Mercurial > hg > truffle
annotate src/share/vm/runtime/synchronizer.cpp @ 18133:5c1bd485c54b
Truffle: fix deoptimization of int[] with double/long values
author | Andreas Woess <andreas.woess@jku.at> |
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date | Tue, 21 Oct 2014 02:31:32 +0200 |
parents | 52b4284cb496 |
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rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 1998, 2014, Oracle and/or its affiliates. All rights reserved. |
0 | 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 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "classfile/vmSymbols.hpp" | |
27 #include "memory/resourceArea.hpp" | |
28 #include "oops/markOop.hpp" | |
29 #include "oops/oop.inline.hpp" | |
30 #include "runtime/biasedLocking.hpp" | |
31 #include "runtime/handles.inline.hpp" | |
32 #include "runtime/interfaceSupport.hpp" | |
33 #include "runtime/mutexLocker.hpp" | |
34 #include "runtime/objectMonitor.hpp" | |
35 #include "runtime/objectMonitor.inline.hpp" | |
36 #include "runtime/osThread.hpp" | |
37 #include "runtime/stubRoutines.hpp" | |
38 #include "runtime/synchronizer.hpp" | |
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39 #include "runtime/thread.inline.hpp" |
1972 | 40 #include "utilities/dtrace.hpp" |
41 #include "utilities/events.hpp" | |
42 #include "utilities/preserveException.hpp" | |
43 #ifdef TARGET_OS_FAMILY_linux | |
44 # include "os_linux.inline.hpp" | |
45 #endif | |
46 #ifdef TARGET_OS_FAMILY_solaris | |
47 # include "os_solaris.inline.hpp" | |
48 #endif | |
49 #ifdef TARGET_OS_FAMILY_windows | |
50 # include "os_windows.inline.hpp" | |
51 #endif | |
3960 | 52 #ifdef TARGET_OS_FAMILY_bsd |
53 # include "os_bsd.inline.hpp" | |
54 #endif | |
0 | 55 |
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56 #if defined(__GNUC__) && !defined(PPC64) |
0 | 57 // Need to inhibit inlining for older versions of GCC to avoid build-time failures |
58 #define ATTR __attribute__((noinline)) | |
59 #else | |
60 #define ATTR | |
61 #endif | |
62 | |
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63 PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC |
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64 |
0 | 65 // The "core" versions of monitor enter and exit reside in this file. |
66 // The interpreter and compilers contain specialized transliterated | |
67 // variants of the enter-exit fast-path operations. See i486.ad fast_lock(), | |
68 // for instance. If you make changes here, make sure to modify the | |
69 // interpreter, and both C1 and C2 fast-path inline locking code emission. | |
70 // | |
71 // | |
72 // ----------------------------------------------------------------------------- | |
73 | |
74 #ifdef DTRACE_ENABLED | |
75 | |
76 // Only bother with this argument setup if dtrace is available | |
77 // TODO-FIXME: probes should not fire when caller is _blocked. assert() accordingly. | |
78 | |
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79 #define DTRACE_MONITOR_PROBE_COMMON(obj, thread) \ |
0 | 80 char* bytes = NULL; \ |
81 int len = 0; \ | |
82 jlong jtid = SharedRuntime::get_java_tid(thread); \ | |
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83 Symbol* klassname = ((oop)(obj))->klass()->name(); \ |
0 | 84 if (klassname != NULL) { \ |
85 bytes = (char*)klassname->bytes(); \ | |
86 len = klassname->utf8_length(); \ | |
87 } | |
88 | |
4006 | 89 #ifndef USDT2 |
90 HS_DTRACE_PROBE_DECL5(hotspot, monitor__wait, | |
91 jlong, uintptr_t, char*, int, long); | |
92 HS_DTRACE_PROBE_DECL4(hotspot, monitor__waited, | |
93 jlong, uintptr_t, char*, int); | |
94 | |
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95 #define DTRACE_MONITOR_WAIT_PROBE(monitor, obj, thread, millis) \ |
0 | 96 { \ |
97 if (DTraceMonitorProbes) { \ | |
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98 DTRACE_MONITOR_PROBE_COMMON(obj, thread); \ |
0 | 99 HS_DTRACE_PROBE5(hotspot, monitor__wait, jtid, \ |
100 (monitor), bytes, len, (millis)); \ | |
101 } \ | |
102 } | |
103 | |
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104 #define DTRACE_MONITOR_PROBE(probe, monitor, obj, thread) \ |
0 | 105 { \ |
106 if (DTraceMonitorProbes) { \ | |
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107 DTRACE_MONITOR_PROBE_COMMON(obj, thread); \ |
0 | 108 HS_DTRACE_PROBE4(hotspot, monitor__##probe, jtid, \ |
109 (uintptr_t)(monitor), bytes, len); \ | |
110 } \ | |
111 } | |
112 | |
4006 | 113 #else /* USDT2 */ |
114 | |
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115 #define DTRACE_MONITOR_WAIT_PROBE(monitor, obj, thread, millis) \ |
4006 | 116 { \ |
117 if (DTraceMonitorProbes) { \ | |
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118 DTRACE_MONITOR_PROBE_COMMON(obj, thread); \ |
4006 | 119 HOTSPOT_MONITOR_WAIT(jtid, \ |
120 (uintptr_t)(monitor), bytes, len, (millis)); \ | |
121 } \ | |
122 } | |
123 | |
124 #define HOTSPOT_MONITOR_PROBE_waited HOTSPOT_MONITOR_PROBE_WAITED | |
125 | |
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126 #define DTRACE_MONITOR_PROBE(probe, monitor, obj, thread) \ |
4006 | 127 { \ |
128 if (DTraceMonitorProbes) { \ | |
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129 DTRACE_MONITOR_PROBE_COMMON(obj, thread); \ |
4006 | 130 HOTSPOT_MONITOR_PROBE_##probe(jtid, /* probe = waited */ \ |
131 (uintptr_t)(monitor), bytes, len); \ | |
132 } \ | |
133 } | |
134 | |
135 #endif /* USDT2 */ | |
0 | 136 #else // ndef DTRACE_ENABLED |
137 | |
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138 #define DTRACE_MONITOR_WAIT_PROBE(obj, thread, millis, mon) {;} |
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139 #define DTRACE_MONITOR_PROBE(probe, obj, thread, mon) {;} |
0 | 140 |
141 #endif // ndef DTRACE_ENABLED | |
142 | |
1878 | 143 // This exists only as a workaround of dtrace bug 6254741 |
144 int dtrace_waited_probe(ObjectMonitor* monitor, Handle obj, Thread* thr) { | |
145 DTRACE_MONITOR_PROBE(waited, monitor, obj(), thr); | |
146 return 0; | |
147 } | |
148 | |
149 #define NINFLATIONLOCKS 256 | |
150 static volatile intptr_t InflationLocks [NINFLATIONLOCKS] ; | |
151 | |
152 ObjectMonitor * ObjectSynchronizer::gBlockList = NULL ; | |
153 ObjectMonitor * volatile ObjectSynchronizer::gFreeList = NULL ; | |
154 ObjectMonitor * volatile ObjectSynchronizer::gOmInUseList = NULL ; | |
155 int ObjectSynchronizer::gOmInUseCount = 0; | |
156 static volatile intptr_t ListLock = 0 ; // protects global monitor free-list cache | |
157 static volatile int MonitorFreeCount = 0 ; // # on gFreeList | |
158 static volatile int MonitorPopulation = 0 ; // # Extant -- in circulation | |
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159 #define CHAINMARKER (cast_to_oop<intptr_t>(-1)) |
1878 | 160 |
161 // ----------------------------------------------------------------------------- | |
162 // Fast Monitor Enter/Exit | |
163 // This the fast monitor enter. The interpreter and compiler use | |
164 // some assembly copies of this code. Make sure update those code | |
165 // if the following function is changed. The implementation is | |
166 // extremely sensitive to race condition. Be careful. | |
167 | |
168 void ObjectSynchronizer::fast_enter(Handle obj, BasicLock* lock, bool attempt_rebias, TRAPS) { | |
169 if (UseBiasedLocking) { | |
170 if (!SafepointSynchronize::is_at_safepoint()) { | |
171 BiasedLocking::Condition cond = BiasedLocking::revoke_and_rebias(obj, attempt_rebias, THREAD); | |
172 if (cond == BiasedLocking::BIAS_REVOKED_AND_REBIASED) { | |
173 return; | |
174 } | |
175 } else { | |
176 assert(!attempt_rebias, "can not rebias toward VM thread"); | |
177 BiasedLocking::revoke_at_safepoint(obj); | |
178 } | |
179 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
180 } | |
181 | |
182 slow_enter (obj, lock, THREAD) ; | |
183 } | |
184 | |
185 void ObjectSynchronizer::fast_exit(oop object, BasicLock* lock, TRAPS) { | |
186 assert(!object->mark()->has_bias_pattern(), "should not see bias pattern here"); | |
187 // if displaced header is null, the previous enter is recursive enter, no-op | |
188 markOop dhw = lock->displaced_header(); | |
189 markOop mark ; | |
190 if (dhw == NULL) { | |
191 // Recursive stack-lock. | |
192 // Diagnostics -- Could be: stack-locked, inflating, inflated. | |
193 mark = object->mark() ; | |
194 assert (!mark->is_neutral(), "invariant") ; | |
195 if (mark->has_locker() && mark != markOopDesc::INFLATING()) { | |
196 assert(THREAD->is_lock_owned((address)mark->locker()), "invariant") ; | |
197 } | |
198 if (mark->has_monitor()) { | |
199 ObjectMonitor * m = mark->monitor() ; | |
200 assert(((oop)(m->object()))->mark() == mark, "invariant") ; | |
201 assert(m->is_entered(THREAD), "invariant") ; | |
202 } | |
203 return ; | |
204 } | |
205 | |
206 mark = object->mark() ; | |
0 | 207 |
1878 | 208 // If the object is stack-locked by the current thread, try to |
209 // swing the displaced header from the box back to the mark. | |
210 if (mark == (markOop) lock) { | |
211 assert (dhw->is_neutral(), "invariant") ; | |
212 if ((markOop) Atomic::cmpxchg_ptr (dhw, object->mark_addr(), mark) == mark) { | |
213 TEVENT (fast_exit: release stacklock) ; | |
214 return; | |
215 } | |
216 } | |
217 | |
10405 | 218 ObjectSynchronizer::inflate(THREAD, object)->exit (true, THREAD) ; |
1878 | 219 } |
220 | |
221 // ----------------------------------------------------------------------------- | |
222 // Interpreter/Compiler Slow Case | |
223 // This routine is used to handle interpreter/compiler slow case | |
224 // We don't need to use fast path here, because it must have been | |
225 // failed in the interpreter/compiler code. | |
226 void ObjectSynchronizer::slow_enter(Handle obj, BasicLock* lock, TRAPS) { | |
227 markOop mark = obj->mark(); | |
228 assert(!mark->has_bias_pattern(), "should not see bias pattern here"); | |
229 | |
230 if (mark->is_neutral()) { | |
231 // Anticipate successful CAS -- the ST of the displaced mark must | |
232 // be visible <= the ST performed by the CAS. | |
233 lock->set_displaced_header(mark); | |
234 if (mark == (markOop) Atomic::cmpxchg_ptr(lock, obj()->mark_addr(), mark)) { | |
235 TEVENT (slow_enter: release stacklock) ; | |
236 return ; | |
237 } | |
238 // Fall through to inflate() ... | |
239 } else | |
240 if (mark->has_locker() && THREAD->is_lock_owned((address)mark->locker())) { | |
