hotspot/src/share/vm/runtime/objectMonitor.cpp
author pliden
Fri, 11 Apr 2014 12:29:24 +0200
changeset 24094 5dbf1f44de18
parent 22881 b16d7faa638d
child 24351 61b33cc6d3cf
permissions -rw-r--r--
8039147: Cleanup SuspendibleThreadSet Reviewed-by: brutisso, tschatzl, mgerdin
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/*
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 * Copyright (c) 1998, 2014, Oracle and/or its affiliates. All rights reserved.
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 *
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 * This code is free software; you can redistribute it and/or modify it
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 * under the terms of the GNU General Public License version 2 only, as
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 * published by the Free Software Foundation.
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 *
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 * This code is distributed in the hope that it will be useful, but WITHOUT
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 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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 * version 2 for more details (a copy is included in the LICENSE file that
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 * accompanied this code).
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 *
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 * You should have received a copy of the GNU General Public License version
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 * 2 along with this work; if not, write to the Free Software Foundation,
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 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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 *
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 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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 * or visit www.oracle.com if you need additional information or have any
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 * questions.
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 *
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 */
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#include "precompiled.hpp"
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#include "classfile/vmSymbols.hpp"
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#include "memory/resourceArea.hpp"
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#include "oops/markOop.hpp"
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#include "oops/oop.inline.hpp"
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#include "runtime/handles.inline.hpp"
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#include "runtime/interfaceSupport.hpp"
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#include "runtime/mutexLocker.hpp"
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#include "runtime/objectMonitor.hpp"
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#include "runtime/objectMonitor.inline.hpp"
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#include "runtime/osThread.hpp"
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#include "runtime/stubRoutines.hpp"
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#include "runtime/thread.inline.hpp"
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#include "services/threadService.hpp"
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#include "trace/tracing.hpp"
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#include "trace/traceMacros.hpp"
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#include "utilities/dtrace.hpp"
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#include "utilities/macros.hpp"
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#include "utilities/preserveException.hpp"
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#ifdef TARGET_OS_FAMILY_linux
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# include "os_linux.inline.hpp"
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#endif
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#ifdef TARGET_OS_FAMILY_solaris
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# include "os_solaris.inline.hpp"
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#endif
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#ifdef TARGET_OS_FAMILY_windows
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# include "os_windows.inline.hpp"
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#endif
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#ifdef TARGET_OS_FAMILY_bsd
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# include "os_bsd.inline.hpp"
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#endif
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#if defined(__GNUC__) && !defined(IA64) && !defined(PPC64)
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  // Need to inhibit inlining for older versions of GCC to avoid build-time failures
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  #define ATTR __attribute__((noinline))
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#else
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  #define ATTR
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#endif
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#ifdef DTRACE_ENABLED
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// Only bother with this argument setup if dtrace is available
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// TODO-FIXME: probes should not fire when caller is _blocked.  assert() accordingly.
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#define DTRACE_MONITOR_PROBE_COMMON(obj, thread)                           \
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  char* bytes = NULL;                                                      \
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  int len = 0;                                                             \
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  jlong jtid = SharedRuntime::get_java_tid(thread);                        \
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  Symbol* klassname = ((oop)obj)->klass()->name();                         \
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  if (klassname != NULL) {                                                 \
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    bytes = (char*)klassname->bytes();                                     \
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    len = klassname->utf8_length();                                        \
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  }
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#define DTRACE_MONITOR_WAIT_PROBE(monitor, obj, thread, millis)            \
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  {                                                                        \
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    if (DTraceMonitorProbes) {                                            \
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      DTRACE_MONITOR_PROBE_COMMON(obj, thread);                            \
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      HOTSPOT_MONITOR_WAIT(jtid,                                           \
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                       (monitor), bytes, len, (millis));                   \
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    }                                                                      \
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  }
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#define HOTSPOT_MONITOR_contended__enter HOTSPOT_MONITOR_CONTENDED_ENTER
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#define HOTSPOT_MONITOR_contended__entered HOTSPOT_MONITOR_CONTENDED_ENTERED
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#define HOTSPOT_MONITOR_contended__exit HOTSPOT_MONITOR_CONTENDED_EXIT
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#define HOTSPOT_MONITOR_notify HOTSPOT_MONITOR_NOTIFY
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#define HOTSPOT_MONITOR_notifyAll HOTSPOT_MONITOR_NOTIFYALL
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#define DTRACE_MONITOR_PROBE(probe, monitor, obj, thread)                  \
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  {                                                                        \
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    if (DTraceMonitorProbes) {                                            \
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      DTRACE_MONITOR_PROBE_COMMON(obj, thread);                            \
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      HOTSPOT_MONITOR_##probe(jtid,                                               \
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                       (uintptr_t)(monitor), bytes, len);                  \
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    }                                                                      \
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  }
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#else //  ndef DTRACE_ENABLED
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#define DTRACE_MONITOR_WAIT_PROBE(obj, thread, millis, mon)    {;}
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#define DTRACE_MONITOR_PROBE(probe, obj, thread, mon)          {;}
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#endif // ndef DTRACE_ENABLED
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// Tunables ...
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// The knob* variables are effectively final.  Once set they should
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// never be modified hence.  Consider using __read_mostly with GCC.
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int ObjectMonitor::Knob_Verbose    = 0 ;
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int ObjectMonitor::Knob_SpinLimit  = 5000 ;    // derived by an external tool -
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static int Knob_LogSpins           = 0 ;       // enable jvmstat tally for spins
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static int Knob_HandOff            = 0 ;
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static int Knob_ReportSettings     = 0 ;
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static int Knob_SpinBase           = 0 ;       // Floor AKA SpinMin
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static int Knob_SpinBackOff        = 0 ;       // spin-loop backoff
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static int Knob_CASPenalty         = -1 ;      // Penalty for failed CAS
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static int Knob_OXPenalty          = -1 ;      // Penalty for observed _owner change
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static int Knob_SpinSetSucc        = 1 ;       // spinners set the _succ field
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static int Knob_SpinEarly          = 1 ;
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static int Knob_SuccEnabled        = 1 ;       // futile wake throttling
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static int Knob_SuccRestrict       = 0 ;       // Limit successors + spinners to at-most-one
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static int Knob_MaxSpinners        = -1 ;      // Should be a function of # CPUs
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static int Knob_Bonus              = 100 ;     // spin success bonus
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static int Knob_BonusB             = 100 ;     // spin success bonus
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static int Knob_Penalty            = 200 ;     // spin failure penalty
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static int Knob_Poverty            = 1000 ;
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static int Knob_SpinAfterFutile    = 1 ;       // Spin after returning from park()
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static int Knob_FixedSpin          = 0 ;
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static int Knob_OState             = 3 ;       // Spinner checks thread state of _owner
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static int Knob_UsePause           = 1 ;
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static int Knob_ExitPolicy         = 0 ;
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static int Knob_PreSpin            = 10 ;      // 20-100 likely better
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static int Knob_ResetEvent         = 0 ;
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static int BackOffMask             = 0 ;
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static int Knob_FastHSSEC          = 0 ;
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static int Knob_MoveNotifyee       = 2 ;       // notify() - disposition of notifyee
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static int Knob_QMode              = 0 ;       // EntryList-cxq policy - queue discipline
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static volatile int InitDone       = 0 ;
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#define TrySpin TrySpin_VaryDuration
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// -----------------------------------------------------------------------------
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// Theory of operations -- Monitors lists, thread residency, etc:
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//
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// * A thread acquires ownership of a monitor by successfully
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//   CAS()ing the _owner field from null to non-null.
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//
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// * Invariant: A thread appears on at most one monitor list --
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//   cxq, EntryList or WaitSet -- at any one time.
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//
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// * Contending threads "push" themselves onto the cxq with CAS
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//   and then spin/park.
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//
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// * After a contending thread eventually acquires the lock it must
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//   dequeue itself from either the EntryList or the cxq.
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//
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// * The exiting thread identifies and unparks an "heir presumptive"
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//   tentative successor thread on the EntryList.  Critically, the
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//   exiting thread doesn't unlink the successor thread from the EntryList.
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//   After having been unparked, the wakee will recontend for ownership of
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//   the monitor.   The successor (wakee) will either acquire the lock or
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//   re-park itself.
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//
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//   Succession is provided for by a policy of competitive handoff.
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//   The exiting thread does _not_ grant or pass ownership to the
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//   successor thread.  (This is also referred to as "handoff" succession").
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//   Instead the exiting thread releases ownership and possibly wakes
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//   a successor, so the successor can (re)compete for ownership of the lock.
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//   If the EntryList is empty but the cxq is populated the exiting
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//   thread will drain the cxq into the EntryList.  It does so by
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//   by detaching the cxq (installing null with CAS) and folding
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//   the threads from the cxq into the EntryList.  The EntryList is
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//   doubly linked, while the cxq is singly linked because of the
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//   CAS-based "push" used to enqueue recently arrived threads (RATs).
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//
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// * Concurrency invariants:
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//
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//   -- only the monitor owner may access or mutate the EntryList.
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//      The mutex property of the monitor itself protects the EntryList
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//      from concurrent interference.
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//   -- Only the monitor owner may detach the cxq.
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//
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// * The monitor entry list operations avoid locks, but strictly speaking
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//   they're not lock-free.  Enter is lock-free, exit is not.
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//   See http://j2se.east/~dice/PERSIST/040825-LockFreeQueues.html
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//
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// * The cxq can have multiple concurrent "pushers" but only one concurrent
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//   detaching thread.  This mechanism is immune from the ABA corruption.
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//   More precisely, the CAS-based "push" onto cxq is ABA-oblivious.
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//
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// * Taken together, the cxq and the EntryList constitute or form a
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//   single logical queue of threads stalled trying to acquire the lock.
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//   We use two distinct lists to improve the odds of a constant-time
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//   dequeue operation after acquisition (in the ::enter() epilogue) and
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//   to reduce heat on the list ends.  (c.f. Michael Scott's "2Q" algorithm).
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//   A key desideratum is to minimize queue & monitor metadata manipulation
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//   that occurs while holding the monitor lock -- that is, we want to
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//   minimize monitor lock holds times.  Note that even a small amount of
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//   fixed spinning will greatly reduce the # of enqueue-dequeue operations
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//   on EntryList|cxq.  That is, spinning relieves contention on the "inner"
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//   locks and monitor metadata.
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//
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//   Cxq points to the the set of Recently Arrived Threads attempting entry.
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//   Because we push threads onto _cxq with CAS, the RATs must take the form of
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//   a singly-linked LIFO.  We drain _cxq into EntryList  at unlock-time when
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//   the unlocking thread notices that EntryList is null but _cxq is != null.
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//
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//   The EntryList is ordered by the prevailing queue discipline and
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//   can be organized in any convenient fashion, such as a doubly-linked list or
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//   a circular doubly-linked list.  Critically, we want insert and delete operations
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//   to operate in constant-time.  If we need a priority queue then something akin
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//   to Solaris' sleepq would work nicely.  Viz.,
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//   http://agg.eng/ws/on10_nightly/source/usr/src/uts/common/os/sleepq.c.
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//   Queue discipline is enforced at ::exit() time, when the unlocking thread
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//   drains the cxq into the EntryList, and orders or reorders the threads on the
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//   EntryList accordingly.
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//
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//   Barring "lock barging", this mechanism provides fair cyclic ordering,
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//   somewhat similar to an elevator-scan.
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//
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// * The monitor synchronization subsystem avoids the use of native
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//   synchronization primitives except for the narrow platform-specific
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//   park-unpark abstraction.  See the comments in os_solaris.cpp regarding
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//   the semantics of park-unpark.  Put another way, this monitor implementation
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//   depends only on atomic operations and park-unpark.  The monitor subsystem
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//   manages all RUNNING->BLOCKED and BLOCKED->READY transitions while the
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//   underlying OS manages the READY<->RUN transitions.
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//
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// * Waiting threads reside on the WaitSet list -- wait() puts
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//   the caller onto the WaitSet.
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//
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// * notify() or notifyAll() simply transfers threads from the WaitSet to
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//   either the EntryList or cxq.  Subsequent exit() operations will
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//   unpark the notifyee.  Unparking a notifee in notify() is inefficient -
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//   it's likely the notifyee would simply impale itself on the lock held
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//   by the notifier.
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//
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// * An interesting alternative is to encode cxq as (List,LockByte) where
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//   the LockByte is 0 iff the monitor is owned.  _owner is simply an auxiliary
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//   variable, like _recursions, in the scheme.  The threads or Events that form
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//   the list would have to be aligned in 256-byte addresses.  A thread would
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//   try to acquire the lock or enqueue itself with CAS, but exiting threads
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//   could use a 1-0 protocol and simply STB to set the LockByte to 0.
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//   Note that is is *not* word-tearing, but it does presume that full-word
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//   CAS operations are coherent with intermix with STB operations.  That's true
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//   on most common processors.
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//
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// * See also http://blogs.sun.com/dave
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// -----------------------------------------------------------------------------
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// Enter support
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bool ObjectMonitor::try_enter(Thread* THREAD) {
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  if (THREAD != _owner) {
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    if (THREAD->is_lock_owned ((address)_owner)) {
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       assert(_recursions == 0, "internal state error");
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       _owner = THREAD ;
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       _recursions = 1 ;
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       OwnerIsThread = 1 ;
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       return true;
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    }
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    if (Atomic::cmpxchg_ptr (THREAD, &_owner, NULL) != NULL) {
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      return false;
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    }
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    return true;
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  } else {
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    _recursions++;
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    return true;
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  }
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}
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void ATTR ObjectMonitor::enter(TRAPS) {
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  // The following code is ordered to check the most common cases first
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  // and to reduce RTS->RTO cache line upgrades on SPARC and IA32 processors.
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  Thread * const Self = THREAD ;
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  void * cur ;
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  cur = Atomic::cmpxchg_ptr (Self, &_owner, NULL) ;
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  if (cur == NULL) {
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     // Either ASSERT _recursions == 0 or explicitly set _recursions = 0.
