Ejemplo n.º 1
0
        /// <summary>
        /// Calculate CPU usage, e.g.: this process time vs system process time
        /// return the CPU usage in percentage
        /// </summary>
        public static double GetCPUUsage()
        {
            double ret = 0.0;

            //retrieve process time
            ProcessTimes processTimes = GetProcessTimes();

            UInt64 currentProcessTime = processTimes.KernelTime + processTimes.UserTime;

            //retrieve system time
            // get number of CPU cores, then, check system time for every CPU core
            if (numberOfProcessors == 0)
            {
                SystemInfo info;
                GetSystemInfo(out info);

                Debug.WriteLine(info.NumberOfProcessors);

                numberOfProcessors = info.NumberOfProcessors;
            }

            int size = System.Runtime.InteropServices.Marshal.SizeOf <SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION>();

            size = (int)(size * numberOfProcessors);

            IntPtr   systemProcessInfoBuff = Marshal.AllocHGlobal(size); // should be more than adequate
            uint     length = 0;
            NtStatus result = NtQuerySystemInformation(SYSTEM_INFORMATION_CLASS.SystemProcessorPerformanceInformation, systemProcessInfoBuff, (uint)size, out length);

            if (result != NtStatus.Success)
            {
                Debug.WriteLine($"Failed to obtain processor performance information ({result})");
                return(ret);
            }
            UInt64 currentSystemTime  = 0;
            var    systemProcInfoData = systemProcessInfoBuff;

            for (int i = 0; i < numberOfProcessors; i++)
            {
                SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION processPerInfo = (SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION)Marshal.PtrToStructure <SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION>(systemProcInfoData);

                currentSystemTime += processPerInfo.KernelTime + processPerInfo.UserTime;
            }

            //we need to at least measure twice
            if (previousProcessTime != 0 && previousSystemTIme != 0)
            {
                ret = ((double)(currentProcessTime - previousProcessTime) / (double)(currentSystemTime - previousSystemTIme)) * 100.0;
            }

            previousProcessTime = currentProcessTime;

            previousSystemTIme = currentSystemTime;

            Debug.WriteLine($"CPU usage: {ret}%");

            return(ret);
        }
Ejemplo n.º 2
0
        public void Roundtrip()
        {
            var pt = new ProcessTimes(1, 2, 3, 4);

            XAssert.AreEqual(1, pt.StartTimeUtc.ToFileTimeUtc());
            XAssert.AreEqual(2, pt.ExitTimeUtc.ToFileTimeUtc());
            XAssert.AreEqual(3, pt.PrivilegedProcessorTime.Ticks);
            XAssert.AreEqual(4, pt.UserProcessorTime.Ticks);
            XAssert.AreEqual(7, pt.TotalProcessorTime.Ticks);
        }
Ejemplo n.º 3
0
        /// <summary>
        /// Report process time to console and append to log file.
        /// </summary>
        /// <param name="options">Parsed CLI options with process file and arguments.</param>
        /// <param name="pTimes">Measured process times.</param>
        static void ReportProcessTimes(ParsedOptions options, ProcessTimes pTimes, string measuredProcessName)
        {
            string        times      = pTimes.FormatProcessTimes();
            StringBuilder logBuilder = new StringBuilder();

            logBuilder.Append(DateTime.Now.ToString("dd.MM.yyyy hh:mm:ss"))
            .Append('\n')
            .Append("Measured process: ").Append(measuredProcessName).Append('\n')
            .Append("Command: ").Append(options.ProcessFile).Append(' ').Append(options.ProcessArguments)
            .Append('\n')
            .Append(times);
            string report = logBuilder.ToString();

            AppendToLogFile(report);
            ColoredPrint(report, ConsoleColor.DarkGreen);
        }
Ejemplo n.º 4
0
        public void GracefullyHandledIllegalExitTime()
        {
            var pt = new ProcessTimes(1, -1, 3, 4);

            XAssert.AreEqual(DateTime.MaxValue, pt.ExitTimeUtc);
        }
Ejemplo n.º 5
0
        /****************************************************************************
        * HandlePicoBlockData
        * - acquires data
        * Output:
        *  - exports the times and voltage readings of Channel A as an array.
        * Input :
        * - offset : the offset into the data buffer to start the display's slice.
        ****************************************************************************/
        private void HandlePicoBlockData(int offset, Pico.ChannelSettings[] channelSettings, short handle, ref WaveFormData waveFormData, ref ProcessTimes processTimes, ref System.Windows.Forms.Timer WaveformTimer, int SampleCount, bool ChanelB)
        {
            Stopwatch sw          = new Stopwatch();
            int       sampleCount = SampleCount;//*2*2*2*2; // BUFFER_SIZE;
            short     timeUnit    = 0;
            short     status      = 0;

