private void timer_Tick(object sender, EventArgs e)
{
computer.Accept(updateVisitor);
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors != null && logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
}
private void timer_Tick(object sender, EventArgs e)
{
computer.Accept(updateVisitor);
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors != null && logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
if (this.emailNotificationManager.ChechIfNotificationShouldBeSend())
{
this.emailNotificationManager.SendReport();
}
}
private void timer_Tick(object sender, EventArgs e)
{
// Stop the timer. Needed when an update is slower than the interval itself.
timer.Enabled = false;
if (firstTick == null)
{
firstTick = DateTime.Now;
}
computer.Accept(updateVisitor);
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors != null && logSensors.Value && DateTime.Now - firstTick >= warmup)
{
logger.Log();
}
timer.Enabled = true;
}
private void run()
{
_isRunning = true;
while (_isRunning)
{
_computer.Accept(_visitor);
_provider.Update();
if (_sensors != null && _sensors.Count > 0)
{
int calculatedTemp = 0;
int highestTemp = 0;
foreach (ISensor sensor in _sensors)
{
int sensorTemp = (int)sensor.Value;
calculatedTemp += (int)sensorTemp;
if (sensorTemp > highestTemp)
{
highestTemp = sensorTemp;
}
}
calculatedTemp = calculatedTemp / _sensors.Count;
_hardwareModel.calculatedCPUTemperature = calculatedTemp;
_hardwareModel.highestCoreTemp = highestTemp;
//TODO: paramterise temperature override for quiet mode! For now we override at 85°C!
if (_hardwareModel.quietModeEnabled && _hardwareModel.highestCoreTemp < 85)
{
_hardwareModel.calculatedSpeed = _hardwareModel.quietModeSpeed;
}
else if (_hardwareModel.highestCoreTemp < 85)
{
_hardwareModel.calculatedSpeed = _linearDataInterpolator.extrapolateSpeedFromTemperature(highestTemp).speed;
}
else
{
//When the temp is higher then the max safe override to 100% fan speed!
_hardwareModel.calculatedSpeed = 100;
}
}
else
{
//If no sensors are found, set the calculated and highest temps to -1 and the fan speed to a static 70%
_hardwareModel.calculatedCPUTemperature = -1;
_hardwareModel.highestCoreTemp = -1;
_hardwareModel.quietModeEnabled = true;
_hardwareModel.calculatedSpeed = 70;
}
_messageHub.Publish(new HardwareModelMessage(this, "update"));
Thread.Sleep(1000);
}
}
private void Timer_Tick(object sender, EventArgs e)
{
treeView.Invalidate();
_systemTray.Redraw();
_gadget?.Redraw();
_wmiProvider?.Update();
if (!backgroundUpdater.IsBusy)
{
backgroundUpdater.RunWorkerAsync();
}
RestoreCollapsedNodeState(treeView);
}
public DataProvider()
{
_computer = new Computer();
// enable everything except for GPU which we can't monitor in a service anyway (keyword: session 0 isolation)
_computer.CPUEnabled = _computer.FanControllerEnabled = _computer.HDDEnabled = _computer.RAMEnabled = _computer.MainboardEnabled = true;
_computer.Open();
_wmiProvider = new WmiProvider(_computer);
_wmiProvider.Update();
_visitor = new UpdateVisitor();
// tick once per second
_timer = new Timer(1000.0);
_timer.Elapsed += updateTick;
_timer.AutoReset = true;
_timer.Enabled = true;
}
private void timer_Tick(object sender, EventArgs e)
{
computer.Accept(updateVisitor);
treeView.Invalidate();
plotPanel.Invalidate();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
}
private void timer_Tick(object sender, EventArgs e)
{
computer.Accept(updateVisitor);
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors != null)
{
if (logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
}
else
{
logSensors = new UserOption("logSensorsMenuItem", false, logSensorsMenuItem,
settings);
if (logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
}
}
private void Timer_Tick(object sender, EventArgs e)
{
_computer.Accept(_updateVisitor);
treeView.Invalidate();
_plotPanel.InvalidatePlot();
_systemTray.Redraw();
_gadget?.Redraw();
_wmiProvider?.Update();
if (_logSensors != null && _logSensors.Value && _delayCount >= 4)
{
_logger.Log();
}
if (_delayCount < 4)
{
_delayCount++;
}
}
/// <summary>
/// Called when the package is started.
