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/*
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Version: MPL 1.1/GPL 2.0/LGPL 2.1
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The contents of this file are subject to the Mozilla Public License Version
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1.1 (the "License"); you may not use this file except in compliance with
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the License. You may obtain a copy of the License at
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http://www.mozilla.org/MPL/
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Software distributed under the License is distributed on an "AS IS" basis,
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WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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for the specific language governing rights and limitations under the License.
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The Original Code is the Open Hardware Monitor code.
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The Initial Developer of the Original Code is
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Michael Möller <m.moeller@gmx.ch>.
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Portions created by the Initial Developer are Copyright (C) 2009-2011
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the Initial Developer. All Rights Reserved.
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Contributor(s):
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Alternatively, the contents of this file may be used under the terms of
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either the GNU General Public License Version 2 or later (the "GPL"), or
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the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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in which case the provisions of the GPL or the LGPL are applicable instead
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of those above. If you wish to allow use of your version of this file only
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under the terms of either the GPL or the LGPL, and not to allow others to
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use your version of this file under the terms of the MPL, indicate your
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decision by deleting the provisions above and replace them with the notice
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and other provisions required by the GPL or the LGPL. If you do not delete
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the provisions above, a recipient may use your version of this file under
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the terms of any one of the MPL, the GPL or the LGPL.
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*/
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using System;
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using System.Collections.Generic;
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using System.Diagnostics;
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using System.Globalization;
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using System.IO;
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using System.Runtime.InteropServices;
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using System.Text;
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using System.Threading;
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namespace OpenHardwareMonitor.Hardware.CPU {
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internal sealed class AMD10CPU : AMDCPU {
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private readonly Sensor coreTemperature;
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private readonly Sensor[] coreClocks;
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private readonly Sensor busClock;
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private const uint PERF_CTL_0 = 0xC0010000;
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private const uint PERF_CTR_0 = 0xC0010004;
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private const uint HWCR = 0xC0010015;
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private const uint P_STATE_0 = 0xC0010064;
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private const uint COFVID_STATUS = 0xC0010071;
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private const byte MISCELLANEOUS_CONTROL_FUNCTION = 3;
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private const ushort FAMILY_10H_MISCELLANEOUS_CONTROL_DEVICE_ID = 0x1203;
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private const ushort FAMILY_11H_MISCELLANEOUS_CONTROL_DEVICE_ID = 0x1303;
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private const ushort FAMILY_12H_MISCELLANEOUS_CONTROL_DEVICE_ID = 0x1703;
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private const ushort FAMILY_14H_MISCELLANEOUS_CONTROL_DEVICE_ID = 0x1703;
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private const ushort FAMILY_15H_MISCELLANEOUS_CONTROL_DEVICE_ID = 0x1603;
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private const uint REPORTED_TEMPERATURE_CONTROL_REGISTER = 0xA4;
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private const uint CLOCK_POWER_TIMING_CONTROL_0_REGISTER = 0xD4;
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private readonly uint miscellaneousControlAddress;
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private readonly ushort miscellaneousControlDeviceId;
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private readonly FileStream temperatureStream;
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private readonly double timeStampCounterMultiplier;
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private readonly bool corePerformanceBoostSupport;
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public AMD10CPU(int processorIndex, CPUID[][] cpuid, ISettings settings)
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: base(processorIndex, cpuid, settings)
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{
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// AMD family 1Xh processors support only one temperature sensor
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coreTemperature = new Sensor(
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"Core" + (coreCount > 1 ? " #1 - #" + coreCount : ""), 0,
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SensorType.Temperature, this, new [] {