241 assert(lock != mark->locker(), "must not re-lock the same lock"); | |
242 assert(lock != (BasicLock*)obj->mark(), "don't relock with same BasicLock"); | |
243 lock->set_displaced_header(NULL); | |
244 return; | |
245 } | |
246 | |
247 #if 0 | |
248 // The following optimization isn't particularly useful. | |
249 if (mark->has_monitor() && mark->monitor()->is_entered(THREAD)) { | |
250 lock->set_displaced_header (NULL) ; | |
251 return ; | |
252 } | |
253 #endif | |
254 | |
255 // The object header will never be displaced to this lock, | |
256 // so it does not matter what the value is, except that it | |
257 // must be non-zero to avoid looking like a re-entrant lock, | |
258 // and must not look locked either. | |
259 lock->set_displaced_header(markOopDesc::unused_mark()); | |
260 ObjectSynchronizer::inflate(THREAD, obj())->enter(THREAD); | |
261 } | |
262 | |
263 // This routine is used to handle interpreter/compiler slow case | |
264 // We don't need to use fast path here, because it must have | |
265 // failed in the interpreter/compiler code. Simply use the heavy | |
266 // weight monitor should be ok, unless someone find otherwise. | |
267 void ObjectSynchronizer::slow_exit(oop object, BasicLock* lock, TRAPS) { | |
268 fast_exit (object, lock, THREAD) ; | |
269 } | |
270 | |
271 // ----------------------------------------------------------------------------- | |
272 // Class Loader support to workaround deadlocks on the class loader lock objects | |
273 // Also used by GC | |
274 // complete_exit()/reenter() are used to wait on a nested lock | |
275 // i.e. to give up an outer lock completely and then re-enter | |
276 // Used when holding nested locks - lock acquisition order: lock1 then lock2 | |
277 // 1) complete_exit lock1 - saving recursion count | |
278 // 2) wait on lock2 | |
279 // 3) when notified on lock2, unlock lock2 | |
280 // 4) reenter lock1 with original recursion count | |
281 // 5) lock lock2 | |
282 // NOTE: must use heavy weight monitor to handle complete_exit/reenter() | |
283 intptr_t ObjectSynchronizer::complete_exit(Handle obj, TRAPS) { | |
284 TEVENT (complete_exit) ; | |
285 if (UseBiasedLocking) { | |
286 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
287 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
0 | 288 } |
289 | |
1878 | 290 ObjectMonitor* monitor = ObjectSynchronizer::inflate(THREAD, obj()); |
291 | |
292 return monitor->complete_exit(THREAD); | |
293 } | |
294 | |
295 // NOTE: must use heavy weight monitor to handle complete_exit/reenter() | |
296 void ObjectSynchronizer::reenter(Handle obj, intptr_t recursion, TRAPS) { | |
297 TEVENT (reenter) ; | |
298 if (UseBiasedLocking) { | |
299 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
300 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
301 } | |
302 | |
303 ObjectMonitor* monitor = ObjectSynchronizer::inflate(THREAD, obj()); | |
304 | |
305 monitor->reenter(recursion, THREAD); | |
306 } | |
307 // ----------------------------------------------------------------------------- | |
308 // JNI locks on java objects | |
309 // NOTE: must use heavy weight monitor to handle jni monitor enter | |
310 void ObjectSynchronizer::jni_enter(Handle obj, TRAPS) { // possible entry from jni enter | |
311 // the current locking is from JNI instead of Java code | |
312 TEVENT (jni_enter) ; | |
313 if (UseBiasedLocking) { | |
314 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
315 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
316 } | |
317 THREAD->set_current_pending_monitor_is_from_java(false); | |
318 ObjectSynchronizer::inflate(THREAD, obj())->enter(THREAD); | |
319 THREAD->set_current_pending_monitor_is_from_java(true); | |
320 } | |
321 | |
322 // NOTE: must use heavy weight monitor to handle jni monitor enter | |
323 bool ObjectSynchronizer::jni_try_enter(Handle obj, Thread* THREAD) { | |
324 if (UseBiasedLocking) { | |
325 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
326 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
0 | 327 } |
328 | |
1878 | 329 ObjectMonitor* monitor = ObjectSynchronizer::inflate_helper(obj()); |
330 return monitor->try_enter(THREAD); | |
331 } | |
332 | |
333 | |
334 // NOTE: must use heavy weight monitor to handle jni monitor exit | |
335 void ObjectSynchronizer::jni_exit(oop obj, Thread* THREAD) { | |
336 TEVENT (jni_exit) ; | |
337 if (UseBiasedLocking) { | |
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338 Handle h_obj(THREAD, obj); |
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339 BiasedLocking::revoke_and_rebias(h_obj, false, THREAD); |
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340 obj = h_obj(); |
1878 | 341 } |
342 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
343 | |
344 ObjectMonitor* monitor = ObjectSynchronizer::inflate(THREAD, obj); | |
345 // If this thread has locked the object, exit the monitor. Note: can't use | |
346 // monitor->check(CHECK); must exit even if an exception is pending. | |
347 if (monitor->check(THREAD)) { | |
10405 | 348 monitor->exit(true, THREAD); |
0 | 349 } |
1878 | 350 } |
351 | |
352 // ----------------------------------------------------------------------------- | |
353 // Internal VM locks on java objects | |
354 // standard constructor, allows locking failures | |
355 ObjectLocker::ObjectLocker(Handle obj, Thread* thread, bool doLock) { | |
356 _dolock = doLock; | |
357 _thread = thread; | |
358 debug_only(if (StrictSafepointChecks) _thread->check_for_valid_safepoint_state(false);) | |
359 _obj = obj; | |
0 | 360 |
1878 | 361 if (_dolock) { |
362 TEVENT (ObjectLocker) ; | |
363 | |
364 ObjectSynchronizer::fast_enter(_obj, &_lock, false, _thread); | |
365 } | |
366 } | |
367 | |
368 ObjectLocker::~ObjectLocker() { | |
369 if (_dolock) { | |
370 ObjectSynchronizer::fast_exit(_obj(), &_lock, _thread); | |
371 } | |
372 } | |
0 | 373 |
374 | |
1878 | 375 // ----------------------------------------------------------------------------- |
376 // Wait/Notify/NotifyAll | |
377 // NOTE: must use heavy weight monitor to handle wait() | |
378 void ObjectSynchronizer::wait(Handle obj, jlong millis, TRAPS) { | |
379 if (UseBiasedLocking) { | |
380 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
381 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
382 } | |
383 if (millis < 0) { | |
384 TEVENT (wait - throw IAX) ; | |
385 THROW_MSG(vmSymbols::java_lang_IllegalArgumentException(), "timeout value is negative"); | |
386 } | |
387 ObjectMonitor* monitor = ObjectSynchronizer::inflate(THREAD, obj()); | |
388 DTRACE_MONITOR_WAIT_PROBE(monitor, obj(), THREAD, millis); | |
389 monitor->wait(millis, true, THREAD); | |
390 | |
391 /* This dummy call is in place to get around dtrace bug 6254741. Once | |
392 that's fixed we can uncomment the following line and remove the call */ | |
393 // DTRACE_MONITOR_PROBE(waited, monitor, obj(), THREAD); | |
394 dtrace_waited_probe(monitor, obj, THREAD); | |
395 } | |
0 | 396 |
1878 | 397 void ObjectSynchronizer::waitUninterruptibly (Handle obj, jlong millis, TRAPS) { |
398 if (UseBiasedLocking) { | |
399 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
400 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
401 } | |
402 if (millis < 0) { | |
403 TEVENT (wait - throw IAX) ; | |
404 THROW_MSG(vmSymbols::java_lang_IllegalArgumentException(), "timeout value is negative"); | |
405 } | |
406 ObjectSynchronizer::inflate(THREAD, obj()) -> wait(millis, false, THREAD) ; | |
407 } | |
408 | |
409 void ObjectSynchronizer::notify(Handle obj, TRAPS) { | |
410 if (UseBiasedLocking) { | |
411 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
412 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
413 } | |
0 | 414 |
1878 | 415 markOop mark = obj->mark(); |
416 if (mark->has_locker() && THREAD->is_lock_owned((address)mark->locker())) { | |
417 return; | |
418 } | |
419 ObjectSynchronizer::inflate(THREAD, obj())->notify(THREAD); | |
420 } | |
0 | 421 |
1878 | 422 // NOTE: see comment of notify() |
423 void ObjectSynchronizer::notifyall(Handle obj, TRAPS) { | |
424 if (UseBiasedLocking) { | |
425 BiasedLocking::revoke_and_rebias(obj, false, THREAD); | |
426 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
427 } | |
428 | |
429 markOop mark = obj->mark(); | |
430 if (mark->has_locker() && THREAD->is_lock_owned((address)mark->locker())) { | |
431 return; | |
432 } | |
433 ObjectSynchronizer::inflate(THREAD, obj())->notifyAll(THREAD); | |
434 } | |
435 | |
436 // ----------------------------------------------------------------------------- | |
437 // Hash Code handling | |
438 // | |
0 | 439 // Performance concern: |
440 // OrderAccess::storestore() calls release() which STs 0 into the global volatile | |
441 // OrderAccess::Dummy variable. This store is unnecessary for correctness. | |
442 // Many threads STing into a common location causes considerable cache migration | |
443 // or "sloshing" on large SMP system. As such, I avoid using OrderAccess::storestore() | |
444 // until it's repaired. In some cases OrderAccess::fence() -- which incurs local | |
445 // latency on the executing processor -- is a better choice as it scales on SMP | |
446 // systems. See http://blogs.sun.com/dave/entry/biased_locking_in_hotspot for a | |
447 // discussion of coherency costs. Note that all our current reference platforms | |
448 // provide strong ST-ST order, so the issue is moot on IA32, x64, and SPARC. | |
449 // | |
450 // As a general policy we use "volatile" to control compiler-based reordering | |
451 // and explicit fences (barriers) to control for architectural reordering performed | |
452 // by the CPU(s) or platform. | |
453 | |
454 struct SharedGlobals { | |
455 // These are highly shared mostly-read variables. | |
456 // To avoid false-sharing they need to be the sole occupants of a $ line. | |
457 double padPrefix [8]; | |
458 volatile int stwRandom ; | |
459 volatile int stwCycle ; | |
460 | |
461 // Hot RW variables -- Sequester to avoid false-sharing | |
462 double padSuffix [16]; | |
463 volatile int hcSequence ; | |
464 double padFinal [8] ; | |
465 } ; | |
466 | |
467 static SharedGlobals GVars ; | |
1587 | 468 static int MonitorScavengeThreshold = 1000000 ; |
469 static volatile int ForceMonitorScavenge = 0 ; // Scavenge required and pending | |
0 | 470 |
1878 | 471 static markOop ReadStableMark (oop obj) { |
472 markOop mark = obj->mark() ; | |
473 if (!mark->is_being_inflated()) { | |