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     assert (_recursions == 0   , "invariant") ;
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     assert (_owner      == Self, "invariant") ;
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     // CONSIDER: set or assert OwnerIsThread == 1
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     return ;
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  }
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  if (cur == Self) {
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     // TODO-FIXME: check for integer overflow!  BUGID 6557169.
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     _recursions ++ ;
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     return ;
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  }
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  if (Self->is_lock_owned ((address)cur)) {
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    assert (_recursions == 0, "internal state error");
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    _recursions = 1 ;
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    // Commute owner from a thread-specific on-stack BasicLockObject address to
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    // a full-fledged "Thread *".
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    _owner = Self ;
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    OwnerIsThread = 1 ;
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    return ;
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  }
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  // We've encountered genuine contention.
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  assert (Self->_Stalled == 0, "invariant") ;
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  Self->_Stalled = intptr_t(this) ;
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  // Try one round of spinning *before* enqueueing Self
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  // and before going through the awkward and expensive state
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  // transitions.  The following spin is strictly optional ...
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  // Note that if we acquire the monitor from an initial spin
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  // we forgo posting JVMTI events and firing DTRACE probes.
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  if (Knob_SpinEarly && TrySpin (Self) > 0) {
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     assert (_owner == Self      , "invariant") ;
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     assert (_recursions == 0    , "invariant") ;
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   325
     assert (((oop)(object()))->mark() == markOopDesc::encode(this), "invariant") ;
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   326
     Self->_Stalled = 0 ;
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   327
     return ;
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   328
  }
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   329
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   330
  assert (_owner != Self          , "invariant") ;
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   331
  assert (_succ  != Self          , "invariant") ;
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   332
  assert (Self->is_Java_thread()  , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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   333
  JavaThread * jt = (JavaThread *) Self ;
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   334
  assert (!SafepointSynchronize::is_at_safepoint(), "invariant") ;
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   335
  assert (jt->thread_state() != _thread_blocked   , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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   336
  assert (this->object() != NULL  , "invariant") ;
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diff changeset
   337
  assert (_count >= 0, "invariant") ;
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diff changeset
   338
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   339
  // Prevent deflation at STW-time.  See deflate_idle_monitors() and is_busy().
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   340
  // Ensure the object-monitor relationship remains stable while there's contention.
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   341
  Atomic::inc_ptr(&_count);
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diff changeset
   342
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   343
  EventJavaMonitorEnter event;
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   344
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   345
  { // Change java thread status to indicate blocked on monitor enter.
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   346
    JavaThreadBlockedOnMonitorEnterState jtbmes(jt, this);
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   347
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   348
    DTRACE_MONITOR_PROBE(contended__enter, this, object(), jt);
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   349
    if (JvmtiExport::should_post_monitor_contended_enter()) {
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   350
      JvmtiExport::post_monitor_contended_enter(jt, this);
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   351
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   352
      // The current thread does not yet own the monitor and does not
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   353
      // yet appear on any queues that would get it made the successor.
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   354
      // This means that the JVMTI_EVENT_MONITOR_CONTENDED_ENTER event
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
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   355
      // handler cannot accidentally consume an unpark() meant for the
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
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   356
      // ParkEvent associated with this ObjectMonitor.
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   357
    }
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   358
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   359
    OSThreadContendState osts(Self->osthread());
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   360
    ThreadBlockInVM tbivm(jt);
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diff changeset
   361
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   362
    Self->set_current_pending_monitor(this);
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   363
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   364
    // TODO-FIXME: change the following for(;;) loop to straight-line code.
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diff changeset
   365
    for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   366
      jt->set_suspend_equivalent();
dc9b63952682 6988353: refactor contended sync subsystem
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   367
      // cleared by handle_special_suspend_equivalent_condition()
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   368
      // or java_suspend_self()
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diff changeset
   369
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   370
      EnterI (THREAD) ;
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diff changeset
   371
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   372
      if (!ExitSuspendEquivalent(jt)) break ;
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diff changeset
   373
dc9b63952682 6988353: refactor contended sync subsystem
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   374
      //
dc9b63952682 6988353: refactor contended sync subsystem
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   375
      // We have acquired the contended monitor, but while we were
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   376
      // waiting another thread suspended us. We don't want to enter
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   377
      // the monitor while suspended because that would surprise the
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   378
      // thread that suspended us.
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   379
      //
dc9b63952682 6988353: refactor contended sync subsystem
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   380
          _recursions = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   381
      _succ = NULL ;
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diff changeset
   382
      exit (false, Self) ;
6975
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parents:
diff changeset
   383
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   384
      jt->java_suspend_self();
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   385
    }
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   386
    Self->set_current_pending_monitor(NULL);
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   387
  }
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   388
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   389
  Atomic::dec_ptr(&_count);
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   390
  assert (_count >= 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   391
  Self->_Stalled = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   392
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   393
  // Must either set _recursions = 0 or ASSERT _recursions == 0.
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   394
  assert (_recursions == 0     , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   395
  assert (_owner == Self       , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   396
  assert (_succ  != Self       , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   397
  assert (((oop)(object()))->mark() == markOopDesc::encode(this), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   398
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   399
  // The thread -- now the owner -- is back in vm mode.
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   400
  // Report the glorious news via TI,DTrace and jvmstat.
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   401
  // The probe effect is non-trivial.  All the reportage occurs
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   402
  // while we hold the monitor, increasing the length of the critical
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   403
  // section.  Amdahl's parallel speedup law comes vividly into play.
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   404
  //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   405
  // Another option might be to aggregate the events (thread local or
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   406
  // per-monitor aggregation) and defer reporting until a more opportune
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   407
  // time -- such as next time some thread encounters contention but has
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   408
  // yet to acquire the lock.  While spinning that thread could
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   409
  // spinning we could increment JVMStat counters, etc.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   410
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   411
  DTRACE_MONITOR_PROBE(contended__entered, this, object(), jt);
dc9b63952682 6988353: refactor contended sync subsystem
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diff changeset
   412
  if (JvmtiExport::should_post_monitor_contended_entered()) {
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   413
    JvmtiExport::post_monitor_contended_entered(jt, this);
22753
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
   414
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
   415
    // The current thread already owns the monitor and is not going to
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
   416
    // call park() for the remainder of the monitor enter protocol. So
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
   417
    // it doesn't matter if the JVMTI_EVENT_MONITOR_CONTENDED_ENTERED
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
   418
    // event handler consumed an unpark() issued by the thread that
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
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diff changeset
   419
    // just exited the monitor.
6975
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   420
  }
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   421
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   422
  if (event.should_commit()) {
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
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diff changeset
   423
    event.set_klass(((oop)this->object())->klass());
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
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diff changeset
   424
    event.set_previousOwner((TYPE_JAVALANGTHREAD)_previous_owner_tid);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   425
    event.set_address((TYPE_ADDRESS)(uintptr_t)(this->object_addr()));
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   426
    event.commit();
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   427
  }
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   428
6975
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   429
  if (ObjectMonitor::_sync_ContendedLockAttempts != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   430
     ObjectMonitor::_sync_ContendedLockAttempts->inc() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   431
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   432
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   433
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   434
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   435
// Caveat: TryLock() is not necessarily serializing if it returns failure.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   436
// Callers must compensate as needed.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   437
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   438
int ObjectMonitor::TryLock (Thread * Self) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   439
   for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   440
      void * own = _owner ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   441
      if (own != NULL) return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   442
      if (Atomic::cmpxchg_ptr (Self, &_owner, NULL) == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   443
         // Either guarantee _recursions == 0 or set _recursions = 0.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   444
         assert (_recursions == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   445
         assert (_owner == Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   446
         // CONSIDER: set or assert that OwnerIsThread == 1
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   447
         return 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   448
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   449
      // The lock had been free momentarily, but we lost the race to the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   450
      // Interference -- the CAS failed.
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   451
      // We can either return -1 or retry.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   452
      // Retry doesn't make as much sense because the lock was just acquired.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   453
      if (true) return -1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   454
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   455
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   456
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   457
void ATTR ObjectMonitor::EnterI (TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   458
    Thread * Self = THREAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   459
    assert (Self->is_Java_thread(), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   460
    assert (((JavaThread *) Self)->thread_state() == _thread_blocked   , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   461
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   462
    // Try the lock - TATAS
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   463
    if (TryLock (Self) > 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   464
        assert (_succ != Self              , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   465
        assert (_owner == Self             , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
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parents:
diff changeset
   466
        assert (_Responsible != Self       , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   467
        return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   468
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   469
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   470
    DeferredInitialize () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   471
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   472
    // We try one round of spinning *before* enqueueing Self.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   473
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   474
    // If the _owner is ready but OFFPROC we could use a YieldTo()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   475
    // operation to donate the remainder of this thread's quantum
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   476
    // to the owner.  This has subtle but beneficial affinity
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   477
    // effects.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   478
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   479
    if (TrySpin (Self) > 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   480
        assert (_owner == Self        , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   481
        assert (_succ != Self         , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   482
        assert (_Responsible != Self  , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   483
        return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   484
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   485
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   486
    // The Spin failed -- Enqueue and park the thread ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   487
    assert (_succ  != Self            , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   488
    assert (_owner != Self            , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   489
    assert (_Responsible != Self      , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   490
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   491
    // Enqueue "Self" on ObjectMonitor's _cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   492
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   493
    // Node acts as a proxy for Self.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   494
    // As an aside, if were to ever rewrite the synchronization code mostly
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   495
    // in Java, WaitNodes, ObjectMonitors, and Events would become 1st-class
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   496
    // Java objects.  This would avoid awkward lifecycle and liveness issues,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   497
    // as well as eliminate a subset of ABA issues.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   498
    // TODO: eliminate ObjectWaiter and enqueue either Threads or Events.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   499
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   500
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   501
    ObjectWaiter node(Self) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   502
    Self->_ParkEvent->reset() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   503
    node._prev   = (ObjectWaiter *) 0xBAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   504
    node.TState  = ObjectWaiter::TS_CXQ ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   505
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   506
    // Push "Self" onto the front of the _cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   507
    // Once on cxq/EntryList, Self stays on-queue until it acquires the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   508
    // Note that spinning tends to reduce the rate at which threads
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   509
    // enqueue and dequeue on EntryList|cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   510
    ObjectWaiter * nxt ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   511
    for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   512
        node._next = nxt = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   513
        if (Atomic::cmpxchg_ptr (&node, &_cxq, nxt) == nxt) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   514
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   515
        // Interference - the CAS failed because _cxq changed.  Just retry.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   516
        // As an optional optimization we retry the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   517
        if (TryLock (Self) > 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   518
            assert (_succ != Self         , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   519
            assert (_owner == Self        , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   520
            assert (_Responsible != Self  , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   521
            return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   522
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   523
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   524
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   525
    // Check for cxq|EntryList edge transition to non-null.  This indicates
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   526
    // the onset of contention.  While contention persists exiting threads
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   527
    // will use a ST:MEMBAR:LD 1-1 exit protocol.  When contention abates exit
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   528
    // operations revert to the faster 1-0 mode.  This enter operation may interleave
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   529
    // (race) a concurrent 1-0 exit operation, resulting in stranding, so we
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   530
    // arrange for one of the contending thread to use a timed park() operations
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   531
    // to detect and recover from the race.  (Stranding is form of progress failure
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   532
    // where the monitor is unlocked but all the contending threads remain parked).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   533
    // That is, at least one of the contended threads will periodically poll _owner.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   534
    // One of the contending threads will become the designated "Responsible" thread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   535
    // The Responsible thread uses a timed park instead of a normal indefinite park
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   536
    // operation -- it periodically wakes and checks for and recovers from potential
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   537
    // strandings admitted by 1-0 exit operations.   We need at most one Responsible
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   538
    // thread per-monitor at any given moment.  Only threads on cxq|EntryList may
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   539
    // be responsible for a monitor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   540
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   541
    // Currently, one of the contended threads takes on the added role of "Responsible".
