singrdk/base/Imported/Bartok/runtime/shared/GCs/RCCollector.cs

//
// Copyright (c) Microsoft Corporation. All rights reserved.
//

/*******************************************************************/
/*                           WARNING                               */
/* This file should be identical in the Bartok and Singularity     */
/* depots. Master copy resides in Bartok Depot. Changes should be  */
/* made to Bartok Depot and propagated to Singularity Depot.       */
/*******************************************************************/

// #define DEBUG

namespace System.GCs {

  using Microsoft.Bartok.Options;
  using Microsoft.Bartok.Runtime;
  using System.Runtime.InteropServices;
  using System.Runtime.CompilerServices;
  using System.Threading;
  using System.Collections;

  [NoCCtor]
  [RequiredByBartok]
  internal abstract class RCCollector : Collector {
      [PreInitRefCounts]
      public static void Initialize() {
          SegregatedFreeList.Initialize();
      }


      // This is a compiler intrinsic whose value is controlled by
      // /StageControl.RCCollectorVerifyRefCounts.
      internal static extern bool VerificationMode {
          [Intrinsic]
          [MethodImplAttribute(MethodImplOptions.InternalCall)]
          get;
      }

      // This is a compiler intrinsic whose value is controlled by
      // /StageControl.RCCollectorVerifyLeakedCycles.
      internal static extern bool VerifyLeakedCycles {
          [Intrinsic]
          [MethodImplAttribute(MethodImplOptions.InternalCall)]
          get;
      }

      // This is a compiler intrinsic whose value is controlled by
      // /StageControl.RCCollectorGenerateProfile.
      internal static extern bool ProfilingMode {
          [Intrinsic]
          [MethodImplAttribute(MethodImplOptions.InternalCall)]
          get;
      }

      [MixinConditional("RCGC")]
      [Mixin(typeof(PostHeader))]
      [StructLayout(LayoutKind.Sequential)]
      [RequiredByBartok]
      internal struct PostHeaderRCGC {
          [CompilerInitField(2)]
          internal uint refState;
#if !SINGULARITY
          [RequiredByBartok]
#endif
          internal VTable vtableObject;
      }

      [MixinConditional("RCGC")]
      [Mixin(typeof(Object))]
      internal class RCGCObject : System.Object {
          internal new PostHeaderRCGC postHeader;

          internal new uint REF_STATE {
              [Inline]
              [ManualRefCounts]
              [MixinOverride]
              get {
                  return this.postHeader.refState;
              }
              [Inline]
              [ManualRefCounts]
              [MixinOverride]
              set {
                  this.postHeader.refState = value;
              }
          }
      }

      [MixinConditional("RCGCVerification")]
      [Mixin(typeof(PreHeader))]
      [RequiredByBartok]
      internal struct PreHeaderRCGCVerification {
          internal UIntPtr backupRefcount;
          internal UIntPtr dfsDiscoveryTime;
          internal UIntPtr dfsFinishingTime;
      }

      [MixinConditional("RCGCVerification")]
      [Mixin(typeof(Object))]
      internal class RCGCVerificationObject : System.Object {
          internal new PreHeaderRCGCVerification preHeader;
      }

      /*
       * Every object maintains a 32-bit "reference state" (RS).
       * The RS consists of a 29-bit reference count, with the
       * remaining bits available for flagging purposes.
       *
       * In a 32-bit architecture, 4GB of memory is addressable.
       * Of this, the upper 2GB is usually reserved for use by
       * the system. So given an object size of at least
       * 12 bytes (sync block index, RS field and the vtable),
       * there can't be more than 2^28 objects. The reference
       * count can be more, due to multiple references from an
       * object to the same target (think of one large array of
       * references), but will be less than 2^29.
       *
       * Of the remaining three bits, one is reserved to ignore
       * reference-counting (RC) operations on objects.
       */

      internal struct RSMasks {
          internal const uint refCount =                0x1fffffff;

          internal const uint countingFlag =            0x80000000;
      }

      // Used only in profiling mode.
      internal struct UpdatePairs {
          public int Increments;
          public int Decrements;

          public static UpdatePairs operator+(UpdatePairs a,
                                              UpdatePairs b) {
              a.Increments += b.Increments;
              a.Decrements += b.Decrements;

              return a;
          }

          public int Total {
              get {
                  return Increments+Decrements;
              }
          }
      } // Increment and decrement counts of one kind of RC update.

