internal void UpdateProperties(InterfacingProperties theModel)
{
List <Task <ProcessResult> > Tasks = new List <Task <ProcessResult> >();
bool AskToRestart = false;
RepopulateAndGetProperties();
Task <ProcessResult> SetCamera = null;
if (Camera != theModel.Camera)
{
AskToRestart = true;
LoggingActions.LogTaskAction(Log, theModel.Camera, EventLogEntryCodes.CameraSettingEnabling, EventLogEntryCodes.CameraSettingDisabling);
SetCamera = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_camera " + (theModel.Camera ? c_Enabled : c_Disabled));
Tasks.Add(SetCamera);
}
Task <ProcessResult> SetSSH = null;
if (SSH != theModel.SSH)
{
LoggingActions.LogTaskAction(Log, theModel.SSH, EventLogEntryCodes.SSHSettingEnabling, EventLogEntryCodes.SSHSettingDisabling);
SetSSH = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_ssh " + (theModel.SSH ? c_Enabled : c_Disabled));
Tasks.Add(SetSSH);
}
Task <ProcessResult> SetVNC = null;
if (VNC != theModel.VNC)
{
LoggingActions.LogTaskAction(Log, theModel.VNC, EventLogEntryCodes.VNCSettingEnabling, EventLogEntryCodes.VNCSettingDisabling);
SetVNC = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_vnc " + (theModel.VNC ? c_Enabled : c_Disabled));
Tasks.Add(SetVNC);
}
Task <ProcessResult> SetSPI = null;
if (SPI != theModel.SPI)
{
LoggingActions.LogTaskAction(Log, theModel.SPI, EventLogEntryCodes.SPISettingEnabling, EventLogEntryCodes.SPISettingDisabling);
SetSPI = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_spi " + (theModel.SPI ? c_Enabled : c_Disabled));
Tasks.Add(SetSPI);
}
Task <ProcessResult> SetI2C = null;
if (I2C != theModel.I2C)
{
LoggingActions.LogTaskAction(Log, theModel.I2C, EventLogEntryCodes.I2CSettingEnabling, EventLogEntryCodes.I2CSettingDisabling);
SetI2C = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_i2c " + (theModel.I2C ? c_Enabled : c_Disabled));
Tasks.Add(SetI2C);
}
Task <ProcessResult> SetSerial = null;
if (Serial != theModel.Serial)
{
AskToRestart = true;
LoggingActions.LogTaskAction(Log, theModel.Serial, EventLogEntryCodes.SerialSettingEnabling, EventLogEntryCodes.SerialSettingDisabling);
SetSerial = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_serial " + (theModel.Serial ? c_Enabled : c_Disabled));
Tasks.Add(SetSerial);
}
Task <ProcessResult> SetOneWire = null;
if (OneWire != theModel.OneWire)
{
AskToRestart = true;
LoggingActions.LogTaskAction(Log, theModel.OneWire, EventLogEntryCodes.OneWireSettingEnabling, EventLogEntryCodes.OneWireSettingDisabling);
SetOneWire = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_onewire " + (theModel.OneWire ? c_Enabled : c_Disabled));
Tasks.Add(SetOneWire);
}
Task <ProcessResult> SetRemoteGPIO = null;
if (RemoteGPIO != theModel.RemoteGPIO)
{
LoggingActions.LogTaskAction(Log, theModel.RemoteGPIO, EventLogEntryCodes.RemoteGPIOSettingEnabling, EventLogEntryCodes.RemoteGPIOSettingDisabling);
SetRemoteGPIO = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_rgpio " + (theModel.RemoteGPIO ? c_Enabled : c_Disabled));
Tasks.Add(SetRemoteGPIO);
}
Task.WaitAll(Tasks.ToArray());
if (AskToRestart)
{
RestartDue?.Invoke();
}
// Check if Tasks have completed Okay and Log result
LoggingActions.LogTaskResult(Log, SetCamera, theModel.Camera, EventLogEntryCodes.CameraSettingEnabled, EventLogEntryCodes.CameraSettingDisabled, EventLogEntryCodes.CameraSettingError);
LoggingActions.LogTaskResult(Log, SetSSH, theModel.SSH, EventLogEntryCodes.SSHSettingEnabled, EventLogEntryCodes.SSHSettingDisabled, EventLogEntryCodes.SSHSettingError);