474 return mark ; // normal fast-path return | |
475 } | |
0 | 476 |
1878 | 477 int its = 0 ; |
478 for (;;) { | |
479 markOop mark = obj->mark() ; | |
480 if (!mark->is_being_inflated()) { | |
481 return mark ; // normal fast-path return | |
482 } | |
483 | |
484 // The object is being inflated by some other thread. | |
485 // The caller of ReadStableMark() must wait for inflation to complete. | |
486 // Avoid live-lock | |
487 // TODO: consider calling SafepointSynchronize::do_call_back() while | |
488 // spinning to see if there's a safepoint pending. If so, immediately | |
489 // yielding or blocking would be appropriate. Avoid spinning while | |
490 // there is a safepoint pending. | |
491 // TODO: add inflation contention performance counters. | |
492 // TODO: restrict the aggregate number of spinners. | |
0 | 493 |
1878 | 494 ++its ; |
495 if (its > 10000 || !os::is_MP()) { | |
496 if (its & 1) { | |
497 os::NakedYield() ; | |
498 TEVENT (Inflate: INFLATING - yield) ; | |
499 } else { | |
500 // Note that the following code attenuates the livelock problem but is not | |
501 // a complete remedy. A more complete solution would require that the inflating | |
502 // thread hold the associated inflation lock. The following code simply restricts | |
503 // the number of spinners to at most one. We'll have N-2 threads blocked | |
504 // on the inflationlock, 1 thread holding the inflation lock and using | |
505 // a yield/park strategy, and 1 thread in the midst of inflation. | |
506 // A more refined approach would be to change the encoding of INFLATING | |
507 // to allow encapsulation of a native thread pointer. Threads waiting for | |
508 // inflation to complete would use CAS to push themselves onto a singly linked | |
509 // list rooted at the markword. Once enqueued, they'd loop, checking a per-thread flag | |
510 // and calling park(). When inflation was complete the thread that accomplished inflation | |
511 // would detach the list and set the markword to inflated with a single CAS and | |
512 // then for each thread on the list, set the flag and unpark() the thread. | |
513 // This is conceptually similar to muxAcquire-muxRelease, except that muxRelease | |
514 // wakes at most one thread whereas we need to wake the entire list. | |
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515 int ix = (cast_from_oop<intptr_t>(obj) >> 5) & (NINFLATIONLOCKS-1) ; |
1878 | 516 int YieldThenBlock = 0 ; |
517 assert (ix >= 0 && ix < NINFLATIONLOCKS, "invariant") ; | |
518 assert ((NINFLATIONLOCKS & (NINFLATIONLOCKS-1)) == 0, "invariant") ; | |
519 Thread::muxAcquire (InflationLocks + ix, "InflationLock") ; | |
520 while (obj->mark() == markOopDesc::INFLATING()) { | |
521 // Beware: NakedYield() is advisory and has almost no effect on some platforms | |
522 // so we periodically call Self->_ParkEvent->park(1). | |
523 // We use a mixed spin/yield/block mechanism. | |
524 if ((YieldThenBlock++) >= 16) { | |
525 Thread::current()->_ParkEvent->park(1) ; | |
526 } else { | |
527 os::NakedYield() ; | |
528 } | |
529 } | |
530 Thread::muxRelease (InflationLocks + ix ) ; | |
531 TEVENT (Inflate: INFLATING - yield/park) ; | |
532 } | |
533 } else { | |
534 SpinPause() ; // SMP-polite spinning | |
535 } | |
536 } | |
537 } | |
0 | 538 |
539 // hashCode() generation : | |
540 // | |
541 // Possibilities: | |
542 // * MD5Digest of {obj,stwRandom} | |
543 // * CRC32 of {obj,stwRandom} or any linear-feedback shift register function. | |
544 // * A DES- or AES-style SBox[] mechanism | |
545 // * One of the Phi-based schemes, such as: | |
546 // 2654435761 = 2^32 * Phi (golden ratio) | |
547 // HashCodeValue = ((uintptr_t(obj) >> 3) * 2654435761) ^ GVars.stwRandom ; | |
548 // * A variation of Marsaglia's shift-xor RNG scheme. | |
549 // * (obj ^ stwRandom) is appealing, but can result | |
550 // in undesirable regularity in the hashCode values of adjacent objects | |
551 // (objects allocated back-to-back, in particular). This could potentially | |
552 // result in hashtable collisions and reduced hashtable efficiency. | |
553 // There are simple ways to "diffuse" the middle address bits over the | |
554 // generated hashCode values: | |
555 // | |
556 | |
557 static inline intptr_t get_next_hash(Thread * Self, oop obj) { | |
558 intptr_t value = 0 ; | |
559 if (hashCode == 0) { | |
560 // This form uses an unguarded global Park-Miller RNG, | |
561 // so it's possible for two threads to race and generate the same RNG. | |
562 // On MP system we'll have lots of RW access to a global, so the | |
563 // mechanism induces lots of coherency traffic. | |
564 value = os::random() ; | |
565 } else | |
566 if (hashCode == 1) { | |
567 // This variation has the property of being stable (idempotent) | |
568 // between STW operations. This can be useful in some of the 1-0 | |
569 // synchronization schemes. | |
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570 intptr_t addrBits = cast_from_oop<intptr_t>(obj) >> 3 ; |
0 | 571 value = addrBits ^ (addrBits >> 5) ^ GVars.stwRandom ; |
572 } else | |
573 if (hashCode == 2) { | |
574 value = 1 ; // for sensitivity testing | |
575 } else | |
576 if (hashCode == 3) { | |
577 value = ++GVars.hcSequence ; | |
578 } else | |
579 if (hashCode == 4) { | |
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580 value = cast_from_oop<intptr_t>(obj) ; |
0 | 581 } else { |
582 // Marsaglia's xor-shift scheme with thread-specific state | |
583 // This is probably the best overall implementation -- we'll | |
584 // likely make this the default in future releases. | |
585 unsigned t = Self->_hashStateX ; | |
586 t ^= (t << 11) ; | |
587 Self->_hashStateX = Self->_hashStateY ; | |
588 Self->_hashStateY = Self->_hashStateZ ; | |
589 Self->_hashStateZ = Self->_hashStateW ; | |
590 unsigned v = Self->_hashStateW ; | |
591 v = (v ^ (v >> 19)) ^ (t ^ (t >> 8)) ; | |
592 Self->_hashStateW = v ; | |
593 value = v ; | |
594 } | |
595 | |
596 value &= markOopDesc::hash_mask; | |
597 if (value == 0) value = 0xBAD ; | |
598 assert (value != markOopDesc::no_hash, "invariant") ; | |
599 TEVENT (hashCode: GENERATE) ; | |
600 return value; | |
601 } | |
1878 | 602 // |
603 intptr_t ObjectSynchronizer::FastHashCode (Thread * Self, oop obj) { | |
604 if (UseBiasedLocking) { | |
605 // NOTE: many places throughout the JVM do not expect a safepoint | |
606 // to be taken here, in particular most operations on perm gen | |
607 // objects. However, we only ever bias Java instances and all of | |
608 // the call sites of identity_hash that might revoke biases have | |
609 // been checked to make sure they can handle a safepoint. The | |
610 // added check of the bias pattern is to avoid useless calls to | |
611 // thread-local storage. | |
612 if (obj->mark()->has_bias_pattern()) { | |
613 // Box and unbox the raw reference just in case we cause a STW safepoint. | |
614 Handle hobj (Self, obj) ; | |
615 // Relaxing assertion for bug 6320749. | |
616 assert (Universe::verify_in_progress() || | |
617 !SafepointSynchronize::is_at_safepoint(), | |
618 "biases should not be seen by VM thread here"); | |
619 BiasedLocking::revoke_and_rebias(hobj, false, JavaThread::current()); | |
620 obj = hobj() ; | |
621 assert(!obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
622 } | |
623 } | |
0 | 624 |
1878 | 625 // hashCode() is a heap mutator ... |
626 // Relaxing assertion for bug 6320749. | |
627 assert (Universe::verify_in_progress() || | |
628 !SafepointSynchronize::is_at_safepoint(), "invariant") ; | |
629 assert (Universe::verify_in_progress() || | |
630 Self->is_Java_thread() , "invariant") ; | |
631 assert (Universe::verify_in_progress() || | |
632 ((JavaThread *)Self)->thread_state() != _thread_blocked, "invariant") ; | |
633 | |
634 ObjectMonitor* monitor = NULL; | |
635 markOop temp, test; | |
636 intptr_t hash; | |
637 markOop mark = ReadStableMark (obj); | |
638 | |
639 // object should remain ineligible for biased locking | |
640 assert (!mark->has_bias_pattern(), "invariant") ; | |
641 | |
642 if (mark->is_neutral()) { | |
643 hash = mark->hash(); // this is a normal header | |
644 if (hash) { // if it has hash, just return it | |
645 return hash; | |
646 } | |
647 hash = get_next_hash(Self, obj); // allocate a new hash code | |
648 temp = mark->copy_set_hash(hash); // merge the hash code into header | |
649 // use (machine word version) atomic operation to install the hash | |
650 test = (markOop) Atomic::cmpxchg_ptr(temp, obj->mark_addr(), mark); | |
651 if (test == mark) { | |
652 return hash; | |
653 } | |
654 // If atomic operation failed, we must inflate the header | |
655 // into heavy weight monitor. We could add more code here | |
656 // for fast path, but it does not worth the complexity. | |
657 } else if (mark->has_monitor()) { | |
658 monitor = mark->monitor(); | |
659 temp = monitor->header(); | |
660 assert (temp->is_neutral(), "invariant") ; | |
661 hash = temp->hash(); | |
662 if (hash) { | |
663 return hash; | |
664 } | |
665 // Skip to the following code to reduce code size | |
666 } else if (Self->is_lock_owned((address)mark->locker())) { | |
667 temp = mark->displaced_mark_helper(); // this is a lightweight monitor owned | |
668 assert (temp->is_neutral(), "invariant") ; | |
669 hash = temp->hash(); // by current thread, check if the displaced | |
670 if (hash) { // header contains hash code | |
671 return hash; | |
672 } | |
673 // WARNING: | |
674 // The displaced header is strictly immutable. | |
675 // It can NOT be changed in ANY cases. So we have | |
676 // to inflate the header into heavyweight monitor | |
677 // even the current thread owns the lock. The reason | |
678 // is the BasicLock (stack slot) will be asynchronously | |
679 // read by other threads during the inflate() function. | |
680 // Any change to stack may not propagate to other threads | |
681 // correctly. | |
682 } | |
683 | |
684 // Inflate the monitor to set hash code | |
685 monitor = ObjectSynchronizer::inflate(Self, obj); | |
686 // Load displaced header and check it has hash code | |
687 mark = monitor->header(); | |
688 assert (mark->is_neutral(), "invariant") ; | |
689 hash = mark->hash(); | |
690 if (hash == 0) { | |
691 hash = get_next_hash(Self, obj); | |
692 temp = mark->copy_set_hash(hash); // merge hash code into header | |
693 assert (temp->is_neutral(), "invariant") ; | |
