//------------------------------------------------------------------------------ // // Copyright (c) Microsoft Corporation. All rights reserved. // // // Class used to manage timeouts in complex system operations. // // [....] // [....] //------------------------------------------------------------------------------ namespace System.Data.ProviderBase { using System; using System.Data.Common; using System.Diagnostics; // Purpose: // Manages determining and tracking timeouts // // Intended use: // Call StartXXXXTimeout() to get a timer with the given expiration point // Get remaining time in appropriate format to pass to subsystem timeouts // Check for timeout via IsExpired for checks in managed code. // Simply abandon to GC when done. internal class TimeoutTimer { //------------------- // Fields //------------------- private long _timerExpire; private bool _isInfiniteTimeout; //------------------- // Timeout-setting methods //------------------- // Get a new timer that will expire in the given number of seconds // For input, a value of zero seconds indicates infinite timeout internal static TimeoutTimer StartSecondsTimeout(int seconds) { //-------------------- // Preconditions: None (seconds must conform to SetTimeoutSeconds requirements) //-------------------- // Method body var timeout = new TimeoutTimer(); timeout.SetTimeoutSeconds(seconds); //--------------------- // Postconditions Debug.Assert(timeout != null); // Need a valid timeouttimer if no error return timeout; } // Get a new timer that will expire in the given number of milliseconds // No current need to support infinite milliseconds timeout internal static TimeoutTimer StartMillisecondsTimeout(long milliseconds) { //-------------------- // Preconditions Debug.Assert(0 <= milliseconds); //-------------------- // Method body var timeout = new TimeoutTimer(); timeout._timerExpire = checked(ADP.TimerCurrent() + (milliseconds * TimeSpan.TicksPerMillisecond)); timeout._isInfiniteTimeout = false; //--------------------- // Postconditions Debug.Assert(timeout != null); // Need a valid timeouttimer if no error return timeout; } //------------------- // Methods for changing timeout //------------------- internal void SetTimeoutSeconds(int seconds) { //-------------------- // Preconditions Debug.Assert(0 <= seconds || InfiniteTimeout == seconds); // no need to support negative seconds at present //-------------------- // Method body if (InfiniteTimeout == seconds) { _isInfiniteTimeout = true; } else { // Stash current time + timeout _timerExpire = checked(ADP.TimerCurrent() + ADP.TimerFromSeconds(seconds)); _isInfiniteTimeout = false; } //--------------------- // Postconditions:None } //------------------- // Timeout info properties //------------------- // Indicator for infinite timeout when starting a timer internal static readonly long InfiniteTimeout = 0; // Is this timer in an expired state? internal bool IsExpired { get { return !IsInfinite && ADP.TimerHasExpired(_timerExpire); } } // is this an infinite-timeout timer? internal bool IsInfinite { get { return _isInfiniteTimeout; } } // Special accessor for TimerExpire for use when thunking to legacy timeout methods. internal long LegacyTimerExpire { get { return (_isInfiniteTimeout) ? Int64.MaxValue : _timerExpire; } } // Returns milliseconds remaining trimmed to zero for none remaining // and long.MaxValue for infinite // This method should be prefered for internal calculations that are not // yet common enough to code into the TimeoutTimer class itself. internal long MillisecondsRemaining { get { //------------------- // Preconditions: None //------------------- // Method Body long milliseconds; if (_isInfiniteTimeout) { milliseconds = long.MaxValue; } else { milliseconds = ADP.TimerRemainingMilliseconds(_timerExpire); if (0 > milliseconds) { milliseconds = 0; } } //-------------------- // Postconditions Debug.Assert(0<=milliseconds); // This property guarantees no negative return values return milliseconds; } } } }