/// </summary>
public override void OnStart()
{
this.computer = new Computer();
var updateVisitor = new UpdateVisitor();
var wmiProvider = new WmiProvider(computer);
this.computer.HardwareAdded += new HardwareEventHandler(computer_HardwareAdded);
this.computer.HardwareRemoved += new HardwareEventHandler(computer_HardwareRemoved);
this.computer.Open();
this.computer.MainboardEnabled = true;
this.computer.CPUEnabled = true;
this.computer.FanControllerEnabled = true;
this.computer.GPUEnabled = true;
this.computer.HDDEnabled = true;
this.computer.MainboardEnabled = true;
this.computer.RAMEnabled = true;
this.pushHardwareListOnChange = true;
this.PushHardwaresList();
while (PackageHost.IsRunning)
{
Thread.Sleep(PackageHost.GetSettingValue <int>("Interval"));
this.computer.Accept(updateVisitor);
if (wmiProvider != null)
{
wmiProvider.Update();
}
foreach (var hardware in computer.Hardware)
{
this.PushHardware(hardware);
}
}
}
public void SendData(bool hardwareOnly)
{
computer.Accept(updateVisitor);
if (sendSerialData)
{
var gpuMaxTemp = Math.Max(
(int)MaxTemp(computer, HardwareType.GpuNvidia),
(int)MaxTemp(computer, HardwareType.GpuAti)
);
var gpuMaxUsage = Math.Max(
(int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Core"),
(int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Core")
);
var gpuMaxMemory = Math.Max(
(int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Memory"),
(int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Memory")
);
List <float> data = new List <float>
{
(int)MaxTemp(computer, HardwareType.CPU),
gpuMaxTemp,
(int)MaxTemp(computer, HardwareType.Mainboard),
(int)MaxTemp(computer, HardwareType.HDD),
(int)UsageInPercent(computer, HardwareType.CPU, "CPU Total"),
gpuMaxUsage,
(int)UsageInPercent(computer, HardwareType.RAM, "Memory"),
gpuMaxMemory
};
for (int i = 1; i < 17; i++)
{
data.Add((int)MaxTemp(computer, HardwareType.CPU, $"CPU Core #{i}"));
data.Add((int)UsageInPercent(computer, HardwareType.CPU, $"CPU Core #{i}"));
}
if (!hardwareOnly)
{
data.AddRange(new float[] {
// Right group.
settings.GetValue("nMaxFan", 100),
settings.GetValue("nMinFan", 20),
settings.GetValue("nMaxTemp", 100),
settings.GetValue("nMinTemp", 10),
// Flags
settings.GetValue("chkManualFan", false) ? 1 : 0,
settings.GetValue("chkManualColor", false) ? 1 : 0,
// Sliders.
settings.GetValue("sldManualFan", 50),
settings.GetValue("sldManualColor", 500),
settings.GetValue("sldLedBrightness", 50),
settings.GetValue("sldPlotInterval", 5),
settings.GetValue("cboMaxTempSource", 0),
});
}
;
string tmp = string.Join(";", data.Select(T => T.ToString()).ToArray());
serial.Write(Encoding.ASCII.GetBytes(tmp));
serial.Write(Encoding.ASCII.GetBytes("E"));
}
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
}
private void timer_Tick(object sender, EventArgs e)
{
computer.Accept(updateVisitor);
{
string tmp = "";
tmp += string.Format("GPU: {0}C\r", (int)MaxTemp(computer, HardwareType.GpuAti) + AvgTemp(computer, HardwareType.GpuNvidia));
tmp += string.Format("CPU: {0}C\r", (int)MaxTemp(computer, HardwareType.CPU));
tmp += string.Format("Mainboard: {0}C\r", (int)MaxTemp(computer, HardwareType.Mainboard));
tmp += string.Format("HDD: {0}C\r", (int)MaxTemp(computer, HardwareType.HDD));
serial.Write(new byte[] { 0 });
serial.Write(Encoding.ASCII.GetBytes(tmp));
serial.Write(new byte[] { 1 });
/*var gpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.GpuAti || x.HardwareType == HardwareType.GpuNvidia).ToArray();
* if (gpus.Any())
* {
* var gpu = gpus.First();
* var temps = gpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("gpu: {0}C\r", (int)temp);
* }
* }
*
* var cpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray();
*
* if (cpus.Any())
* {
* var cpu = cpus.First();
* var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("cpu: {0}C\r", (int)temp);
* }
* }
*
* var mainboard = computer.Hardware.Where(x => x.HardwareType == HardwareType.Mainboard).Single();
* {
* var temps = mainboard.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("mainboard: {0}C\r", (int)temp);
* }
* }
*
* var hdds = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray();
