Code:
/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / clr / src / BCL / System / GC.cs / 1 / GC.cs
// ==++==
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// ==--==
/*============================================================
**
** Class: GC
**
**
** Purpose: Exposes features of the Garbage Collector through
** the class libraries. This is a class which cannot be
** instantiated.
**
**
===========================================================*/
namespace System {
//This class only static members and doesn't require the serializable keyword.
using System;
using System.Security.Permissions;
using System.Reflection;
using System.Security;
using System.Threading;
using System.Runtime.CompilerServices;
using System.Runtime.ConstrainedExecution;
using System.Reflection.Cache;
using System.Globalization;
// !!!!!!!!!!!!!!!!!!!!!!!
// make sure you change the def in vm\gc.h
// if you change this!
[Serializable]
public enum GCCollectionMode
{
Default = 0,
Forced = 1,
Optimized = 2
}
// !!!!!!!!!!!!!!!!!!!!!!!
// make sure you change the def in vm\gc.h
// if you change this!
[Serializable]
public enum GCNotificationStatus
{
Succeeded = 0,
Failed = 1,
Canceled = 2,
Timeout = 3,
NotApplicable = 4
}
public static class GC
{
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern int nativeGetGCLatencyMode();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern void nativeSetGCLatencyMode(int newLatencyMode);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int GetGenerationWR(IntPtr handle);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern long nativeGetTotalMemory();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern void nativeCollectGeneration(int generation, int mode);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int nativeGetMaxGeneration();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
private static extern int nativeCollectionCount (int generation);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern bool nativeIsServerGC();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern void nativeAddMemoryPressure(UInt64 bytesAllocated);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern void nativeRemoveMemoryPressure(UInt64 bytesAllocated);
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode=true)]
public static void AddMemoryPressure (long bytesAllocated) {
if( bytesAllocated <= 0) {
throw new ArgumentOutOfRangeException("bytesAllocated",
Environment.GetResourceString("ArgumentOutOfRange_NeedPosNum"));
}
if( (4 == IntPtr.Size) && (bytesAllocated > Int32.MaxValue) ) {
throw new ArgumentOutOfRangeException("pressure",
Environment.GetResourceString("ArgumentOutOfRange_MustBeNonNegInt32"));
}
nativeAddMemoryPressure((ulong)bytesAllocated);
}
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode=true)]
public static void RemoveMemoryPressure (long bytesAllocated) {
if( bytesAllocated <= 0) {
throw new ArgumentOutOfRangeException("bytesAllocated",
Environment.GetResourceString("ArgumentOutOfRange_NeedPosNum"));
}
if( (4 == IntPtr.Size) && (bytesAllocated > Int32.MaxValue) ) {
throw new ArgumentOutOfRangeException("bytesAllocated",
Environment.GetResourceString("ArgumentOutOfRange_MustBeNonNegInt32"));
}
nativeRemoveMemoryPressure((ulong) bytesAllocated);
}
// Returns the generation that obj is currently in.
//
[MethodImplAttribute(MethodImplOptions.InternalCall)]
public static extern int GetGeneration(Object obj);
// Forces a collection of all generations from 0 through Generation.
//
public static void Collect(int generation) {
Collect(generation, GCCollectionMode.Default);
}
// Garbage Collect all generations.
//
public static void Collect() {
//-1 says to GC all generations.
nativeCollectGeneration(-1, (int)GCCollectionMode.Default);
}
public static void Collect(int generation, GCCollectionMode mode)
{
if (generation<0)
{
throw new ArgumentOutOfRangeException("generation", Environment.GetResourceString("ArgumentOutOfRange_GenericPositive"));
}
if ((mode < GCCollectionMode.Default) || (mode > GCCollectionMode.Optimized))
{
throw new ArgumentOutOfRangeException(Environment.GetResourceString("ArgumentOutOfRange_Enum"));
}
nativeCollectGeneration(generation, (int)mode);
}
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
public static int CollectionCount (int generation) {
if (generation<0) {
throw new ArgumentOutOfRangeException("generation", Environment.GetResourceString("ArgumentOutOfRange_GenericPositive"));
}
return nativeCollectionCount(generation);
}
// This method DOES NOT DO ANYTHING in and of itself. It's used to
// prevent a finalizable object from losing any outstanding references
// a touch too early. The JIT is very aggressive about keeping an
// object's lifetime to as small a window as possible, to the point
// where a 'this' pointer isn't considered live in an instance method
// unless you read a value from the instance. So for finalizable
// objects that store a handle or pointer and provide a finalizer that
// cleans them up, this can cause subtle ----s with the finalizer
// thread. This isn't just about handles - it can happen with just
// about any finalizable resource.