694 test = (markOop) Atomic::cmpxchg_ptr(temp, monitor, mark); | |
695 if (test != mark) { | |
696 // The only update to the header in the monitor (outside GC) | |
697 // is install the hash code. If someone add new usage of | |
698 // displaced header, please update this code | |
699 hash = test->hash(); | |
700 assert (test->is_neutral(), "invariant") ; | |
701 assert (hash != 0, "Trivial unexpected object/monitor header usage."); | |
702 } | |
703 } | |
704 // We finally get the hash | |
705 return hash; | |
0 | 706 } |
707 | |
1878 | 708 // Deprecated -- use FastHashCode() instead. |
0 | 709 |
1878 | 710 intptr_t ObjectSynchronizer::identity_hash_value_for(Handle obj) { |
711 return FastHashCode (Thread::current(), obj()) ; | |
0 | 712 } |
713 | |
714 | |
1878 | 715 bool ObjectSynchronizer::current_thread_holds_lock(JavaThread* thread, |
716 Handle h_obj) { | |
717 if (UseBiasedLocking) { | |
718 BiasedLocking::revoke_and_rebias(h_obj, false, thread); | |
719 assert(!h_obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
720 } | |
721 | |
722 assert(thread == JavaThread::current(), "Can only be called on current thread"); | |
723 oop obj = h_obj(); | |
724 | |
725 markOop mark = ReadStableMark (obj) ; | |
0 | 726 |
1878 | 727 // Uncontended case, header points to stack |
728 if (mark->has_locker()) { | |
729 return thread->is_lock_owned((address)mark->locker()); | |
0 | 730 } |
1878 | 731 // Contended case, header points to ObjectMonitor (tagged pointer) |
732 if (mark->has_monitor()) { | |
733 ObjectMonitor* monitor = mark->monitor(); | |
734 return monitor->is_entered(thread) != 0 ; | |
0 | 735 } |
1878 | 736 // Unlocked case, header in place |
737 assert(mark->is_neutral(), "sanity check"); | |
738 return false; | |
0 | 739 } |
740 | |
1878 | 741 // Be aware of this method could revoke bias of the lock object. |
742 // This method querys the ownership of the lock handle specified by 'h_obj'. | |
743 // If the current thread owns the lock, it returns owner_self. If no | |
744 // thread owns the lock, it returns owner_none. Otherwise, it will return | |
745 // ower_other. | |
746 ObjectSynchronizer::LockOwnership ObjectSynchronizer::query_lock_ownership | |
747 (JavaThread *self, Handle h_obj) { | |
748 // The caller must beware this method can revoke bias, and | |
749 // revocation can result in a safepoint. | |
750 assert (!SafepointSynchronize::is_at_safepoint(), "invariant") ; | |
751 assert (self->thread_state() != _thread_blocked , "invariant") ; | |
0 | 752 |
1878 | 753 // Possible mark states: neutral, biased, stack-locked, inflated |
754 | |
755 if (UseBiasedLocking && h_obj()->mark()->has_bias_pattern()) { | |
756 // CASE: biased | |
757 BiasedLocking::revoke_and_rebias(h_obj, false, self); | |
758 assert(!h_obj->mark()->has_bias_pattern(), | |
759 "biases should be revoked by now"); | |
760 } | |
0 | 761 |
1878 | 762 assert(self == JavaThread::current(), "Can only be called on current thread"); |
763 oop obj = h_obj(); | |
764 markOop mark = ReadStableMark (obj) ; | |
765 | |
766 // CASE: stack-locked. Mark points to a BasicLock on the owner's stack. | |
767 if (mark->has_locker()) { | |
768 return self->is_lock_owned((address)mark->locker()) ? | |
769 owner_self : owner_other; | |
770 } | |
0 | 771 |
1878 | 772 // CASE: inflated. Mark (tagged pointer) points to an objectMonitor. |
773 // The Object:ObjectMonitor relationship is stable as long as we're | |
774 // not at a safepoint. | |
775 if (mark->has_monitor()) { | |
776 void * owner = mark->monitor()->_owner ; | |
777 if (owner == NULL) return owner_none ; | |
778 return (owner == self || | |
779 self->is_lock_owned((address)owner)) ? owner_self : owner_other; | |
780 } | |
781 | |
782 // CASE: neutral | |
783 assert(mark->is_neutral(), "sanity check"); | |
784 return owner_none ; // it's unlocked | |
785 } | |
0 | 786 |
1878 | 787 // FIXME: jvmti should call this |
788 JavaThread* ObjectSynchronizer::get_lock_owner(Handle h_obj, bool doLock) { | |
789 if (UseBiasedLocking) { | |
790 if (SafepointSynchronize::is_at_safepoint()) { | |
791 BiasedLocking::revoke_at_safepoint(h_obj); | |
792 } else { | |
793 BiasedLocking::revoke_and_rebias(h_obj, false, JavaThread::current()); | |
794 } | |
795 assert(!h_obj->mark()->has_bias_pattern(), "biases should be revoked by now"); | |
796 } | |
797 | |
798 oop obj = h_obj(); | |
799 address owner = NULL; | |
800 | |
801 markOop mark = ReadStableMark (obj) ; | |
802 | |
803 // Uncontended case, header points to stack | |
804 if (mark->has_locker()) { | |
805 owner = (address) mark->locker(); | |
806 } | |
807 | |
808 // Contended case, header points to ObjectMonitor (tagged pointer) | |
809 if (mark->has_monitor()) { | |
810 ObjectMonitor* monitor = mark->monitor(); | |
811 assert(monitor != NULL, "monitor should be non-null"); | |
812 owner = (address) monitor->owner(); | |
813 } | |
814 | |
815 if (owner != NULL) { | |
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816 // owning_thread_from_monitor_owner() may also return NULL here |
1878 | 817 return Threads::owning_thread_from_monitor_owner(owner, doLock); |
818 } | |
819 | |
820 // Unlocked case, header in place | |
821 // Cannot have assertion since this object may have been | |
822 // locked by another thread when reaching here. | |
823 // assert(mark->is_neutral(), "sanity check"); | |
824 | |
825 return NULL; | |
826 } | |
827 // Visitors ... | |
828 | |
829 void ObjectSynchronizer::monitors_iterate(MonitorClosure* closure) { | |
830 ObjectMonitor* block = gBlockList; | |
831 ObjectMonitor* mid; | |
832 while (block) { | |
833 assert(block->object() == CHAINMARKER, "must be a block header"); | |
834 for (int i = _BLOCKSIZE - 1; i > 0; i--) { | |
835 mid = block + i; | |
836 oop object = (oop) mid->object(); | |
837 if (object != NULL) { | |
838 closure->do_monitor(mid); | |
839 } | |
840 } | |
841 block = (ObjectMonitor*) block->FreeNext; | |
0 | 842 } |
843 } | |
844 | |
1878 | 845 // Get the next block in the block list. |
846 static inline ObjectMonitor* next(ObjectMonitor* block) { | |
847 assert(block->object() == CHAINMARKER, "must be a block header"); | |
848 block = block->FreeNext ; | |
849 assert(block == NULL || block->object() == CHAINMARKER, "must be a block header"); | |
850 return block; | |
0 | 851 } |
852 | |
853 | |
1878 | 854 void ObjectSynchronizer::oops_do(OopClosure* f) { |
855 assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint"); | |
856 for (ObjectMonitor* block = gBlockList; block != NULL; block = next(block)) { | |
857 assert(block->object() == CHAINMARKER, "must be a block header"); | |
858 for (int i = 1; i < _BLOCKSIZE; i++) { | |
859 ObjectMonitor* mid = &block[i]; | |
860 if (mid->object() != NULL) { | |
861 f->do_oop((oop*)mid->object_addr()); | |
0 | 862 } |
863 } | |
864 } | |
865 } | |
866 | |
867 | |
1878 | 868 // ----------------------------------------------------------------------------- |
0 | 869 // ObjectMonitor Lifecycle |
870 // ----------------------- | |
871 // Inflation unlinks monitors from the global gFreeList and | |
872 // associates them with objects. Deflation -- which occurs at | |
873 // STW-time -- disassociates idle monitors from objects. Such | |
874 // scavenged monitors are returned to the gFreeList. | |
875 // | |
876 // The global list is protected by ListLock. All the critical sections | |
877 // are short and operate in constant-time. | |
878 // | |
879 // ObjectMonitors reside in type-stable memory (TSM) and are immortal. | |
880 // | |
881 // Lifecycle: | |
882 // -- unassigned and on the global free list | |
883 // -- unassigned and on a thread's private omFreeList | |
884 // -- assigned to an object. The object is inflated and the mark refers | |
885 // to the objectmonitor. | |
886 // | |
887 | |
888 | |
1587 | 889 // Constraining monitor pool growth via MonitorBound ... |
890 // | |
891 // The monitor pool is grow-only. We scavenge at STW safepoint-time, but the | |
892 // the rate of scavenging is driven primarily by GC. As such, we can find | |
893 // an inordinate number of monitors in circulation. | |
894 // To avoid that scenario we can artificially induce a STW safepoint | |
895 // if the pool appears to be growing past some reasonable bound. | |
896 // Generally we favor time in space-time tradeoffs, but as there's no | |
897 // natural back-pressure on the # of extant monitors we need to impose some | |
898 // type of limit. Beware that if MonitorBound is set to too low a value | |
899 // we could just loop. In addition, if MonitorBound is set to a low value | |
900 // we'll incur more safepoints, which are harmful to performance. | |
901 // See also: GuaranteedSafepointInterval | |
902 // | |
903 // The current implementation uses asynchronous VM operations. | |
904 // | |
905 | |
906 static void InduceScavenge (Thread * Self, const char * Whence) { | |
907 // Induce STW safepoint to trim monitors | |
908 // Ultimately, this results in a call to deflate_idle_monitors() in the near future. | |
909 // More precisely, trigger an asynchronous STW safepoint as the number | |
910 // of active monitors passes the specified threshold. | |
911 // TODO: assert thread state is reasonable | |
912 | |
913 if (ForceMonitorScavenge == 0 && Atomic::xchg (1, &ForceMonitorScavenge) == 0) { | |
1878 | 914 if (ObjectMonitor::Knob_Verbose) { |
1587 | 915 ::printf ("Monitor scavenge - Induced STW @%s (%d)\n", Whence, ForceMonitorScavenge) ; |
916 ::fflush(stdout) ; | |
917 } | |
918 // Induce a 'null' safepoint to scavenge monitors | |
919 // Must VM_Operation instance be heap allocated as the op will be enqueue and posted | |
920 // to the VMthread and have a lifespan longer than that of this activation record. | |
921 // The VMThread will delete the op when completed. | |
922 VMThread::execute (new VM_ForceAsyncSafepoint()) ; | |
923 | |
1878 | 924 if (ObjectMonitor::Knob_Verbose) { |
1587 | 925 ::printf ("Monitor scavenge - STW posted @%s (%d)\n", Whence, ForceMonitorScavenge) ; |
926 ::fflush(stdout) ; | |
927 } | |
928 } | |
929 } | |
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930 /* Too slow for general assert or debug |
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931 void ObjectSynchronizer::verifyInUse (Thread *Self) { |
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932 ObjectMonitor* mid; |
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933 int inusetally = 0; |