      internal struct AcctRecord {
          // General RC update, on a "maybe-null" reference.
          public UpdatePairs MaybeNull;
          // General RC update, but on a non-null reference.
          public UpdatePairs NonNull;

          public UpdatePairs VtableOperand;
          public UpdatePairs RuntimeTypeOperand;

          public String MethodName;

          public static AcctRecord operator+(AcctRecord a,
                                             AcctRecord b) {
              VTable.Assert(Magic.addressOf(a.MethodName) ==
                            Magic.addressOf(b.MethodName),
                            @"Magic.addressOf(a.MethodName) ==
                            Magic.addressOf(b.MethodName)");

              a.MaybeNull += b.MaybeNull;
              a.NonNull += b.NonNull;

              a.VtableOperand += b.VtableOperand;
              a.RuntimeTypeOperand += b.RuntimeTypeOperand;

              return a;
          }

          public int CompareTo(AcctRecord rhs) {
              int lhsTotal = MaybeNull.Total+NonNull.Total;
              int rhsTotal = rhs.MaybeNull.Total+rhs.NonNull.Total;

              return lhsTotal < rhsTotal;
          }

          public void DispCountsHeader() {
              VTable.DebugPrint("GIncs\t\tGDecs");
              VTable.DebugPrint("\t\tNIncs\t\tNDecs");
              VTable.DebugPrint("\t\tV+\t\tV-");
              VTable.DebugPrint("\t\tR+\t\tR-");
          }

          public void DispMethodNameHeader() {
              VTable.DebugPrint("\t\tMethod");
          }

          public void DispCounts() {
              VTable.DebugPrint(MaybeNull.Increments);
              if (MaybeNull.Increments < 10000000) {
                  VTable.DebugPrint("\t\t");
              } else {
                  VTable.DebugPrint("\t");
              }
              VTable.DebugPrint(MaybeNull.Decrements);
              if (MaybeNull.Decrements < 10000000) {
                  VTable.DebugPrint("\t\t");
              } else {
                  VTable.DebugPrint("\t");
              }
              VTable.DebugPrint(NonNull.Increments);
              if (NonNull.Increments < 10000000) {
                  VTable.DebugPrint("\t\t");
              } else {
                  VTable.DebugPrint("\t");
              }
              VTable.DebugPrint(NonNull.Decrements);
              if (NonNull.Decrements < 10000000) {
                  VTable.DebugPrint("\t\t");
              } else {
                  VTable.DebugPrint("\t");
              }
          }

          public void DispMethodName() {
              VTable.DebugPrint(MethodName);
          }

          public void Disp() {
              DispCounts();
              DispMethodName();
          }
      }


      internal override long TotalMemory {
          get {
              UIntPtr pageCount = UIntPtr.Zero;
              for (UIntPtr i = UIntPtr.Zero;
                   i < PageTable.pageTableCount; i++) {
                  if (PageTable.IsMyGcPage(i) &&
                      PageTable.Type(i) !=
                      SegregatedFreeList.INIT_PAGE) {
                      pageCount++;
                  }
              }
              return (long)PageTable.RegionSize(pageCount);
          }
      }


      internal override UIntPtr FindObjectAddr(UIntPtr interiorPtr) {
          return SegregatedFreeList.Find(interiorPtr);
      }

      internal override void VisitObjects
          (ObjectLayout.ObjectVisitor objVisitor,
           UIntPtr lowAddr,
           UIntPtr highAddr) {
          UIntPtr lowPage = PageTable.Page(lowAddr);
          UIntPtr highPage = PageTable.Page(highAddr);
          SegregatedFreeList.VisitObjects(lowPage,
                                          highPage,
                                          objVisitor);
      }


      [NoInline]
      [ManualRefCounts]
      [RequiredByBartok]
      internal static unsafe bool AccumulateRCUpdates(String methodName,
                                                      int methodIndex,
                                                      uint maxIndex,
                                                      AcctRecord rec) {
          VTable.Assert(RCCollector.ProfilingMode,
                        @"RCCollector.ProfilingMode");