//
// Users should insert a call to this method near the end of a
// method where they must keep an object alive for the duration of that
// method, up until this method is called. Here is an example:
//
// "...all you really need is one object with a Finalize method, and a
// second object with a Close/Dispose/Done method. Such as the following
// contrived example:
//
// class Foo {
// Stream stream = ...;
// protected void Finalize() { stream.Close(); }
// void Problem() { stream.MethodThatSpansGCs(); }
// static void Main() { new Foo().Problem(); }
// }
//
//
// In this code, Foo will be finalized in the middle of
// stream.MethodThatSpansGCs, thus closing a stream still in use."
//
// If we insert a call to GC.KeepAlive(this) at the end of Problem(), then
// Foo doesn't get finalized and the stream says open.
[MethodImplAttribute(MethodImplOptions.InternalCall)]
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
public static extern void KeepAlive(Object obj);
// Returns the generation in which wo currently resides.
//
public static int GetGeneration(WeakReference wo) {
int result = GetGenerationWR(wo.m_handle);
KeepAlive(wo);
return result;
}
// Returns the maximum GC generation. Currently assumes only 1 heap.
//
public static int MaxGeneration {
get { return nativeGetMaxGeneration(); }
}
[MethodImplAttribute(MethodImplOptions.InternalCall)]
public static extern void WaitForPendingFinalizers();
// Indicates that the system should not call the Finalize() method on
// an object that would normally require this call.
// Has the DynamicSecurityMethodAttribute custom attribute to prevent
// inlining of the caller.
[MethodImplAttribute(MethodImplOptions.InternalCall)]
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
internal static extern void nativeSuppressFinalize(Object o);
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
public static void SuppressFinalize(Object obj) {
if (obj == null)
throw new ArgumentNullException("obj");
nativeSuppressFinalize(obj);
}
// Indicates that the system should call the Finalize() method on an object
// for which SuppressFinalize has already been called. The other situation
// where calling ReRegisterForFinalize is useful is inside a finalizer that
// needs to resurrect itself or an object that it references.
// Has the DynamicSecurityMethodAttribute custom attribute to prevent
// inlining of the caller.
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern void nativeReRegisterForFinalize(Object o);
public static void ReRegisterForFinalize(Object obj) {
if (obj == null)
throw new ArgumentNullException("obj");
nativeReRegisterForFinalize(obj);
}
// Returns the total number of bytes currently in use by live objects in
// the GC heap. This does not return the total size of the GC heap, but
// only the live objects in the GC heap.
//
public static long GetTotalMemory(bool forceFullCollection) {
long size = nativeGetTotalMemory();
if (!forceFullCollection)
return size;
// If we force a full collection, we will run the finalizers on all
// existing objects and do a collection until the value stabilizes.
// The value is "stable" when either the value is within 5% of the
// previous call to nativeGetTotalMemory, or if we have been sitting
// here for more than x times (we don't want to loop forever here).