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   542
    // A viable alternative would be to use a dedicated "stranding checker" thread
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   543
    // that periodically iterated over all the threads (or active monitors) and unparked
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   544
    // successors where there was risk of stranding.  This would help eliminate the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   545
    // timer scalability issues we see on some platforms as we'd only have one thread
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   546
    // -- the checker -- parked on a timer.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   547
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   548
    if ((SyncFlags & 16) == 0 && nxt == NULL && _EntryList == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   549
        // Try to assume the role of responsible thread for the monitor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   550
        // CONSIDER:  ST vs CAS vs { if (Responsible==null) Responsible=Self }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   551
        Atomic::cmpxchg_ptr (Self, &_Responsible, NULL) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   552
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   553
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   554
    // The lock have been released while this thread was occupied queueing
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   555
    // itself onto _cxq.  To close the race and avoid "stranding" and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   556
    // progress-liveness failure we must resample-retry _owner before parking.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   557
    // Note the Dekker/Lamport duality: ST cxq; MEMBAR; LD Owner.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   558
    // In this case the ST-MEMBAR is accomplished with CAS().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   559
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   560
    // TODO: Defer all thread state transitions until park-time.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   561
    // Since state transitions are heavy and inefficient we'd like
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   562
    // to defer the state transitions until absolutely necessary,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   563
    // and in doing so avoid some transitions ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   564
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   565
    TEVENT (Inflated enter - Contention) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   566
    int nWakeups = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   567
    int RecheckInterval = 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   568
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   569
    for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   570
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   571
        if (TryLock (Self) > 0) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   572
        assert (_owner != Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   573
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   574
        if ((SyncFlags & 2) && _Responsible == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   575
           Atomic::cmpxchg_ptr (Self, &_Responsible, NULL) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   576
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   577
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   578
        // park self
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   579
        if (_Responsible == Self || (SyncFlags & 1)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   580
            TEVENT (Inflated enter - park TIMED) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   581
            Self->_ParkEvent->park ((jlong) RecheckInterval) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   582
            // Increase the RecheckInterval, but clamp the value.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   583
            RecheckInterval *= 8 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   584
            if (RecheckInterval > 1000) RecheckInterval = 1000 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   585
        } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   586
            TEVENT (Inflated enter - park UNTIMED) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   587
            Self->_ParkEvent->park() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   588
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   589
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   590
        if (TryLock(Self) > 0) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   591
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   592
        // The lock is still contested.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   593
        // Keep a tally of the # of futile wakeups.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   594
        // Note that the counter is not protected by a lock or updated by atomics.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   595
        // That is by design - we trade "lossy" counters which are exposed to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   596
        // races during updates for a lower probe effect.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   597
        TEVENT (Inflated enter - Futile wakeup) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   598
        if (ObjectMonitor::_sync_FutileWakeups != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   599
           ObjectMonitor::_sync_FutileWakeups->inc() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   600
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   601
        ++ nWakeups ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   602
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   603
        // Assuming this is not a spurious wakeup we'll normally find _succ == Self.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   604
        // We can defer clearing _succ until after the spin completes
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   605
        // TrySpin() must tolerate being called with _succ == Self.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   606
        // Try yet another round of adaptive spinning.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   607
        if ((Knob_SpinAfterFutile & 1) && TrySpin (Self) > 0) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   608
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   609
        // We can find that we were unpark()ed and redesignated _succ while
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   610
        // we were spinning.  That's harmless.  If we iterate and call park(),
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   611
        // park() will consume the event and return immediately and we'll
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   612
        // just spin again.  This pattern can repeat, leaving _succ to simply
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   613
        // spin on a CPU.  Enable Knob_ResetEvent to clear pending unparks().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   614
        // Alternately, we can sample fired() here, and if set, forgo spinning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   615
        // in the next iteration.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   616
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   617
        if ((Knob_ResetEvent & 1) && Self->_ParkEvent->fired()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   618
           Self->_ParkEvent->reset() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   619
           OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   620
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   621
        if (_succ == Self) _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   622
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   623
        // Invariant: after clearing _succ a thread *must* retry _owner before parking.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   624
        OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   625
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   626
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   627
    // Egress :
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   628
    // Self has acquired the lock -- Unlink Self from the cxq or EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   629
    // Normally we'll find Self on the EntryList .
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   630
    // From the perspective of the lock owner (this thread), the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   631
    // EntryList is stable and cxq is prepend-only.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   632
    // The head of cxq is volatile but the interior is stable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   633
    // In addition, Self.TState is stable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   634
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   635
    assert (_owner == Self      , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   636
    assert (object() != NULL    , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   637
    // I'd like to write:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   638
    //   guarantee (((oop)(object()))->mark() == markOopDesc::encode(this), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   639
    // but as we're at a safepoint that's not safe.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   640
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   641
    UnlinkAfterAcquire (Self, &node) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   642
    if (_succ == Self) _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   643
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   644
    assert (_succ != Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   645
    if (_Responsible == Self) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   646
        _Responsible = NULL ;
15234
ff1f01be5fbd 8004902: correctness fixes motivated by contended locking work (6607129)
dcubed
parents: 14583
diff changeset
   647
        OrderAccess::fence(); // Dekker pivot-point
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   648
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   649
        // We may leave threads on cxq|EntryList without a designated
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   650
        // "Responsible" thread.  This is benign.  When this thread subsequently
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   651
        // exits the monitor it can "see" such preexisting "old" threads --
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   652
        // threads that arrived on the cxq|EntryList before the fence, above --
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   653
        // by LDing cxq|EntryList.  Newly arrived threads -- that is, threads
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   654
        // that arrive on cxq after the ST:MEMBAR, above -- will set Responsible
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   655
        // non-null and elect a new "Responsible" timer thread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   656
        //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   657
        // This thread executes:
22551
9bf46d16dcc6 8025856: Fix typos in the GC code
jwilhelm
parents: 18025
diff changeset
   658
        //    ST Responsible=null; MEMBAR    (in enter epilogue - here)
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   659
        //    LD cxq|EntryList               (in subsequent exit)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   660
        //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   661
        // Entering threads in the slow/contended path execute:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   662
        //    ST cxq=nonnull; MEMBAR; LD Responsible (in enter prolog)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   663
        //    The (ST cxq; MEMBAR) is accomplished with CAS().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   664
        //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   665
        // The MEMBAR, above, prevents the LD of cxq|EntryList in the subsequent
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   666
        // exit operation from floating above the ST Responsible=null.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   667
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   668
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   669
    // We've acquired ownership with CAS().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   670
    // CAS is serializing -- it has MEMBAR/FENCE-equivalent semantics.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   671
    // But since the CAS() this thread may have also stored into _succ,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   672
    // EntryList, cxq or Responsible.  These meta-data updates must be
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   673
    // visible __before this thread subsequently drops the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   674
    // Consider what could occur if we didn't enforce this constraint --
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   675
    // STs to monitor meta-data and user-data could reorder with (become
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   676
    // visible after) the ST in exit that drops ownership of the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   677
    // Some other thread could then acquire the lock, but observe inconsistent
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   678
    // or old monitor meta-data and heap data.  That violates the JMM.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   679
    // To that end, the 1-0 exit() operation must have at least STST|LDST
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   680
    // "release" barrier semantics.  Specifically, there must be at least a
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   681
    // STST|LDST barrier in exit() before the ST of null into _owner that drops
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   682
    // the lock.   The barrier ensures that changes to monitor meta-data and data
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   683
    // protected by the lock will be visible before we release the lock, and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   684
    // therefore before some other thread (CPU) has a chance to acquire the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   685
    // See also: http://gee.cs.oswego.edu/dl/jmm/cookbook.html.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   686
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   687
    // Critically, any prior STs to _succ or EntryList must be visible before
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   688
    // the ST of null into _owner in the *subsequent* (following) corresponding
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   689
    // monitorexit.  Recall too, that in 1-0 mode monitorexit does not necessarily
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   690
    // execute a serializing instruction.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   691
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   692
    if (SyncFlags & 8) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   693
       OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   694
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   695
    return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   696
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   697
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   698
// ReenterI() is a specialized inline form of the latter half of the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   699
// contended slow-path from EnterI().  We use ReenterI() only for
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   700
// monitor reentry in wait().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   701
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   702
// In the future we should reconcile EnterI() and ReenterI(), adding
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   703
// Knob_Reset and Knob_SpinAfterFutile support and restructuring the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   704
// loop accordingly.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   705
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   706
void ATTR ObjectMonitor::ReenterI (Thread * Self, ObjectWaiter * SelfNode) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   707
    assert (Self != NULL                , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   708
    assert (SelfNode != NULL            , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   709
    assert (SelfNode->_thread == Self   , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   710
    assert (_waiters > 0                , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   711
    assert (((oop)(object()))->mark() == markOopDesc::encode(this) , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   712
    assert (((JavaThread *)Self)->thread_state() != _thread_blocked, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   713
    JavaThread * jt = (JavaThread *) Self ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   714
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   715
    int nWakeups = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   716
    for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   717
        ObjectWaiter::TStates v = SelfNode->TState ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   718
        guarantee (v == ObjectWaiter::TS_ENTER || v == ObjectWaiter::TS_CXQ, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   719
        assert    (_owner != Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   720
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   721
        if (TryLock (Self) > 0) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   722
        if (TrySpin (Self) > 0) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   723
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   724
        TEVENT (Wait Reentry - parking) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   725
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   726
        // State transition wrappers around park() ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   727
        // ReenterI() wisely defers state transitions until
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   728
        // it's clear we must park the thread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   729
        {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   730
           OSThreadContendState osts(Self->osthread());
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   731
           ThreadBlockInVM tbivm(jt);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   732
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   733
           // cleared by handle_special_suspend_equivalent_condition()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   734
           // or java_suspend_self()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   735
           jt->set_suspend_equivalent();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   736
           if (SyncFlags & 1) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   737
              Self->_ParkEvent->park ((jlong)1000) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   738
           } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   739
              Self->_ParkEvent->park () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   740
           }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   741
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   742
           // were we externally suspended while we were waiting?
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   743
           for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   744
              if (!ExitSuspendEquivalent (jt)) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   745
              if (_succ == Self) { _succ = NULL; OrderAccess::fence(); }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   746
              jt->java_suspend_self();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   747
              jt->set_suspend_equivalent();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   748
           }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   749
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   750
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   751
        // Try again, but just so we distinguish between futile wakeups and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   752
        // successful wakeups.  The following test isn't algorithmically
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   753
        // necessary, but it helps us maintain sensible statistics.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   754
        if (TryLock(Self) > 0) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   755
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   756
        // The lock is still contested.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   757
        // Keep a tally of the # of futile wakeups.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   758
        // Note that the counter is not protected by a lock or updated by atomics.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   759
        // That is by design - we trade "lossy" counters which are exposed to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   760
        // races during updates for a lower probe effect.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   761
        TEVENT (Wait Reentry - futile wakeup) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   762
        ++ nWakeups ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   763
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   764
        // Assuming this is not a spurious wakeup we'll normally
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   765
        // find that _succ == Self.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   766
        if (_succ == Self) _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   767
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   768
        // Invariant: after clearing _succ a contending thread
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   769
        // *must* retry  _owner before parking.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   770
        OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   771
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   772
        if (ObjectMonitor::_sync_FutileWakeups != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   773
          ObjectMonitor::_sync_FutileWakeups->inc() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   774
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   775
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   776
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   777
    // Self has acquired the lock -- Unlink Self from the cxq or EntryList .
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   778
    // Normally we'll find Self on the EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   779
    // Unlinking from the EntryList is constant-time and atomic-free.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   780
    // From the perspective of the lock owner (this thread), the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   781
    // EntryList is stable and cxq is prepend-only.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   782
    // The head of cxq is volatile but the interior is stable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   783
    // In addition, Self.TState is stable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   784
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   785
    assert (_owner == Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   786
    assert (((oop)(object()))->mark() == markOopDesc::encode(this), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   787
    UnlinkAfterAcquire (Self, SelfNode) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   788
    if (_succ == Self) _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   789
    assert (_succ != Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   790
    SelfNode->TState = ObjectWaiter::TS_RUN ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   791
    OrderAccess::fence() ;      // see comments at the end of EnterI()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   792
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   793
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   794
// after the thread acquires the lock in ::enter().  Equally, we could defer
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   795
// unlinking the thread until ::exit()-time.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   796
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   797
void ObjectMonitor::UnlinkAfterAcquire (Thread * Self, ObjectWaiter * SelfNode)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   798
{
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   799
    assert (_owner == Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   800
    assert (SelfNode->_thread == Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   801
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   802
    if (SelfNode->TState == ObjectWaiter::TS_ENTER) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   803
        // Normal case: remove Self from the DLL EntryList .
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   804
        // This is a constant-time operation.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   805
        ObjectWaiter * nxt = SelfNode->_next ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   806
        ObjectWaiter * prv = SelfNode->_prev ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   807
        if (nxt != NULL) nxt->_prev = prv ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   808
        if (prv != NULL) prv->_next = nxt ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   809
        if (SelfNode == _EntryList ) _EntryList = nxt ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   810
        assert (nxt == NULL || nxt->TState == ObjectWaiter::TS_ENTER, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   811
        assert (prv == NULL || prv->TState == ObjectWaiter::TS_ENTER, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   812
        TEVENT (Unlink from EntryList) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   813
    } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   814
        guarantee (SelfNode->TState == ObjectWaiter::TS_CXQ, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   815
        // Inopportune interleaving -- Self is still on the cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   816
        // This usually means the enqueue of self raced an exiting thread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   817
        // Normally we'll find Self near the front of the cxq, so
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   818
        // dequeueing is typically fast.  If needbe we can accelerate
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   819
        // this with some MCS/CHL-like bidirectional list hints and advisory
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   820
        // back-links so dequeueing from the interior will normally operate
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   821
        // in constant-time.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   822
        // Dequeue Self from either the head (with CAS) or from the interior
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   823
        // with a linear-time scan and normal non-atomic memory operations.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   824
        // CONSIDER: if Self is on the cxq then simply drain cxq into EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   825
        // and then unlink Self from EntryList.  We have to drain eventually,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   826
        // so it might as well be now.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   827
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   828
        ObjectWaiter * v = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   829
        assert (v != NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   830
        if (v != SelfNode || Atomic::cmpxchg_ptr (SelfNode->_next, &_cxq, v) != v) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   831
            // The CAS above can fail from interference IFF a "RAT" arrived.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   832
            // In that case Self must be in the interior and can no longer be
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   833
            // at the head of cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   834
            if (v == SelfNode) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   835
                assert (_cxq != v, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   836
                v = _cxq ;          // CAS above failed - start scan at head of list
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   837
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   838
            ObjectWaiter * p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   839
            ObjectWaiter * q = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   840
            for (p = v ; p != NULL && p != SelfNode; p = p->_next) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   841
                q = p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   842
                assert (p->TState == ObjectWaiter::TS_CXQ, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   843
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   844
            assert (v != SelfNode,  "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   845
            assert (p == SelfNode,  "Node not found on cxq") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   846
            assert (p != _cxq,      "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   847
            assert (q != NULL,      "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   848
            assert (q->_next == p,  "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   849
            q->_next = p->_next ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   850
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   851
        TEVENT (Unlink from cxq) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   852
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   853
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   854
    // Diagnostic hygiene ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   855
    SelfNode->_prev  = (ObjectWaiter *) 0xBAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   856
    SelfNode->_next  = (ObjectWaiter *) 0xBAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   857
    SelfNode->TState = ObjectWaiter::TS_RUN ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   858
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   859
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   860
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   861
// Exit support
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   862
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   863
// exit()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   864
// ~~~~~~
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   865
// Note that the collector can't reclaim the objectMonitor or deflate
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   866
// the object out from underneath the thread calling ::exit() as the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   867
// thread calling ::exit() never transitions to a stable state.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   868
// This inhibits GC, which in turn inhibits asynchronous (and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   869
// inopportune) reclamation of "this".