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new ParameterDescription("Offset [°C]", "Temperature offset.", 0)
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}, settings);
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switch (family) {
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case 0x10: miscellaneousControlDeviceId =
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FAMILY_10H_MISCELLANEOUS_CONTROL_DEVICE_ID; break;
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case 0x11: miscellaneousControlDeviceId =
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FAMILY_11H_MISCELLANEOUS_CONTROL_DEVICE_ID; break;
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case 0x12: miscellaneousControlDeviceId =
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FAMILY_12H_MISCELLANEOUS_CONTROL_DEVICE_ID; break;
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case 0x14: miscellaneousControlDeviceId =
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FAMILY_14H_MISCELLANEOUS_CONTROL_DEVICE_ID; break;
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case 0x15: miscellaneousControlDeviceId =
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FAMILY_15H_MISCELLANEOUS_CONTROL_DEVICE_ID; break;
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default: miscellaneousControlDeviceId = 0; break;
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}
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// get the pci address for the Miscellaneous Control registers
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miscellaneousControlAddress = GetPciAddress(
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MISCELLANEOUS_CONTROL_FUNCTION, miscellaneousControlDeviceId);
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busClock = new Sensor("Bus Speed", 0, SensorType.Clock, this, settings);
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coreClocks = new Sensor[coreCount];
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for (int i = 0; i < coreClocks.Length; i++) {
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coreClocks[i] = new Sensor(CoreString(i), i + 1, SensorType.Clock,
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this, settings);
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if (HasTimeStampCounter)
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ActivateSensor(coreClocks[i]);
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}
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corePerformanceBoostSupport = (cpuid[0][0].ExtData[7, 3] & (1 << 9)) > 0;
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// set affinity to the first thread for all frequency estimations
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ulong mask = ThreadAffinity.Set(1UL << cpuid[0][0].Thread);
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// disable core performance boost
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uint hwcrEax, hwcrEdx;
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Ring0.Rdmsr(HWCR, out hwcrEax, out hwcrEdx);
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if (corePerformanceBoostSupport)
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Ring0.Wrmsr(HWCR, hwcrEax | (1 << 25), hwcrEdx);
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uint ctlEax, ctlEdx;
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Ring0.Rdmsr(PERF_CTL_0, out ctlEax, out ctlEdx);
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uint ctrEax, ctrEdx;
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Ring0.Rdmsr(PERF_CTR_0, out ctrEax, out ctrEdx);
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timeStampCounterMultiplier = estimateTimeStampCounterMultiplier();
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// restore the performance counter registers
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Ring0.Wrmsr(PERF_CTL_0, ctlEax, ctlEdx);
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Ring0.Wrmsr(PERF_CTR_0, ctrEax, ctrEdx);
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// restore core performance boost
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if (corePerformanceBoostSupport)
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Ring0.Wrmsr(HWCR, hwcrEax, hwcrEdx);
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// restore the thread affinity.
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ThreadAffinity.Set(mask);
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// the file reader for lm-sensors support on Linux
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temperatureStream = null;
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int p = (int)Environment.OSVersion.Platform;
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if ((p == 4) || (p == 128)) {
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string[] devicePaths = Directory.GetDirectories("/sys/class/hwmon/");
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foreach (string path in devicePaths) {
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string name = null;
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try {
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using (StreamReader reader = new StreamReader(path + "/device/name"))
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name = reader.ReadLine();
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} catch (IOException) { }
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switch (name) {
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case "k10temp":
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temperatureStream = new FileStream(path + "/device/temp1_input",
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FileMode.Open, FileAccess.Read, FileShare.ReadWrite);
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break;
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}
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}
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}
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Update();
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}
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private double estimateTimeStampCounterMultiplier() {
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// preload the function
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estimateTimeStampCounterMultiplier(0);
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estimateTimeStampCounterMultiplier(0);
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// estimate the multiplier
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List<double> estimate = new List<double>(3);