LoggingActions.LogTaskResult(Log, SetVNC, theModel.VNC, EventLogEntryCodes.VNCSettingEnabled, EventLogEntryCodes.VNCSettingDisabled, EventLogEntryCodes.VNCSettingError);
LoggingActions.LogTaskResult(Log, SetSPI, theModel.SPI, EventLogEntryCodes.SPISettingEnabled, EventLogEntryCodes.SPISettingDisabled, EventLogEntryCodes.SPISettingError);
LoggingActions.LogTaskResult(Log, SetI2C, theModel.I2C, EventLogEntryCodes.I2CSettingEnabled, EventLogEntryCodes.I2CSettingDisabled, EventLogEntryCodes.I2CSettingError);
LoggingActions.LogTaskResult(Log, SetSerial, theModel.Serial, EventLogEntryCodes.SerialSettingEnabled, EventLogEntryCodes.SerialSettingDisabled, EventLogEntryCodes.SerialSettingError);
LoggingActions.LogTaskResult(Log, SetOneWire, theModel.OneWire, EventLogEntryCodes.OneWireSettingEnabled, EventLogEntryCodes.OneWireSettingDisabled, EventLogEntryCodes.OneWireSettingError);
LoggingActions.LogTaskResult(Log, SetRemoteGPIO, theModel.RemoteGPIO, EventLogEntryCodes.RemoteGPIOSettingEnabled, EventLogEntryCodes.RemoteGPIOSettingDisabled, EventLogEntryCodes.RemoteGPIOSettingError);
}
internal void UpdateProperties(LocalisationProperties theModel)
{
List <Task <ProcessResult> > Tasks = new List <Task <ProcessResult> >();
RepopulateAndGetProperties();
bool AskToRestart = false;
Task <ProcessResult> StartTimesyncd = null;
Task <ProcessResult> DisableTimesyncd = null;
if (TimeSyncdEnabled != theModel.TimeSyncdEnabled)
{
LoggingActions.LogTaskAction(Log, theModel.TimeSyncdEnabled, EventLogEntryCodes.TimesyncdEnabling, EventLogEntryCodes.TimesyncdStopping);
if (theModel.TimeSyncdEnabled)
{
Task <ProcessResult> EnableTimesyncd = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "enable systemd-timesyncd");
EnableTimesyncd.Wait();
LoggingActions.LogTaskResult(Log, EnableTimesyncd, EventLogEntryCodes.TimesyncdEnabled, EventLogEntryCodes.TimesyncdEnablingError);
if (EnableTimesyncd.Result.Okay())
{
Log?.Invoke(EventLogEntryCodes.TimesyncdStarting, null);
StartTimesyncd = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "start systemd-timesyncd");
Tasks.Add(StartTimesyncd);
}
}
else
{
Task <ProcessResult> StopTimesyncd = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "stop systemd-timesyncd");
StopTimesyncd.Wait();
LoggingActions.LogTaskResult(Log, StopTimesyncd, EventLogEntryCodes.TimesyncdStopped, EventLogEntryCodes.TimesyncdStoppingError);
if (StopTimesyncd.Result.Okay())
{
Log?.Invoke(EventLogEntryCodes.TimesyncdDisabling, null);
DisableTimesyncd = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "disable systemd-timesyncd");
Tasks.Add(DisableTimesyncd);
}
}
}
Task <ProcessResult> StartFakeHWClock = null;
Task <ProcessResult> DisableFakeHWClock = null;
if (FakeHWClockEnabled != theModel.FakeHWClockEnabled)
{
LoggingActions.LogTaskAction(Log, theModel.FakeHWClockEnabled, EventLogEntryCodes.FakeHwClockEnabling, EventLogEntryCodes.FakeHwClockStopping);
if (theModel.FakeHWClockEnabled)
{
Task <ProcessResult> EnableFakeHWClock = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "enable fake-hwclock");
EnableFakeHWClock.Wait();
LoggingActions.LogTaskResult(Log, EnableFakeHWClock, EventLogEntryCodes.FakeHwClockEnabled, EventLogEntryCodes.FakeHwClockEnablingError);
if (EnableFakeHWClock.Result.Okay())
{
Log?.Invoke(EventLogEntryCodes.TimesyncdEnabling, null);
