Nuclex.Support/Source/Scheduling/GenericTimeSource.cs
2009-06-24 20:24:21 +00:00

187 lines
7.7 KiB
C#

#region CPL License
/*
Nuclex Framework
Copyright (C) 2002-2009 Nuclex Development Labs
This library is free software; you can redistribute it and/or
modify it under the terms of the IBM Common Public License as
published by the IBM Corporation; either version 1.0 of the
License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
IBM Common Public License for more details.
You should have received a copy of the IBM Common Public
License along with this library
*/
#endregion
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Threading;
namespace Nuclex.Support.Scheduling {
/// <summary>
/// Generic time source implementation using the Stopwatch or Environment.TickCount
/// </summary>
public class GenericTimeSource : ITimeSource {
/// <summary>Number of ticks (100 ns intervals) in a millisecond</summary>
private const long TicksPerMillisecond = 10000;
/// <summary>Tolerance for the detection of a date/time adjustment</summary>
/// <remarks>
/// If the current system date/time jumps by more than this tolerance into any
/// direction, the default time source will trigger the DateTimeAdjusted event.
/// </remarks>
private const long TimeAdjustmentToleranceTicks = 75 * TicksPerMillisecond;
/// <summary>Called when the system date/time are adjusted</summary>
/// <remarks>
/// An adjustment is a change out of the ordinary, eg. when a time synchronization
/// alters the current system time, when daylight saving time takes effect or
/// when the user manually adjusts the system date/time.
/// </remarks>
public event EventHandler DateTimeAdjusted;
/// <summary>Initializes the static fields of the default time source</summary>
static GenericTimeSource() {
tickFrequency = 10000000.0;
tickFrequency /= (double)Stopwatch.Frequency;
}
/// <summary>Initializes the default time source</summary>
public GenericTimeSource() : this(Stopwatch.IsHighResolution) { }
/// <summary>Initializes the default time source</summary>
/// <param name="useStopwatch">
/// Whether to use the Stopwatch class for measuring time
/// </param>
/// <remarks>
/// <para>
/// Normally it's a good idea to use the default constructor. If the Stopwatch
/// is unable to use the high-resolution timer, it will fall back to
/// DateTime.Now (as stated on MSDN). This is bad because then the tick count
/// will jump whenever the system time changes (eg. when the system synchronizes
/// its time with a time server).
/// </para>
/// <para>
/// Your can safely use this constructor if you always set its arugment to 'false',
/// but then your won't profit from the high-resolution timer if one is available.
/// </para>
/// </remarks>
public GenericTimeSource(bool useStopwatch) {
this.useStopwatch = useStopwatch;
// Update the lastCheckedTime and lastCheckedTicks fields
checkForTimeAdjustment();
}
/// <summary>Waits for an AutoResetEvent to become signalled</summary>
/// <param name="waitHandle">WaitHandle the method will wait for</param>
/// <param name="ticks">Number of ticks to wait</param>
/// <returns>
/// True if the WaitHandle was signalled, false if the timeout was reached
/// </returns>
public virtual bool WaitOne(AutoResetEvent waitHandle, long ticks) {
// Force a timeout at least each second so the caller can check the system time
// since we're not able to provide the DateTimeAdjusted notification
int milliseconds = (int)(ticks / TicksPerMillisecond);
bool signalled = waitHandle.WaitOne(Math.Min(1000, milliseconds), false);
// See whether the system date/time have been adjusted while we were asleep.
checkForTimeAdjustment();
// Now tell the caller whether his event was signalled
return signalled;
}
/// <summary>Current system time in UTC format</summary>
public DateTime CurrentUtcTime {
get { return DateTime.UtcNow; }
}
/// <summary>How long the time source has been running</summary>
/// <remarks>
/// There is no guarantee this value starts at zero (or anywhere near it) when
/// the time source is created. The only requirement for this value is that it
/// keeps increasing with the passing of time and that it stays unaffected
/// (eg. doesn't skip or jump back) when the system date/time are changed.
/// </remarks>
public long Ticks {
get {
// The docs say if Stopwatch.IsHighResolution is false, it will return
// DateTime.Now (actually DateTime.UtcNow). This means that the Stopwatch is
// prone to skips and jumps during DST crossings and NTP synchronizations,
// so we cannot use it in that case.
if(this.useStopwatch) {
double timestamp = (double)Stopwatch.GetTimestamp();
return (long)(timestamp * tickFrequency);
}
// Fallback: Use Environment.TickCount instead. Not as accurate, but at least
// it will not jump around when the date or time are adjusted.
return Environment.TickCount * TicksPerMillisecond;
}
}
/// <summary>Called when the system time is changed</summary>
/// <param name="sender">Not used</param>
/// <param name="arguments">Not used</param>
protected virtual void OnDateTimeAdjusted(object sender, EventArgs arguments) {
EventHandler copy = DateTimeAdjusted;
if(copy != null) {
copy(sender, arguments);
}
}
/// <summary>
/// Checks whether the system/date time have been adjusted since the last call
/// </summary>
private void checkForTimeAdjustment() {
// Grab the current date/time and timer ticks in one go
long currentDateTimeTicks = DateTime.UtcNow.Ticks;
long currentStopwatchTicks = Ticks;
// Calculate the number of timer ticks that have passed since the last check and
// extrapolate the local date/time we should be expecting to see
long ticksSinceLastCheck = currentStopwatchTicks - lastCheckedStopwatchTicks;
long expectedLocalTimeTicks = this.lastCheckedDateTimeTicks + ticksSinceLastCheck;
// Find out by what amount the actual local date/time deviates from
// the extrapolated date/time and trigger the date/time adjustment event if
// we can reasonably assume that the system date/time have been adjusted.
long deviationTicks = Math.Abs(expectedLocalTimeTicks - currentDateTimeTicks);
if(deviationTicks > TimeAdjustmentToleranceTicks) {
OnDateTimeAdjusted(this, EventArgs.Empty);
}
// Remember the current local date/time and timer ticks for the next run
this.lastCheckedDateTimeTicks = currentDateTimeTicks;
this.lastCheckedStopwatchTicks = currentStopwatchTicks;
}
/// <summary>Last local time we checked for a date/time adjustment</summary>
private long lastCheckedDateTimeTicks;
/// <summary>Timer ticks at which we last checked the local time</summary>
private long lastCheckedStopwatchTicks;
/// <summary>Number of ticks per Stopwatch time unit</summary>
private static double tickFrequency;
/// <summary>Whether ot use the Stopwatch class for measuring time</summary>
private bool useStopwatch;
}
} // namespace Nuclex.Support.Scheduling