tools/ahat/src/AhatSnapshot.java - platform/art - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package com.android.ahat;

 import com.android.tools.perflib.heap.ClassObj;
 import com.android.tools.perflib.heap.Heap;
 import com.android.tools.perflib.heap.Instance;
 import com.android.tools.perflib.heap.RootObj;
 import com.android.tools.perflib.heap.RootType;
 import com.android.tools.perflib.heap.Snapshot;
 import com.android.tools.perflib.heap.StackFrame;
 import com.android.tools.perflib.heap.StackTrace;
 import com.android.tools.perflib.captures.MemoryMappedFileBuffer;
 import com.google.common.collect.Iterables;
 import com.google.common.collect.Lists;
 import java.io.File;
 import java.io.IOException;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.Collection;
 import java.util.Collections;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.List;
 import java.util.Map;

 /**
  * A wrapper over the perflib snapshot that provides the behavior we use in
  * ahat.
  */
 class AhatSnapshot {
   private Snapshot mSnapshot;
   private List<Heap> mHeaps;

   // Map from Instance to the list of Instances it immediately dominates.
   private Map<Instance, List<Instance>> mDominated;

   // Collection of objects whose immediate dominator is the SENTINEL_ROOT.
   private List<Instance> mRooted;

   // Map from roots to their types.
   // Instances are only included if they are roots, and the collection of root
   // types is guaranteed to be non-empty.
   private Map<Instance, Collection<RootType>> mRoots;

   private Site mRootSite;
   private Map<Heap, Long> mHeapSizes;

   /**
    * Create an AhatSnapshot from an hprof file.
    */
   public static AhatSnapshot fromHprof(File hprof) throws IOException {
     Snapshot snapshot = Snapshot.createSnapshot(new MemoryMappedFileBuffer(hprof));
     snapshot.computeDominators();
     return new AhatSnapshot(snapshot);
   }

   /**
    * Construct an AhatSnapshot for the given perflib snapshot.
    * Ther user is responsible for calling snapshot.computeDominators before
    * calling this AhatSnapshot constructor.
    */
   private AhatSnapshot(Snapshot snapshot) {
     mSnapshot = snapshot;
     mHeaps = new ArrayList<Heap>(mSnapshot.getHeaps());
     mDominated = new HashMap<Instance, List<Instance>>();
     mRootSite = new Site("ROOT");
     mHeapSizes = new HashMap<Heap, Long>();
     mRooted = new ArrayList<Instance>();

     ClassObj javaLangClass = mSnapshot.findClass("java.lang.Class");
     for (Heap heap : mHeaps) {
       long total = 0;
       for (Instance inst : Iterables.concat(heap.getClasses(), heap.getInstances())) {
         Instance dominator = inst.getImmediateDominator();
         if (dominator != null) {
           total += inst.getSize();

           if (dominator == Snapshot.SENTINEL_ROOT) {
             mRooted.add(inst);
           }

           // Properly label the class of a class object.
           if (inst instanceof ClassObj && javaLangClass != null && inst.getClassObj() == null) {
               inst.setClassId(javaLangClass.getId());
           }

           // Update dominated instances.
           List<Instance> instances = mDominated.get(dominator);
           if (instances == null) {
             instances = new ArrayList<Instance>();
             mDominated.put(dominator, instances);
           }
           instances.add(inst);

           // Update sites.
           List<StackFrame> path = Collections.emptyList();
           StackTrace stack = getStack(inst);
           int stackId = getStackTraceSerialNumber(stack);
           if (stack != null) {
             StackFrame[] frames = getStackFrames(stack);
             if (frames != null && frames.length > 0) {
               path = Lists.reverse(Arrays.asList(frames));
             }
           }
           mRootSite.add(stackId, 0, path.iterator(), inst);
         }
       }
       mHeapSizes.put(heap, total);
     }

     // Record the roots and their types.
     mRoots = new HashMap<Instance, Collection<RootType>>();
     for (RootObj root : snapshot.getGCRoots()) {
       Instance inst = root.getReferredInstance();
       Collection<RootType> types = mRoots.get(inst);
       if (types == null) {
         types = new HashSet<RootType>();
         mRoots.put(inst, types);
       }
       types.add(root.getRootType());
     }
   }

   // Note: This method is exposed for testing purposes.
   public ClassObj findClass(String name) {
     return mSnapshot.findClass(name);
   }

   public Instance findInstance(long id) {
     return mSnapshot.findInstance(id);
   }

   public int getHeapIndex(Heap heap) {
     return mSnapshot.getHeapIndex(heap);
   }

   public Heap getHeap(String name) {
     return mSnapshot.getHeap(name);
   }

   /**
    * Returns a collection of instances whose immediate dominator is the
    * SENTINEL_ROOT.
    */
   public List<Instance> getRooted() {
     return mRooted;
   }

   /**
    * Returns true if the given instance is a root.
    */
   public boolean isRoot(Instance inst) {
     return mRoots.containsKey(inst);
   }