int reps = 20; // Number of iterations
long newSize = size;
float diff;
do {
GC.WaitForPendingFinalizers();
GC.Collect();
size = newSize;
newSize = nativeGetTotalMemory();
diff = ((float)(newSize - size)) / size;
} while (reps-- > 0 && !(-.05 < diff && diff < .05));
return newSize;
}
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern bool nativeRegisterForFullGCNotification(int maxGenerationPercentage, int largeObjectHeapPercentage);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern bool nativeCancelFullGCNotification();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int nativeWaitForFullGCApproach(int millisecondsTimeout);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int nativeWaitForFullGCComplete(int millisecondsTimeout);
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static void RegisterForFullGCNotification(int maxGenerationThreshold, int largeObjectHeapThreshold)
{
if ((maxGenerationThreshold <= 0) || (maxGenerationThreshold >= 100))
{
throw new ArgumentOutOfRangeException("maxGenerationThreshold",
String.Format(
CultureInfo.CurrentCulture,
Environment.GetResourceString("ArgumentOutOfRange_Bounds_Lower_Upper"),
1,
99));
}
if ((largeObjectHeapThreshold <= 0) || (largeObjectHeapThreshold >= 100))
{
throw new ArgumentOutOfRangeException("largeObjectHeapThreshold",
String.Format(
CultureInfo.CurrentCulture,
Environment.GetResourceString("ArgumentOutOfRange_Bounds_Lower_Upper"),
1,
99));
}
if (!nativeRegisterForFullGCNotification(maxGenerationThreshold, largeObjectHeapThreshold))
{
throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_NotWithConcurrentGC"));
}
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static void CancelFullGCNotification()
{
if (!nativeCancelFullGCNotification())
{
throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_NotWithConcurrentGC"));
}
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCApproach()
{
return (GCNotificationStatus)nativeWaitForFullGCApproach(-1);
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCApproach(int millisecondsTimeout)
{
if (millisecondsTimeout < -1)
throw new ArgumentOutOfRangeException("millisecondsTimeout", Environment.GetResourceString("ArgumentOutOfRange_NeedNonNegOrNegative1"));
return (GCNotificationStatus)nativeWaitForFullGCApproach(millisecondsTimeout);
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCComplete()
{
return (GCNotificationStatus)nativeWaitForFullGCComplete(-1);
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCComplete(int millisecondsTimeout)
{
if (millisecondsTimeout < -1)
throw new ArgumentOutOfRangeException("millisecondsTimeout", Environment.GetResourceString("ArgumentOutOfRange_NeedNonNegOrNegative1"));
return (GCNotificationStatus)nativeWaitForFullGCComplete(millisecondsTimeout);
}
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern void SetCleanupCache();
private static ClearCacheHandler m_cacheHandler;
private static readonly Object locker = new Object();
internal static event ClearCacheHandler ClearCache {
add {
lock (locker) {
m_cacheHandler+=value;
SetCleanupCache();
}
}
remove {
lock (locker)
m_cacheHandler-=value;
}
}
//This method is called from native code. If you update the signature, please also update
//mscorlib.h and COMUtilNative.cpp
internal static void FireCacheEvent() {
BCLDebug.Trace("CACHE", "Called FileCacheEvent");
ClearCacheHandler handler = Interlocked.Exchange(ref m_cacheHandler, null);
if (handler!=null) {
handler(null, null);
}
}
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// ==++==
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// ==--==
/*============================================================
**
** Class: GC
**
**
** Purpose: Exposes features of the Garbage Collector through
** the class libraries. This is a class which cannot be
** instantiated.
**
**
===========================================================*/
namespace System {
//This class only static members and doesn't require the serializable keyword.
using System;
using System.Security.Permissions;
using System.Reflection;
using System.Security;
using System.Threading;
using System.Runtime.CompilerServices;
using System.Runtime.ConstrainedExecution;
using System.Reflection.Cache;
using System.Globalization;
// !!!!!!!!!!!!!!!!!!!!!!!
// make sure you change the def in vm\gc.h
// if you change this!
[Serializable]
public enum GCCollectionMode
{
Default = 0,
Forced = 1,
Optimized = 2
}
// !!!!!!!!!!!!!!!!!!!!!!!
// make sure you change the def in vm\gc.h
// if you change this!
[Serializable]
public enum GCNotificationStatus
{
Succeeded = 0,
Failed = 1,
Canceled = 2,
Timeout = 3,
NotApplicable = 4
}
public static class GC
{
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern int nativeGetGCLatencyMode();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern void nativeSetGCLatencyMode(int newLatencyMode);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int GetGenerationWR(IntPtr handle);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern long nativeGetTotalMemory();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern void nativeCollectGeneration(int generation, int mode);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int nativeGetMaxGeneration();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
private static extern int nativeCollectionCount (int generation);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern bool nativeIsServerGC();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern void nativeAddMemoryPressure(UInt64 bytesAllocated);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
internal static extern void nativeRemoveMemoryPressure(UInt64 bytesAllocated);
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode=true)]
public static void AddMemoryPressure (long bytesAllocated) {
if( bytesAllocated <= 0) {
throw new ArgumentOutOfRangeException("bytesAllocated",
Environment.GetResourceString("ArgumentOutOfRange_NeedPosNum"));
}
if( (4 == IntPtr.Size) && (bytesAllocated > Int32.MaxValue) ) {
throw new ArgumentOutOfRangeException("pressure",
Environment.GetResourceString("ArgumentOutOfRange_MustBeNonNegInt32"));
}
nativeAddMemoryPressure((ulong)bytesAllocated);
}
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode=true)]
public static void RemoveMemoryPressure (long bytesAllocated) {
if( bytesAllocated <= 0) {
throw new ArgumentOutOfRangeException("bytesAllocated",
Environment.GetResourceString("ArgumentOutOfRange_NeedPosNum"));
}
if( (4 == IntPtr.Size) && (bytesAllocated > Int32.MaxValue) ) {
throw new ArgumentOutOfRangeException("bytesAllocated",
Environment.GetResourceString("ArgumentOutOfRange_MustBeNonNegInt32"));
}
nativeRemoveMemoryPressure((ulong) bytesAllocated);
}
// Returns the generation that obj is currently in.