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for (int i = 0; i < 3; i++)
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estimate.Add(estimateTimeStampCounterMultiplier(0.025));
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estimate.Sort();
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return estimate[1];
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}
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private double estimateTimeStampCounterMultiplier(double timeWindow) {
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uint eax, edx;
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// select event "076h CPU Clocks not Halted" and enable the counter
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Ring0.Wrmsr(PERF_CTL_0,
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(1 << 22) | // enable performance counter
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(1 << 17) | // count events in user mode
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(1 << 16) | // count events in operating-system mode
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0x76, 0x00000000);
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// set the counter to 0
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Ring0.Wrmsr(PERF_CTR_0, 0, 0);
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long ticks = (long)(timeWindow * Stopwatch.Frequency);
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uint lsbBegin, msbBegin, lsbEnd, msbEnd;
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long timeBegin = Stopwatch.GetTimestamp() +
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(long)Math.Ceiling(0.001 * ticks);
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long timeEnd = timeBegin + ticks;
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while (Stopwatch.GetTimestamp() < timeBegin) { }
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moel@236
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Ring0.Rdmsr(PERF_CTR_0, out lsbBegin, out msbBegin);
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moel@201
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while (Stopwatch.GetTimestamp() < timeEnd) { }
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moel@236
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Ring0.Rdmsr(PERF_CTR_0, out lsbEnd, out msbEnd);
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moel@279
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Ring0.Rdmsr(COFVID_STATUS, out eax, out edx);
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double coreMultiplier = GetCoreMultiplier(eax);
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moel@201
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moel@201
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ulong countBegin = ((ulong)msbBegin << 32) | lsbBegin;
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moel@201
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ulong countEnd = ((ulong)msbEnd << 32) | lsbEnd;
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moel@201
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moel@201
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double coreFrequency = 1e-6 *
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moel@201
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(((double)(countEnd - countBegin)) * Stopwatch.Frequency) /
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moel@201
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(timeEnd - timeBegin);
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moel@201
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moel@201
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double busFrequency = coreFrequency / coreMultiplier;
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moel@279
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return 0.25 * Math.Round(4 * TimeStampCounterFrequency / busFrequency);
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moel@201
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}
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moel@201
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218 |
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moel@191
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protected override uint[] GetMSRs() {
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moel@279
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return new uint[] { PERF_CTL_0, PERF_CTR_0, HWCR, P_STATE_0,
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moel@279
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COFVID_STATUS };
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moel@1
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}
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moel@1
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moel@196
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public override string GetReport() {
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moel@196
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StringBuilder r = new StringBuilder();
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moel@196
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r.Append(base.GetReport());
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moel@196
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227 |
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moel@197
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r.Append("Miscellaneous Control Address: 0x");
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moel@196
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r.AppendLine((miscellaneousControlAddress).ToString("X",
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moel@196
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230 |
CultureInfo.InvariantCulture));
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moel@201
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r.Append("Time Stamp Counter Multiplier: ");
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moel@201
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232 |
r.AppendLine(timeStampCounterMultiplier.ToString(
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moel@201
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233 |
CultureInfo.InvariantCulture));
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moel@273
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234 |
if (family == 0x14) {
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moel@273
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235 |
uint value = 0;
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moel@273
