using System;
using System.Data;
using System.Diagnostics;
using System.IO;
using System.IO.IsolatedStorage;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters;
using System.Runtime.Serialization.Formatters.Soap;
using System.Windows.Forms;
using System.Security.Principal;
using System.Text;
using System.Security.Cryptography;
using System.Timers;
using System.Threading;
namespace IndianHealthService.BMXNet
{
public class BMXNetEventArgs : EventArgs
{
public string BMXParam;
public string BMXEvent;
}
///
/// Contains methods and properties to support RPMS Login for .NET applications
///
public class BMXNetConnectInfo : System.Windows.Forms.Control
{
///
/// Serializes RPMS server address and port
///
[SerializableAttribute]
private class ServerData
{
public string m_sAddress = "";
public int m_nPort = 0;
public string m_sNamespace = "";
public ServerData()
{
}
public ServerData(string sAddress, int nPort)
{
this.m_nPort = nPort;
this.m_sAddress = sAddress;
this.m_sNamespace = "";
}
public ServerData(string sAddress, int nPort, string sNamespace)
{
this.m_nPort = nPort;
this.m_sAddress = sAddress;
this.m_sNamespace = sNamespace;
}
}
public BMXNetConnectInfo()
{
m_BMXBroker = new BMXNetSocketBroker();
//Initialize BMXNetEvent timer
m_timerEvent = new System.Timers.Timer();
m_timerEvent.Elapsed+=new ElapsedEventHandler(OnEventTimer);
m_timerEvent.Interval = 10000;
m_timerEvent.Enabled = false;
}
public BMXNetBroker Broker
{
get { return (BMXNetBroker)this.NativeBroker; }
}
#region BMXNetEvent
private System.Timers.Timer m_timerEvent;
public delegate void BMXNetEventDelegate(Object obj, BMXNetEventArgs e);
public event BMXNetEventDelegate BMXNetEvent;
///
/// Enables and disables event polling for the RPMS connection
///
public bool EventPollingEnabled
{
get
{
return m_timerEvent.Enabled;
}
set
{
// Debug.Write("ConnectInfo handle: " + this.Handle.ToString() + "\n");
//System.IntPtr pHandle = this.Handle;
m_timerEvent.Enabled = value;
}
}
///
/// Sets and retrieves the interval in milliseconds for RPMS event polling
///
public double EventPollingInterval
{
get
{
return m_timerEvent.Interval;
}
set
{
m_timerEvent.Interval = value;
}
}
///
/// Register interest in an RPMS event.
///
///
///
public int SubscribeEvent(string EventName)
{
try
{
//System.IntPtr pHandle = this.Handle;
DataTable dt;
RPMSDataTableDelegate rdtd = new RPMSDataTableDelegate(RPMSDataTable);
if (this.IsHandleCreated == false)
{
this.CreateHandle();
}
dt = (DataTable) this.Invoke(rdtd, new object[] {"BMX EVENT REGISTER^" + EventName, "dt"});
// dt = RPMSDataTable("BMX EVENT REGISTER^" + EventName, "dt");
DataRow dr = dt.Rows[0];
int nRet = (int) dr["ERRORID"];
return nRet;
}
catch (Exception ex)
{
Debug.Write(ex.Message);
return 99;
}
}
///
/// Unregister an RPMS event
///
///
///
public int UnSubscribeEvent(string EventName)
{
try
{
DataTable dt;
RPMSDataTableDelegate rdtd = new RPMSDataTableDelegate(RPMSDataTable);
if (this.IsHandleCreated == false)
{
this.CreateHandle();
}
dt = (DataTable) this.Invoke(rdtd, new object[] {"BMX EVENT UNREGISTER^" + EventName, "dt"});
DataRow dr = dt.Rows[0];
int nRet = (int) dr["ERRORID"];
return nRet;
}
catch (Exception ex)
{
Debug.Write(ex.Message);
return 99;
}
}
///
/// Raise an RPMS event
///
/// The name of the event to raise
/// Parameters associated with the event
/// True if the event should be raised back to the caller
///
public int RaiseEvent(string EventName, string Param, bool RaiseBack)
{
string sBack = (RaiseBack == true)?"TRUE":"FALSE";
try
{
DataTable dt;
RPMSDataTableDelegate rdtd = new RPMSDataTableDelegate(RPMSDataTable);
if (this.IsHandleCreated == false)
{
this.CreateHandle();
}
dt = (DataTable) this.Invoke(rdtd, new object[] {"BMX EVENT RAISE^" + EventName + "^" + Param + "^" + sBack + "^", "dt"});
DataRow dr = dt.Rows[0];
int nRet = (int) dr["ERRORID"];
return nRet;
}
catch (Exception ex)
{
Debug.Write(ex.Message);
return 99;
}
}
///
/// Sets and retrieves the number of times that the Event Timer will generage a BMXNet AutoFire event.