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934 for (mid = Self->omInUseList; mid != NULL; mid = mid->FreeNext) { |
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935 inusetally ++; |
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936 } |
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937 assert(inusetally == Self->omInUseCount, "inuse count off"); |
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938 |
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939 int freetally = 0; |
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940 for (mid = Self->omFreeList; mid != NULL; mid = mid->FreeNext) { |
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941 freetally ++; |
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942 } |
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943 assert(freetally == Self->omFreeCount, "free count off"); |
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944 } |
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945 */ |
0 | 946 ObjectMonitor * ATTR ObjectSynchronizer::omAlloc (Thread * Self) { |
947 // A large MAXPRIVATE value reduces both list lock contention | |
948 // and list coherency traffic, but also tends to increase the | |
949 // number of objectMonitors in circulation as well as the STW | |
950 // scavenge costs. As usual, we lean toward time in space-time | |
951 // tradeoffs. | |
952 const int MAXPRIVATE = 1024 ; | |
953 for (;;) { | |
954 ObjectMonitor * m ; | |
955 | |
956 // 1: try to allocate from the thread's local omFreeList. | |
957 // Threads will attempt to allocate first from their local list, then | |
958 // from the global list, and only after those attempts fail will the thread | |
959 // attempt to instantiate new monitors. Thread-local free lists take | |
960 // heat off the ListLock and improve allocation latency, as well as reducing | |
961 // coherency traffic on the shared global list. | |
962 m = Self->omFreeList ; | |
963 if (m != NULL) { | |
964 Self->omFreeList = m->FreeNext ; | |
965 Self->omFreeCount -- ; | |
966 // CONSIDER: set m->FreeNext = BAD -- diagnostic hygiene | |
967 guarantee (m->object() == NULL, "invariant") ; | |
1587 | 968 if (MonitorInUseLists) { |
969 m->FreeNext = Self->omInUseList; | |
970 Self->omInUseList = m; | |
971 Self->omInUseCount ++; | |
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972 // verifyInUse(Self); |
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973 } else { |
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974 m->FreeNext = NULL; |
1587 | 975 } |
0 | 976 return m ; |
977 } | |
978 | |
979 // 2: try to allocate from the global gFreeList | |
980 // CONSIDER: use muxTry() instead of muxAcquire(). | |
981 // If the muxTry() fails then drop immediately into case 3. | |
982 // If we're using thread-local free lists then try | |
983 // to reprovision the caller's free list. | |
984 if (gFreeList != NULL) { | |
985 // Reprovision the thread's omFreeList. | |
986 // Use bulk transfers to reduce the allocation rate and heat | |
987 // on various locks. | |
988 Thread::muxAcquire (&ListLock, "omAlloc") ; | |
989 for (int i = Self->omFreeProvision; --i >= 0 && gFreeList != NULL; ) { | |
1587 | 990 MonitorFreeCount --; |
0 | 991 ObjectMonitor * take = gFreeList ; |
992 gFreeList = take->FreeNext ; | |
993 guarantee (take->object() == NULL, "invariant") ; | |
994 guarantee (!take->is_busy(), "invariant") ; | |
995 take->Recycle() ; | |
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996 omRelease (Self, take, false) ; |
0 | 997 } |
998 Thread::muxRelease (&ListLock) ; | |
999 Self->omFreeProvision += 1 + (Self->omFreeProvision/2) ; | |
1000 if (Self->omFreeProvision > MAXPRIVATE ) Self->omFreeProvision = MAXPRIVATE ; | |
1001 TEVENT (omFirst - reprovision) ; | |
1587 | 1002 |
1003 const int mx = MonitorBound ; | |
1004 if (mx > 0 && (MonitorPopulation-MonitorFreeCount) > mx) { | |
1005 // We can't safely induce a STW safepoint from omAlloc() as our thread | |
1006 // state may not be appropriate for such activities and callers may hold | |
1007 // naked oops, so instead we defer the action. | |
1008 InduceScavenge (Self, "omAlloc") ; | |
1009 } | |
1010 continue; | |
0 | 1011 } |
1012 | |
1013 // 3: allocate a block of new ObjectMonitors | |
1014 // Both the local and global free lists are empty -- resort to malloc(). | |
1015 // In the current implementation objectMonitors are TSM - immortal. | |
1016 assert (_BLOCKSIZE > 1, "invariant") ; | |
10135 | 1017 ObjectMonitor * temp = new ObjectMonitor[_BLOCKSIZE]; |
0 | 1018 |
1019 // NOTE: (almost) no way to recover if allocation failed. | |
1020 // We might be able to induce a STW safepoint and scavenge enough | |
1021 // objectMonitors to permit progress. | |
1022 if (temp == NULL) { | |
10161
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1023 vm_exit_out_of_memory (sizeof (ObjectMonitor[_BLOCKSIZE]), OOM_MALLOC_ERROR, |
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1024 "Allocate ObjectMonitors"); |
0 | 1025 } |
1026 | |
1027 // Format the block. | |
1028 // initialize the linked list, each monitor points to its next | |
1029 // forming the single linked free list, the very first monitor | |
1030 // will points to next block, which forms the block list. | |
1031 // The trick of using the 1st element in the block as gBlockList | |
1032 // linkage should be reconsidered. A better implementation would | |
1033 // look like: class Block { Block * next; int N; ObjectMonitor Body [N] ; } | |
1034 | |
1035 for (int i = 1; i < _BLOCKSIZE ; i++) { | |
1036 temp[i].FreeNext = &temp[i+1]; | |
1037 } | |
1038 | |
1039 // terminate the last monitor as the end of list | |
1040 temp[_BLOCKSIZE - 1].FreeNext = NULL ; | |
1041 | |
1042 // Element [0] is reserved for global list linkage | |
1043 temp[0].set_object(CHAINMARKER); | |
1044 | |
1045 // Consider carving out this thread's current request from the | |
1046 // block in hand. This avoids some lock traffic and redundant | |
1047 // list activity. | |
1048 | |
1049 // Acquire the ListLock to manipulate BlockList and FreeList. | |
1050 // An Oyama-Taura-Yonezawa scheme might be more efficient. | |
1051 Thread::muxAcquire (&ListLock, "omAlloc [2]") ; | |
1587 | 1052 MonitorPopulation += _BLOCKSIZE-1; |
1053 MonitorFreeCount += _BLOCKSIZE-1; | |
0 | 1054 |
1055 // Add the new block to the list of extant blocks (gBlockList). | |
1056 // The very first objectMonitor in a block is reserved and dedicated. | |
1057 // It serves as blocklist "next" linkage. | |
1058 temp[0].FreeNext = gBlockList; | |
1059 gBlockList = temp; | |
1060 | |
1061 // Add the new string of objectMonitors to the global free list | |
1062 temp[_BLOCKSIZE - 1].FreeNext = gFreeList ; | |
1063 gFreeList = temp + 1; | |
1064 Thread::muxRelease (&ListLock) ; | |
1065 TEVENT (Allocate block of monitors) ; | |
1066 } | |
1067 } | |
1068 | |
1069 // Place "m" on the caller's private per-thread omFreeList. | |
1070 // In practice there's no need to clamp or limit the number of | |
1071 // monitors on a thread's omFreeList as the only time we'll call | |
1072 // omRelease is to return a monitor to the free list after a CAS | |
1073 // attempt failed. This doesn't allow unbounded #s of monitors to | |
1074 // accumulate on a thread's free list. | |
1075 // | |
1076 | |
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1077 void ObjectSynchronizer::omRelease (Thread * Self, ObjectMonitor * m, bool fromPerThreadAlloc) { |
0 | 1078 guarantee (m->object() == NULL, "invariant") ; |
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1079 |
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1080 // Remove from omInUseList |
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1081 if (MonitorInUseLists && fromPerThreadAlloc) { |
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1082 ObjectMonitor* curmidinuse = NULL; |
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1083 for (ObjectMonitor* mid = Self->omInUseList; mid != NULL; ) { |
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1084 if (m == mid) { |
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1085 // extract from per-thread in-use-list |
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1086 if (mid == Self->omInUseList) { |
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1087 Self->omInUseList = mid->FreeNext; |
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1088 } else if (curmidinuse != NULL) { |
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1089 curmidinuse->FreeNext = mid->FreeNext; // maintain the current thread inuselist |
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1090 } |
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1091 Self->omInUseCount --; |
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1092 // verifyInUse(Self); |
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1093 break; |
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1094 } else { |
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1095 curmidinuse = mid; |
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1096 mid = mid->FreeNext; |
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1097 } |
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1098 } |
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1099 } |
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1100 |
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1101 // FreeNext is used for both onInUseList and omFreeList, so clear old before setting new |
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1102 m->FreeNext = Self->omFreeList ; |
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1103 Self->omFreeList = m ; |
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1104 Self->omFreeCount ++ ; |
0 | 1105 } |
1106 | |
1107 // Return the monitors of a moribund thread's local free list to | |
1108 // the global free list. Typically a thread calls omFlush() when | |
1109 // it's dying. We could also consider having the VM thread steal | |
1110 // monitors from threads that have not run java code over a few | |
1111 // consecutive STW safepoints. Relatedly, we might decay | |
1112 // omFreeProvision at STW safepoints. | |
1113 // | |
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1114 // Also return the monitors of a moribund thread"s omInUseList to |