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236 |
Ring0.ReadPciConfig(miscellaneousControlAddress,
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moel@273
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CLOCK_POWER_TIMING_CONTROL_0_REGISTER, out value);
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moel@273
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238 |
r.Append("PCI Register D18F3xD4: ");
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moel@273
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239 |
r.AppendLine(value.ToString("X8", CultureInfo.InvariantCulture));
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moel@273
|
240 |
}
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moel@201
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241 |
r.AppendLine();
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moel@201
|
242 |
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moel@196
|
243 |
return r.ToString();
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moel@196
|
244 |
}
|
moel@196
|
245 |
|
moel@301
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246 |
private double GetCoreMultiplier(uint cofvidEax) {
|
moel@301
|
247 |
switch (family) {
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moel@301
|
248 |
case 0x10:
|
moel@301
|
249 |
case 0x11:
|
moel@301
|
250 |
// 8:6 CpuDid: current core divisor ID
|
moel@301
|
251 |
// 5:0 CpuFid: current core frequency ID
|
moel@301
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252 |
uint cpuDid = (cofvidEax >> 6) & 7;
|
moel@301
|
253 |
uint cpuFid = cofvidEax & 0x1F;
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moel@301
|
254 |
return 0.5 * (cpuFid + 0x10) / (1 << (int)cpuDid);
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moel@301
|
255 |
case 0x12:
|
moel@301
|
256 |
// 8:4 CpuFid: current CPU core frequency ID
|
moel@301
|
257 |
// 3:0 CpuDid: current CPU core divisor ID
|
moel@301
|
258 |
uint CpuFid = (cofvidEax >> 4) & 0x1F;
|
moel@301
|
259 |
uint CpuDid = cofvidEax & 0xF;
|
moel@301
|
260 |
double divisor;
|
moel@301
|
261 |
switch (CpuDid) {
|
moel@301
|
262 |
case 0: divisor = 1; break;
|
moel@301
|
263 |
case 1: divisor = 1.5; break;
|
moel@301
|
264 |
case 2: divisor = 2; break;
|
moel@301
|
265 |
case 3: divisor = 3; break;
|
moel@301
|
266 |
case 4: divisor = 4; break;
|
moel@301
|
267 |
case 5: divisor = 6; break;
|
moel@301
|
268 |
case 6: divisor = 8; break;
|
moel@301
|
269 |
case 7: divisor = 12; break;
|
moel@301
|
270 |
case 8: divisor = 16; break;
|
moel@301
|
271 |
default: divisor = 1; break;
|
moel@301
|
272 |
}
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moel@301
|
273 |
return (CpuFid + 0x10) / divisor;
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moel@301
|
274 |
case 0x14:
|
moel@301
|
275 |
// 8:4: current CPU core divisor ID most significant digit
|
moel@301
|
276 |
// 3:0: current CPU core divisor ID least significant digit
|
moel@301
|
277 |
uint divisorIdMSD = (cofvidEax >> 4) & 0x1F;
|
moel@301
|
278 |
uint divisorIdLSD = cofvidEax & 0xF;
|
moel@301
|
279 |
uint value = 0;
|
moel@301
|
280 |
Ring0.ReadPciConfig(miscellaneousControlAddress,
|
moel@301
|
281 |
CLOCK_POWER_TIMING_CONTROL_0_REGISTER, out value);
|
moel@301
|
282 |
uint frequencyId = value & 0x1F;
|
moel@301
|
283 |
return (frequencyId + 0x10) /
|
moel@301
|
284 |
(divisorIdMSD + (divisorIdLSD * 0.25) + 1);
|
moel@301
|
285 |
default:
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moel@301
|
286 |
return 1;
|
moel@301
|
287 |
}
|
moel@273
|
288 |
}
|
moel@273
|
289 |
|
moel@268
|
290 |
private string ReadFirstLine(Stream stream) {
|
moel@268
|
291 |
StringBuilder sb = new StringBuilder();
|
moel@268
|
292 |
try {
|
moel@268
|
293 |
stream.Seek(0, SeekOrigin.Begin);
|
moel@268
|
294 |
int b = stream.ReadByte();
|
moel@268
|
295 |
while (b != -1 && b != 10) {
|
moel@268
|
296 |
sb.Append((char)b);
|
moel@268
|
297 |
b = stream.ReadByte();
|
moel@268
|
298 |
}
|
moel@268
|
299 |
} catch { }
|
moel@268
|
300 |
return sb.ToString();
|
moel@268
|
301 |
}
|
moel@268
|
302 |
|
moel@110
|
303 |
public override void Update() {
|
moel@191
|
304 |
base.Update();
|
moel@191
|
305 |
|
moel@268
|
306 |
if (temperatureStream == null) {
|
moel@266
|
307 |
if (miscellaneousControlAddress != Ring0.InvalidPciAddress) {
|
moel@266
|
308 |
uint value;
|
moel@266
|
309 |
if (Ring0.ReadPciConfig(miscellaneousControlAddress,
|
moel@266
|
310 |
REPORTED_TEMPERATURE_CONTROL_REGISTER, out value)) {
|
moel@266
|
311 |
coreTemperature.Value = ((value >> 21) & 0x7FF) / 8.0f +
|
moel@266
|
312 |
coreTemperature.Parameters[0].Value;
|
moel@266
|
313 |
ActivateSensor(coreTemperature);
|
moel@266
|
314 |
} else {
|
moel@266
|
315 |
DeactivateSensor(coreTemperature);
|
moel@266
|
316 |
}
|
moel@266
|
317 |
}
|
moel@266
|
318 |
} else {
|
moel@268
|
319 |
string s = ReadFirstLine(temperatureStream);
|
moel@266
|
320 |
try {
|
moel@266
|
321 |
coreTemperature.Value = 0.001f *
|
moel@266
|
322 |
long.Parse(s, CultureInfo.InvariantCulture);
|
moel@42
|
323 |
ActivateSensor(coreTemperature);
|
moel@266
|
324 |
} catch {
|
moel@42
|
325 |
DeactivateSensor(coreTemperature);
|
moel@266
|
326 |
}
|
moel@24
|
327 |
}
|
moel@197
|
328 |
|
moel@201
|
329 |
if (HasTimeStampCounter) {
|
moel@197
|
330 |
double newBusClock = 0;
|
moel@197
|
331 |
|
moel@197
|
332 |
for (int i = 0; i < coreClocks.Length; i++) {
|
moel@197
|
333 |
Thread.Sleep(1);
|
moel@197
|
334 |
|
moel@197
|
335 |
uint curEax, curEdx;
|
moel@236
|
336 |
if (Ring0.RdmsrTx(COFVID_STATUS, out curEax, out curEdx,
|
moel@238
|
337 |
1UL << cpuid[i][0].Thread))
|
moel@197
|
338 |
{
|
moel@273
|
339 |
double multiplier;
|
moel@301
|
340 |
multiplier = GetCoreMultiplier(curEax);
|
moel@197
|
341 |
|
moel@201
|
342 |
coreClocks[i].Value =
|
moel@201
|
343 |
(float)(multiplier * TimeStampCounterFrequency /
|
moel@201
|
344 |
timeStampCounterMultiplier);
|
moel@201
|
345 |
newBusClock =
|
moel@201
|
346 |
(float)(TimeStampCounterFrequency / timeStampCounterMultiplier);
|
moel@197
|
347 |
} else {
|
moel@201
|
348 |
coreClocks[i].Value = (float)TimeStampCounterFrequency;
|
moel@197
|
349 |
}
|
moel@197
|
350 |
}
|
moel@197
|
351 |
|
moel@197
|
352 |
if (newBusClock > 0) {
|
moel@197
|
353 |
this.busClock.Value = (float)newBusClock;
|
moel@197
|
354 |
ActivateSensor(this.busClock);
|
moel@197
|
355 |
}
|
moel@197
|
356 |
}
|
moel@201
|
357 |
}
|
moel@266
|
358 |
|
moel@298
|
359 |
public override void Close() {
|
moel@268
|
360 |
if (temperatureStream != null) {
|
moel@268
|
361 |
temperatureStream.Close();
|
moel@266
|
362 |
}
|
moel@298
|
363 |
base.Close();
|
moel@266
|
364 |
}
|
moel@1
|
365 |
}
|
moel@1
|
366 |
}
|