//
[MethodImplAttribute(MethodImplOptions.InternalCall)]
public static extern int GetGeneration(Object obj);
// Forces a collection of all generations from 0 through Generation.
//
public static void Collect(int generation) {
Collect(generation, GCCollectionMode.Default);
}
// Garbage Collect all generations.
//
public static void Collect() {
//-1 says to GC all generations.
nativeCollectGeneration(-1, (int)GCCollectionMode.Default);
}
public static void Collect(int generation, GCCollectionMode mode)
{
if (generation<0)
{
throw new ArgumentOutOfRangeException("generation", Environment.GetResourceString("ArgumentOutOfRange_GenericPositive"));
}
if ((mode < GCCollectionMode.Default) || (mode > GCCollectionMode.Optimized))
{
throw new ArgumentOutOfRangeException(Environment.GetResourceString("ArgumentOutOfRange_Enum"));
}
nativeCollectGeneration(generation, (int)mode);
}
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
public static int CollectionCount (int generation) {
if (generation<0) {
throw new ArgumentOutOfRangeException("generation", Environment.GetResourceString("ArgumentOutOfRange_GenericPositive"));
}
return nativeCollectionCount(generation);
}
// This method DOES NOT DO ANYTHING in and of itself. It's used to
// prevent a finalizable object from losing any outstanding references
// a touch too early. The JIT is very aggressive about keeping an
// object's lifetime to as small a window as possible, to the point
// where a 'this' pointer isn't considered live in an instance method
// unless you read a value from the instance. So for finalizable
// objects that store a handle or pointer and provide a finalizer that
// cleans them up, this can cause subtle ----s with the finalizer
// thread. This isn't just about handles - it can happen with just
// about any finalizable resource.
//
// Users should insert a call to this method near the end of a
// method where they must keep an object alive for the duration of that
// method, up until this method is called. Here is an example:
//
// "...all you really need is one object with a Finalize method, and a
// second object with a Close/Dispose/Done method. Such as the following
// contrived example:
//
// class Foo {
// Stream stream = ...;
// protected void Finalize() { stream.Close(); }
// void Problem() { stream.MethodThatSpansGCs(); }
// static void Main() { new Foo().Problem(); }
// }
//
//
// In this code, Foo will be finalized in the middle of
// stream.MethodThatSpansGCs, thus closing a stream still in use."
//
// If we insert a call to GC.KeepAlive(this) at the end of Problem(), then
// Foo doesn't get finalized and the stream says open.
[MethodImplAttribute(MethodImplOptions.InternalCall)]
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
public static extern void KeepAlive(Object obj);
// Returns the generation in which wo currently resides.
//
public static int GetGeneration(WeakReference wo) {
int result = GetGenerationWR(wo.m_handle);
KeepAlive(wo);
return result;
}
// Returns the maximum GC generation. Currently assumes only 1 heap.
//
public static int MaxGeneration {
get { return nativeGetMaxGeneration(); }
}
[MethodImplAttribute(MethodImplOptions.InternalCall)]
public static extern void WaitForPendingFinalizers();
// Indicates that the system should not call the Finalize() method on
// an object that would normally require this call.
// Has the DynamicSecurityMethodAttribute custom attribute to prevent
// inlining of the caller.
[MethodImplAttribute(MethodImplOptions.InternalCall)]
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
internal static extern void nativeSuppressFinalize(Object o);
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
public static void SuppressFinalize(Object obj) {
if (obj == null)
throw new ArgumentNullException("obj");
nativeSuppressFinalize(obj);
}
// Indicates that the system should call the Finalize() method on an object
// for which SuppressFinalize has already been called. The other situation
// where calling ReRegisterForFinalize is useful is inside a finalizer that
// needs to resurrect itself or an object that it references.
// Has the DynamicSecurityMethodAttribute custom attribute to prevent
// inlining of the caller.