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   870
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   871
// We'd like to assert that: (THREAD->thread_state() != _thread_blocked) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   872
// There's one exception to the claim above, however.  EnterI() can call
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   873
// exit() to drop a lock if the acquirer has been externally suspended.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   874
// In that case exit() is called with _thread_state as _thread_blocked,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   875
// but the monitor's _count field is > 0, which inhibits reclamation.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   876
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   877
// 1-0 exit
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   878
// ~~~~~~~~
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   879
// ::exit() uses a canonical 1-1 idiom with a MEMBAR although some of
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   880
// the fast-path operators have been optimized so the common ::exit()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   881
// operation is 1-0.  See i486.ad fast_unlock(), for instance.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   882
// The code emitted by fast_unlock() elides the usual MEMBAR.  This
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   883
// greatly improves latency -- MEMBAR and CAS having considerable local
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   884
// latency on modern processors -- but at the cost of "stranding".  Absent the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   885
// MEMBAR, a thread in fast_unlock() can race a thread in the slow
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   886
// ::enter() path, resulting in the entering thread being stranding
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   887
// and a progress-liveness failure.   Stranding is extremely rare.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   888
// We use timers (timed park operations) & periodic polling to detect
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   889
// and recover from stranding.  Potentially stranded threads periodically
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   890
// wake up and poll the lock.  See the usage of the _Responsible variable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   891
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   892
// The CAS() in enter provides for safety and exclusion, while the CAS or
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   893
// MEMBAR in exit provides for progress and avoids stranding.  1-0 locking
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   894
// eliminates the CAS/MEMBAR from the exist path, but it admits stranding.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   895
// We detect and recover from stranding with timers.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   896
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   897
// If a thread transiently strands it'll park until (a) another
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   898
// thread acquires the lock and then drops the lock, at which time the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   899
// exiting thread will notice and unpark the stranded thread, or, (b)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   900
// the timer expires.  If the lock is high traffic then the stranding latency
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   901
// will be low due to (a).  If the lock is low traffic then the odds of
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   902
// stranding are lower, although the worst-case stranding latency
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   903
// is longer.  Critically, we don't want to put excessive load in the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   904
// platform's timer subsystem.  We want to minimize both the timer injection
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   905
// rate (timers created/sec) as well as the number of timers active at
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   906
// any one time.  (more precisely, we want to minimize timer-seconds, which is
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   907
// the integral of the # of active timers at any instant over time).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   908
// Both impinge on OS scalability.  Given that, at most one thread parked on
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   909
// a monitor will use a timer.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   910
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   911
void ATTR ObjectMonitor::exit(bool not_suspended, TRAPS) {
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   912
   Thread * Self = THREAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   913
   if (THREAD != _owner) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   914
     if (THREAD->is_lock_owned((address) _owner)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   915
       // Transmute _owner from a BasicLock pointer to a Thread address.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   916
       // We don't need to hold _mutex for this transition.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   917
       // Non-null to Non-null is safe as long as all readers can
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   918
       // tolerate either flavor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   919
       assert (_recursions == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   920
       _owner = THREAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   921
       _recursions = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   922
       OwnerIsThread = 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   923
     } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   924
       // NOTE: we need to handle unbalanced monitor enter/exit
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   925
       // in native code by throwing an exception.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   926
       // TODO: Throw an IllegalMonitorStateException ?
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   927
       TEVENT (Exit - Throw IMSX) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   928
       assert(false, "Non-balanced monitor enter/exit!");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   929
       if (false) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   930
          THROW(vmSymbols::java_lang_IllegalMonitorStateException());
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   931
       }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   932
       return;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   933
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   934
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   935
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   936
   if (_recursions != 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   937
     _recursions--;        // this is simple recursive enter
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   938
     TEVENT (Inflated exit - recursive) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   939
     return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   940
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   941
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   942
   // Invariant: after setting Responsible=null an thread must execute
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   943
   // a MEMBAR or other serializing instruction before fetching EntryList|cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   944
   if ((SyncFlags & 4) == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   945
      _Responsible = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   946
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   947
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   948
#if INCLUDE_TRACE
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   949
   // get the owner's thread id for the MonitorEnter event
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   950
   // if it is enabled and the thread isn't suspended
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   951
   if (not_suspended && Tracing::is_event_enabled(TraceJavaMonitorEnterEvent)) {
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   952
     _previous_owner_tid = SharedRuntime::get_java_tid(Self);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   953
   }
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   954
#endif
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
   955
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   956
   for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   957
      assert (THREAD == _owner, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   958
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   959
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   960
      if (Knob_ExitPolicy == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   961
         // release semantics: prior loads and stores from within the critical section
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   962
         // must not float (reorder) past the following store that drops the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   963
         // On SPARC that requires MEMBAR #loadstore|#storestore.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   964
         // But of course in TSO #loadstore|#storestore is not required.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   965
         // I'd like to write one of the following:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   966
         // A.  OrderAccess::release() ; _owner = NULL
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   967
         // B.  OrderAccess::loadstore(); OrderAccess::storestore(); _owner = NULL;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   968
         // Unfortunately OrderAccess::release() and OrderAccess::loadstore() both
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   969
         // store into a _dummy variable.  That store is not needed, but can result
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   970
         // in massive wasteful coherency traffic on classic SMP systems.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   971
         // Instead, I use release_store(), which is implemented as just a simple
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   972
         // ST on x64, x86 and SPARC.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   973
         OrderAccess::release_store_ptr (&_owner, NULL) ;   // drop the lock
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   974
         OrderAccess::storeload() ;                         // See if we need to wake a successor
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   975
         if ((intptr_t(_EntryList)|intptr_t(_cxq)) == 0 || _succ != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   976
            TEVENT (Inflated exit - simple egress) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   977
            return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   978
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   979
         TEVENT (Inflated exit - complex egress) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   980
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   981
         // Normally the exiting thread is responsible for ensuring succession,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   982
         // but if other successors are ready or other entering threads are spinning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   983
         // then this thread can simply store NULL into _owner and exit without
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   984
         // waking a successor.  The existence of spinners or ready successors
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   985
         // guarantees proper succession (liveness).  Responsibility passes to the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   986
         // ready or running successors.  The exiting thread delegates the duty.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   987
         // More precisely, if a successor already exists this thread is absolved
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   988
         // of the responsibility of waking (unparking) one.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   989
         //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   990
         // The _succ variable is critical to reducing futile wakeup frequency.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   991
         // _succ identifies the "heir presumptive" thread that has been made
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   992
         // ready (unparked) but that has not yet run.  We need only one such
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   993
         // successor thread to guarantee progress.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   994
         // See http://www.usenix.org/events/jvm01/full_papers/dice/dice.pdf
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   995
         // section 3.3 "Futile Wakeup Throttling" for details.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   996
         //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   997
         // Note that spinners in Enter() also set _succ non-null.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   998
         // In the current implementation spinners opportunistically set
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
   999
         // _succ so that exiting threads might avoid waking a successor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1000
         // Another less appealing alternative would be for the exiting thread
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1001
         // to drop the lock and then spin briefly to see if a spinner managed
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1002
         // to acquire the lock.  If so, the exiting thread could exit
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1003
         // immediately without waking a successor, otherwise the exiting
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1004
         // thread would need to dequeue and wake a successor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1005
         // (Note that we'd need to make the post-drop spin short, but no
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1006
         // shorter than the worst-case round-trip cache-line migration time.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1007
         // The dropped lock needs to become visible to the spinner, and then
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1008
         // the acquisition of the lock by the spinner must become visible to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1009
         // the exiting thread).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1010
         //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1011
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1012
         // It appears that an heir-presumptive (successor) must be made ready.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1013
         // Only the current lock owner can manipulate the EntryList or
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1014
         // drain _cxq, so we need to reacquire the lock.  If we fail
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1015
         // to reacquire the lock the responsibility for ensuring succession
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1016
         // falls to the new owner.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1017
         //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1018
         if (Atomic::cmpxchg_ptr (THREAD, &_owner, NULL) != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1019
            return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1020
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1021
         TEVENT (Exit - Reacquired) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1022
      } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1023
         if ((intptr_t(_EntryList)|intptr_t(_cxq)) == 0 || _succ != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1024
            OrderAccess::release_store_ptr (&_owner, NULL) ;   // drop the lock
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1025
            OrderAccess::storeload() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1026
            // Ratify the previously observed values.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1027
            if (_cxq == NULL || _succ != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1028
                TEVENT (Inflated exit - simple egress) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1029
                return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1030
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1031
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1032
            // inopportune interleaving -- the exiting thread (this thread)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1033
            // in the fast-exit path raced an entering thread in the slow-enter
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1034
            // path.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1035
            // We have two choices:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1036
            // A.  Try to reacquire the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1037
            //     If the CAS() fails return immediately, otherwise
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1038
            //     we either restart/rerun the exit operation, or simply
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1039
            //     fall-through into the code below which wakes a successor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1040
            // B.  If the elements forming the EntryList|cxq are TSM
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1041
            //     we could simply unpark() the lead thread and return
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1042
            //     without having set _succ.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1043
            if (Atomic::cmpxchg_ptr (THREAD, &_owner, NULL) != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1044
               TEVENT (Inflated exit - reacquired succeeded) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1045
               return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1046
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1047
            TEVENT (Inflated exit - reacquired failed) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1048
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1049
            TEVENT (Inflated exit - complex egress) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1050
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1051
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1052
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1053
      guarantee (_owner == THREAD, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1054
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1055
      ObjectWaiter * w = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1056
      int QMode = Knob_QMode ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1057
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1058
      if (QMode == 2 && _cxq != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1059
          // QMode == 2 : cxq has precedence over EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1060
          // Try to directly wake a successor from the cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1061
          // If successful, the successor will need to unlink itself from cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1062
          w = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1063
          assert (w != NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1064
          assert (w->TState == ObjectWaiter::TS_CXQ, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1065
          ExitEpilog (Self, w) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1066
          return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1067
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1068
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1069
      if (QMode == 3 && _cxq != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1070
          // Aggressively drain cxq into EntryList at the first opportunity.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1071
          // This policy ensure that recently-run threads live at the head of EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1072
          // Drain _cxq into EntryList - bulk transfer.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1073
          // First, detach _cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1074
          // The following loop is tantamount to: w = swap (&cxq, NULL)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1075
          w = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1076
          for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1077
             assert (w != NULL, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1078
             ObjectWaiter * u = (ObjectWaiter *) Atomic::cmpxchg_ptr (NULL, &_cxq, w) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1079
             if (u == w) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1080
             w = u ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1081
          }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1082
          assert (w != NULL              , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1083
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1084
          ObjectWaiter * q = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1085
          ObjectWaiter * p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1086
          for (p = w ; p != NULL ; p = p->_next) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1087
              guarantee (p->TState == ObjectWaiter::TS_CXQ, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1088
              p->TState = ObjectWaiter::TS_ENTER ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1089
              p->_prev = q ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1090
              q = p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1091
          }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1092
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1093
          // Append the RATs to the EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1094
          // TODO: organize EntryList as a CDLL so we can locate the tail in constant-time.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1095
          ObjectWaiter * Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1096
          for (Tail = _EntryList ; Tail != NULL && Tail->_next != NULL ; Tail = Tail->_next) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1097
          if (Tail == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1098
              _EntryList = w ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1099
          } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1100
              Tail->_next = w ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1101
              w->_prev = Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1102
          }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1103
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1104
          // Fall thru into code that tries to wake a successor from EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1105
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1106
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1107
      if (QMode == 4 && _cxq != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1108
          // Aggressively drain cxq into EntryList at the first opportunity.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1109
          // This policy ensure that recently-run threads live at the head of EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1110
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1111
          // Drain _cxq into EntryList - bulk transfer.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1112
          // First, detach _cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1113
          // The following loop is tantamount to: w = swap (&cxq, NULL)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1114
          w = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1115
          for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1116
             assert (w != NULL, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1117
             ObjectWaiter * u = (ObjectWaiter *) Atomic::cmpxchg_ptr (NULL, &_cxq, w) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1118
             if (u == w) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1119
             w = u ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1120
          }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1121
          assert (w != NULL              , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1122
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1123
          ObjectWaiter * q = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1124
          ObjectWaiter * p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1125
          for (p = w ; p != NULL ; p = p->_next) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1126
              guarantee (p->TState == ObjectWaiter::TS_CXQ, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1127
              p->TState = ObjectWaiter::TS_ENTER ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1128
              p->_prev = q ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1129
              q = p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1130
          }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1131
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1132
          // Prepend the RATs to the EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1133
          if (_EntryList != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1134
              q->_next = _EntryList ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1135
              _EntryList->_prev = q ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1136
          }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1137
          _EntryList = w ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1138
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1139
          // Fall thru into code that tries to wake a successor from EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1140
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1141
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1142
      w = _EntryList  ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1143
      if (w != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1144
          // I'd like to write: guarantee (w->_thread != Self).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1145
          // But in practice an exiting thread may find itself on the EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1146
          // Lets say thread T1 calls O.wait().  Wait() enqueues T1 on O's waitset and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1147
          // then calls exit().  Exit release the lock by setting O._owner to NULL.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1148
