runtime/read_barrier_option.h - platform/art - Git at Google

 /*
  * Copyright (C) 2014 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.
  */

 #ifndef ART_RUNTIME_READ_BARRIER_OPTION_H_
 #define ART_RUNTIME_READ_BARRIER_OPTION_H_
 namespace art {

 // Options for performing a read barrier or not.
 //
 // Besides disabled GC and GC's internal usage, there are a few cases where the read
 // barrier is unnecessary and can be avoided to reduce code size and improve performance.
 // In the following cases, the result of the operation or chain of operations shall be the
 // same whether we go through the from-space or to-space:
 //
 // 1. We're reading a reference known to point to an un-reclaimable immune space object.
 //    (For example boot image class and string references, read by compiled code from
 //    .data.bimg.rel.ro . Similarly, such references constructed using position independent
 //    code in the compiled boot image code do not need a read barrier.)
 // 2. We're reading the reference for comparison involving a non-moving space reference.
 //    (Whether the non-moving space reference is the one we're reading or the one we shall
 //    compare it with, the result is the same with and without read barrier.)
 // 3. We're reading the reference for comparison with null.
 //    (Similar to 2 above, given that null is "non-moving".)
 // 4. We're reading a reference to a holder from which we shall read
 //      - constant primitive field, or
 //      - mutable primitive field for testing an invariant, or
 //      - constant reference field known to point to an un-reclaimable immune space object, or
 //      - constant reference field for comparison involving a non-moving space reference, or
 //      - constant reference field for comparison with null, or
 //      - constant reference fields in a chain leading to one or more of the above purposes;
 //        the entire chain needs to be read without read barrier.
 // The terms "constant" and "invariant" refer to values stored in holder fields before the
 // holder reference is stored in the location for which we want to avoid the read barrier.
 // Since the stored holder reference points to an object with the initialized constant or
 // invariant, when we start a new GC and that holder instance becomes a from-space object
 // both the from-space and to-space versions shall hold the same constant or invariant.
 //
 // While correct inter-thread memory visibility needs to be ensured for these constants and
 // invariants, it needs to be equally ensured for non-moving GC types, so read barriers or
 // their avoidance do not place any additional constraints on inter-thread synchronization.
 //
 // References read without a read barrier must not remain live at the next suspend point,
 // with the exception of references to un-reclaimable immune space objects.
 //
 // For un-reclaimable immune space objects, we rely on graying dirty objects in the FlipCallback
 // pause (we try to gray them just before flipping thread roots but the FlipCallback has to re-scan
 // for newly dirtied objects) and clean objects conceptually become black at that point
 // (marking them through is a no-op as all reference fields must also point to immune spaces),
 // so mutator threads can never miss a read barrier as they never see white immune space object.
 //
 // Examples:
 //
 // The j.l.Class contains many constant fields and invariants:
 //   - primitive type is constant (primitive classes are pre-initialized in the boot image,
 //     or created in early single-threaded stage when running without boot image; non-primitive
 //     classes keep the value 0 from the Class object allocation),
 //   - element type is constant (initialized during array class object allocation, null otherwise),
 //   - access flags are mutable but the proxy class bit is an invariant set during class creation,
 //   - once the class is resolved, the class status is still mutable but it shall remain resolved,
 //     being a resolved is an invariant from that point on,
 //   - once a class becomes erroneous, the class status shall be constant (and unresolved
 //     erroneous class shall not become resolved).
 // This allows reading a chain of element type references for any number of array dimensions
 // without read barrier to find the (non-array) element class and check whether it's primitive,
 // or proxy class. When creating an array class, the element type is already either resolved or
 // unresolved erroneous and neither shall change, so we can also check these invariants (but not
 // resolved erroneous because that is not an invariant from the creation of the array class).
 //
 // The superclass becomes constant during the ClassStatus::kIdx stage, so it's safe to treat it
 // as constant when reading from locations that can reference only resolved classes.
 enum ReadBarrierOption {
   kWithReadBarrier,     // Perform a read barrier.
   kWithoutReadBarrier,  // Don't perform a read barrier.
   kWithFromSpaceBarrier,  // Get the from-space address for the given to-space address. Used by CMC
 };

