private static void SteadyStartsFunktion(object jsArg)
{
while (true)
{
JobSystem _js = (JobSystem)jsArg;
FloodStart();
_js.SyncNodes(ModelHost.hostList);
Thread.Sleep(3000);
}
}
private void InvokeArpReader()
{
try
{
ARPReader.srcAddress = IPAddress.Parse(textBoxLocalIP.Text);
ARPReader.netAddress = IPAddress.Parse(textBoxNetwork.Text);
ARPReader.subnetMask = Convert.ToUInt32(comboBoxSubnetmask.SelectedItem);
if (this.comboBoxNWD.Text != "Default")
{
ARPReader.networkInterface = Convert.ToUInt16(this.comboBoxNWD.SelectedItem.ToString()) - (uint)1;
}
if (checkBoxOneScan.Checked)
{
ARPReader.SetWindow(this);
ARPReader.FloodStart();
_js.SyncNodes(ModelHost.hostList);
ARPReader.ResetWindow();
}
else
{
ARPReader.SteadyStart(_js);
GUILogic.SteadyActivated = true;
_mw.buttonScan.Enabled = false;
}
validEntering = true;
}
catch
{
MessageBox.Show("Please check the fields again, your enterings seem to be incorrect", "Ups...Something went wrong", MessageBoxButtons.OK, MessageBoxIcon.Error);
validEntering = false;
}
return;
}
public override string Execute(int consoleWidth)
{
ARPReader.srcAddress = (IPAddress)pars.GetPar("l").argValues[0];
ARPReader.netAddress = (IPAddress)pars.GetPar("n").argValues[0];
ARPReader.subnetMask = (uint)pars.GetPar("s").argValues[0];
if (OParUsed("i"))
{
ARPReader.networkInterface = (uint)pars.GetPar("i").argValues[0] - 1;
}
if (OParUsed("o"))
{
ARPReader.FloodStart();
_js.SyncNodes(ModelHost.hostList);
return("<color><blue>Successfully performed Scan");
}
else
{
ARPReader.SteadyStart(_js);
return("<color><blue> Started steady arp reader");
}
}
public override string Execute(int consoleWidth)
{
_js.SyncNodes(ModelHost.hostList);
return("<color><blue> Sync done");
}
public override string Execute(int consoleWidth)
{
ARPReader.CheckStart();
_js.SyncNodes(ModelHost.hostList);
return("<color><blue>Updated list");
}
private void ProcessData()
{
try
{
if (NetworkHelper.IsDhcp(_data) && NetworkHelper.IsDhcpRequest(_data))
{
ModelHost _tmpModel = new ModelHost();
_tmpModel.hostMac = NetworkHelper.getPhysicalAddressStringFromDhcp(_data);
_tmpModel.macGiven = true;
for (uint i = NetworkHelper.DHCP_COOKIE_POSITION; i < _data.Length; i++)
{
switch (Convert.ToUInt16(_data[i]))
{
case 50:
byte[] _ipBytes = new byte[4];
for (uint ii = 0; ii < 4; ii++)
{
_ipBytes[ii] = _data[i + 2 + ii];
}
_tmpModel.ipGiven = true;
_tmpModel.hostIP = new IPAddress(_ipBytes);
continue;
case 55:
i = 1 + i + _data[i + 1];
continue;
case 12:
byte _nameLength = _data[i + 1];
_tmpModel.hostName = "";
try
{
for (uint iii = 1; iii <= _nameLength; iii++)
{
_tmpModel.hostName += (char)_data[i + 1 + iii];
_tmpModel.nameGiven = true;
}
}
catch
{
}
continue;
default:
break;
}
}
if (ModelHost.Exists(_tmpModel))
{
if (_tmpModel.nameGiven)
{
ModelHost.UpdateHost(_tmpModel, _tmpModel.hostIP, _tmpModel.hostName);
}
else
{
ModelHost.UpdateHost(_tmpModel, _tmpModel.hostIP);
}
}
else
{
ModelHost.AddToList(_tmpModel);
}
_js.SyncNodes(ModelHost.hostList);
}
}
catch
{
}
}