   /**
    * Returns the list of root types for the given instance, or null if the
    * instance is not a root.
    */
   public Collection<RootType> getRootTypes(Instance inst) {
     return mRoots.get(inst);
   }

   public List<Heap> getHeaps() {
     return mHeaps;
   }

   public Site getRootSite() {
     return mRootSite;
   }

   /**
    * Look up the site at which the given object was allocated.
    */
   public Site getSiteForInstance(Instance inst) {
     Site site = mRootSite;
     StackTrace stack = getStack(inst);
     if (stack != null) {
       StackFrame[] frames = getStackFrames(stack);
       if (frames != null) {
         List<StackFrame> path = Lists.reverse(Arrays.asList(frames));
         site = mRootSite.getChild(path.iterator());
       }
     }
     return site;
   }

   /**
    * Return a list of those objects immediately dominated by the given
    * instance.
    */
   public List<Instance> getDominated(Instance inst) {
     return mDominated.get(inst);
   }

   /**
    * Return the total size of reachable objects allocated on the given heap.
    */
   public long getHeapSize(Heap heap) {
     return mHeapSizes.get(heap);
   }

   /**
    * Return the class name for the given class object.
    * classObj may be null, in which case "(class unknown)" is returned.
    */
   public static String getClassName(ClassObj classObj) {
     if (classObj == null) {
       return "(class unknown)";
     }
     return classObj.getClassName();
   }

   // Return the stack where the given instance was allocated.
   private static StackTrace getStack(Instance inst) {
     return inst.getStack();
   }

   // Return the list of stack frames for a stack trace.
   private static StackFrame[] getStackFrames(StackTrace stack) {
     return stack.getFrames();
   }

   // Return the serial number of the given stack trace.
   private static int getStackTraceSerialNumber(StackTrace stack) {
     return stack.getSerialNumber();
   }

   // Get the site associated with the given stack id and depth.
   // Returns the root site if no such site found.
   // depth of -1 means the full stack.
   public Site getSite(int stackId, int depth) {
     Site site = mRootSite;
     StackTrace stack = mSnapshot.getStackTrace(stackId);
     if (stack != null) {
       StackFrame[] frames = getStackFrames(stack);
       if (frames != null) {
         List<StackFrame> path = Lists.reverse(Arrays.asList(frames));
         if (depth >= 0) {
           path = path.subList(0, depth);
         }
         site = mRootSite.getChild(path.iterator());
       }
     }
     return site;
   }
 }
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package com.android.ahat;

	import com.android.tools.perflib.heap.ClassObj;
	import com.android.tools.perflib.heap.Heap;
	import com.android.tools.perflib.heap.Instance;
	import com.android.tools.perflib.heap.RootObj;
	import com.android.tools.perflib.heap.RootType;
	import com.android.tools.perflib.heap.Snapshot;
	import com.android.tools.perflib.heap.StackFrame;
	import com.android.tools.perflib.heap.StackTrace;
	import com.android.tools.perflib.captures.MemoryMappedFileBuffer;
	import com.google.common.collect.Iterables;
	import com.google.common.collect.Lists;
	import java.io.File;
	import java.io.IOException;
	import java.util.ArrayList;
	import java.util.Arrays;
	import java.util.Collection;
	import java.util.Collections;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.List;
	import java.util.Map;

	/**
	* A wrapper over the perflib snapshot that provides the behavior we use in
	* ahat.
	*/
	class AhatSnapshot {
	private Snapshot mSnapshot;
	private List<Heap> mHeaps;

	// Map from Instance to the list of Instances it immediately dominates.
	private Map<Instance, List<Instance>> mDominated;

	// Collection of objects whose immediate dominator is the SENTINEL_ROOT.
	private List<Instance> mRooted;

	// Map from roots to their types.
	// Instances are only included if they are roots, and the collection of root
	// types is guaranteed to be non-empty.
	private Map<Instance, Collection<RootType>> mRoots;

	private Site mRootSite;
	private Map<Heap, Long> mHeapSizes;

	/**
	* Create an AhatSnapshot from an hprof file.
	*/
	public static AhatSnapshot fromHprof(File hprof) throws IOException {
	Snapshot snapshot = Snapshot.createSnapshot(new MemoryMappedFileBuffer(hprof));
	snapshot.computeDominators();
	return new AhatSnapshot(snapshot);
	}

	/**
	* Construct an AhatSnapshot for the given perflib snapshot.
	* Ther user is responsible for calling snapshot.computeDominators before
	* calling this AhatSnapshot constructor.
	*/
	private AhatSnapshot(Snapshot snapshot) {
	mSnapshot = snapshot;
	mHeaps = new ArrayList<Heap>(mSnapshot.getHeaps());
	mDominated = new HashMap<Instance, List<Instance>>();
	mRootSite = new Site("ROOT");
	mHeapSizes = new HashMap<Heap, Long>();
	mRooted = new ArrayList<Instance>();

