/* * Copyright (C) 2017 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 dalvik.annotation.optimization; import java.lang.annotation.ElementType; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.annotation.Target; /** * Applied to non-static fields (instance variables) that act as handles to data that is * explicitly cleaned up in response to the containing object becoming unreachable. Such cleanup * is triggered by the garbage collector, typically by enqueuing a java.lang.ref.Reference, or by * invoking an overridden finalize() method. The annotation is needed only when such explicit * GC-triggered cleanup mechanisms are used. * * Most commonly, the fields f annotated this way will have primitive long type, but actually hold * native pointers, as in: 
   {@code
 *
 * {@literal @}ReachabilitySensitive
 * private long nativePtr; // C++ pointer to NativeFoo.
 * }
* * Less frequently, such fields may also be e.g. Java references to Java objects that in turn * contain such native pointers. Or they may be e.g. Java ints that are used to access Java data * external to the object containing f. * * Specifically, an access inside a (static or instance) method of class C to a non-static * field f of C declared ReachabilitySensitive behaves as though it results in the introduction of * java.lang.ref.Reference.reachabilityFence()s according to the following rules: * * 1) For every local reference variable v declared immediately inside lexical scope s, if s * contains such an access a, such that the field f accessed by a is reachable from v, then * Reference.reachabilityFence(v) will be executed just before either (1) the exit of the scope s, * or (2) just before any assignment to v. For our purposes, “this” is treated as a variable * declared at method scope, as if it were an explicit parameter. * * 2) Define the full-expression containing e to be the largest enclosing expression f containing * e, such that there is no statement both containing e and properly contained in f. If the * full-expression containing the allocation of the object containing the field f is the same * full-expression as the full-expression containing the access a, then * Reference.reachabilityFence(p), where p is a reference to the object containing f, is executed * at the end of the full expression. * * Some tools may implement these semantics by simply refusing to eliminate any dead references * in a method accessing an @ReachabilitySensitive field of the same class. * * If the annotation is applied to an instance method, calls to that method are treated * as accesses to a ReachabilitySensitive field of that object. Classes will normally * not provide getter methods for ReachabilitySensitive fields, since that introduces a * subtle dependency between the useful lifetime of the return value and the reachability * of the original object. However if this cannot be avoided, such a getter method should * be annotated as @ReachabilitySensitive. * * The annotation directly affects only methods of the containing class. There are situations in * which accesses from another class (or calls from another class to an annotated method) are * unavoidable. Normally all such accesses should be accompanied by corresponding * reachabilityFence() calls. The @ReachabilitySensitive annotation allows tools to check that * this is done. * * Note that the annotation also does not affect subclass methods. That is commonly OK. For * example, native pointers should normally be declared private, and thus will only be accessed * by methods of the same class. If an access from a subclass is unavoidable, again the * annotation may allow tools to check for the required reachabilityFences. * * @hide */ @libcore.api.IntraCoreApi @Retention(RetentionPolicy.RUNTIME) // Let the GC or interpreter ask, if they need to. // TODO(b/72332040): Reconsider retention later. @Target({ElementType.FIELD, ElementType.METHOD}) public @interface ReachabilitySensitive {}