          // Return if the page table hasn't been set up yet.
          if (PageTable.pageTableCount == UIntPtr.Zero) {
              return false;
          }

          if (methods == null) {
              // Allocate up front storage for the accounting records.
              //
              // This is requisitioned directly from the memory
              // manager. Care should be taken to ensure that
              // AccumulateRCUpdates does not indirectly call
              // methods that may have compiler-inserted RC updates.
              VTable vtable =
                  ((RuntimeType)typeof(AcctRecord[])).classVtable;
              UIntPtr size =
                  ObjectLayout.ArraySize(vtable, maxIndex+1);

              BumpAllocator profileData =
                  new BumpAllocator(PageType.NonGC);
              UIntPtr profileDataStart =
                  MemoryManager.AllocateMemory(size);
              profileData.SetRange(profileDataStart, size);
              PageManager.SetStaticDataPages(profileDataStart, size);

              methods =
                  (AcctRecord[])Allocate(ref profileData, vtable, size);
              VTable.Assert(methods != null,
                            @"methods != null");

              *(uint*)(Magic.addressOf(methods)+
                  PostHeader.Size) = maxIndex+1;
          }

          VTable.Assert(methods.Length == maxIndex+1,
                        @"methods.Length == maxIndex+1");

          if (methods[methodIndex].methodName == null) {
              methodNames[methodIndex].methodName = methodName;
          }
          // Not "methodNames[methodIndex].methodName == methodName"
          // because the Equality operator carries compiler-inserted
          // RC updates!
          VTable.Assert(Magic.addressOf(methodNames[methodIndex].
                                        methodName) ==
                        Magic.addressOf(methodName),
                        @"Magic.addressOf(methodNames[methodIndex].
                                          methodName) ==
                        Magic.addressOf(methodName)");

          methods[methodIndex] += rec;

          return true;
      }

      [NoInline]
      [ManualRefCounts]
      internal static void EmitRefCountsProfile() {
          VTable.Assert(RCCollector.ProfilingMode,
                        @"RCCollector.ProfilingMode");

          if (methods == null) { // No RC updates present.
              return;
          }

          // Bubble sort in decreasing order of sums.
          for (int i = 0; i < methods.Length; i++) {
              for (int j = methods.Length-1; j > i; j--) {
                  if (methods[j].CompareTo(methods[j-1])) {
                      // Swap contents.
                      AcctRecord temp = methods[j];
                      methods[j] = methods[j-1];
                      methods[j-1] = temp;
                  }
              }
          }

          VTable.DebugPrint("\n");
          AcctRecord.DispCountsHeader();
          AcctRecord.DispMethodNameHeader();
          VTable.DebugPrint("\n");
          for (int i = 0; i < methods.Length; i++) {
              if (methods[i].increments.Total == 0 &&
                  methods[i].decrements.Total == 0) {
                  continue;
              }
              methods[i].DispCounts();
              methods[i].DispMethodName();
              VTable.DebugPrint("\n");
          }
      }


      private static Object Allocate(ref BumpAllocator profileData,
                                     VTable vtable,
                                     UIntPtr numBytes) {
          UIntPtr resultAddr =
              profileData.AllocateFast(numBytes, vtable.baseAlignment);
          Object result = Magic.fromAddress(resultAddr);
            result.REF_STATE = 1 ;
          result.vtable = vtable;
          return result;
      }

      private static AcctRecord[] methods;
  }
}
RDK 2.0 2008-11-17 18:29:00 -05:00			`//`
			`// Copyright (c) Microsoft Corporation. All rights reserved.`
			`//`

			`/*******************************************************************/`
			`/* WARNING */`
			`/* This file should be identical in the Bartok and Singularity */`
			`/* depots. Master copy resides in Bartok Depot. Changes should be */`
			`/* made to Bartok Depot and propagated to Singularity Depot. */`
			`/*******************************************************************/`

			`// #define DEBUG`

			`namespace System.GCs {`

			`using Microsoft.Bartok.Options;`
			`using Microsoft.Bartok.Runtime;`
			`using System.Runtime.InteropServices;`
			`using System.Runtime.CompilerServices;`
			`using System.Threading;`
			`using System.Collections;`