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1115 // a global gOmInUseList under the global list lock so these |
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1116 // will continue to be scanned. |
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1117 // |
0 | 1118 // We currently call omFlush() from the Thread:: dtor _after the thread |
1119 // has been excised from the thread list and is no longer a mutator. | |
1120 // That means that omFlush() can run concurrently with a safepoint and | |
1121 // the scavenge operator. Calling omFlush() from JavaThread::exit() might | |
1122 // be a better choice as we could safely reason that that the JVM is | |
1123 // not at a safepoint at the time of the call, and thus there could | |
1124 // be not inopportune interleavings between omFlush() and the scavenge | |
1125 // operator. | |
1126 | |
1127 void ObjectSynchronizer::omFlush (Thread * Self) { | |
1128 ObjectMonitor * List = Self->omFreeList ; // Null-terminated SLL | |
1129 Self->omFreeList = NULL ; | |
1130 ObjectMonitor * Tail = NULL ; | |
1587 | 1131 int Tally = 0; |
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1132 if (List != NULL) { |
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1133 ObjectMonitor * s ; |
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1134 for (s = List ; s != NULL ; s = s->FreeNext) { |
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1135 Tally ++ ; |
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1136 Tail = s ; |
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1137 guarantee (s->object() == NULL, "invariant") ; |
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1138 guarantee (!s->is_busy(), "invariant") ; |
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1139 s->set_owner (NULL) ; // redundant but good hygiene |
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1140 TEVENT (omFlush - Move one) ; |
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1141 } |
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1142 guarantee (Tail != NULL && List != NULL, "invariant") ; |
0 | 1143 } |
1144 | |
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1145 ObjectMonitor * InUseList = Self->omInUseList; |
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1146 ObjectMonitor * InUseTail = NULL ; |
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1147 int InUseTally = 0; |
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1148 if (InUseList != NULL) { |
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1149 Self->omInUseList = NULL; |
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1150 ObjectMonitor *curom; |
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1151 for (curom = InUseList; curom != NULL; curom = curom->FreeNext) { |
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1152 InUseTail = curom; |
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1153 InUseTally++; |
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1154 } |
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1155 // TODO debug |
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1156 assert(Self->omInUseCount == InUseTally, "inuse count off"); |
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1157 Self->omInUseCount = 0; |
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1158 guarantee (InUseTail != NULL && InUseList != NULL, "invariant"); |
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1159 } |
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1160 |
0 | 1161 Thread::muxAcquire (&ListLock, "omFlush") ; |
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1162 if (Tail != NULL) { |
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1163 Tail->FreeNext = gFreeList ; |
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1164 gFreeList = List ; |
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1165 MonitorFreeCount += Tally; |
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1166 } |
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1167 |
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1168 if (InUseTail != NULL) { |
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1169 InUseTail->FreeNext = gOmInUseList; |
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1170 gOmInUseList = InUseList; |
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1171 gOmInUseCount += InUseTally; |
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1172 } |
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1173 |
0 | 1174 Thread::muxRelease (&ListLock) ; |
1175 TEVENT (omFlush) ; | |
1176 } | |
1177 | |
1178 // Fast path code shared by multiple functions | |
1179 ObjectMonitor* ObjectSynchronizer::inflate_helper(oop obj) { | |
1180 markOop mark = obj->mark(); | |
1181 if (mark->has_monitor()) { | |
1182 assert(ObjectSynchronizer::verify_objmon_isinpool(mark->monitor()), "monitor is invalid"); | |
1183 assert(mark->monitor()->header()->is_neutral(), "monitor must record a good object header"); | |
1184 return mark->monitor(); | |
1185 } | |
1186 return ObjectSynchronizer::inflate(Thread::current(), obj); | |
1187 } | |
1188 | |
1878 | 1189 |
0 | 1190 // Note that we could encounter some performance loss through false-sharing as |
1191 // multiple locks occupy the same $ line. Padding might be appropriate. | |
1192 | |
1193 | |
1194 ObjectMonitor * ATTR ObjectSynchronizer::inflate (Thread * Self, oop object) { | |
1195 // Inflate mutates the heap ... | |
1196 // Relaxing assertion for bug 6320749. | |
1197 assert (Universe::verify_in_progress() || | |
1198 !SafepointSynchronize::is_at_safepoint(), "invariant") ; | |
1199 | |
1200 for (;;) { | |
1201 const markOop mark = object->mark() ; | |
1202 assert (!mark->has_bias_pattern(), "invariant") ; | |
1203 | |
1204 // The mark can be in one of the following states: | |
1205 // * Inflated - just return | |
1206 // * Stack-locked - coerce it to inflated | |
1207 // * INFLATING - busy wait for conversion to complete | |
1208 // * Neutral - aggressively inflate the object. | |
1209 // * BIASED - Illegal. We should never see this | |
1210 | |
1211 // CASE: inflated | |
1212 if (mark->has_monitor()) { | |
1213 ObjectMonitor * inf = mark->monitor() ; | |
1214 assert (inf->header()->is_neutral(), "invariant"); | |
1215 assert (inf->object() == object, "invariant") ; | |
1216 assert (ObjectSynchronizer::verify_objmon_isinpool(inf), "monitor is invalid"); | |
1217 return inf ; | |
1218 } | |
1219 | |
1220 // CASE: inflation in progress - inflating over a stack-lock. | |
1221 // Some other thread is converting from stack-locked to inflated. | |
1222 // Only that thread can complete inflation -- other threads must wait. | |
1223 // The INFLATING value is transient. | |
1224 // Currently, we spin/yield/park and poll the markword, waiting for inflation to finish. | |
1225 // We could always eliminate polling by parking the thread on some auxiliary list. | |
1226 if (mark == markOopDesc::INFLATING()) { | |
1227 TEVENT (Inflate: spin while INFLATING) ; | |
1228 ReadStableMark(object) ; | |
1229 continue ; | |
1230 } | |
1231 | |
1232 // CASE: stack-locked | |
1233 // Could be stack-locked either by this thread or by some other thread. | |
1234 // | |
1235 // Note that we allocate the objectmonitor speculatively, _before_ attempting | |
1236 // to install INFLATING into the mark word. We originally installed INFLATING, | |
1237 // allocated the objectmonitor, and then finally STed the address of the | |
1238 // objectmonitor into the mark. This was correct, but artificially lengthened | |
1239 // the interval in which INFLATED appeared in the mark, thus increasing | |
1240 // the odds of inflation contention. | |
1241 // | |
1242 // We now use per-thread private objectmonitor free lists. | |
1243 // These list are reprovisioned from the global free list outside the | |
1244 // critical INFLATING...ST interval. A thread can transfer | |
1245 // multiple objectmonitors en-mass from the global free list to its local free list. | |
1246 // This reduces coherency traffic and lock contention on the global free list. | |
1247 // Using such local free lists, it doesn't matter if the omAlloc() call appears | |
1248 // before or after the CAS(INFLATING) operation. | |
1249 // See the comments in omAlloc(). | |
1250 | |
1251 if (mark->has_locker()) { | |
1252 ObjectMonitor * m = omAlloc (Self) ; | |
1253 // Optimistically prepare the objectmonitor - anticipate successful CAS | |
1254 // We do this before the CAS in order to minimize the length of time | |
1255 // in which INFLATING appears in the mark. | |
1256 m->Recycle(); | |
1257 m->_Responsible = NULL ; | |
1258 m->OwnerIsThread = 0 ; | |
1259 m->_recursions = 0 ; | |
1878 | 1260 m->_SpinDuration = ObjectMonitor::Knob_SpinLimit ; // Consider: maintain by type/class |
0 | 1261 |
1262 markOop cmp = (markOop) Atomic::cmpxchg_ptr (markOopDesc::INFLATING(), object->mark_addr(), mark) ; | |
1263 if (cmp != mark) { | |
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1264 omRelease (Self, m, true) ; |
0 | 1265 continue ; // Interference -- just retry |
1266 } | |
1267 | |
1268 // We've successfully installed INFLATING (0) into the mark-word. | |
1269 // This is the only case where 0 will appear in a mark-work. | |
1270 // Only the singular thread that successfully swings the mark-word | |
1271 // to 0 can perform (or more precisely, complete) inflation. | |
1272 // | |
1273 // Why do we CAS a 0 into the mark-word instead of just CASing the | |
1274 // mark-word from the stack-locked value directly to the new inflated state? | |
1275 // Consider what happens when a thread unlocks a stack-locked object. | |
1276 // It attempts to use CAS to swing the displaced header value from the | |
1277 // on-stack basiclock back into the object header. Recall also that the | |
1278 // header value (hashcode, etc) can reside in (a) the object header, or | |
1279 // (b) a displaced header associated with the stack-lock, or (c) a displaced | |
1280 // header in an objectMonitor. The inflate() routine must copy the header | |
1281 // value from the basiclock on the owner's stack to the objectMonitor, all | |
1282 // the while preserving the hashCode stability invariants. If the owner | |
1283 // decides to release the lock while the value is 0, the unlock will fail | |
1284 // and control will eventually pass from slow_exit() to inflate. The owner | |