/// For example, if AutoFire == 3, then every 3rd time the Event Timer fires, it will generate an AutoFire event.
///
public int AutoFire
{
get
{
return m_nAutoFireIncrements;
}
set
{
m_nAutoFireIncrements = value;
}
}
//Retrieve events registered by this session
private int m_nAutoFireIncrements = 0;
private int m_nAutoFireCount = 0;
private void OnEventTimer(object source, ElapsedEventArgs e)
{
try
{
this.NativeBroker.BMXRWL.AcquireWriterLock(5);
try
{
this.m_timerEvent.Enabled = false;
Object obj = this;
BMXNetEventArgs args = new BMXNetEventArgs();
m_nAutoFireCount++;
if ((m_nAutoFireIncrements > 0)&&(m_nAutoFireCount >= m_nAutoFireIncrements))
{
m_nAutoFireCount = 0;
args.BMXEvent = "BMXNet AutoFire";
args.BMXParam = "";
if (BMXNetEvent != null)
{
BMXNetEvent(obj, args);
}
this.m_timerEvent.Enabled = true;
return;
}
if (!this.Broker.IsConnected)
{
this.m_timerEvent.Enabled = true;
return;
}
DataTable dtEvents = new DataTable("BMXNetEvents");
try
{
if (this.IsHandleCreated == false)
{
this.CreateHandle();
}
RPMSDataTableDelegate rdtd = new RPMSDataTableDelegate(RPMSDataTable);
dtEvents = (DataTable) this.Invoke(rdtd, new object[] {"BMX EVENT POLL", "BMXNetEvents"});
}
catch (Exception ex)
{
string sMsg = ex.Message;
this.m_timerEvent.Enabled = true;
return;
}
try
{
if (dtEvents.Rows.Count == 0)
{
this.m_timerEvent.Enabled = true;
return;
}
}
catch(Exception ex)
{
Debug.Write("upper Exception in BMXNetConnectInfo.OnEventTimer: " + ex.Message + "\n");
}
try
{
//If events exist, raise BMXNetEvent
foreach (DataRow dr in dtEvents.Rows)
{
args.BMXEvent = dr["EVENT"].ToString();
args.BMXParam = dr["PARAM"].ToString();
if (BMXNetEvent != null)
{
BMXNetEvent(obj, args);
}
}
this.m_timerEvent.Enabled = true;
return;
}
catch(Exception ex)
{
Debug.Write("lower Exception in BMXNetConnectInfo.OnEventTimer: " + ex.Message + "\n");
}
}
catch(Exception ex)
{
Debug.Write("Exception in BMXNetConnectInfo.OnEventTimer: " + ex.Message + "\n");
}
finally
{
this.NativeBroker.BMXRWL.ReleaseWriterLock();
this.m_timerEvent.Enabled = true;
}
}
catch
{
Debug.Write(" OnEventTimer failed to obtain lock.\n");
}
}
#endregion BMXNetEvent
#region Fields
private ServerData m_ServerData;
private string m_sServerAddress;
private int m_nServerPort;
private string m_sServerNamespace;
private string m_sDUZ2;
private int m_nDivisionCount = 0;
private string m_sUserName;
private string m_sDivision;
private string m_sAppcontext;
private BMXNetBroker m_BMXBroker;
private bool m_bAutoServer = false;
private bool m_bAutoLogin = false;
#endregion Fields
#region Properties
// ///
// /// Set and retrieve the timeout in milliseconds for locking the transmit port.