StartFakeHWClock = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "start fake-hwclock");
Tasks.Add(StartFakeHWClock);
}
}
else
{
Task <ProcessResult> StopFakeHWClock = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "stop fake-hwclock");
StopFakeHWClock.Wait();
LoggingActions.LogTaskResult(Log, StopFakeHWClock, EventLogEntryCodes.FakeHwClockStopped, EventLogEntryCodes.FakeHwClockStoppingError);
if (StopFakeHWClock.Result.Okay())
{
Log?.Invoke(EventLogEntryCodes.FakeHwClockDisabling, null);
DisableFakeHWClock = ProcessRunner.GetProcessResultAsync(c_LinuxSystemControlCommand, "disable fake-hwclock");
Tasks.Add(DisableFakeHWClock);
}
}
}
Task <ProcessResult> SetTimeZone = null;
if (TimeZone != theModel.TimeZone)
{
Log?.Invoke(EventLogEntryCodes.TimeZoneSetting, new string[] { theModel.TimeZone });
SetTimeZone = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_change_timezone " + theModel.TimeZone);
Tasks.Add(SetTimeZone);
}
Task <ProcessResult> SetWifiCountry = null;
if (WifiCountry != theModel.WifiCountry)
{
if (theModel.WifiCountry == string.Empty)
{
AskToRestart = true;
Log?.Invoke(EventLogEntryCodes.WifiCountrySetting, new string[] { "None" });
SetWifiCountry = UnsetWiFiSequence();
Tasks.Add(SetWifiCountry);
}
else
{
AskToRestart = true;
Log?.Invoke(EventLogEntryCodes.WifiCountrySetting, new string[] { theModel.WifiCountry });
SetWifiCountry = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_wifi_country " + theModel.WifiCountry);
Tasks.Add(SetWifiCountry);
}
}
Task <ProcessResult> SetDate = null;
if (theModel.SetDate)
{
DateTime DateConvert = DateTime.ParseExact(theModel.Date.Replace("/", ""), "ddMMyyyy", CultureInfo.InvariantCulture);
string DateCommand = "+%Y%m%d -s \"" + DateConvert.ToString("yyyyMMdd") + "\"";
Log?.Invoke(EventLogEntryCodes.DateSetting, new string[] { "date " + DateCommand });
SetDate = ProcessRunner.GetProcessResultAsync(c_DateCommand, DateCommand);
Tasks.Add(SetDate);
}
Task <ProcessResult> SetTime = null;
if (theModel.SetTime)
{
string TimeCommand = "+%T -s \"" + theModel.Time + "\"";
Log?.Invoke(EventLogEntryCodes.TimeSetting, new string[] { "date " + TimeCommand });
SetTime = ProcessRunner.GetProcessResultAsync(c_DateCommand, TimeCommand);
Tasks.Add(SetTime);
}
if (AskToRestart)
{
RestartDue?.Invoke();
}
Task.WaitAll(Tasks.ToArray());
Task <ProcessResult> SyncRTC = null;
if (HWClockPresent && (theModel.SetTime || theModel.SetDate || (theModel.TimeSyncdEnabled && !TimeSyncdEnabled)) && theModel.HWClockPresent)
{
Log?.Invoke(EventLogEntryCodes.RTCSyncing, null);
SyncRTC = ProcessRunner.GetProcessResultAsync(c_HardwareClockCommand, "-w");
SyncRTC.Wait();
}
// Check if Tasks have completed Okay and Log result
LoggingActions.LogTaskResult(Log, StartTimesyncd, EventLogEntryCodes.TimesyncdStarted, EventLogEntryCodes.TimesyncdStartingError);
LoggingActions.LogTaskResult(Log, DisableTimesyncd, EventLogEntryCodes.TimesyncdDisabled, EventLogEntryCodes.TimesyncdDisablingError);
LoggingActions.LogTaskResult(Log, StartFakeHWClock, EventLogEntryCodes.FakeHwClockStarted, EventLogEntryCodes.FakeHwClockStartingError);
LoggingActions.LogTaskResult(Log, DisableFakeHWClock, EventLogEntryCodes.FakeHwClockDisabled, EventLogEntryCodes.FakeHwClockDisablingError);
LoggingActions.LogTaskResult(Log, SetTimeZone, EventLogEntryCodes.TimeZoneSet, EventLogEntryCodes.TimeZoneSettingError);
LoggingActions.LogTaskResult(Log, SetWifiCountry, EventLogEntryCodes.WifiCountrySet, EventLogEntryCodes.WifiCountrySettingError);