1285 // will then spin, waiting for the 0 value to disappear. Put another way, | |
1286 // the 0 causes the owner to stall if the owner happens to try to | |
1287 // drop the lock (restoring the header from the basiclock to the object) | |
1288 // while inflation is in-progress. This protocol avoids races that might | |
1289 // would otherwise permit hashCode values to change or "flicker" for an object. | |
1290 // Critically, while object->mark is 0 mark->displaced_mark_helper() is stable. | |
1291 // 0 serves as a "BUSY" inflate-in-progress indicator. | |
1292 | |
1293 | |
1294 // fetch the displaced mark from the owner's stack. | |
1295 // The owner can't die or unwind past the lock while our INFLATING | |
1296 // object is in the mark. Furthermore the owner can't complete | |
1297 // an unlock on the object, either. | |
1298 markOop dmw = mark->displaced_mark_helper() ; | |
1299 assert (dmw->is_neutral(), "invariant") ; | |
1300 | |
1301 // Setup monitor fields to proper values -- prepare the monitor | |
1302 m->set_header(dmw) ; | |
1303 | |
1304 // Optimization: if the mark->locker stack address is associated | |
1305 // with this thread we could simply set m->_owner = Self and | |
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1306 // m->OwnerIsThread = 1. Note that a thread can inflate an object |
0 | 1307 // that it has stack-locked -- as might happen in wait() -- directly |
1308 // with CAS. That is, we can avoid the xchg-NULL .... ST idiom. | |
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1309 m->set_owner(mark->locker()); |
0 | 1310 m->set_object(object); |
1311 // TODO-FIXME: assert BasicLock->dhw != 0. | |
1312 | |
1313 // Must preserve store ordering. The monitor state must | |
1314 // be stable at the time of publishing the monitor address. | |
1315 guarantee (object->mark() == markOopDesc::INFLATING(), "invariant") ; | |
1316 object->release_set_mark(markOopDesc::encode(m)); | |
1317 | |
1318 // Hopefully the performance counters are allocated on distinct cache lines | |
1319 // to avoid false sharing on MP systems ... | |
1878 | 1320 if (ObjectMonitor::_sync_Inflations != NULL) ObjectMonitor::_sync_Inflations->inc() ; |
0 | 1321 TEVENT(Inflate: overwrite stacklock) ; |
1322 if (TraceMonitorInflation) { | |
1323 if (object->is_instance()) { | |
1324 ResourceMark rm; | |
1325 tty->print_cr("Inflating object " INTPTR_FORMAT " , mark " INTPTR_FORMAT " , type %s", | |
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1326 (void *) object, (intptr_t) object->mark(), |
6983 | 1327 object->klass()->external_name()); |
0 | 1328 } |
1329 } | |
1330 return m ; | |
1331 } | |
1332 | |
1333 // CASE: neutral | |
1334 // TODO-FIXME: for entry we currently inflate and then try to CAS _owner. | |
1335 // If we know we're inflating for entry it's better to inflate by swinging a | |
1336 // pre-locked objectMonitor pointer into the object header. A successful | |
1337 // CAS inflates the object *and* confers ownership to the inflating thread. | |
1338 // In the current implementation we use a 2-step mechanism where we CAS() | |
1339 // to inflate and then CAS() again to try to swing _owner from NULL to Self. | |
1340 // An inflateTry() method that we could call from fast_enter() and slow_enter() | |
1341 // would be useful. | |
1342 | |
1343 assert (mark->is_neutral(), "invariant"); | |
1344 ObjectMonitor * m = omAlloc (Self) ; | |
1345 // prepare m for installation - set monitor to initial state | |
1346 m->Recycle(); | |
1347 m->set_header(mark); | |
1348 m->set_owner(NULL); | |
1349 m->set_object(object); | |
1350 m->OwnerIsThread = 1 ; | |
1351 m->_recursions = 0 ; | |
1352 m->_Responsible = NULL ; | |
1878 | 1353 m->_SpinDuration = ObjectMonitor::Knob_SpinLimit ; // consider: keep metastats by type/class |
0 | 1354 |
1355 if (Atomic::cmpxchg_ptr (markOopDesc::encode(m), object->mark_addr(), mark) != mark) { | |
1356 m->set_object (NULL) ; | |
1357 m->set_owner (NULL) ; | |
1358 m->OwnerIsThread = 0 ; | |
1359 m->Recycle() ; | |
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1360 omRelease (Self, m, true) ; |
0 | 1361 m = NULL ; |
1362 continue ; | |
1363 // interference - the markword changed - just retry. | |
1364 // The state-transitions are one-way, so there's no chance of | |
1365 // live-lock -- "Inflated" is an absorbing state. | |
1366 } | |
1367 | |
1368 // Hopefully the performance counters are allocated on distinct | |
1369 // cache lines to avoid false sharing on MP systems ... | |
1878 | 1370 if (ObjectMonitor::_sync_Inflations != NULL) ObjectMonitor::_sync_Inflations->inc() ; |
0 | 1371 TEVENT(Inflate: overwrite neutral) ; |
1372 if (TraceMonitorInflation) { | |
1373 if (object->is_instance()) { | |
1374 ResourceMark rm; | |
1375 tty->print_cr("Inflating object " INTPTR_FORMAT " , mark " INTPTR_FORMAT " , type %s", | |
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1376 (void *) object, (intptr_t) object->mark(), |
6983 | 1377 object->klass()->external_name()); |
0 | 1378 } |
1379 } | |
1380 return m ; | |
1381 } | |
1382 } | |
1383 | |
1878 | 1384 // Note that we could encounter some performance loss through false-sharing as |
1385 // multiple locks occupy the same $ line. Padding might be appropriate. | |
0 | 1386 |
1387 | |
1388 // Deflate_idle_monitors() is called at all safepoints, immediately | |
1389 // after all mutators are stopped, but before any objects have moved. | |
1390 // It traverses the list of known monitors, deflating where possible. | |
1391 // The scavenged monitor are returned to the monitor free list. | |
1392 // | |
1393 // Beware that we scavenge at *every* stop-the-world point. | |
1394 // Having a large number of monitors in-circulation negatively | |
1395 // impacts the performance of some applications (e.g., PointBase). | |
1396 // Broadly, we want to minimize the # of monitors in circulation. | |
1587 | 1397 // |
1398 // We have added a flag, MonitorInUseLists, which creates a list | |
1399 // of active monitors for each thread. deflate_idle_monitors() | |
1400 // only scans the per-thread inuse lists. omAlloc() puts all | |
1401 // assigned monitors on the per-thread list. deflate_idle_monitors() | |
1402 // returns the non-busy monitors to the global free list. | |
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1403 // When a thread dies, omFlush() adds the list of active monitors for |
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1404 // that thread to a global gOmInUseList acquiring the |
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1405 // global list lock. deflate_idle_monitors() acquires the global |
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1406 // list lock to scan for non-busy monitors to the global free list. |
1587 | 1407 // An alternative could have used a single global inuse list. The |
1408 // downside would have been the additional cost of acquiring the global list lock | |
1409 // for every omAlloc(). | |
0 | 1410 // |
1411 // Perversely, the heap size -- and thus the STW safepoint rate -- | |
1412 // typically drives the scavenge rate. Large heaps can mean infrequent GC, | |
1413 // which in turn can mean large(r) numbers of objectmonitors in circulation. | |
1414 // This is an unfortunate aspect of this design. | |
1415 // | |
1416 | |
1878 | 1417 enum ManifestConstants { |
1418 ClearResponsibleAtSTW = 0, | |
1419 MaximumRecheckInterval = 1000 | |
1420 } ; | |
1587 | 1421 |
1422 // Deflate a single monitor if not in use | |
1423 // Return true if deflated, false if in use | |
1424 bool ObjectSynchronizer::deflate_monitor(ObjectMonitor* mid, oop obj, | |
1425 ObjectMonitor** FreeHeadp, ObjectMonitor** FreeTailp) { | |
1426 bool deflated; | |
1427 // Normal case ... The monitor is associated with obj. | |
1428 guarantee (obj->mark() == markOopDesc::encode(mid), "invariant") ; | |
1429 guarantee (mid == obj->mark()->monitor(), "invariant"); | |
1430 guarantee (mid->header()->is_neutral(), "invariant"); | |
1431 | |
1432 if (mid->is_busy()) { | |
1433 if (ClearResponsibleAtSTW) mid->_Responsible = NULL ; | |
1434 deflated = false; | |
1435 } else { | |
1436 // Deflate the monitor if it is no longer being used | |
1437 // It's idle - scavenge and return to the global free list | |
1438 // plain old deflation ... | |
1439 TEVENT (deflate_idle_monitors - scavenge1) ; | |
1440 if (TraceMonitorInflation) { | |
1441 if (obj->is_instance()) { | |
1442 ResourceMark rm; | |
1443 tty->print_cr("Deflating object " INTPTR_FORMAT " , mark " INTPTR_FORMAT " , type %s", | |
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1444 (void *) obj, (intptr_t) obj->mark(), obj->klass()->external_name()); |
1587 | 1445 } |
1446 } | |
1447 | |
1448 // Restore the header back to obj | |
1449 obj->release_set_mark(mid->header()); | |
1450 mid->clear(); | |
1451 | |
1452 assert (mid->object() == NULL, "invariant") ; | |
1453 | |
1454 // Move the object to the working free list defined by FreeHead,FreeTail. | |
1455 if (*FreeHeadp == NULL) *FreeHeadp = mid; | |
1456 if (*FreeTailp != NULL) { | |
1457 ObjectMonitor * prevtail = *FreeTailp; | |
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1458 assert(prevtail->FreeNext == NULL, "cleaned up deflated?"); // TODO KK |
1587 | 1459 prevtail->FreeNext = mid; |
1460 } | |
1461 *FreeTailp = mid; | |
1462 deflated = true; | |
1463 } | |
1464 return deflated; | |
1465 } | |
1466 | |
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1467 // Caller acquires ListLock |
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1468 int ObjectSynchronizer::walk_monitor_list(ObjectMonitor** listheadp, |
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1469 ObjectMonitor** FreeHeadp, ObjectMonitor** FreeTailp) { |
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1470 ObjectMonitor* mid; |
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1471 ObjectMonitor* next; |
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1472 ObjectMonitor* curmidinuse = NULL; |
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1473 int deflatedcount = 0; |
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1474 |
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1475 for (mid = *listheadp; mid != NULL; ) { |
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1476 oop obj = (oop) mid->object(); |
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1477 bool deflated = false; |