// /// If the transmit port is unavailable an ApplicationException will be thrown.
// ///
// public int TransmitLockTimeout
// {
// get
// {
// return m_nTransmitLockTimeout;
// }
// set
// {
// m_nTransmitLockTimeout = value;
// }
// }
///
/// Set and retrieve the timeout, in milliseconds, to receive a response from the RPMS server.
/// If the retrieve time exceeds the timeout, an exception will be thrown and the connection will be closed.
/// The default is 30 seconds.
///
public int ReceiveTimeout
{
get { return this.NativeBroker.ReceiveTimeout; }
set { this.NativeBroker.ReceiveTimeout = value; }
}
public string MServerNameSpace
{
get
{
return this.NativeBroker.MServerNamespace;
}
set
{
this.NativeBroker.MServerNamespace = value;
}
}
public BMXNetSocketBroker NativeBroker
{
get
{
return (BMXNetSocketBroker)m_BMXBroker;
}
}
public string AppContext
{
get
{
return m_sAppcontext;
}
set
{
if (this.Broker.IsConnected)
{
try
{
try
{
m_BMXBroker.AppContext = value;
m_sAppcontext = value;
}
catch (Exception ex)
{
Debug.Write(ex.Message);
throw ex;
}
finally
{
}
}
catch (ApplicationException aex)
{
// The writer lock request timed out.
Debug.Write("BMXNetConnectInfo.AppContext lock request timed out.\n");
throw aex;
}
}//end if
}//end set
}
public bool Connected
{
get
{
return this.Broker.IsConnected;
}
}
public string UserName
{
get
{
return this.m_sUserName;
}
}
public string DivisionName
{
get
{
return this.m_sDivision;
}
}
///
/// Returns a string representation of DUZ
///
public string DUZ
{
get
{
return this.NativeBroker.DUZ;
}
}
///
/// Sets and Returns DUZ(2)
///
public string DUZ2
{
get
{
return m_sDUZ2;
}
set
{
try
{
//Set DUZ(2) in M partition
DataTable dt = this.RPMSDataTable("BMXSetFac^" + value, "SetDUZ2");
Debug.Assert(dt.Rows.Count == 1);
DataRow dr = dt.Rows[0];
string sDUZ2 = dr["FACILITY_IEN"].ToString();
if (sDUZ2 != "0")
{
m_sDUZ2 = sDUZ2;
this.m_sDivision = dr["FACILITY_NAME"].ToString();
}
}
catch (Exception ex)
{
Debug.Write("DUZ2.Set failed: " + ex.Message + "\n");
}
}
}
///
/// Gets the address of the RPMS Server
///
public string MServerAddress
{
get
{
return this.m_sServerAddress;
}
}
///
/// Gets the port on which the MServer is connected
///
public int MServerPort
{
get
{
return this.m_nServerPort;
}
}
public DataTable UserDivisions
{
get
{
DataTable dt = this.GetUserDivisions();
return dt;
}
}
#endregion Properties
#region Methods
public void CloseConnection()
{
//TODO: Make thread safe
this.m_bAutoServer = false;
this.m_bAutoLogin = false;
m_BMXBroker.CloseConnection();
}
///
/// For backwards compatibility. Internally calls LoadConnectInfo()
///
public void Login()
{
LoadConnectInfo();
}
///
/// Called to connect to an M server
/// Server address, port, Access and Verify codes will be
/// prompted for depending on whether these values are
/// cached.
///
public void LoadConnectInfo()
{
m_bAutoServer = true;
m_bAutoLogin = true;
LoadConnectInfo("",0,"","");
}
///
/// Called to connect to the M server specified by
/// server address and listener port. The default namespace on the server will be used.
/// Access and Verify codes will be prompted if
/// valid values for the current Windows Identity are
/// not cached on the server.
///
/// The IP address or name of the MServer
/// The port on which the BMXNet Monitor is listening
public void LoadConnectInfo(string MServerAddress, int Port)
{
LoadConnectInfo(MServerAddress, Port, "", "", "");
}
///
/// Called to connect to the M server specified by
/// server address, listener port and namespace.