          // Lets say T1 then stalls.  T2 acquires O and calls O.notify().  The
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1149
          // notify() operation moves T1 from O's waitset to O's EntryList. T2 then
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1150
          // release the lock "O".  T2 resumes immediately after the ST of null into
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1151
          // _owner, above.  T2 notices that the EntryList is populated, so it
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1152
          // reacquires the lock and then finds itself on the EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1153
          // Given all that, we have to tolerate the circumstance where "w" is
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1154
          // associated with Self.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1155
          assert (w->TState == ObjectWaiter::TS_ENTER, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1156
          ExitEpilog (Self, w) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1157
          return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1158
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1159
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1160
      // If we find that both _cxq and EntryList are null then just
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1161
      // re-run the exit protocol from the top.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1162
      w = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1163
      if (w == NULL) continue ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1164
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1165
      // Drain _cxq into EntryList - bulk transfer.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1166
      // First, detach _cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1167
      // The following loop is tantamount to: w = swap (&cxq, NULL)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1168
      for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1169
          assert (w != NULL, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1170
          ObjectWaiter * u = (ObjectWaiter *) Atomic::cmpxchg_ptr (NULL, &_cxq, w) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1171
          if (u == w) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1172
          w = u ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1173
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1174
      TEVENT (Inflated exit - drain cxq into EntryList) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1175
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1176
      assert (w != NULL              , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1177
      assert (_EntryList  == NULL    , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1178
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1179
      // Convert the LIFO SLL anchored by _cxq into a DLL.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1180
      // The list reorganization step operates in O(LENGTH(w)) time.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1181
      // It's critical that this step operate quickly as
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1182
      // "Self" still holds the outer-lock, restricting parallelism
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1183
      // and effectively lengthening the critical section.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1184
      // Invariant: s chases t chases u.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1185
      // TODO-FIXME: consider changing EntryList from a DLL to a CDLL so
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1186
      // we have faster access to the tail.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1187
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1188
      if (QMode == 1) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1189
         // QMode == 1 : drain cxq to EntryList, reversing order
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1190
         // We also reverse the order of the list.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1191
         ObjectWaiter * s = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1192
         ObjectWaiter * t = w ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1193
         ObjectWaiter * u = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1194
         while (t != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1195
             guarantee (t->TState == ObjectWaiter::TS_CXQ, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1196
             t->TState = ObjectWaiter::TS_ENTER ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1197
             u = t->_next ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1198
             t->_prev = u ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1199
             t->_next = s ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1200
             s = t;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1201
             t = u ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1202
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1203
         _EntryList  = s ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1204
         assert (s != NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1205
      } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1206
         // QMode == 0 or QMode == 2
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1207
         _EntryList = w ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1208
         ObjectWaiter * q = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1209
         ObjectWaiter * p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1210
         for (p = w ; p != NULL ; p = p->_next) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1211
             guarantee (p->TState == ObjectWaiter::TS_CXQ, "Invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1212
             p->TState = ObjectWaiter::TS_ENTER ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1213
             p->_prev = q ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1214
             q = p ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1215
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1216
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1217
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1218
      // In 1-0 mode we need: ST EntryList; MEMBAR #storestore; ST _owner = NULL
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1219
      // The MEMBAR is satisfied by the release_store() operation in ExitEpilog().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1220
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1221
      // See if we can abdicate to a spinner instead of waking a thread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1222
      // A primary goal of the implementation is to reduce the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1223
      // context-switch rate.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1224
      if (_succ != NULL) continue;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1225
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1226
      w = _EntryList  ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1227
      if (w != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1228
          guarantee (w->TState == ObjectWaiter::TS_ENTER, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1229
          ExitEpilog (Self, w) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1230
          return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1231
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1232
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1233
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1234
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1235
// ExitSuspendEquivalent:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1236
// A faster alternate to handle_special_suspend_equivalent_condition()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1237
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1238
// handle_special_suspend_equivalent_condition() unconditionally
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1239
// acquires the SR_lock.  On some platforms uncontended MutexLocker()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1240
// operations have high latency.  Note that in ::enter() we call HSSEC
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1241
// while holding the monitor, so we effectively lengthen the critical sections.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1242
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1243
// There are a number of possible solutions:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1244
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1245
// A.  To ameliorate the problem we might also defer state transitions
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1246
//     to as late as possible -- just prior to parking.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1247
//     Given that, we'd call HSSEC after having returned from park(),
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1248
//     but before attempting to acquire the monitor.  This is only a
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1249
//     partial solution.  It avoids calling HSSEC while holding the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1250
//     monitor (good), but it still increases successor reacquisition latency --
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1251
//     the interval between unparking a successor and the time the successor
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1252
//     resumes and retries the lock.  See ReenterI(), which defers state transitions.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1253
//     If we use this technique we can also avoid EnterI()-exit() loop
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1254
//     in ::enter() where we iteratively drop the lock and then attempt
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1255
//     to reacquire it after suspending.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1256
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1257
// B.  In the future we might fold all the suspend bits into a
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1258
//     composite per-thread suspend flag and then update it with CAS().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1259
//     Alternately, a Dekker-like mechanism with multiple variables
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1260
//     would suffice:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1261
//       ST Self->_suspend_equivalent = false
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1262
//       MEMBAR
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1263
//       LD Self_>_suspend_flags
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1264
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1265
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1266
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1267
bool ObjectMonitor::ExitSuspendEquivalent (JavaThread * jSelf) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1268
   int Mode = Knob_FastHSSEC ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1269
   if (Mode && !jSelf->is_external_suspend()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1270
      assert (jSelf->is_suspend_equivalent(), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1271
      jSelf->clear_suspend_equivalent() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1272
      if (2 == Mode) OrderAccess::storeload() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1273
      if (!jSelf->is_external_suspend()) return false ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1274
      // We raced a suspension -- fall thru into the slow path
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1275
      TEVENT (ExitSuspendEquivalent - raced) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1276
      jSelf->set_suspend_equivalent() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1277
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1278
   return jSelf->handle_special_suspend_equivalent_condition() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1279
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1280
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1281
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1282
void ObjectMonitor::ExitEpilog (Thread * Self, ObjectWaiter * Wakee) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1283
   assert (_owner == Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1284
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1285
   // Exit protocol:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1286
   // 1. ST _succ = wakee
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1287
   // 2. membar #loadstore|#storestore;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1288
   // 2. ST _owner = NULL
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1289
   // 3. unpark(wakee)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1290
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1291
   _succ = Knob_SuccEnabled ? Wakee->_thread : NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1292
   ParkEvent * Trigger = Wakee->_event ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1293
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1294
   // Hygiene -- once we've set _owner = NULL we can't safely dereference Wakee again.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1295
   // The thread associated with Wakee may have grabbed the lock and "Wakee" may be
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1296
   // out-of-scope (non-extant).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1297
   Wakee  = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1298
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1299
   // Drop the lock
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1300
   OrderAccess::release_store_ptr (&_owner, NULL) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1301
   OrderAccess::fence() ;                               // ST _owner vs LD in unpark()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1302
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1303
   if (SafepointSynchronize::do_call_back()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1304
      TEVENT (unpark before SAFEPOINT) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1305
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1306
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1307
   DTRACE_MONITOR_PROBE(contended__exit, this, object(), Self);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1308
   Trigger->unpark() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1309
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1310
   // Maintain stats and report events to JVMTI
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1311
   if (ObjectMonitor::_sync_Parks != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1312
      ObjectMonitor::_sync_Parks->inc() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1313
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1314
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1315
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1316
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1317
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1318
// Class Loader deadlock handling.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1319
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1320
// complete_exit exits a lock returning recursion count
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1321
// complete_exit/reenter operate as a wait without waiting
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1322
// complete_exit requires an inflated monitor
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1323
// The _owner field is not always the Thread addr even with an
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1324
// inflated monitor, e.g. the monitor can be inflated by a non-owning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1325
// thread due to contention.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1326
intptr_t ObjectMonitor::complete_exit(TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1327
   Thread * const Self = THREAD;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1328
   assert(Self->is_Java_thread(), "Must be Java thread!");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1329
   JavaThread *jt = (JavaThread *)THREAD;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1330
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1331
   DeferredInitialize();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1332
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1333
   if (THREAD != _owner) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1334
    if (THREAD->is_lock_owned ((address)_owner)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1335
       assert(_recursions == 0, "internal state error");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1336
       _owner = THREAD ;   /* Convert from basiclock addr to Thread addr */
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1337
       _recursions = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1338
       OwnerIsThread = 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1339
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1340
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1341
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1342
   guarantee(Self == _owner, "complete_exit not owner");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1343
   intptr_t save = _recursions; // record the old recursion count
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1344
   _recursions = 0;        // set the recursion level to be 0
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1345
   exit (true, Self) ;           // exit the monitor
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1346
   guarantee (_owner != Self, "invariant");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1347
   return save;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1348
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1349
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1350
// reenter() enters a lock and sets recursion count
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1351
// complete_exit/reenter operate as a wait without waiting
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1352
void ObjectMonitor::reenter(intptr_t recursions, TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1353
   Thread * const Self = THREAD;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1354
   assert(Self->is_Java_thread(), "Must be Java thread!");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1355
   JavaThread *jt = (JavaThread *)THREAD;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1356
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1357
   guarantee(_owner != Self, "reenter already owner");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1358
   enter (THREAD);       // enter the monitor
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1359
   guarantee (_recursions == 0, "reenter recursion");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1360
   _recursions = recursions;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1361
   return;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1362
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1363
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1364
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1365
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1366
// A macro is used below because there may already be a pending
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1367
// exception which should not abort the execution of the routines
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1368
// which use this (which is why we don't put this into check_slow and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1369
// call it with a CHECK argument).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1370
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1371
#define CHECK_OWNER()                                                             \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1372
  do {                                                                            \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1373
    if (THREAD != _owner) {                                                       \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1374
      if (THREAD->is_lock_owned((address) _owner)) {                              \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1375
        _owner = THREAD ;  /* Convert from basiclock addr to Thread addr */       \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1376
        _recursions = 0;                                                          \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1377
        OwnerIsThread = 1 ;                                                       \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1378
      } else {                                                                    \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1379
        TEVENT (Throw IMSX) ;                                                     \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1380
        THROW(vmSymbols::java_lang_IllegalMonitorStateException());               \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1381
      }                                                                           \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1382
    }                                                                             \
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1383
  } while (false)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1384
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1385
// check_slow() is a misnomer.  It's called to simply to throw an IMSX exception.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1386
// TODO-FIXME: remove check_slow() -- it's likely dead.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1387
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1388
void ObjectMonitor::check_slow(TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1389
  TEVENT (check_slow - throw IMSX) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1390
  assert(THREAD != _owner && !THREAD->is_lock_owned((address) _owner), "must not be owner");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1391
  THROW_MSG(vmSymbols::java_lang_IllegalMonitorStateException(), "current thread not owner");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1392
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1393
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1394
static int Adjust (volatile int * adr, int dx) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1395
  int v ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1396
  for (v = *adr ; Atomic::cmpxchg (v + dx, adr, v) != v; v = *adr) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1397
  return v ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1398
}
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1399
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1400
// helper method for posting a monitor wait event
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1401
void ObjectMonitor::post_monitor_wait_event(EventJavaMonitorWait* event,
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1402
                                                           jlong notifier_tid,
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1403
                                                           jlong timeout,
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1404
                                                           bool timedout) {
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1405
  event->set_klass(((oop)this->object())->klass());
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1406
  event->set_timeout((TYPE_ULONG)timeout);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1407
  event->set_address((TYPE_ADDRESS)(uintptr_t)(this->object_addr()));
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1408
  event->set_notifier((TYPE_OSTHREAD)notifier_tid);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1409
  event->set_timedOut((TYPE_BOOLEAN)timedout);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1410
  event->commit();
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1411
}
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1412
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1413
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1414
// Wait/Notify/NotifyAll
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1415
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1416
// Note: a subset of changes to ObjectMonitor::wait()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1417
// will need to be replicated in complete_exit above
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1418
void ObjectMonitor::wait(jlong millis, bool interruptible, TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1419
   Thread * const Self = THREAD ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1420
   assert(Self->is_Java_thread(), "Must be Java thread!");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1421
   JavaThread *jt = (JavaThread *)THREAD;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1422
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1423
   DeferredInitialize () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1424
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1425
   // Throw IMSX or IEX.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1426
   CHECK_OWNER();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1427
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1428
   EventJavaMonitorWait event;
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1429
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1430
   // check for a pending interrupt
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1431
   if (interruptible && Thread::is_interrupted(Self, true) && !HAS_PENDING_EXCEPTION) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1432
     // post monitor waited event.  Note that this is past-tense, we are done waiting.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1433
     if (JvmtiExport::should_post_monitor_waited()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1434
        // Note: 'false' parameter is passed here because the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1435
        // wait was not timed out due to thread interrupt.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1436
        JvmtiExport::post_monitor_waited(jt, this, false);
22753
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1437
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1438
        // In this short circuit of the monitor wait protocol, the
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1439
        // current thread never drops ownership of the monitor and
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1440
        // never gets added to the wait queue so the current thread
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1441
        // cannot be made the successor. This means that the
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1442
        // JVMTI_EVENT_MONITOR_WAITED event handler cannot accidentally
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1443
        // consume an unpark() meant for the ParkEvent associated with
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1444
        // this ObjectMonitor.