*
* if (hdds.Any())
* {
* var cpu = cpus.First();
* var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("hdd: {0}C\r", (int)temp);
* }
* }*/
}
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
}
public void timer_Tick(object sender, EventArgs e)
{
computer.Accept(updateVisitor);
{
/*string tmp = "";
* tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.GpuAti) + AvgTemp(computer, HardwareType.GpuNvidia));
* tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.CPU));
* tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.Mainboard));
* tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.HDD));
* tmp += string.Format("{0};", (int)(UsageInPercent(computer, HardwareType.GpuAti, "GPU Core") + UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Core")));
* tmp += string.Format("{0};", (int)UsageInPercent(computer, HardwareType.CPU, "CPU Total"));
* tmp += string.Format("{0};", (int)UsageInPercent(computer, HardwareType.RAM, "Memory"));
* tmp += string.Format("{0};", (int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Memory") + UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Memory"));*/
var gpuMaxTemp = Math.Max(
(int)MaxTemp(computer, HardwareType.GpuNvidia),
(int)MaxTemp(computer, HardwareType.GpuAti)
);
var gpuMaxUsage = Math.Max(
(int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Core"),
(int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Core")
);
var gpuMaxMemory = Math.Max(
(int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Memory"),
(int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Memory")
);
List <float> data = new List <float>
{
(int)MaxTemp(computer, HardwareType.CPU),
gpuMaxTemp,
(int)MaxTemp(computer, HardwareType.Mainboard),
(int)MaxTemp(computer, HardwareType.HDD),
(int)UsageInPercent(computer, HardwareType.CPU, "CPU Total"),
(int)gpuMaxUsage,
(int)UsageInPercent(computer, HardwareType.RAM, "Memory"),
(int)gpuMaxMemory,
// Right group.
settings.GetValue("nMaxFan", 100),
settings.GetValue("nMinFan", 20),
settings.GetValue("nMaxTemp", 100),
settings.GetValue("nMinTemp", 10),
// Flags
settings.GetValue("chkManualFan", false) ? 1 : 0,
settings.GetValue("chkManualColor", false) ? 1 : 0,
// Sliders.
settings.GetValue("sldManualFan", 50),
settings.GetValue("sldManualColor", 500),
settings.GetValue("sldLedBrightness", 50),
settings.GetValue("sldPlotInterval", 5),
settings.GetValue("cboMaxTempSource", 0),
};
string tmp = string.Join(";", data.Select(T => T.ToString()).ToArray());
serial.Write(Encoding.ASCII.GetBytes(tmp));
serial.Write(Encoding.ASCII.GetBytes("E"));
/*var gpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.GpuAti || x.HardwareType == HardwareType.GpuNvidia).ToArray();
* if (gpus.Any())
* {
* var gpu = gpus.First();
* var temps = gpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("gpu: {0}C\r", (int)temp);
* }
* }
*
* var cpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray();
*
* if (cpus.Any())
* {
* var cpu = cpus.First();
* var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("cpu: {0}C\r", (int)temp);
* }
* }
*
* var mainboard = computer.Hardware.Where(x => x.HardwareType == HardwareType.Mainboard).Single();
* {
* var temps = mainboard.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("mainboard: {0}C\r", (int)temp);
* }
* }
*
* var hdds = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray();
*
* if (hdds.Any())
* {
* var cpu = cpus.First();
* var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray();
* if (temps.Any())
* {
* var temp = temps.Average(x => x.Value.Value);
* tmp += string.Format("hdd: {0}C\r", (int)temp);
* }
* }*/
}
treeView.Invalidate();
plotPanel.InvalidatePlot();
systemTray.Redraw();
if (gadget != null)
{
gadget.Redraw();
}
if (wmiProvider != null)
{
wmiProvider.Update();
}
if (logSensors.Value && delayCount >= 4)
{
logger.Log();
}
if (delayCount < 4)
{
delayCount++;
}
}
private void updateTick(Object source, ElapsedEventArgs args)
{
_computer.Accept(_visitor);
_wmiProvider.Update();
}
private void Update()
{
_updateVisitor.VisitHardware(_hardware);
_wmiProvider.Update();
}