/// Access and Verify codes will be prompted if
/// valid values for the current Windows Identity are
/// not cached on the server.
///
/// The IP address or name of the MServer
/// The port on which the BMXNet Monitor is listening
/// The namespace in which the BMXNet application will run
public void LoadConnectInfo(string MServerAddress, int Port, string Namespace)
{
m_bAutoServer = false;
m_bAutoLogin = true;
LoadConnectInfo(MServerAddress, Port,"","", Namespace);
}
///
/// Called to connect to an M server
/// using specific Access and Verify codes.
/// Server address and port will be prompted if they
/// are not cached in local storage.
///
/// The user's access code
/// The user's verify code
public void LoadConnectInfo(string AccessCode, string VerifyCode)
{
m_bAutoServer = true;
m_bAutoLogin = false;
LoadConnectInfo("", 0,AccessCode,VerifyCode);
}
///
/// Called to connect to a specific M server
/// using specific Access and Verify codes.
///
/// The user's access code
/// The user's verify code
/// The IP address or name of the MServer
/// The port on which the BMXNet Monitor is listening
public void LoadConnectInfo(string MServerAddress, int Port,
string AccessCode, string VerifyCode)
{
LoadConnectInfo(MServerAddress, Port, AccessCode, VerifyCode, "");
}
///
/// Called to connect to a specific namespace on the M server
/// using specific Access and Verify codes.
///
/// The user's access code
/// The user's verify code
/// The IP address or name of the MServer
/// The port on which the BMXNet Monitor is listening
/// The namespace in which the BMXNet application will run
public void LoadConnectInfo(string MServerAddress, int Port,
string AccessCode, string VerifyCode, string Namespace)
{
//Throws exception if unable to connect to RPMS
/*
* Get RPMS Server Address and Port from local storage.
* Prompt for them if they're not there.
*
* Throw exception if unable to get address/port
*/
m_sServerAddress = MServerAddress;
m_nServerPort = Port;
m_sServerNamespace = Namespace;
/*
* Connect to RPMS using current windows identity
* Execute BMXNetGetCodes(NTDomain/UserName) to get encrypted AV codes
*
*/
this.NativeBroker.CloseConnection();
this.NativeBroker.MServerPort = m_nServerPort;
this.NativeBroker.MServerNamespace = m_sServerNamespace;
string sLoginError = "";
WindowsIdentity winIdentity = WindowsIdentity.GetCurrent();
string sIdentName = winIdentity.Name;
string sIdentType = winIdentity.AuthenticationType;
bool bIdentIsAuth = winIdentity.IsAuthenticated;
bool bRet = false;
if (m_bAutoLogin == true)
{
try
{
//Attempt Auto-login using WindowsIdentity
if (bIdentIsAuth == false)
{
throw new BMXNetException("Current Windows User is not authenticated");
}
bRet = this.NativeBroker.OpenConnection(m_sServerAddress, winIdentity);
try
{
string sDuz = m_BMXBroker.DUZ;
int nDuz = Convert.ToInt16(sDuz);
}
catch (Exception exCV)
{
Debug.Write("OpenConnection failed: " + exCV.Message);
//Debug.Assert(false);
throw new Exception(exCV.Message);
}
}
catch (Exception ex)
{
Debug.Write(ex.Message);
sLoginError = ex.Message;
}
}
if (!m_BMXBroker.IsConnected) //BMXNET Login failed or m_bAutoLogin == false
{
try
{
//If autologin was attempted and
//error message anything other than
//"invalid AV code pair"
// or "User BMXNET,APPLICATION does not have access to option BMXRPC",
// or current windows user is not authenticated or is a guest
//then rethrow exception.