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern void nativeReRegisterForFinalize(Object o);
public static void ReRegisterForFinalize(Object obj) {
if (obj == null)
throw new ArgumentNullException("obj");
nativeReRegisterForFinalize(obj);
}
// Returns the total number of bytes currently in use by live objects in
// the GC heap. This does not return the total size of the GC heap, but
// only the live objects in the GC heap.
//
public static long GetTotalMemory(bool forceFullCollection) {
long size = nativeGetTotalMemory();
if (!forceFullCollection)
return size;
// If we force a full collection, we will run the finalizers on all
// existing objects and do a collection until the value stabilizes.
// The value is "stable" when either the value is within 5% of the
// previous call to nativeGetTotalMemory, or if we have been sitting
// here for more than x times (we don't want to loop forever here).
int reps = 20; // Number of iterations
long newSize = size;
float diff;
do {
GC.WaitForPendingFinalizers();
GC.Collect();
size = newSize;
newSize = nativeGetTotalMemory();
diff = ((float)(newSize - size)) / size;
} while (reps-- > 0 && !(-.05 < diff && diff < .05));
return newSize;
}
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern bool nativeRegisterForFullGCNotification(int maxGenerationPercentage, int largeObjectHeapPercentage);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern bool nativeCancelFullGCNotification();
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int nativeWaitForFullGCApproach(int millisecondsTimeout);
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern int nativeWaitForFullGCComplete(int millisecondsTimeout);
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static void RegisterForFullGCNotification(int maxGenerationThreshold, int largeObjectHeapThreshold)
{
if ((maxGenerationThreshold <= 0) || (maxGenerationThreshold >= 100))
{
throw new ArgumentOutOfRangeException("maxGenerationThreshold",
String.Format(
CultureInfo.CurrentCulture,
Environment.GetResourceString("ArgumentOutOfRange_Bounds_Lower_Upper"),
1,
99));
}
if ((largeObjectHeapThreshold <= 0) || (largeObjectHeapThreshold >= 100))
{
throw new ArgumentOutOfRangeException("largeObjectHeapThreshold",
String.Format(
CultureInfo.CurrentCulture,
Environment.GetResourceString("ArgumentOutOfRange_Bounds_Lower_Upper"),
1,
99));
}
if (!nativeRegisterForFullGCNotification(maxGenerationThreshold, largeObjectHeapThreshold))
{
throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_NotWithConcurrentGC"));
}
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static void CancelFullGCNotification()
{
if (!nativeCancelFullGCNotification())
{
throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_NotWithConcurrentGC"));
}
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCApproach()
{
return (GCNotificationStatus)nativeWaitForFullGCApproach(-1);
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCApproach(int millisecondsTimeout)
{
if (millisecondsTimeout < -1)
throw new ArgumentOutOfRangeException("millisecondsTimeout", Environment.GetResourceString("ArgumentOutOfRange_NeedNonNegOrNegative1"));
return (GCNotificationStatus)nativeWaitForFullGCApproach(millisecondsTimeout);
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCComplete()
{
return (GCNotificationStatus)nativeWaitForFullGCComplete(-1);
}
[PermissionSetAttribute(SecurityAction.LinkDemand, Name="FullTrust")]
public static GCNotificationStatus WaitForFullGCComplete(int millisecondsTimeout)
{
if (millisecondsTimeout < -1)
throw new ArgumentOutOfRangeException("millisecondsTimeout", Environment.GetResourceString("ArgumentOutOfRange_NeedNonNegOrNegative1"));
return (GCNotificationStatus)nativeWaitForFullGCComplete(millisecondsTimeout);
}
[MethodImplAttribute(MethodImplOptions.InternalCall)]
private static extern void SetCleanupCache();
private static ClearCacheHandler m_cacheHandler;
private static readonly Object locker = new Object();
internal static event ClearCacheHandler ClearCache {
add {
lock (locker) {
m_cacheHandler+=value;
SetCleanupCache();
}
}
remove {
lock (locker)
m_cacheHandler-=value;
}
}
//This method is called from native code. If you update the signature, please also update
//mscorlib.h and COMUtilNative.cpp
internal static void FireCacheEvent() {
BCLDebug.Trace("CACHE", "Called FileCacheEvent");
ClearCacheHandler handler = Interlocked.Exchange(ref m_cacheHandler, null);
if (handler!=null) {
handler(null, null);
}
}
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
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