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1445
     }
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1446
     if (event.should_commit()) {
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1447
       post_monitor_wait_event(&event, 0, millis, false);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1448
     }
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1449
     TEVENT (Wait - Throw IEX) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1450
     THROW(vmSymbols::java_lang_InterruptedException());
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1451
     return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1452
   }
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1453
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1454
   TEVENT (Wait) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1455
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1456
   assert (Self->_Stalled == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1457
   Self->_Stalled = intptr_t(this) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1458
   jt->set_current_waiting_monitor(this);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1459
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1460
   // create a node to be put into the queue
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1461
   // Critically, after we reset() the event but prior to park(), we must check
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1462
   // for a pending interrupt.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1463
   ObjectWaiter node(Self);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1464
   node.TState = ObjectWaiter::TS_WAIT ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1465
   Self->_ParkEvent->reset() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1466
   OrderAccess::fence();          // ST into Event; membar ; LD interrupted-flag
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1467
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1468
   // Enter the waiting queue, which is a circular doubly linked list in this case
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1469
   // but it could be a priority queue or any data structure.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1470
   // _WaitSetLock protects the wait queue.  Normally the wait queue is accessed only
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1471
   // by the the owner of the monitor *except* in the case where park()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1472
   // returns because of a timeout of interrupt.  Contention is exceptionally rare
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1473
   // so we use a simple spin-lock instead of a heavier-weight blocking lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1474
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1475
   Thread::SpinAcquire (&_WaitSetLock, "WaitSet - add") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1476
   AddWaiter (&node) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1477
   Thread::SpinRelease (&_WaitSetLock) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1478
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1479
   if ((SyncFlags & 4) == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1480
      _Responsible = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1481
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1482
   intptr_t save = _recursions; // record the old recursion count
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1483
   _waiters++;                  // increment the number of waiters
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1484
   _recursions = 0;             // set the recursion level to be 1
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1485
   exit (true, Self) ;                    // exit the monitor
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1486
   guarantee (_owner != Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1487
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1488
   // The thread is on the WaitSet list - now park() it.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1489
   // On MP systems it's conceivable that a brief spin before we park
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1490
   // could be profitable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1491
   //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1492
   // TODO-FIXME: change the following logic to a loop of the form
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1493
   //   while (!timeout && !interrupted && _notified == 0) park()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1494
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1495
   int ret = OS_OK ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1496
   int WasNotified = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1497
   { // State transition wrappers
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1498
     OSThread* osthread = Self->osthread();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1499
     OSThreadWaitState osts(osthread, true);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1500
     {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1501
       ThreadBlockInVM tbivm(jt);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1502
       // Thread is in thread_blocked state and oop access is unsafe.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1503
       jt->set_suspend_equivalent();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1504
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1505
       if (interruptible && (Thread::is_interrupted(THREAD, false) || HAS_PENDING_EXCEPTION)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1506
           // Intentionally empty
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1507
       } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1508
       if (node._notified == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1509
         if (millis <= 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1510
            Self->_ParkEvent->park () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1511
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1512
            ret = Self->_ParkEvent->park (millis) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1513
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1514
       }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1515
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1516
       // were we externally suspended while we were waiting?
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1517
       if (ExitSuspendEquivalent (jt)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1518
          // TODO-FIXME: add -- if succ == Self then succ = null.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1519
          jt->java_suspend_self();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1520
       }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1521
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1522
     } // Exit thread safepoint: transition _thread_blocked -> _thread_in_vm
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1523
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1524
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1525
     // Node may be on the WaitSet, the EntryList (or cxq), or in transition
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1526
     // from the WaitSet to the EntryList.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1527
     // See if we need to remove Node from the WaitSet.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1528
     // We use double-checked locking to avoid grabbing _WaitSetLock
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1529
     // if the thread is not on the wait queue.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1530
     //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1531
     // Note that we don't need a fence before the fetch of TState.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1532
     // In the worst case we'll fetch a old-stale value of TS_WAIT previously
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1533
     // written by the is thread. (perhaps the fetch might even be satisfied
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1534
     // by a look-aside into the processor's own store buffer, although given
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1535
     // the length of the code path between the prior ST and this load that's
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1536
     // highly unlikely).  If the following LD fetches a stale TS_WAIT value
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1537
     // then we'll acquire the lock and then re-fetch a fresh TState value.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1538
     // That is, we fail toward safety.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1539
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1540
     if (node.TState == ObjectWaiter::TS_WAIT) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1541
         Thread::SpinAcquire (&_WaitSetLock, "WaitSet - unlink") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1542
         if (node.TState == ObjectWaiter::TS_WAIT) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1543
            DequeueSpecificWaiter (&node) ;       // unlink from WaitSet
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1544
            assert(node._notified == 0, "invariant");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1545
            node.TState = ObjectWaiter::TS_RUN ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1546
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1547
         Thread::SpinRelease (&_WaitSetLock) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1548
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1549
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1550
     // The thread is now either on off-list (TS_RUN),
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1551
     // on the EntryList (TS_ENTER), or on the cxq (TS_CXQ).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1552
     // The Node's TState variable is stable from the perspective of this thread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1553
     // No other threads will asynchronously modify TState.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1554
     guarantee (node.TState != ObjectWaiter::TS_WAIT, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1555
     OrderAccess::loadload() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1556
     if (_succ == Self) _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1557
     WasNotified = node._notified ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1558
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1559
     // Reentry phase -- reacquire the monitor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1560
     // re-enter contended monitor after object.wait().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1561
     // retain OBJECT_WAIT state until re-enter successfully completes
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1562
     // Thread state is thread_in_vm and oop access is again safe,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1563
     // although the raw address of the object may have changed.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1564
     // (Don't cache naked oops over safepoints, of course).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1565
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1566
     // post monitor waited event. Note that this is past-tense, we are done waiting.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1567
     if (JvmtiExport::should_post_monitor_waited()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1568
       JvmtiExport::post_monitor_waited(jt, this, ret == OS_TIMEOUT);
22753
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1569
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1570
       if (node._notified != 0 && _succ == Self) {
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1571
         // In this part of the monitor wait-notify-reenter protocol it
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1572
         // is possible (and normal) for another thread to do a fastpath
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1573
         // monitor enter-exit while this thread is still trying to get
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1574
         // to the reenter portion of the protocol.
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1575
         //
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1576
         // The ObjectMonitor was notified and the current thread is
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1577
         // the successor which also means that an unpark() has already
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1578
         // been done. The JVMTI_EVENT_MONITOR_WAITED event handler can
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1579
         // consume the unpark() that was done when the successor was
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1580
         // set because the same ParkEvent is shared between Java
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1581
         // monitors and JVM/TI RawMonitors (for now).
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1582
         //
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1583
         // We redo the unpark() to ensure forward progress, i.e., we
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1584
         // don't want all pending threads hanging (parked) with none
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1585
         // entering the unlocked monitor.
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1586
         node._event->unpark();
749328896281 8028073: race condition in ObjectMonitor implementation causing deadlocks
dcubed
parents: 22551
diff changeset
  1587
       }
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1588
     }
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1589
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1590
     if (event.should_commit()) {
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1591
       post_monitor_wait_event(&event, node._notifier_tid, millis, ret == OS_TIMEOUT);
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1592
     }
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1593
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1594
     OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1595
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1596
     assert (Self->_Stalled != 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1597
     Self->_Stalled = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1598
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1599
     assert (_owner != Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1600
     ObjectWaiter::TStates v = node.TState ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1601
     if (v == ObjectWaiter::TS_RUN) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1602
         enter (Self) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1603
     } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1604
         guarantee (v == ObjectWaiter::TS_ENTER || v == ObjectWaiter::TS_CXQ, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1605
         ReenterI (Self, &node) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1606
         node.wait_reenter_end(this);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1607
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1608
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1609
     // Self has reacquired the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1610
     // Lifecycle - the node representing Self must not appear on any queues.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1611
     // Node is about to go out-of-scope, but even if it were immortal we wouldn't
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1612
     // want residual elements associated with this thread left on any lists.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1613
     guarantee (node.TState == ObjectWaiter::TS_RUN, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1614
     assert    (_owner == Self, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1615
     assert    (_succ != Self , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1616
   } // OSThreadWaitState()
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1617
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1618
   jt->set_current_waiting_monitor(NULL);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1619
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1620
   guarantee (_recursions == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1621
   _recursions = save;     // restore the old recursion count
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1622
   _waiters--;             // decrement the number of waiters
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1623
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1624
   // Verify a few postconditions
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1625
   assert (_owner == Self       , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1626
   assert (_succ  != Self       , "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1627
   assert (((oop)(object()))->mark() == markOopDesc::encode(this), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1628
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1629
   if (SyncFlags & 32) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1630
      OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1631
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1632
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1633
   // check if the notification happened
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1634
   if (!WasNotified) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1635
     // no, it could be timeout or Thread.interrupt() or both
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1636
     // check for interrupt event, otherwise it is timeout
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1637
     if (interruptible && Thread::is_interrupted(Self, true) && !HAS_PENDING_EXCEPTION) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1638
       TEVENT (Wait - throw IEX from epilog) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1639
       THROW(vmSymbols::java_lang_InterruptedException());
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1640
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1641
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1642
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1643
   // NOTE: Spurious wake up will be consider as timeout.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1644
   // Monitor notify has precedence over thread interrupt.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1645
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1646
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1647
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1648
// Consider:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1649
// If the lock is cool (cxq == null && succ == null) and we're on an MP system
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1650
// then instead of transferring a thread from the WaitSet to the EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1651
// we might just dequeue a thread from the WaitSet and directly unpark() it.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1652
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1653
void ObjectMonitor::notify(TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1654
  CHECK_OWNER();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1655
  if (_WaitSet == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1656
     TEVENT (Empty-Notify) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1657
     return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1658
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1659
  DTRACE_MONITOR_PROBE(notify, this, object(), THREAD);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1660
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1661
  int Policy = Knob_MoveNotifyee ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1662
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1663
  Thread::SpinAcquire (&_WaitSetLock, "WaitSet - notify") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1664
  ObjectWaiter * iterator = DequeueWaiter() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1665
  if (iterator != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1666
     TEVENT (Notify1 - Transfer) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1667
     guarantee (iterator->TState == ObjectWaiter::TS_WAIT, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1668
     guarantee (iterator->_notified == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1669
     if (Policy != 4) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1670
        iterator->TState = ObjectWaiter::TS_ENTER ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1671
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1672
     iterator->_notified = 1 ;
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1673
     Thread * Self = THREAD;
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1674
     iterator->_notifier_tid = Self->osthread()->thread_id();
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1675
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1676
     ObjectWaiter * List = _EntryList ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1677
     if (List != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1678
        assert (List->_prev == NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1679
        assert (List->TState == ObjectWaiter::TS_ENTER, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1680
        assert (List != iterator, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1681
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1682
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1683
     if (Policy == 0) {       // prepend to EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1684
         if (List == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1685
             iterator->_next = iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1686
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1687
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1688
             List->_prev = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1689
             iterator->_next = List ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1690
             iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1691
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1692
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1693
     } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1694
     if (Policy == 1) {      // append to EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1695
         if (List == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1696
             iterator->_next = iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1697
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1698
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1699
            // CONSIDER:  finding the tail currently requires a linear-time walk of
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1700
            // the EntryList.  We can make tail access constant-time by converting to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1701
            // a CDLL instead of using our current DLL.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1702
            ObjectWaiter * Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1703
            for (Tail = List ; Tail->_next != NULL ; Tail = Tail->_next) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1704
            assert (Tail != NULL && Tail->_next == NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1705
            Tail->_next = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1706
            iterator->_prev = Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1707
            iterator->_next = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1708
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1709
     } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1710
     if (Policy == 2) {      // prepend to cxq
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1711
         // prepend to cxq
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1712
         if (List == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1713
             iterator->_next = iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1714
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1715
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1716
            iterator->TState = ObjectWaiter::TS_CXQ ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1717
            for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1718
                ObjectWaiter * Front = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1719
                iterator->_next = Front ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1720
                if (Atomic::cmpxchg_ptr (iterator, &_cxq, Front) == Front) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1721
                    break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1722
                }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1723
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1724
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1725
     } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1726
     if (Policy == 3) {      // append to cxq
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1727
        iterator->TState = ObjectWaiter::TS_CXQ ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1728
        for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1729
            ObjectWaiter * Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1730
            Tail = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1731
            if (Tail == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1732
                iterator->_next = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1733
                if (Atomic::cmpxchg_ptr (iterator, &_cxq, NULL) == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1734
                   break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1735
                }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1736
            } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1737
                while (Tail->_next != NULL) Tail = Tail->_next ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1738
                Tail->_next = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1739
                iterator->_prev = Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1740
                iterator->_next = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1741
                break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1742
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1743
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1744
     } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1745
        ParkEvent * ev = iterator->_event ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1746
        iterator->TState = ObjectWaiter::TS_RUN ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1747
        OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1748
        ev->unpark() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1749
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1750
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1751
     if (Policy < 4) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1752
       iterator->wait_reenter_begin(this);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1753
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1754
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1755
     // _WaitSetLock protects the wait queue, not the EntryList.  We could
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1756
     // move the add-to-EntryList operation, above, outside the critical section
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1757
     // protected by _WaitSetLock.  In practice that's not useful.  With the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1758
     // exception of  wait() timeouts and interrupts the monitor owner
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1759
     // is the only thread that grabs _WaitSetLock.  There's almost no contention
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1760
     // on _WaitSetLock so it's not profitable to reduce the length of the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1761
     // critical section.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1762
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1763
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1764
  Thread::SpinRelease (&_WaitSetLock) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1765
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1766
  if (iterator != NULL && ObjectMonitor::_sync_Notifications != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1767
     ObjectMonitor::_sync_Notifications->inc() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1768
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1769
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1770
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1771
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1772
void ObjectMonitor::notifyAll(TRAPS) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1773
  CHECK_OWNER();
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1774
  ObjectWaiter* iterator;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1775
  if (_WaitSet == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1776
      TEVENT (Empty-NotifyAll) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1777
      return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1778
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1779
  DTRACE_MONITOR_PROBE(notifyAll, this, object(), THREAD);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1780
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1781
  int Policy = Knob_MoveNotifyee ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1782
  int Tally = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1783
  Thread::SpinAcquire (&_WaitSetLock, "WaitSet - notifyall") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1784
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1785
  for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1786
     iterator = DequeueWaiter () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1787
     if (iterator == NULL) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1788
     TEVENT (NotifyAll - Transfer1) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1789
     ++Tally ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1790
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1791
     // Disposition - what might we do with iterator ?