LoggingActions.LogTaskResult(Log, SetDate, EventLogEntryCodes.DateSet, EventLogEntryCodes.DateSettingError);
LoggingActions.LogTaskResult(Log, SetTime, EventLogEntryCodes.TimeSet, EventLogEntryCodes.TimeSettingError);
LoggingActions.LogTaskResult(Log, SyncRTC, EventLogEntryCodes.RTCSynced, EventLogEntryCodes.RTCSyncError);
}
internal void UpdateProperties(BootProperties theModel)
{
List <Task <ProcessResult> > Tasks = new List <Task <ProcessResult> >();
bool AskToRestart = false;
RepopulateAndGetProperties();
Task <ProcessResult> SetBootBehaviour = null;
if (theModel.BootBehaviour != 0)
{
AskToRestart = true;
LoggingActions.LogTaskAction(Log, (theModel.BootBehaviour - 1), new EventLogEntryCodes[] {
EventLogEntryCodes.BootBehaviourSettingConsole,
EventLogEntryCodes.BootBehaviourSettingConsoleAutologin,
EventLogEntryCodes.BootBehaviourSettingDesktop,
EventLogEntryCodes.BootBehaviourSettingDesktopAutologin
});
SetBootBehaviour = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_boot_behaviour B" + theModel.BootBehaviour);
Tasks.Add(SetBootBehaviour);
}
Task <ProcessResult> SetNetworkWait = null;
if (NetworkWait != theModel.NetworkWait)
{
LoggingActions.LogTaskAction(Log, theModel.NetworkWait, EventLogEntryCodes.NetworkWaitSettingTrue, EventLogEntryCodes.NetworkWaitSettingFalse);
SetNetworkWait = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_boot_wait " + (theModel.NetworkWait ? "0" : "1"));
Tasks.Add(SetNetworkWait);
}
Task <ProcessResult> SetSplashScreen = null;
if (SplashScreen != theModel.SplashScreen)
{
LoggingActions.LogTaskAction(Log, theModel.SplashScreen, EventLogEntryCodes.SplashScreenSettingTrue, EventLogEntryCodes.SplashScreenSettingFalse);
SetSplashScreen = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_boot_splash " + (theModel.SplashScreen ? "0" : "1"));
Tasks.Add(SetSplashScreen);
}
Task <ProcessResult> SetBootOrder = null;
if (theModel.BootOrder != 0)
{
LoggingActions.LogTaskAction(Log, (theModel.BootOrder - 1), new EventLogEntryCodes[] {
EventLogEntryCodes.BootOrderSettingUSB,
EventLogEntryCodes.BootOrderSettingNetwork
});
SetBootOrder = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_boot_order B" + theModel.BootOrder);
Tasks.Add(SetBootOrder);
}
Task <ProcessResult> SetBootROM = null;
if (theModel.BootROM != 0)
{
AskToRestart = true;
LoggingActions.LogTaskAction(Log, (theModel.BootROM - 1), new EventLogEntryCodes[] {
EventLogEntryCodes.BootROMSettingLatest,
EventLogEntryCodes.BootROMSettingDefault
});
SetBootROM = ProcessRunner.GetProcessResultAsync(c_LinuxRaspconfigCommand, "nonint do_boot_rom E" + theModel.BootROM);
Tasks.Add(SetBootROM);
}
if (AskToRestart)
{
RestartDue?.Invoke();
}
Task.WaitAll(Tasks.ToArray());
// Check if Tasks have completed Okay and Log result
LoggingActions.LogTaskResult(Log, SetBootBehaviour, EventLogEntryCodes.BootBehaviourSet, EventLogEntryCodes.BootBehaviourSettingError);
LoggingActions.LogTaskResult(Log, SetNetworkWait, EventLogEntryCodes.NetworkWaitSet, EventLogEntryCodes.NetworkWaitSettingError);
LoggingActions.LogTaskResult(Log, SetSplashScreen, EventLogEntryCodes.SplashScreenSet, EventLogEntryCodes.SplashScreenSettingError);
LoggingActions.LogTaskResult(Log, SetBootOrder, EventLogEntryCodes.BootOrderSet, EventLogEntryCodes.BootOrderSettingError);
LoggingActions.LogTaskResult(Log, SetBootROM, EventLogEntryCodes.BootROMSet, EventLogEntryCodes.BootROMSettingError);
}