(true); 
      } 
      server.CloseForced(true); 
   } 
 
   DicomEngine.Shutdown(); 
   DicomNet.Shutdown(); 
} 
Imports Leadtools 
Imports Leadtools.Dicom 
 
''' 
<StructLayout(LayoutKind.Sequential)> 
Public Structure MYMSG 
   Public hwnd As IntPtr 
   Public message As UInteger 
   Public wParam As IntPtr 
   Public lParam As IntPtr 
   Public time As UInteger 
   Public p As System.Drawing.Point 
End Structure 
Public Enum MyWaitReturn 
   Complete 
   Timeout 
End Enum 
 
Friend Class MyUtils 
   <DllImport("user32.dll")> 
   Shared Function PeekMessage(<System.Runtime.InteropServices.Out()> ByRef lpMsg As MYMSG, ByVal hWnd As IntPtr, ByVal wMsgFilterMin As UInteger, 
                                  ByVal wMsgFilterMax As UInteger, ByVal wRemoveMsg As UInteger) As <MarshalAs(UnmanagedType.Bool)> Boolean 
   End Function 
 
   <DllImport("user32.dll")> 
   Shared Function TranslateMessage(ByRef lpMsg As MYMSG) As Boolean 
   End Function 
   <DllImport("user32.dll")> 
   Shared Function DispatchMessage(ByRef lpmsg As MYMSG) As IntPtr 
   End Function 
 
   Private Const PM_REMOVE As UInteger = 1 
 
   Public Shared Function WaitForComplete(ByVal mill As Double, ByVal wh As WaitHandle) As MyWaitReturn 
      Dim goal As New TimeSpan(DateTime.Now.AddMilliseconds(mill).Ticks) 
 
      Do 
         Dim msg As New MYMSG() 
 
         If PeekMessage(msg, IntPtr.Zero, 0, 0, PM_REMOVE) Then 
            TranslateMessage(msg) 
            DispatchMessage(msg) 
         End If 
 
         If wh.WaitOne(New TimeSpan(0, 0, 0), False) Then 
            Return MyWaitReturn.Complete 
         End If 
 
         If goal.CompareTo(New TimeSpan(DateTime.Now.Ticks)) < 0 Then 
            Return MyWaitReturn.Timeout 
         End If 
 
      Loop While True 
   End Function 
End Class 
 
Friend Class MyClient 
   Inherits DicomNet 
   Private _LastError As DicomExceptionCode = DicomExceptionCode.Success 
   Private waitEvent As New AutoResetEvent(False) 
 
   Public Sub New() 
      MyBase.New(Nothing, DicomNetSecurityeMode.None) 
   End Sub 
 
   Public ReadOnly Property LastError() As DicomExceptionCode 
      Get 
         Return _LastError 
      End Get 
   End Property 
 
   Public Function Wait() As Boolean 
      _LastError = DicomExceptionCode.Success 
      Dim ret As MyWaitReturn = MyUtils.WaitForComplete((5 * 60) * 1000, waitEvent) 
 
      Return (ret = MyWaitReturn.Complete) 
   End Function 
 
   Protected Overrides Sub OnConnect(ByVal [error] As DicomExceptionCode) 
      Debug.WriteLine("Client: Receive OnConnect") 
      _LastError = [error] 
      waitEvent.Set() 
   End Sub 
 
   Protected Overrides Sub OnReceiveReleaseResponse() 
      Debug.WriteLine("Client: Receive OnReceiveReleaseResponse") 
      waitEvent.Set() 
   End Sub 
End Class 
 
Friend Class MyServerConnection 
   Inherits DicomNet 
   Public Fail As Boolean = False 
 
   Public Sub New() 
      MyBase.New(Nothing, DicomNetSecurityeMode.None) 
   End Sub 
 
   Protected Overrides Sub OnReceiveReleaseRequest() 
      Debug.WriteLine("Server: Receive OnReceiveReleaseRequest") 
      SendReleaseResponse() 
   End Sub 
End Class 
 
Friend Class MyServer 
   Inherits DicomNet 
   Private client As MyServerConnection 
 
   Public Sub New() 
      MyBase.New(Nothing, DicomNetSecurityeMode.None) 
   End Sub 
 
   Public Property Fail() As Boolean 
      Get 
         If client Is Nothing Then 
            Return False 
         End If 
 
         Return client.Fail 
      End Get 
 
      Set(ByVal value As Boolean) 
         If client IsNot Nothing Then 
            client.Fail = value 
         End If 
      End Set 
   End Property 
 
   Protected Overrides Sub OnAccept(ByVal [error] As DicomExceptionCode) 
      Debug.WriteLine("Server: Receive OnAccept") 
      client = New MyServerConnection() 
 
      Accept(client) 
      Dim s As String = String.Format(Constants.vbTab & "PeerAddress: {0}" & Constants.vbLf + Constants.vbTab & "PeerPort: {1}", 
                                      client.PeerAddress, client.PeerPort) 
      Debug.WriteLine(s) 
   End Sub 
End Class 
 
Public Sub DicomDataSet_ListenExample() 
   DicomEngine.Startup() 
   DicomNet.Startup() 
 
   Using server As New MyServer() 
      Using client As New MyClient() 
         ' The * below means to listen on all local IP addresses. 
         ' The DicomNetIpTypeFlags.Ipv4OrIpv6 means to listen on both IPv4 and IPv6 addresses 
         server.Listen("*", 104, 1, DicomNetIpTypeFlags.Ipv4OrIpv6) ' start server 
 
         ' The client is connecting to the server using an IPv6 address. 
         ' Note that "::1" is the IPv6 loopback address 
         ' Alternatively, you can get type ipconfig from a command box on the local computer to get the local IPv6 address. 
         ' The following is an example of a local IPv6 address: 
         '    "fe80::18bd:81f:6b02:759f" 
         client.Connect(Nothing, 1000, "::1", 104, DicomNetIpTypeFlags.Ipv6) ' connect to server 
 
         If (Not client.Wait()) Then ' wait for connection to finish 
            Debug.Fail("Connection timed out") 
         End If 
         Debug.Assert(client.LastError = DicomExceptionCode.Success, "Connection failed") 
         Debug.Assert(client.IsConnected(), "Client not connected") 
 
         client.SendReleaseRequest() 
         If (Not client.Wait()) Then ' wait for connection to finish 
            Debug.Fail("Timed Out") 
         End If 
 
         ' Close the connections 
         client.CloseForced(True) 
      End Using 
      server.CloseForced(True) 
   End Using 
 
   DicomEngine.Shutdown() 
   DicomNet.Shutdown() 
End Sub 

Requirements

Target Platforms

See Also

Reference

Leadtools.Dicom Namespace

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