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1792
     // a.  add it directly to the EntryList - either tail or head.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1793
     // b.  push it onto the front of the _cxq.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1794
     // For now we use (a).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1795
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1796
     guarantee (iterator->TState == ObjectWaiter::TS_WAIT, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1797
     guarantee (iterator->_notified == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1798
     iterator->_notified = 1 ;
18025
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1799
     Thread * Self = THREAD;
b7bcf7497f93 8005849: JEP 167: Event-Based JVM Tracing
sla
parents: 17087
diff changeset
  1800
     iterator->_notifier_tid = Self->osthread()->thread_id();
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1801
     if (Policy != 4) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1802
        iterator->TState = ObjectWaiter::TS_ENTER ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1803
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1804
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1805
     ObjectWaiter * List = _EntryList ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1806
     if (List != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1807
        assert (List->_prev == NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1808
        assert (List->TState == ObjectWaiter::TS_ENTER, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1809
        assert (List != iterator, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1810
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1811
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1812
     if (Policy == 0) {       // prepend to EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1813
         if (List == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1814
             iterator->_next = iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1815
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1816
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1817
             List->_prev = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1818
             iterator->_next = List ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1819
             iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1820
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1821
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1822
     } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1823
     if (Policy == 1) {      // append to EntryList
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1824
         if (List == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1825
             iterator->_next = iterator->_prev = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1826
             _EntryList = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1827
         } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1828
            // CONSIDER:  finding the tail currently requires a linear-time walk of
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1829
            // the EntryList.  We can make tail access constant-time by converting to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1830
            // a CDLL instead of using our current DLL.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1831
            ObjectWaiter * Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1832
            for (Tail = List ; Tail->_next != NULL ; Tail = Tail->_next) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1833
            assert (Tail != NULL && Tail->_next == NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1834
            Tail->_next = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1835
            iterator->_prev = Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1836
            iterator->_next = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1837
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1838
     } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1839
     if (Policy == 2) {      // prepend to cxq
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1840
         // prepend to cxq
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1841
         iterator->TState = ObjectWaiter::TS_CXQ ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1842
         for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1843
             ObjectWaiter * Front = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1844
             iterator->_next = Front ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1845
             if (Atomic::cmpxchg_ptr (iterator, &_cxq, Front) == Front) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1846
                 break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1847
             }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1848
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1849
     } else
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1850
     if (Policy == 3) {      // append to cxq
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1851
        iterator->TState = ObjectWaiter::TS_CXQ ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1852
        for (;;) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1853
            ObjectWaiter * Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1854
            Tail = _cxq ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1855
            if (Tail == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1856
                iterator->_next = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1857
                if (Atomic::cmpxchg_ptr (iterator, &_cxq, NULL) == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1858
                   break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1859
                }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1860
            } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1861
                while (Tail->_next != NULL) Tail = Tail->_next ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1862
                Tail->_next = iterator ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1863
                iterator->_prev = Tail ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1864
                iterator->_next = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1865
                break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1866
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1867
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1868
     } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1869
        ParkEvent * ev = iterator->_event ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1870
        iterator->TState = ObjectWaiter::TS_RUN ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1871
        OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1872
        ev->unpark() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1873
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1874
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1875
     if (Policy < 4) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1876
       iterator->wait_reenter_begin(this);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1877
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1878
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1879
     // _WaitSetLock protects the wait queue, not the EntryList.  We could
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1880
     // move the add-to-EntryList operation, above, outside the critical section
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1881
     // protected by _WaitSetLock.  In practice that's not useful.  With the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1882
     // exception of  wait() timeouts and interrupts the monitor owner
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1883
     // is the only thread that grabs _WaitSetLock.  There's almost no contention
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1884
     // on _WaitSetLock so it's not profitable to reduce the length of the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1885
     // critical section.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1886
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1887
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1888
  Thread::SpinRelease (&_WaitSetLock) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1889
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1890
  if (Tally != 0 && ObjectMonitor::_sync_Notifications != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1891
     ObjectMonitor::_sync_Notifications->inc(Tally) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1892
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1893
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1894
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1895
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1896
// Adaptive Spinning Support
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1897
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1898
// Adaptive spin-then-block - rational spinning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1899
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1900
// Note that we spin "globally" on _owner with a classic SMP-polite TATAS
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1901
// algorithm.  On high order SMP systems it would be better to start with
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1902
// a brief global spin and then revert to spinning locally.  In the spirit of MCS/CLH,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1903
// a contending thread could enqueue itself on the cxq and then spin locally
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1904
// on a thread-specific variable such as its ParkEvent._Event flag.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1905
// That's left as an exercise for the reader.  Note that global spinning is
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1906
// not problematic on Niagara, as the L2$ serves the interconnect and has both
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1907
// low latency and massive bandwidth.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1908
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1909
// Broadly, we can fix the spin frequency -- that is, the % of contended lock
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1910
// acquisition attempts where we opt to spin --  at 100% and vary the spin count
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1911
// (duration) or we can fix the count at approximately the duration of
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1912
// a context switch and vary the frequency.   Of course we could also
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1913
// vary both satisfying K == Frequency * Duration, where K is adaptive by monitor.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1914
// See http://j2se.east/~dice/PERSIST/040824-AdaptiveSpinning.html.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1915
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1916
// This implementation varies the duration "D", where D varies with
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1917
// the success rate of recent spin attempts. (D is capped at approximately
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1918
// length of a round-trip context switch).  The success rate for recent
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1919
// spin attempts is a good predictor of the success rate of future spin
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1920
// attempts.  The mechanism adapts automatically to varying critical
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1921
// section length (lock modality), system load and degree of parallelism.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1922
// D is maintained per-monitor in _SpinDuration and is initialized
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1923
// optimistically.  Spin frequency is fixed at 100%.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1924
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1925
// Note that _SpinDuration is volatile, but we update it without locks
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1926
// or atomics.  The code is designed so that _SpinDuration stays within
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1927
// a reasonable range even in the presence of races.  The arithmetic
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1928
// operations on _SpinDuration are closed over the domain of legal values,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1929
// so at worst a race will install and older but still legal value.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1930
// At the very worst this introduces some apparent non-determinism.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1931
// We might spin when we shouldn't or vice-versa, but since the spin
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1932
// count are relatively short, even in the worst case, the effect is harmless.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1933
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1934
// Care must be taken that a low "D" value does not become an
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1935
// an absorbing state.  Transient spinning failures -- when spinning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1936
// is overall profitable -- should not cause the system to converge
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1937
// on low "D" values.  We want spinning to be stable and predictable
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1938
// and fairly responsive to change and at the same time we don't want
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1939
// it to oscillate, become metastable, be "too" non-deterministic,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1940
// or converge on or enter undesirable stable absorbing states.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1941
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1942
// We implement a feedback-based control system -- using past behavior
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1943
// to predict future behavior.  We face two issues: (a) if the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1944
// input signal is random then the spin predictor won't provide optimal
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1945
// results, and (b) if the signal frequency is too high then the control
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1946
// system, which has some natural response lag, will "chase" the signal.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1947
// (b) can arise from multimodal lock hold times.  Transient preemption
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1948
// can also result in apparent bimodal lock hold times.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1949
// Although sub-optimal, neither condition is particularly harmful, as
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1950
// in the worst-case we'll spin when we shouldn't or vice-versa.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1951
// The maximum spin duration is rather short so the failure modes aren't bad.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1952
// To be conservative, I've tuned the gain in system to bias toward
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1953
// _not spinning.  Relatedly, the system can sometimes enter a mode where it
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1954
// "rings" or oscillates between spinning and not spinning.  This happens
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1955
// when spinning is just on the cusp of profitability, however, so the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1956
// situation is not dire.  The state is benign -- there's no need to add
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1957
// hysteresis control to damp the transition rate between spinning and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1958
// not spinning.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1959
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1960
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1961
intptr_t ObjectMonitor::SpinCallbackArgument = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1962
int (*ObjectMonitor::SpinCallbackFunction)(intptr_t, int) = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1963
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1964
// Spinning: Fixed frequency (100%), vary duration
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1965
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1966
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1967
int ObjectMonitor::TrySpin_VaryDuration (Thread * Self) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1968
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1969
    // Dumb, brutal spin.  Good for comparative measurements against adaptive spinning.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1970
    int ctr = Knob_FixedSpin ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1971
    if (ctr != 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1972
        while (--ctr >= 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1973
            if (TryLock (Self) > 0) return 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1974
            SpinPause () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1975
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1976
        return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1977
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1978
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1979
    for (ctr = Knob_PreSpin + 1; --ctr >= 0 ; ) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1980
      if (TryLock(Self) > 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1981
        // Increase _SpinDuration ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1982
        // Note that we don't clamp SpinDuration precisely at SpinLimit.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1983
        // Raising _SpurDuration to the poverty line is key.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1984
        int x = _SpinDuration ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1985
        if (x < Knob_SpinLimit) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1986
           if (x < Knob_Poverty) x = Knob_Poverty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1987
           _SpinDuration = x + Knob_BonusB ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1988
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1989
        return 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1990
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1991
      SpinPause () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1992
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1993
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1994
    // Admission control - verify preconditions for spinning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1995
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1996
    // We always spin a little bit, just to prevent _SpinDuration == 0 from
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1997
    // becoming an absorbing state.  Put another way, we spin briefly to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1998
    // sample, just in case the system load, parallelism, contention, or lock
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  1999
    // modality changed.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2000
    //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2001
    // Consider the following alternative:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2002
    // Periodically set _SpinDuration = _SpinLimit and try a long/full
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2003
    // spin attempt.  "Periodically" might mean after a tally of
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2004
    // the # of failed spin attempts (or iterations) reaches some threshold.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2005
    // This takes us into the realm of 1-out-of-N spinning, where we
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2006
    // hold the duration constant but vary the frequency.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2007
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2008
    ctr = _SpinDuration  ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2009
    if (ctr < Knob_SpinBase) ctr = Knob_SpinBase ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2010
    if (ctr <= 0) return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2011
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2012
    if (Knob_SuccRestrict && _succ != NULL) return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2013
    if (Knob_OState && NotRunnable (Self, (Thread *) _owner)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2014
       TEVENT (Spin abort - notrunnable [TOP]);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2015
       return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2016
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2017
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2018
    int MaxSpin = Knob_MaxSpinners ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2019
    if (MaxSpin >= 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2020
       if (_Spinner > MaxSpin) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2021
          TEVENT (Spin abort -- too many spinners) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2022
          return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2023
       }
22551
9bf46d16dcc6 8025856: Fix typos in the GC code
jwilhelm
parents: 18025
diff changeset
  2024
       // Slightly racy, but benign ...
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2025
       Adjust (&_Spinner, 1) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2026
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2027
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2028
    // We're good to spin ... spin ingress.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2029
    // CONSIDER: use Prefetch::write() to avoid RTS->RTO upgrades
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2030
    // when preparing to LD...CAS _owner, etc and the CAS is likely
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2031
    // to succeed.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2032
    int hits    = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2033
    int msk     = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2034
    int caspty  = Knob_CASPenalty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2035
    int oxpty   = Knob_OXPenalty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2036
    int sss     = Knob_SpinSetSucc ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2037
    if (sss && _succ == NULL ) _succ = Self ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2038
    Thread * prv = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2039
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2040
    // There are three ways to exit the following loop:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2041
    // 1.  A successful spin where this thread has acquired the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2042
    // 2.  Spin failure with prejudice
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2043
    // 3.  Spin failure without prejudice
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2044
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2045
    while (--ctr >= 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2046
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2047
      // Periodic polling -- Check for pending GC
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2048
      // Threads may spin while they're unsafe.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2049
      // We don't want spinning threads to delay the JVM from reaching
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2050
      // a stop-the-world safepoint or to steal cycles from GC.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2051
      // If we detect a pending safepoint we abort in order that
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2052
      // (a) this thread, if unsafe, doesn't delay the safepoint, and (b)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2053
      // this thread, if safe, doesn't steal cycles from GC.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2054
      // This is in keeping with the "no loitering in runtime" rule.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2055
      // We periodically check to see if there's a safepoint pending.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2056
      if ((ctr & 0xFF) == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2057
         if (SafepointSynchronize::do_call_back()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2058
            TEVENT (Spin: safepoint) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2059
            goto Abort ;           // abrupt spin egress
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2060
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2061
         if (Knob_UsePause & 1) SpinPause () ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2062
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2063
         int (*scb)(intptr_t,int) = SpinCallbackFunction ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2064
         if (hits > 50 && scb != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2065
            int abend = (*scb)(SpinCallbackArgument, 0) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2066
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2067
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2068
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2069
      if (Knob_UsePause & 2) SpinPause() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2070
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2071
      // Exponential back-off ...  Stay off the bus to reduce coherency traffic.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2072
      // This is useful on classic SMP systems, but is of less utility on
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2073
      // N1-style CMT platforms.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2074
      //
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2075
      // Trade-off: lock acquisition latency vs coherency bandwidth.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2076
      // Lock hold times are typically short.  A histogram
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2077
      // of successful spin attempts shows that we usually acquire
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2078
      // the lock early in the spin.  That suggests we want to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2079
      // sample _owner frequently in the early phase of the spin,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2080
      // but then back-off and sample less frequently as the spin
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2081
      // progresses.  The back-off makes a good citizen on SMP big
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2082
      // SMP systems.  Oversampling _owner can consume excessive
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2083
      // coherency bandwidth.  Relatedly, if we _oversample _owner we
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2084
      // can inadvertently interfere with the the ST m->owner=null.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2085
      // executed by the lock owner.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2086
      if (ctr & msk) continue ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2087
      ++hits ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2088
      if ((hits & 0xF) == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2089
        // The 0xF, above, corresponds to the exponent.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2090
        // Consider: (msk+1)|msk
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2091
        msk = ((msk << 2)|3) & BackOffMask ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2092
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2093
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2094
      // Probe _owner with TATAS
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2095
      // If this thread observes the monitor transition or flicker
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2096
      // from locked to unlocked to locked, then the odds that this
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2097
      // thread will acquire the lock in this spin attempt go down
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2098
      // considerably.  The same argument applies if the CAS fails
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2099
      // or if we observe _owner change from one non-null value to
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2100
      // another non-null value.   In such cases we might abort
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2101
      // the spin without prejudice or apply a "penalty" to the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2102
      // spin count-down variable "ctr", reducing it by 100, say.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2103
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2104
      Thread * ox = (Thread *) _owner ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2105
      if (ox == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2106
         ox = (Thread *) Atomic::cmpxchg_ptr (Self, &_owner, NULL) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2107
         if (ox == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2108
            // The CAS succeeded -- this thread acquired ownership
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2109
            // Take care of some bookkeeping to exit spin state.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2110
            if (sss && _succ == Self) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2111
               _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2112
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2113
            if (MaxSpin > 0) Adjust (&_Spinner, -1) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2114
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2115
            // Increase _SpinDuration :
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2116
            // The spin was successful (profitable) so we tend toward
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2117
            // longer spin attempts in the future.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2118
            // CONSIDER: factor "ctr" into the _SpinDuration adjustment.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2119
            // If we acquired the lock early in the spin cycle it
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2120
            // makes sense to increase _SpinDuration proportionally.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2121
            // Note that we don't clamp SpinDuration precisely at SpinLimit.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2122
            int x = _SpinDuration ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2123
            if (x < Knob_SpinLimit) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2124
                if (x < Knob_Poverty) x = Knob_Poverty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2125
                _SpinDuration = x + Knob_Bonus ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2126
            }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2127
            return 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2128
         }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2129
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2130
         // The CAS failed ... we can take any of the following actions:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2131
         // * penalize: ctr -= Knob_CASPenalty
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2132
         // * exit spin with prejudice -- goto Abort;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2133
         // * exit spin without prejudice.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2134
         // * Since CAS is high-latency, retry again immediately.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2135
         prv = ox ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2136
         TEVENT (Spin: cas failed) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2137
         if (caspty == -2) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2138
         if (caspty == -1) goto Abort ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2139
         ctr -= caspty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2140
         continue ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2141
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2142
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2143
      // Did lock ownership change hands ?