			`[NoCCtor]`
			`[RequiredByBartok]`
			`internal abstract class RCCollector : Collector {`
			`[PreInitRefCounts]`
			`public static void Initialize() {`
			`SegregatedFreeList.Initialize();`
			`}`


			`// This is a compiler intrinsic whose value is controlled by`
			`// /StageControl.RCCollectorVerifyRefCounts.`
			`internal static extern bool VerificationMode {`
			`[Intrinsic]`
			`[MethodImplAttribute(MethodImplOptions.InternalCall)]`
			`get;`
			`}`

			`// This is a compiler intrinsic whose value is controlled by`
			`// /StageControl.RCCollectorVerifyLeakedCycles.`
			`internal static extern bool VerifyLeakedCycles {`
			`[Intrinsic]`
			`[MethodImplAttribute(MethodImplOptions.InternalCall)]`
			`get;`
			`}`

			`// This is a compiler intrinsic whose value is controlled by`
			`// /StageControl.RCCollectorGenerateProfile.`
			`internal static extern bool ProfilingMode {`
			`[Intrinsic]`
			`[MethodImplAttribute(MethodImplOptions.InternalCall)]`
			`get;`
			`}`

			`[MixinConditional("RCGC")]`
			`[Mixin(typeof(PostHeader))]`
			`[StructLayout(LayoutKind.Sequential)]`
			`[RequiredByBartok]`
			`internal struct PostHeaderRCGC {`
			`[CompilerInitField(2)]`
			`internal uint refState;`
			`#if !SINGULARITY`
			`[RequiredByBartok]`
			`#endif`
			`internal VTable vtableObject;`
			`}`

			`[MixinConditional("RCGC")]`
			`[Mixin(typeof(Object))]`
			`internal class RCGCObject : System.Object {`
			`internal new PostHeaderRCGC postHeader;`

			`internal new uint REF_STATE {`
			`[Inline]`
			`[ManualRefCounts]`
			`[MixinOverride]`
			`get {`
			`return this.postHeader.refState;`
			`}`
			`[Inline]`
			`[ManualRefCounts]`
			`[MixinOverride]`
			`set {`
			`this.postHeader.refState = value;`
			`}`
			`}`
			`}`

			`[MixinConditional("RCGCVerification")]`
			`[Mixin(typeof(PreHeader))]`
			`[RequiredByBartok]`
			`internal struct PreHeaderRCGCVerification {`
			`internal UIntPtr backupRefcount;`
			`internal UIntPtr dfsDiscoveryTime;`
			`internal UIntPtr dfsFinishingTime;`
			`}`

			`[MixinConditional("RCGCVerification")]`
			`[Mixin(typeof(Object))]`
			`internal class RCGCVerificationObject : System.Object {`
			`internal new PreHeaderRCGCVerification preHeader;`
			`}`

			`/*`
			`* Every object maintains a 32-bit "reference state" (RS).`
			`* The RS consists of a 29-bit reference count, with the`
			`* remaining bits available for flagging purposes.`
			`*`
			`* In a 32-bit architecture, 4GB of memory is addressable.`
			`* Of this, the upper 2GB is usually reserved for use by`
			`* the system. So given an object size of at least`
			`* 12 bytes (sync block index, RS field and the vtable),`
			`* there can't be more than 2^28 objects. The reference`
			`* count can be more, due to multiple references from an`
			`* object to the same target (think of one large array of`
			`* references), but will be less than 2^29.`
			`*`
			`* Of the remaining three bits, one is reserved to ignore`
			`* reference-counting (RC) operations on objects.`
			`*/`

			`internal struct RSMasks {`
			`internal const uint refCount = 0x1fffffff;`

			`internal const uint countingFlag = 0x80000000;`
			`}`

			`// Used only in profiling mode.`
			`internal struct UpdatePairs {`
			`public int Increments;`
			`public int Decrements;`

			`public static UpdatePairs operator+(UpdatePairs a,`
			`UpdatePairs b) {`
			`a.Increments += b.Increments;`
			`a.Decrements += b.Decrements;`