 }  // namespace art

 #endif  // ART_RUNTIME_READ_BARRIER_OPTION_H_
	/*
	* Copyright (C) 2014 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.
	*/

	#ifndef ART_RUNTIME_READ_BARRIER_OPTION_H_
	#define ART_RUNTIME_READ_BARRIER_OPTION_H_
	namespace art {

	// Options for performing a read barrier or not.
	//
	// Besides disabled GC and GC's internal usage, there are a few cases where the read
	// barrier is unnecessary and can be avoided to reduce code size and improve performance.
	// In the following cases, the result of the operation or chain of operations shall be the
	// same whether we go through the from-space or to-space:
	//
	// 1. We're reading a reference known to point to an un-reclaimable immune space object.
	// (For example boot image class and string references, read by compiled code from
	// .data.bimg.rel.ro . Similarly, such references constructed using position independent
	// code in the compiled boot image code do not need a read barrier.)
	// 2. We're reading the reference for comparison involving a non-moving space reference.
	// (Whether the non-moving space reference is the one we're reading or the one we shall
	// compare it with, the result is the same with and without read barrier.)
	// 3. We're reading the reference for comparison with null.
	// (Similar to 2 above, given that null is "non-moving".)
	// 4. We're reading a reference to a holder from which we shall read
	// - constant primitive field, or
	// - mutable primitive field for testing an invariant, or
	// - constant reference field known to point to an un-reclaimable immune space object, or
	// - constant reference field for comparison involving a non-moving space reference, or
	// - constant reference field for comparison with null, or
	// - constant reference fields in a chain leading to one or more of the above purposes;
	// the entire chain needs to be read without read barrier.
	// The terms "constant" and "invariant" refer to values stored in holder fields before the
	// holder reference is stored in the location for which we want to avoid the read barrier.
	// Since the stored holder reference points to an object with the initialized constant or
	// invariant, when we start a new GC and that holder instance becomes a from-space object
	// both the from-space and to-space versions shall hold the same constant or invariant.
	//
	// While correct inter-thread memory visibility needs to be ensured for these constants and
	// invariants, it needs to be equally ensured for non-moving GC types, so read barriers or
	// their avoidance do not place any additional constraints on inter-thread synchronization.
	//
	// References read without a read barrier must not remain live at the next suspend point,
	// with the exception of references to un-reclaimable immune space objects.
	//
	// For un-reclaimable immune space objects, we rely on graying dirty objects in the FlipCallback
	// pause (we try to gray them just before flipping thread roots but the FlipCallback has to re-scan
	// for newly dirtied objects) and clean objects conceptually become black at that point
	// (marking them through is a no-op as all reference fields must also point to immune spaces),
	// so mutator threads can never miss a read barrier as they never see white immune space object.
	//
	// Examples:
	//
	// The j.l.Class contains many constant fields and invariants:
	// - primitive type is constant (primitive classes are pre-initialized in the boot image,
	// or created in early single-threaded stage when running without boot image; non-primitive
	// classes keep the value 0 from the Class object allocation),
	// - element type is constant (initialized during array class object allocation, null otherwise),
	// - access flags are mutable but the proxy class bit is an invariant set during class creation,
	// - once the class is resolved, the class status is still mutable but it shall remain resolved,
	// being a resolved is an invariant from that point on,
	// - once a class becomes erroneous, the class status shall be constant (and unresolved
	// erroneous class shall not become resolved).
	// This allows reading a chain of element type references for any number of array dimensions
	// without read barrier to find the (non-array) element class and check whether it's primitive,
	// or proxy class. When creating an array class, the element type is already either resolved or
	// unresolved erroneous and neither shall change, so we can also check these invariants (but not
	// resolved erroneous because that is not an invariant from the creation of the array class).
	//
	// The superclass becomes constant during the ClassStatus::kIdx stage, so it's safe to treat it
	// as constant when reading from locations that can reference only resolved classes.
	enum ReadBarrierOption {
	kWithReadBarrier, // Perform a read barrier.
	kWithoutReadBarrier, // Don't perform a read barrier.
	kWithFromSpaceBarrier, // Get the from-space address for the given to-space address. Used by CMC
	};

	} // namespace art

	#endif // ART_RUNTIME_READ_BARRIER_OPTION_H_