	ClassObj javaLangClass = mSnapshot.findClass("java.lang.Class");
	for (Heap heap : mHeaps) {
	long total = 0;
	for (Instance inst : Iterables.concat(heap.getClasses(), heap.getInstances())) {
	Instance dominator = inst.getImmediateDominator();
	if (dominator != null) {
	total += inst.getSize();

	if (dominator == Snapshot.SENTINEL_ROOT) {
	mRooted.add(inst);
	}

	// Properly label the class of a class object.
	if (inst instanceof ClassObj && javaLangClass != null && inst.getClassObj() == null) {
	inst.setClassId(javaLangClass.getId());
	}

	// Update dominated instances.
	List<Instance> instances = mDominated.get(dominator);
	if (instances == null) {
	instances = new ArrayList<Instance>();
	mDominated.put(dominator, instances);
	}
	instances.add(inst);

	// Update sites.
	List<StackFrame> path = Collections.emptyList();
	StackTrace stack = getStack(inst);
	int stackId = getStackTraceSerialNumber(stack);
	if (stack != null) {
	StackFrame[] frames = getStackFrames(stack);
	if (frames != null && frames.length > 0) {
	path = Lists.reverse(Arrays.asList(frames));
	}
	}
	mRootSite.add(stackId, 0, path.iterator(), inst);
	}
	}
	mHeapSizes.put(heap, total);
	}

	// Record the roots and their types.
	mRoots = new HashMap<Instance, Collection<RootType>>();
	for (RootObj root : snapshot.getGCRoots()) {
	Instance inst = root.getReferredInstance();
	Collection<RootType> types = mRoots.get(inst);
	if (types == null) {
	types = new HashSet<RootType>();
	mRoots.put(inst, types);
	}
	types.add(root.getRootType());
	}
	}

	// Note: This method is exposed for testing purposes.
	public ClassObj findClass(String name) {
	return mSnapshot.findClass(name);
	}

	public Instance findInstance(long id) {
	return mSnapshot.findInstance(id);
	}

	public int getHeapIndex(Heap heap) {
	return mSnapshot.getHeapIndex(heap);
	}

	public Heap getHeap(String name) {
	return mSnapshot.getHeap(name);
	}

	/**
	* Returns a collection of instances whose immediate dominator is the
	* SENTINEL_ROOT.
	*/
	public List<Instance> getRooted() {
	return mRooted;
	}

	/**
	* Returns true if the given instance is a root.
	*/
	public boolean isRoot(Instance inst) {
	return mRoots.containsKey(inst);
	}

	/**
	* Returns the list of root types for the given instance, or null if the
	* instance is not a root.
	*/
	public Collection<RootType> getRootTypes(Instance inst) {
	return mRoots.get(inst);
	}

	public List<Heap> getHeaps() {
	return mHeaps;
	}

	public Site getRootSite() {
	return mRootSite;
	}

	/**
	* Look up the site at which the given object was allocated.
	*/
	public Site getSiteForInstance(Instance inst) {
	Site site = mRootSite;
	StackTrace stack = getStack(inst);
	if (stack != null) {
	StackFrame[] frames = getStackFrames(stack);
	if (frames != null) {
	List<StackFrame> path = Lists.reverse(Arrays.asList(frames));
	site = mRootSite.getChild(path.iterator());
	}
	}
	return site;
	}

	/**
	* Return a list of those objects immediately dominated by the given
	* instance.
	*/
	public List<Instance> getDominated(Instance inst) {
	return mDominated.get(inst);
	}

	/**
	* Return the total size of reachable objects allocated on the given heap.
	*/
	public long getHeapSize(Heap heap) {
	return mHeapSizes.get(heap);
	}

	/**
	* Return the class name for the given class object.
	* classObj may be null, in which case "(class unknown)" is returned.
	*/
	public static String getClassName(ClassObj classObj) {
	if (classObj == null) {
	return "(class unknown)";
	}
	return classObj.getClassName();
	}

	// Return the stack where the given instance was allocated.
	private static StackTrace getStack(Instance inst) {
	return inst.getStack();
	}

	// Return the list of stack frames for a stack trace.
	private static StackFrame[] getStackFrames(StackTrace stack) {
	return stack.getFrames();
	}

	// Return the serial number of the given stack trace.
	private static int getStackTraceSerialNumber(StackTrace stack) {
	return stack.getSerialNumber();
	}

	// Get the site associated with the given stack id and depth.
	// Returns the root site if no such site found.
	// depth of -1 means the full stack.
	public Site getSite(int stackId, int depth) {
	Site site = mRootSite;
	StackTrace stack = mSnapshot.getStackTrace(stackId);
	if (stack != null) {
	StackFrame[] frames = getStackFrames(stack);
	if (frames != null) {
	List<StackFrame> path = Lists.reverse(Arrays.asList(frames));
	if (depth >= 0) {
	path = path.subList(0, depth);
	}
	site = mRootSite.getChild(path.iterator());
	}
	}
	return site;
	}
	}