			`return a;`
			`}`

			`public int Total {`
			`get {`
			`return Increments+Decrements;`
			`}`
			`}`
			`} // Increment and decrement counts of one kind of RC update.`

			`internal struct AcctRecord {`
			`// General RC update, on a "maybe-null" reference.`
			`public UpdatePairs MaybeNull;`
			`// General RC update, but on a non-null reference.`
			`public UpdatePairs NonNull;`

			`public UpdatePairs VtableOperand;`
			`public UpdatePairs RuntimeTypeOperand;`

			`public String MethodName;`

			`public static AcctRecord operator+(AcctRecord a,`
			`AcctRecord b) {`
			`VTable.Assert(Magic.addressOf(a.MethodName) ==`
			`Magic.addressOf(b.MethodName),`
			`@"Magic.addressOf(a.MethodName) ==`
			`Magic.addressOf(b.MethodName)");`

			`a.MaybeNull += b.MaybeNull;`
			`a.NonNull += b.NonNull;`

			`a.VtableOperand += b.VtableOperand;`
			`a.RuntimeTypeOperand += b.RuntimeTypeOperand;`

			`return a;`
			`}`

			`public int CompareTo(AcctRecord rhs) {`
			`int lhsTotal = MaybeNull.Total+NonNull.Total;`
			`int rhsTotal = rhs.MaybeNull.Total+rhs.NonNull.Total;`

			`return lhsTotal < rhsTotal;`
			`}`

			`public void DispCountsHeader() {`
			`VTable.DebugPrint("GIncs\t\tGDecs");`
			`VTable.DebugPrint("\t\tNIncs\t\tNDecs");`
			`VTable.DebugPrint("\t\tV+\t\tV-");`
			`VTable.DebugPrint("\t\tR+\t\tR-");`
			`}`

			`public void DispMethodNameHeader() {`
			`VTable.DebugPrint("\t\tMethod");`
			`}`

			`public void DispCounts() {`
			`VTable.DebugPrint(MaybeNull.Increments);`
			`if (MaybeNull.Increments < 10000000) {`
			`VTable.DebugPrint("\t\t");`
			`} else {`
			`VTable.DebugPrint("\t");`
			`}`
			`VTable.DebugPrint(MaybeNull.Decrements);`
			`if (MaybeNull.Decrements < 10000000) {`
			`VTable.DebugPrint("\t\t");`
			`} else {`
			`VTable.DebugPrint("\t");`
			`}`
			`VTable.DebugPrint(NonNull.Increments);`
			`if (NonNull.Increments < 10000000) {`
			`VTable.DebugPrint("\t\t");`
			`} else {`
			`VTable.DebugPrint("\t");`
			`}`
			`VTable.DebugPrint(NonNull.Decrements);`
			`if (NonNull.Decrements < 10000000) {`
			`VTable.DebugPrint("\t\t");`
			`} else {`
			`VTable.DebugPrint("\t");`
			`}`
			`}`

			`public void DispMethodName() {`
			`VTable.DebugPrint(MethodName);`
			`}`

			`public void Disp() {`
			`DispCounts();`
			`DispMethodName();`
			`}`
			`}`


			`internal override long TotalMemory {`
			`get {`
			`UIntPtr pageCount = UIntPtr.Zero;`
			`for (UIntPtr i = UIntPtr.Zero;`
			`i < PageTable.pageTableCount; i++) {`
			`if (PageTable.IsMyGcPage(i) &&`
			`PageTable.Type(i) !=`
			`SegregatedFreeList.INIT_PAGE) {`
			`pageCount++;`
			`}`
			`}`
			`return (long)PageTable.RegionSize(pageCount);`
			`}`
			`}`


			`internal override UIntPtr FindObjectAddr(UIntPtr interiorPtr) {`
			`return SegregatedFreeList.Find(interiorPtr);`
			`}`

			`internal override void VisitObjects`
			`(ObjectLayout.ObjectVisitor objVisitor,`
			`UIntPtr lowAddr,`
			`UIntPtr highAddr) {`
			`UIntPtr lowPage = PageTable.Page(lowAddr);`
			`UIntPtr highPage = PageTable.Page(highAddr);`
			`SegregatedFreeList.VisitObjects(lowPage,`
			`highPage,`
			`objVisitor);`
			`}`