if ((m_bAutoLogin)
&&(BMXNetBroker.FindSubString(sLoginError, "Not a valid ACCESS CODE/VERIFY CODE pair.") == -1)
&& (BMXNetBroker.FindSubString(sLoginError, "User BMXNET,APPLICATION does not have access to option BMXRPC") == -1)
&& (BMXNetBroker.FindSubString(sLoginError, "Not a valid Windows Identity map value.") == -1)
&& (BMXNetBroker.FindSubString(sLoginError, "Current Windows User is not authenticated") == -1)
&& (BMXNetBroker.FindSubString(sLoginError, "Windows Integrated Security Not Allowed on this port.") == -1)
)
{
throw new BMXNetException(sLoginError);
}
bRet = this.NativeBroker.OpenConnection(m_sServerAddress, AccessCode, VerifyCode);
//Map Windows Identity to logged-in RPMS user
if (bIdentIsAuth && m_BMXBroker.IsConnected)
{
m_BMXBroker.AppContext = "BMXRPC";
string sRes = m_BMXBroker.TransmitRPC("BMXNetSetUser", sIdentName);
Debug.Write("LoadConnectInfo BMXNetSetUser returned " + sRes + "\n");
}
}
catch (Exception ex)
{
Debug.Write(ex.Message);
m_BMXBroker.CloseConnection();
throw ex; //this exception will be caught by the caller.
}
}//End if (m_BMXBroker.Connected == false)
try
{
Debug.Assert(this.Broker.IsConnected);
m_BMXBroker.AppContext = "BMXRPC";
string sRpc = "BMX USER";
Debug.Assert(m_BMXBroker.AppContext == "BMXRPC");
bool bCtxt = false;
int nCtxt = 0;
do
{
try
{
m_sUserName = m_BMXBroker.TransmitRPC(sRpc, this.DUZ);
bCtxt = true;
Debug.Write("BMXNet::LoadConnectInfo succeeded.\n");
}
catch (Exception ex)
{
Debug.Write("BMXNet::LoadConnectInfo retrying: " + ex.Message + "\n");
m_BMXBroker.AppContext = "BMXRPC";
nCtxt++;
if (nCtxt > 4)
throw ex;
}
}while (bCtxt == false);
System.Data.DataTable rsDivisions;
rsDivisions = this.GetUserDivisions();
m_nDivisionCount = rsDivisions.Rows.Count;
//The MOST_RECENT_LOOKUP field contains DUZ(2)
foreach (System.Data.DataRow r in rsDivisions.Rows)
{
string sTemp = r["MOST_RECENT_LOOKUP"].ToString();
if ((sTemp == "1") || (rsDivisions.Rows.Count == 1))
{
this.m_sDivision = r["FACILITY_NAME"].ToString();
this.m_sDUZ2 = r["FACILITY_IEN"].ToString();
break;
}
}
}
catch(Exception bmxEx)
{
m_BMXBroker.CloseConnection();
string sMessage = bmxEx.Message + bmxEx.StackTrace;
throw new BMXNetException(sMessage);
}
return;
}
private DataTable GetUserDivisions()
{
try
{
DataTable tb = this.RPMSDataTable("BMXGetFacRS^" + this.DUZ, "DivisionTable");
return tb;
}
catch (Exception bmxEx)
{
string sMessage = bmxEx.Message + bmxEx.StackTrace;
throw new BMXNetException(sMessage);
}
}
public string GetDSN(string sAppContext)
{
string sDsn = "Data source=";
if (sAppContext == "")
sAppContext = "BMXRPC";
if (!m_BMXBroker.IsConnected)
return sDsn.ToString();
sDsn += this.m_sServerAddress ;
sDsn += ";Location=";
sDsn += this.m_nServerPort.ToString();
sDsn += ";Extended Properties=";
sDsn += sAppContext;
return sDsn;
}
public bool Lock(string sVariable, string sIncrement, string sTimeOut)
{
bool bRet = false;
string sErrorMessage = "";
if (!this.Broker.IsConnected)
{
return bRet;
}
try
{
bRet = this.NativeBroker.Lock(sVariable, sIncrement, sTimeOut);
return bRet;
}
catch(Exception ex)
{
sErrorMessage = "CGDocumentManager.RPMSDataTable error: " + ex.Message;
throw ex;
}
}
delegate DataTable RPMSDataTableDelegate(string CommandString, string TableName);
delegate DataTable RPMSDataTableDelegate2(string CommandString, string TableName, DataSet dsDataSet);
///
/// Creates and names a DataTable using the command in CommandString
/// and the name in TableName.