            UpdatePicoBufferSize(sampleCount);

            int[]             time        = new int[sampleCount];
            int[]             amp         = new int[sampleCount];
            PinnedArray <int> pinnedTimes = new PinnedArray <int>(time);

            PinnedArray <short>[] pinned = new PinnedArray <short> [channelCount];

            // Channel buffers
            for (int i = 0; i < channelCount; i++)
            {
                short[] buffer = new short[sampleCount];
                pinned[i] = new PinnedArray <short>(buffer);
            }

            /* Find the maximum number of samples, the time interval (in nanoseconds),
             * the most suitable time units (ReportedTimeUnits), and the maximum oversample at the current timebase*/
            int timeInterval = 0;

            do
            {
                status = Imports.GetTimebase(handle, timebase, sampleCount, out timeInterval, out timeUnit, oversample, out int maxSamples);

                if (status != 1)
                {
                    timebase++;
                }

                if (timebase > 250)
                {
                    break;
                }
            }while (status == 0);

            /* Start the device collecting, then wait for completion*/
            sw.Start();
            Imports.RunBlock(handle, sampleCount, timebase, oversample, out int timeIndisposed);

            int   timer = 1;
            bool  isMessageDisconnect = false;
            short ready = 0;

            while (ready == 0)
            {
                ready = Imports.Isready(handle);
                Thread.Sleep(1);
                timer++;
                if (timer > 500 & !isMessageDisconnect)
                {
                    isMessageDisconnect = true;
                    ready = -1;
                    //MessageBox.Show("Cannot connect to Picoscope: Check the USB Connection and Restart");
                    //MessageBox.Show("Test");
                }

                // break;
            }

            if (ready == -1)
            {
                WaveformTimer.Stop();
                MessageBox.Show("Cannot connect to Picoscope: Check the USB Connection and Restart");
            }



            sw.Stop();

            if (ready > 0)
            {
                if (ChanelB)
                {
                    Imports.GetTimesAndValues(handle, pinnedTimes, null, pinned[0], null, null, out short overflow, timeUnit, sampleCount);
                }
                else
                {
                    Imports.GetTimesAndValues(handle, pinnedTimes, pinned[0], null, null, null, out short overflow, timeUnit, sampleCount);
                }

                // handle channel 1
                for (int i = 0; i < sampleCount; i++)
                {
                    amp[i] = adc_to_mv(pinned[0].Target[i], (int)channelSettings[0].range);
                }
            }

            waveFormData.time         = time;
            waveFormData.amp          = amp;
            processTimes.samplingTime = sw.Elapsed;
            Imports.Stop(handle);
        }
Ejemplo n.º 6
0
        /****************************************************************************
        * GetPlottableData
        *  this function demonstrates how to collect a single block of data
        *  from the unit (start collecting immediately)
        ****************************************************************************/
        public PlottableData GetPlottableData(short handle, Pico.ChannelSettings[] channelSettings, FFTSettings fftSettings, double[] lastfft, ref ProcessTimes processTimes, ref System.Windows.Forms.Timer WaveFormTimer, int SampleCount, bool isChanelB)
        {
            Stopwatch sw = new Stopwatch();


            //sw.Start();
            WaveFormData waveFormData = new WaveFormData();

            // Method that communicates with Pico to get blocked data
            HandlePicoBlockData(0, channelSettings, handle, ref waveFormData, ref processTimes, ref WaveFormTimer, SampleCount, isChanelB);
            //sw.Stop();

            //return if it's chanel B
            if (isChanelB)
            {
                return new PlottableData {
                           fftData = new FFTData(), WaveFormData = waveFormData
                }
            }
            ;

            // calculate fft data if is not chanel B
            sw.Restart();
            PlottableData plottableData = new PlottableData {
                fftData = GetFFT(waveFormData.amp, waveFormData.time, fftSettings, lastfft, SampleCount), WaveFormData = waveFormData
            };

            sw.Stop();

            processTimes.fftTime = sw.Elapsed;

            return(plottableData);
        }