			`[NoInline]`
			`[ManualRefCounts]`
			`[RequiredByBartok]`
			`internal static unsafe bool AccumulateRCUpdates(String methodName,`
			`int methodIndex,`
			`uint maxIndex,`
			`AcctRecord rec) {`
			`VTable.Assert(RCCollector.ProfilingMode,`
			`@"RCCollector.ProfilingMode");`

			`// Return if the page table hasn't been set up yet.`
			`if (PageTable.pageTableCount == UIntPtr.Zero) {`
			`return false;`
			`}`

			`if (methods == null) {`
			`// Allocate up front storage for the accounting records.`
			`//`
			`// This is requisitioned directly from the memory`
			`// manager. Care should be taken to ensure that`
			`// AccumulateRCUpdates does not indirectly call`
			`// methods that may have compiler-inserted RC updates.`
			`VTable vtable =`
			`((RuntimeType)typeof(AcctRecord[])).classVtable;`
			`UIntPtr size =`
			`ObjectLayout.ArraySize(vtable, maxIndex+1);`

			`BumpAllocator profileData =`
			`new BumpAllocator(PageType.NonGC);`
			`UIntPtr profileDataStart =`
			`MemoryManager.AllocateMemory(size);`
			`profileData.SetRange(profileDataStart, size);`
			`PageManager.SetStaticDataPages(profileDataStart, size);`

			`methods =`
			`(AcctRecord[])Allocate(ref profileData, vtable, size);`
			`VTable.Assert(methods != null,`
			`@"methods != null");`

			`(uint)(Magic.addressOf(methods)+`
			`PostHeader.Size) = maxIndex+1;`
			`}`

			`VTable.Assert(methods.Length == maxIndex+1,`
			`@"methods.Length == maxIndex+1");`

			`if (methods[methodIndex].methodName == null) {`
			`methodNames[methodIndex].methodName = methodName;`
			`}`
			`// Not "methodNames[methodIndex].methodName == methodName"`
			`// because the Equality operator carries compiler-inserted`
			`// RC updates!`
			`VTable.Assert(Magic.addressOf(methodNames[methodIndex].`
			`methodName) ==`
			`Magic.addressOf(methodName),`
			`@"Magic.addressOf(methodNames[methodIndex].`
			`methodName) ==`
			`Magic.addressOf(methodName)");`

			`methods[methodIndex] += rec;`

			`return true;`
			`}`

			`[NoInline]`
			`[ManualRefCounts]`
			`internal static void EmitRefCountsProfile() {`
			`VTable.Assert(RCCollector.ProfilingMode,`
			`@"RCCollector.ProfilingMode");`

			`if (methods == null) { // No RC updates present.`
			`return;`
			`}`

			`// Bubble sort in decreasing order of sums.`
			`for (int i = 0; i < methods.Length; i++) {`
			`for (int j = methods.Length-1; j > i; j--) {`
			`if (methods[j].CompareTo(methods[j-1])) {`
			`// Swap contents.`
			`AcctRecord temp = methods[j];`
			`methods[j] = methods[j-1];`
			`methods[j-1] = temp;`
			`}`
			`}`
			`}`

			`VTable.DebugPrint("\n");`
			`AcctRecord.DispCountsHeader();`
			`AcctRecord.DispMethodNameHeader();`
			`VTable.DebugPrint("\n");`
			`for (int i = 0; i < methods.Length; i++) {`
			`if (methods[i].increments.Total == 0 &&`
			`methods[i].decrements.Total == 0) {`
			`continue;`
			`}`
			`methods[i].DispCounts();`
			`methods[i].DispMethodName();`
			`VTable.DebugPrint("\n");`
			`}`
			`}`


			`private static Object Allocate(ref BumpAllocator profileData,`
			`VTable vtable,`
			`UIntPtr numBytes) {`
			`UIntPtr resultAddr =`
			`profileData.AllocateFast(numBytes, vtable.baseAlignment);`
			`Object result = Magic.fromAddress(resultAddr);`
			`result.REF_STATE = 1 ;`
			`result.vtable = vtable;`
			`return result;`
			`}`

			`private static AcctRecord[] methods;`
			`}`
			`}`