rev 57095 : [mq]: use
rev 57096 : [mq]: trailing_semi
1 /*
2 * Copyright (c) 2018, 2019, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25 #ifndef SHARE_GC_SHARED_OOPSTORAGEPARSTATE_HPP
26 #define SHARE_GC_SHARED_OOPSTORAGEPARSTATE_HPP
27
28 #include "gc/shared/oopStorage.hpp"
29 #include "utilities/macros.hpp"
30
31 //////////////////////////////////////////////////////////////////////////////
32 // Support for parallel and optionally concurrent state iteration.
33 //
34 // Concurrent Iteration
35 //
36 // Iteration involves the _active_array (an ActiveArray), which contains all
37 // of the blocks owned by a storage object.
38 //
39 // A concurrent ParState increments the associated storage's
40 // _concurrent_iteration_count when the state is constructed, and
41 // decrements it when the state is destroyed. These assignments are made with
42 // _active_mutex locked. Meanwhile, empty block deletion is not done while
43 // _concurrent_iteration_count is non-zero. The counter check and the dependent
44 // removal of a block from the _active_array is performed with _active_mutex
45 // locked. This prevents concurrent iteration and empty block deletion from
46 // interfering with with each other.
47 //
48 // Both allocate() and delete_empty_blocks() lock the
49 // _allocation_mutex while performing their respective list and array
50 // manipulations, preventing them from interfering with each other.
51 //
52 // When allocate() creates a new block, it is added to the end of the
53 // _active_array. Then _active_array's _block_count is incremented to account
54 // for the new block. When concurrent iteration is started (by a parallel
55 // worker thread calling the state's iterate() function), the current
56 // _active_array and its _block_count are captured for use by the iteration,
57 // with iteration processing all blocks in that array up to that block count.
58 //
59 // As a result, the sequence over which concurrent iteration operates is
60 // stable. However, once the iteration is started, later allocations may add
61 // blocks to the end of the array that won't be examined by the iteration.
62 // An allocation may even require expansion of the array, so the iteration is
63 // no longer processing the current array, but rather the previous one.
64 // And while the sequence is stable, concurrent allocate() and release()
65 // operations may change the set of allocated entries in a block at any time
66 // during the iteration.
67 //
68 // As a result, a concurrent iteration handler must accept that some
69 // allocations and releases that occur after the iteration started will not be
70 // seen by the iteration. Further, some may overlap examination by the
71 // iteration. To help with this, allocate() and release() have an invariant
72 // that an entry's value must be NULL when it is not in use.
73 //
74 // ParState<concurrent, is_const>
75 // concurrent must be true if iteration may be concurrent with the
76 // mutators.
77 //
78 // is_const must be true if the iteration is over a constant storage
79 // object, false if the iteration may modify the storage object.
80 //
81 // ParState([const] OopStorage* storage)
82 // Construct an object for managing an iteration over storage. For a
83 // concurrent ParState, empty block deletion for the associated storage
84 // is inhibited for the life of the ParState.
85 //
86 // template<typename F> void iterate(F f)
87 // Repeatedly claims a block from the associated storage that has
88 // not been processed by this iteration (possibly by other threads),
89 // and applies f to each entry in the claimed block. Assume p is of
90 // type const oop* or oop*, according to is_const. Then f(p) must be
91 // a valid expression whose value is ignored. Concurrent uses must
92 // be prepared for an entry's value to change at any time, due to
93 // mutator activity.
94 //
95 // template<typename Closure> void oops_do(Closure* cl)
96 // Wrapper around iterate, providing an adaptation layer allowing
97 // the use of OopClosures and similar objects for iteration. Assume
98 // p is of type const oop* or oop*, according to is_const. Then
99 // cl->do_oop(p) must be a valid expression whose value is ignored.
100 // Concurrent uses must be prepared for the entry's value to change
101 // at any time, due to mutator activity.
102 //
103 // Optional operations, provided only if !concurrent && !is_const.
104 // These are not provided when is_const, because the storage object
105 // may be modified by the iteration infrastructure, even if the
106 // provided closure doesn't modify the storage object. These are not
107 // provided when concurrent because any pre-filtering behavior by the
108 // iteration infrastructure is inappropriate for concurrent iteration;
109 // modifications of the storage by the mutator could result in the
110 // pre-filtering being applied (successfully or not) to objects that
111 // are unrelated to what the closure finds in the entry.
112 //
113 // template<typename Closure> void weak_oops_do(Closure* cl)
114 // template<typename IsAliveClosure, typename Closure>
115 // void weak_oops_do(IsAliveClosure* is_alive, Closure* cl)
116 // Wrappers around iterate, providing an adaptation layer allowing
117 // the use of is-alive closures and OopClosures for iteration.
118 // Assume p is of type oop*. Then
119 //
120 // - cl->do_oop(p) must be a valid expression whose value is ignored.
121 //
122 // - is_alive->do_object_b(*p) must be a valid expression whose value
123 // is convertible to bool.
124 //
125 // If *p == NULL then neither is_alive nor cl will be invoked for p.
126 // If is_alive->do_object_b(*p) is false, then cl will not be
127 // invoked on p.
128
129 class OopStorage::BasicParState {
130 const OopStorage* _storage;
131 ActiveArray* _active_array;
132 size_t _block_count;
133 volatile size_t _next_block;
134 uint _estimated_thread_count;
135 bool _concurrent;
136
137 NONCOPYABLE(BasicParState);
138
139 struct IterationData;
140
141 void update_concurrent_iteration_count(int value);
142 bool claim_next_segment(IterationData* data);
143 bool finish_iteration(const IterationData* data) const;
144
145 // Wrapper for iteration handler; ignore handler result and return true.
146 template<typename F> class AlwaysTrueFn;
147
148 public:
149 BasicParState(const OopStorage* storage,
150 uint estimated_thread_count,
151 bool concurrent);
152 ~BasicParState();
153
154 const OopStorage* storage() const { return _storage; }
155
156 template<bool is_const, typename F> void iterate(F f);
157
158 static uint default_estimated_thread_count(bool concurrent);
159 };
160
161 template<bool concurrent, bool is_const>
162 class OopStorage::ParState {
163 BasicParState _basic_state;
164
165 typedef typename Conditional<is_const,
166 const OopStorage*,
167 OopStorage*>::type StoragePtr;
168
169 public:
170 ParState(StoragePtr storage,
171 uint estimated_thread_count = BasicParState::default_estimated_thread_count(concurrent)) :
172 _basic_state(storage, estimated_thread_count, concurrent)
173 {}
174
175 const OopStorage* storage() const { return _basic_state.storage(); }
176 template<typename F> void iterate(F f);
177 template<typename Closure> void oops_do(Closure* cl);
178 };
179
180 template<>
181 class OopStorage::ParState<false, false> {
182 BasicParState _basic_state;
183
184 public:
185 ParState(OopStorage* storage,
186 uint estimated_thread_count = BasicParState::default_estimated_thread_count(false)) :
187 _basic_state(storage, estimated_thread_count, false)
188 {}
189
190 const OopStorage* storage() const { return _basic_state.storage(); }
191 template<typename F> void iterate(F f);
192 template<typename Closure> void oops_do(Closure* cl);
193 template<typename Closure> void weak_oops_do(Closure* cl);
194 template<typename IsAliveClosure, typename Closure>
195 void weak_oops_do(IsAliveClosure* is_alive, Closure* cl);
196 };
197
198 #endif // SHARE_GC_SHARED_OOPSTORAGEPARSTATE_HPP
--- EOF ---