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1478 if (obj != NULL) { |
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1479 deflated = deflate_monitor(mid, obj, FreeHeadp, FreeTailp); |
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1480 } |
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1481 if (deflated) { |
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1482 // extract from per-thread in-use-list |
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1483 if (mid == *listheadp) { |
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1484 *listheadp = mid->FreeNext; |
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1485 } else if (curmidinuse != NULL) { |
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1486 curmidinuse->FreeNext = mid->FreeNext; // maintain the current thread inuselist |
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1487 } |
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1488 next = mid->FreeNext; |
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1489 mid->FreeNext = NULL; // This mid is current tail in the FreeHead list |
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1490 mid = next; |
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1491 deflatedcount++; |
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1492 } else { |
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1493 curmidinuse = mid; |
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1494 mid = mid->FreeNext; |
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1495 } |
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1496 } |
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1497 return deflatedcount; |
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1498 } |
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1499 |
0 | 1500 void ObjectSynchronizer::deflate_idle_monitors() { |
1501 assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint"); | |
1502 int nInuse = 0 ; // currently associated with objects | |
1503 int nInCirculation = 0 ; // extant | |
1504 int nScavenged = 0 ; // reclaimed | |
1587 | 1505 bool deflated = false; |
0 | 1506 |
1507 ObjectMonitor * FreeHead = NULL ; // Local SLL of scavenged monitors | |
1508 ObjectMonitor * FreeTail = NULL ; | |
1509 | |
1587 | 1510 TEVENT (deflate_idle_monitors) ; |
1511 // Prevent omFlush from changing mids in Thread dtor's during deflation | |
1512 // And in case the vm thread is acquiring a lock during a safepoint | |
1513 // See e.g. 6320749 | |
1514 Thread::muxAcquire (&ListLock, "scavenge - return") ; | |
1515 | |
1516 if (MonitorInUseLists) { | |
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1517 int inUse = 0; |
1587 | 1518 for (JavaThread* cur = Threads::first(); cur != NULL; cur = cur->next()) { |
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1519 nInCirculation+= cur->omInUseCount; |
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1520 int deflatedcount = walk_monitor_list(cur->omInUseList_addr(), &FreeHead, &FreeTail); |
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1521 cur->omInUseCount-= deflatedcount; |
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1522 // verifyInUse(cur); |
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1523 nScavenged += deflatedcount; |
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1524 nInuse += cur->omInUseCount; |
1587 | 1525 } |
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1526 |
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1527 // For moribund threads, scan gOmInUseList |
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1528 if (gOmInUseList) { |
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1529 nInCirculation += gOmInUseCount; |
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1530 int deflatedcount = walk_monitor_list((ObjectMonitor **)&gOmInUseList, &FreeHead, &FreeTail); |
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1531 gOmInUseCount-= deflatedcount; |
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1532 nScavenged += deflatedcount; |
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1533 nInuse += gOmInUseCount; |
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1534 } |
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1535 |
1587 | 1536 } else for (ObjectMonitor* block = gBlockList; block != NULL; block = next(block)) { |
0 | 1537 // Iterate over all extant monitors - Scavenge all idle monitors. |
1538 assert(block->object() == CHAINMARKER, "must be a block header"); | |
1539 nInCirculation += _BLOCKSIZE ; | |
1540 for (int i = 1 ; i < _BLOCKSIZE; i++) { | |
1541 ObjectMonitor* mid = &block[i]; | |
1542 oop obj = (oop) mid->object(); | |
1543 | |
1544 if (obj == NULL) { | |
1545 // The monitor is not associated with an object. | |
1546 // The monitor should either be a thread-specific private | |
1547 // free list or the global free list. | |
1548 // obj == NULL IMPLIES mid->is_busy() == 0 | |
1549 guarantee (!mid->is_busy(), "invariant") ; | |
1550 continue ; | |
1551 } | |
1587 | 1552 deflated = deflate_monitor(mid, obj, &FreeHead, &FreeTail); |
1553 | |
1554 if (deflated) { | |
1555 mid->FreeNext = NULL ; | |
1556 nScavenged ++ ; | |
0 | 1557 } else { |
1587 | 1558 nInuse ++; |
0 | 1559 } |
1560 } | |
1561 } | |
1562 | |
1587 | 1563 MonitorFreeCount += nScavenged; |
1564 | |
1565 // Consider: audit gFreeList to ensure that MonitorFreeCount and list agree. | |
1566 | |
1878 | 1567 if (ObjectMonitor::Knob_Verbose) { |
1587 | 1568 ::printf ("Deflate: InCirc=%d InUse=%d Scavenged=%d ForceMonitorScavenge=%d : pop=%d free=%d\n", |
1569 nInCirculation, nInuse, nScavenged, ForceMonitorScavenge, | |
1570 MonitorPopulation, MonitorFreeCount) ; | |
1571 ::fflush(stdout) ; | |
1572 } | |
1573 | |
1574 ForceMonitorScavenge = 0; // Reset | |
1575 | |
0 | 1576 // Move the scavenged monitors back to the global free list. |
1577 if (FreeHead != NULL) { | |
1578 guarantee (FreeTail != NULL && nScavenged > 0, "invariant") ; | |
1579 assert (FreeTail->FreeNext == NULL, "invariant") ; | |
1580 // constant-time list splice - prepend scavenged segment to gFreeList | |
1581 FreeTail->FreeNext = gFreeList ; | |
1582 gFreeList = FreeHead ; | |
1583 } | |
1587 | 1584 Thread::muxRelease (&ListLock) ; |
0 | 1585 |
1878 | 1586 if (ObjectMonitor::_sync_Deflations != NULL) ObjectMonitor::_sync_Deflations->inc(nScavenged) ; |
1587 if (ObjectMonitor::_sync_MonExtant != NULL) ObjectMonitor::_sync_MonExtant ->set_value(nInCirculation); | |
0 | 1588 |
1589 // TODO: Add objectMonitor leak detection. | |
1590 // Audit/inventory the objectMonitors -- make sure they're all accounted for. | |
1591 GVars.stwRandom = os::random() ; | |
1592 GVars.stwCycle ++ ; | |
1593 } | |
1594 | |
1878 | 1595 // Monitor cleanup on JavaThread::exit |
0 | 1596 |
1878 | 1597 // Iterate through monitor cache and attempt to release thread's monitors |
1598 // Gives up on a particular monitor if an exception occurs, but continues | |
1599 // the overall iteration, swallowing the exception. | |
1600 class ReleaseJavaMonitorsClosure: public MonitorClosure { | |
1601 private: | |
1602 TRAPS; | |
0 | 1603 |
1878 | 1604 public: |
1605 ReleaseJavaMonitorsClosure(Thread* thread) : THREAD(thread) {} | |
1606 void do_monitor(ObjectMonitor* mid) { | |
1607 if (mid->owner() == THREAD) { | |
1608 (void)mid->complete_exit(CHECK); | |
0 | 1609 } |
1610 } | |
1878 | 1611 }; |
0 | 1612 |
1878 | 1613 // Release all inflated monitors owned by THREAD. Lightweight monitors are |
1614 // ignored. This is meant to be called during JNI thread detach which assumes | |
1615 // all remaining monitors are heavyweight. All exceptions are swallowed. | |
1616 // Scanning the extant monitor list can be time consuming. | |
1617 // A simple optimization is to add a per-thread flag that indicates a thread | |
1618 // called jni_monitorenter() during its lifetime. | |
0 | 1619 // |
1878 | 1620 // Instead of No_Savepoint_Verifier it might be cheaper to |
1621 // use an idiom of the form: | |
1622 // auto int tmp = SafepointSynchronize::_safepoint_counter ; | |
1623 // <code that must not run at safepoint> | |
1624 // guarantee (((tmp ^ _safepoint_counter) | (tmp & 1)) == 0) ; | |
1625 // Since the tests are extremely cheap we could leave them enabled | |
1626 // for normal product builds. | |
0 | 1627 |
1878 | 1628 void ObjectSynchronizer::release_monitors_owned_by_thread(TRAPS) { |
1629 assert(THREAD == JavaThread::current(), "must be current Java thread"); | |
1630 No_Safepoint_Verifier nsv ; | |
1631 ReleaseJavaMonitorsClosure rjmc(THREAD); | |
1632 Thread::muxAcquire(&ListLock, "release_monitors_owned_by_thread"); | |
1633 ObjectSynchronizer::monitors_iterate(&rjmc); | |
1634 Thread::muxRelease(&ListLock); | |
1635 THREAD->clear_pending_exception(); | |
0 | 1636 } |
1637 | |
1638 //------------------------------------------------------------------------------ | |
1639 // Non-product code | |
1640 | |
1641 #ifndef PRODUCT | |
1642 | |
1643 // Verify all monitors in the monitor cache, the verification is weak. | |
1644 void ObjectSynchronizer::verify() { | |
1645 ObjectMonitor* block = gBlockList; | |
1646 ObjectMonitor* mid; | |
1647 while (block) { | |
1648 assert(block->object() == CHAINMARKER, "must be a block header"); | |
1649 for (int i = 1; i < _BLOCKSIZE; i++) { | |
1650 mid = block + i; | |
1651 oop object = (oop) mid->object(); | |
1652 if (object != NULL) { | |
1653 mid->verify(); | |
1654 } | |
1655 } | |
1656 block = (ObjectMonitor*) block->FreeNext; | |
1657 } | |
1658 } | |
1659 | |
1660 // Check if monitor belongs to the monitor cache | |
1661 // The list is grow-only so it's *relatively* safe to traverse | |
1662 // the list of extant blocks without taking a lock. | |
1663 | |
1664 int ObjectSynchronizer::verify_objmon_isinpool(ObjectMonitor *monitor) { | |
1665 ObjectMonitor* block = gBlockList; | |
1666 | |
1667 while (block) { | |
1668 assert(block->object() == CHAINMARKER, "must be a block header"); | |
1669 if (monitor > &block[0] && monitor < &block[_BLOCKSIZE]) { | |
1670 address mon = (address) monitor; | |
1671 address blk = (address) block; | |
1672 size_t diff = mon - blk; | |
1673 assert((diff % sizeof(ObjectMonitor)) == 0, "check"); | |
1674 return 1; | |
1675 } | |
1676 block = (ObjectMonitor*) block->FreeNext; | |
1677 } | |
1678 return 0; | |
1679 } | |
1680 | |
1681 #endif |