///
/// The SQL or RPC call
/// The name of the resulting table
///
/// Returns the resulting DataTable.
///
public DataTable RPMSDataTable(string CommandString, string TableName)
{
return this.RPMSDataTable(CommandString, TableName, null);
}
///
/// Creates and names a DataTable using the command in CommandString
/// and the name in TableName then adds it to DataSet.
///
/// The SQL or RPC call
/// The name of the resulting table
/// The dataset in which to place the table
///
/// Returns the resulting DataTable.
///
public DataTable RPMSDataTable(string CommandString, string TableName, DataSet dsDataSet)
{
//Retrieves a recordset from RPMS
//Debug.Assert(this.InvokeRequired == false);
string sErrorMessage = "";
DataTable dtResult = new DataTable(TableName);
if (!this.Broker.IsConnected)
return dtResult;
try
{
BMXNetConnection rpmsConn = new BMXNetConnection(m_BMXBroker);
BMXNetCommand cmd = (BMXNetCommand) rpmsConn.CreateCommand();
BMXNetDataAdapter da = new BMXNetDataAdapter();
cmd.CommandText = CommandString;
da.SelectCommand = cmd;
if (dsDataSet == null)
{
da.Fill(dtResult);
}
else
{
da.Fill(dsDataSet, TableName);
dtResult = dsDataSet.Tables[TableName];
}
Debug.Write(dtResult.TableName + " DataTable retrieved\n");
return dtResult;
}
catch (Exception ex)
{
sErrorMessage = "CGDocumentManager.RPMSDataTable error: " + ex.Message;
throw ex;
}
}
public int RPMSDataTableAsyncQue(string CommandString, string EventName)
{
try
{
string sCommand = "BMX ASYNC QUEUE^";
//replace ^'s in CommandString with $c(30)'s
char[] cDelim = new char[1];
cDelim[0] = (char) 30;
string sDelim = cDelim[0].ToString();
CommandString = CommandString.Replace("^", sDelim);
sCommand = sCommand + CommandString + "^" + EventName;
DataTable dt = new DataTable();
RPMSDataTableDelegate rdtd = new RPMSDataTableDelegate(RPMSDataTable);
if (this.IsHandleCreated == false)
{
this.CreateHandle();
}
dt = (DataTable) this.Invoke(rdtd, new object[] {sCommand, "Que"});
DataRow dr = dt.Rows[0];
int nErrorID = Convert.ToInt32(dr["ERRORID"]);
int nParam = Convert.ToInt32(dr["PARAM"]);
if (nErrorID == 0)
{
return 0;
}
else
{
return nParam;
}
}
catch (Exception ex)
{
Debug.Write("RPMSDataTableAsyncQue error: " + ex.Message + "\n");
throw ex;
}
}
public DataTable RPMSDataTableAsyncGet(string AsyncInfo, string TableName)
{
return RPMSDataTableAsyncGet(AsyncInfo, TableName, null);
}
public DataTable RPMSDataTableAsyncGet(string AsyncInfo, string TableName, DataSet dsDataSet)
{
try
{
string sCommand = "BMX ASYNC GET^" + AsyncInfo;
DataTable dt;
RPMSDataTableDelegate rdtd = new RPMSDataTableDelegate(RPMSDataTable);
RPMSDataTableDelegate2 rdtd2 = new RPMSDataTableDelegate2(RPMSDataTable);
if (this.IsHandleCreated == false)
{
this.CreateHandle();
}
if (dsDataSet == null)
{
dt = (DataTable) this.Invoke(rdtd, new object[] {sCommand, TableName});
}
else
{
dt = (DataTable) this.Invoke(rdtd2, new object[] {sCommand, TableName, dsDataSet});
}
return dt;
}
catch (Exception ex)
{
Debug.Write("RPMSDataTableAsyncGet error: " + ex.Message + "\n");
throw ex;
}
}
#endregion Methods
#region Local Storage
/*
public void ChangeServerInfo()
{
//Get existing values from isolated storage
ServerData serverData = new ServerData();
Stream stStorage = null;
try
{
IsolatedStorageFile isStore = IsolatedStorageFile.GetUserStoreForAssembly();
string sFileName = "mserver0200.dat";
stStorage = new IsolatedStorageFileStream(sFileName, FileMode.Open, isStore);
IFormatter formatter = new SoapFormatter();
serverData = (ServerData)formatter.Deserialize(stStorage);
stStorage.Close();
}
catch (Exception ex)
{
Debug.Write(ex.Message);
if (stStorage != null)
stStorage.Close();
}
try
{
hDServerInfo dsi = new DServerInfo();
dsi.InitializePage(serverData.m_sAddress, serverData.m_nPort, serverData.m_sNamespace);
if (dsi.ShowDialog() != DialogResult.OK)
{
throw new BMXNetException("User cancelled.");
}
serverData.m_sAddress = dsi.MServerAddress;
serverData.m_nPort = dsi.MServerPort;
serverData.m_sNamespace = dsi.MServerNamespace;
this.m_sServerAddress = dsi.MServerAddress;
this.m_nServerPort = dsi.MServerPort;
this.m_sServerNamespace = dsi.MServerNamespace;
//Save port and address to isolated storage
try
{
string sFileName = "mserver0200.dat";
IsolatedStorageFile isStore = IsolatedStorageFile.GetUserStoreForAssembly();
stStorage = new IsolatedStorageFileStream(sFileName, FileMode.Create, isStore);
IFormatter formatter = new SoapFormatter();
formatter.Serialize(stStorage, serverData);
stStorage.Close();
}
catch (Exception ex)
{
Debug.Write(ex.Message);
if (stStorage != null)
stStorage.Close();
}
}
catch (Exception ex)
{
Debug.Write(ex.Message);
if (stStorage != null)
stStorage.Close();
if (ex.Message == "User cancelled.")
{
throw ex;
}
}
}
*/
/*
private void GetServerInfo(ref int nPort, ref string sAddress, ref string sNamespace)
{
//Get values from isolated storage
bool bLoaded = false;
Stream stStorage = null;
try
{
m_ServerData = new ServerData();
IsolatedStorageFile isStore = IsolatedStorageFile.GetUserStoreForAssembly();
string sFileName = "mserver0200.dat";
stStorage = new IsolatedStorageFileStream(sFileName, FileMode.Open, isStore);
IFormatter formatter = new SoapFormatter();
m_ServerData = (ServerData)formatter.Deserialize(stStorage);
stStorage.Close();
sAddress = m_ServerData.m_sAddress;
nPort = m_ServerData.m_nPort;
sNamespace = m_ServerData.m_sNamespace;
bLoaded = true;
return;
}
catch (Exception ex)
{
Debug.Write(ex.Message);
if (stStorage != null)
stStorage.Close();
}
try
{
//If unable to deserialize, display dialog to collect values
if (bLoaded == false)
{
DServerInfo dsi = new DServerInfo();
dsi.InitializePage("", 10501, "");
if (dsi.ShowDialog() != DialogResult.OK)
{
throw new BMXNetException("Unable to get M Server information");
}
m_ServerData.m_sAddress = dsi.MServerAddress;
m_ServerData.m_nPort = dsi.MServerPort;
m_ServerData.m_sNamespace = dsi.MServerNamespace;
}
sAddress = m_ServerData.m_sAddress;
nPort = m_ServerData.m_nPort;
sNamespace = m_ServerData.m_sNamespace;
//Save port and address to isolated storage
try
{
string sFileName = "mserver0200.dat";
IsolatedStorageFile isStore = IsolatedStorageFile.GetUserStoreForAssembly();
stStorage = new IsolatedStorageFileStream(sFileName, FileMode.Create, isStore);
IFormatter formatter = new SoapFormatter();
formatter.Serialize(stStorage, m_ServerData);
stStorage.Close();
}
catch (Exception ex)
{
Debug.Write(ex.Message);
if (stStorage != null)
stStorage.Close();
}
return;
}
catch (Exception ex)
{
Debug.Write(ex.Message);
if (stStorage != null)
stStorage.Close();
throw ex;
}
}*/
#endregion
}
}