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2144
      if (ox != prv && prv != NULL ) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2145
          TEVENT (spin: Owner changed)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2146
          if (oxpty == -2) break ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2147
          if (oxpty == -1) goto Abort ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2148
          ctr -= oxpty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2149
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2150
      prv = ox ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2151
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2152
      // Abort the spin if the owner is not executing.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2153
      // The owner must be executing in order to drop the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2154
      // Spinning while the owner is OFFPROC is idiocy.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2155
      // Consider: ctr -= RunnablePenalty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2156
      if (Knob_OState && NotRunnable (Self, ox)) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2157
         TEVENT (Spin abort - notrunnable);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2158
         goto Abort ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2159
      }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2160
      if (sss && _succ == NULL ) _succ = Self ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2161
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2162
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2163
   // Spin failed with prejudice -- reduce _SpinDuration.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2164
   // TODO: Use an AIMD-like policy to adjust _SpinDuration.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2165
   // AIMD is globally stable.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2166
   TEVENT (Spin failure) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2167
   {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2168
     int x = _SpinDuration ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2169
     if (x > 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2170
        // Consider an AIMD scheme like: x -= (x >> 3) + 100
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2171
        // This is globally sample and tends to damp the response.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2172
        x -= Knob_Penalty ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2173
        if (x < 0) x = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2174
        _SpinDuration = x ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2175
     }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2176
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2177
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2178
 Abort:
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2179
   if (MaxSpin >= 0) Adjust (&_Spinner, -1) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2180
   if (sss && _succ == Self) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2181
      _succ = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2182
      // Invariant: after setting succ=null a contending thread
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2183
      // must recheck-retry _owner before parking.  This usually happens
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2184
      // in the normal usage of TrySpin(), but it's safest
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2185
      // to make TrySpin() as foolproof as possible.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2186
      OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2187
      if (TryLock(Self) > 0) return 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2188
   }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2189
   return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2190
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2191
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2192
// NotRunnable() -- informed spinning
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2193
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2194
// Don't bother spinning if the owner is not eligible to drop the lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2195
// Peek at the owner's schedctl.sc_state and Thread._thread_values and
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2196
// spin only if the owner thread is _thread_in_Java or _thread_in_vm.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2197
// The thread must be runnable in order to drop the lock in timely fashion.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2198
// If the _owner is not runnable then spinning will not likely be
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2199
// successful (profitable).
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2200
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2201
// Beware -- the thread referenced by _owner could have died
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2202
// so a simply fetch from _owner->_thread_state might trap.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2203
// Instead, we use SafeFetchXX() to safely LD _owner->_thread_state.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2204
// Because of the lifecycle issues the schedctl and _thread_state values
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2205
// observed by NotRunnable() might be garbage.  NotRunnable must
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2206
// tolerate this and consider the observed _thread_state value
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2207
// as advisory.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2208
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2209
// Beware too, that _owner is sometimes a BasicLock address and sometimes
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2210
// a thread pointer.  We differentiate the two cases with OwnerIsThread.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2211
// Alternately, we might tag the type (thread pointer vs basiclock pointer)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2212
// with the LSB of _owner.  Another option would be to probablistically probe
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2213
// the putative _owner->TypeTag value.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2214
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2215
// Checking _thread_state isn't perfect.  Even if the thread is
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2216
// in_java it might be blocked on a page-fault or have been preempted
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2217
// and sitting on a ready/dispatch queue.  _thread state in conjunction
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2218
// with schedctl.sc_state gives us a good picture of what the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2219
// thread is doing, however.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2220
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2221
// TODO: check schedctl.sc_state.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2222
// We'll need to use SafeFetch32() to read from the schedctl block.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2223
// See RFE #5004247 and http://sac.sfbay.sun.com/Archives/CaseLog/arc/PSARC/2005/351/
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2224
//
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2225
// The return value from NotRunnable() is *advisory* -- the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2226
// result is based on sampling and is not necessarily coherent.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2227
// The caller must tolerate false-negative and false-positive errors.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2228
// Spinning, in general, is probabilistic anyway.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2229
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2230
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2231
int ObjectMonitor::NotRunnable (Thread * Self, Thread * ox) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2232
    // Check either OwnerIsThread or ox->TypeTag == 2BAD.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2233
    if (!OwnerIsThread) return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2234
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2235
    if (ox == NULL) return 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2236
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2237
    // Avoid transitive spinning ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2238
    // Say T1 spins or blocks trying to acquire L.  T1._Stalled is set to L.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2239
    // Immediately after T1 acquires L it's possible that T2, also
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2240
    // spinning on L, will see L.Owner=T1 and T1._Stalled=L.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2241
    // This occurs transiently after T1 acquired L but before
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2242
    // T1 managed to clear T1.Stalled.  T2 does not need to abort
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2243
    // its spin in this circumstance.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2244
    intptr_t BlockedOn = SafeFetchN ((intptr_t *) &ox->_Stalled, intptr_t(1)) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2245
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2246
    if (BlockedOn == 1) return 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2247
    if (BlockedOn != 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2248
      return BlockedOn != intptr_t(this) && _owner == ox ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2249
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2250
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2251
    assert (sizeof(((JavaThread *)ox)->_thread_state == sizeof(int)), "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2252
    int jst = SafeFetch32 ((int *) &((JavaThread *) ox)->_thread_state, -1) ; ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2253
    // consider also: jst != _thread_in_Java -- but that's overspecific.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2254
    return jst == _thread_blocked || jst == _thread_in_native ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2255
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2256
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2257
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2258
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2259
// WaitSet management ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2260
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2261
ObjectWaiter::ObjectWaiter(Thread* thread) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2262
  _next     = NULL;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2263
  _prev     = NULL;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2264
  _notified = 0;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2265
  TState    = TS_RUN ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2266
  _thread   = thread;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2267
  _event    = thread->_ParkEvent ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2268
  _active   = false;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2269
  assert (_event != NULL, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2270
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2271
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2272
void ObjectWaiter::wait_reenter_begin(ObjectMonitor *mon) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2273
  JavaThread *jt = (JavaThread *)this->_thread;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2274
  _active = JavaThreadBlockedOnMonitorEnterState::wait_reenter_begin(jt, mon);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2275
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2276
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2277
void ObjectWaiter::wait_reenter_end(ObjectMonitor *mon) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2278
  JavaThread *jt = (JavaThread *)this->_thread;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2279
  JavaThreadBlockedOnMonitorEnterState::wait_reenter_end(jt, _active);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2280
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2281
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2282
inline void ObjectMonitor::AddWaiter(ObjectWaiter* node) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2283
  assert(node != NULL, "should not dequeue NULL node");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2284
  assert(node->_prev == NULL, "node already in list");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2285
  assert(node->_next == NULL, "node already in list");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2286
  // put node at end of queue (circular doubly linked list)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2287
  if (_WaitSet == NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2288
    _WaitSet = node;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2289
    node->_prev = node;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2290
    node->_next = node;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2291
  } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2292
    ObjectWaiter* head = _WaitSet ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2293
    ObjectWaiter* tail = head->_prev;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2294
    assert(tail->_next == head, "invariant check");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2295
    tail->_next = node;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2296
    head->_prev = node;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2297
    node->_next = head;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2298
    node->_prev = tail;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2299
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2300
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2301
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2302
inline ObjectWaiter* ObjectMonitor::DequeueWaiter() {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2303
  // dequeue the very first waiter
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2304
  ObjectWaiter* waiter = _WaitSet;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2305
  if (waiter) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2306
    DequeueSpecificWaiter(waiter);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2307
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2308
  return waiter;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2309
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2310
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2311
inline void ObjectMonitor::DequeueSpecificWaiter(ObjectWaiter* node) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2312
  assert(node != NULL, "should not dequeue NULL node");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2313
  assert(node->_prev != NULL, "node already removed from list");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2314
  assert(node->_next != NULL, "node already removed from list");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2315
  // when the waiter has woken up because of interrupt,
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2316
  // timeout or other spurious wake-up, dequeue the
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2317
  // waiter from waiting list
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2318
  ObjectWaiter* next = node->_next;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2319
  if (next == node) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2320
    assert(node->_prev == node, "invariant check");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2321
    _WaitSet = NULL;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2322
  } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2323
    ObjectWaiter* prev = node->_prev;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2324
    assert(prev->_next == node, "invariant check");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2325
    assert(next->_prev == node, "invariant check");
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2326
    next->_prev = prev;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2327
    prev->_next = next;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2328
    if (_WaitSet == node) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2329
      _WaitSet = next;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2330
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2331
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2332
  node->_next = NULL;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2333
  node->_prev = NULL;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2334
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2335
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2336
// -----------------------------------------------------------------------------
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2337
// PerfData support
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2338
PerfCounter * ObjectMonitor::_sync_ContendedLockAttempts       = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2339
PerfCounter * ObjectMonitor::_sync_FutileWakeups               = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2340
PerfCounter * ObjectMonitor::_sync_Parks                       = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2341
PerfCounter * ObjectMonitor::_sync_EmptyNotifications          = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2342
PerfCounter * ObjectMonitor::_sync_Notifications               = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2343
PerfCounter * ObjectMonitor::_sync_PrivateA                    = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2344
PerfCounter * ObjectMonitor::_sync_PrivateB                    = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2345
PerfCounter * ObjectMonitor::_sync_SlowExit                    = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2346
PerfCounter * ObjectMonitor::_sync_SlowEnter                   = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2347
PerfCounter * ObjectMonitor::_sync_SlowNotify                  = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2348
PerfCounter * ObjectMonitor::_sync_SlowNotifyAll               = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2349
PerfCounter * ObjectMonitor::_sync_FailedSpins                 = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2350
PerfCounter * ObjectMonitor::_sync_SuccessfulSpins             = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2351
PerfCounter * ObjectMonitor::_sync_MonInCirculation            = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2352
PerfCounter * ObjectMonitor::_sync_MonScavenged                = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2353
PerfCounter * ObjectMonitor::_sync_Inflations                  = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2354
PerfCounter * ObjectMonitor::_sync_Deflations                  = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2355
PerfLongVariable * ObjectMonitor::_sync_MonExtant              = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2356
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2357
// One-shot global initialization for the sync subsystem.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2358
// We could also defer initialization and initialize on-demand
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2359
// the first time we call inflate().  Initialization would
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2360
// be protected - like so many things - by the MonitorCache_lock.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2361
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2362
void ObjectMonitor::Initialize () {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2363
  static int InitializationCompleted = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2364
  assert (InitializationCompleted == 0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2365
  InitializationCompleted = 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2366
  if (UsePerfData) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2367
      EXCEPTION_MARK ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2368
      #define NEWPERFCOUNTER(n)   {n = PerfDataManager::create_counter(SUN_RT, #n, PerfData::U_Events,CHECK); }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2369
      #define NEWPERFVARIABLE(n)  {n = PerfDataManager::create_variable(SUN_RT, #n, PerfData::U_Events,CHECK); }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2370
      NEWPERFCOUNTER(_sync_Inflations) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2371
      NEWPERFCOUNTER(_sync_Deflations) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2372
      NEWPERFCOUNTER(_sync_ContendedLockAttempts) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2373
      NEWPERFCOUNTER(_sync_FutileWakeups) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2374
      NEWPERFCOUNTER(_sync_Parks) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2375
      NEWPERFCOUNTER(_sync_EmptyNotifications) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2376
      NEWPERFCOUNTER(_sync_Notifications) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2377
      NEWPERFCOUNTER(_sync_SlowEnter) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2378
      NEWPERFCOUNTER(_sync_SlowExit) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2379
      NEWPERFCOUNTER(_sync_SlowNotify) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2380
      NEWPERFCOUNTER(_sync_SlowNotifyAll) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2381
      NEWPERFCOUNTER(_sync_FailedSpins) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2382
      NEWPERFCOUNTER(_sync_SuccessfulSpins) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2383
      NEWPERFCOUNTER(_sync_PrivateA) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2384
      NEWPERFCOUNTER(_sync_PrivateB) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2385
      NEWPERFCOUNTER(_sync_MonInCirculation) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2386
      NEWPERFCOUNTER(_sync_MonScavenged) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2387
      NEWPERFVARIABLE(_sync_MonExtant) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2388
      #undef NEWPERFCOUNTER
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2389
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2390
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2391
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2392
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2393
// Compile-time asserts
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2394
// When possible, it's better to catch errors deterministically at
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2395
// compile-time than at runtime.  The down-side to using compile-time
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2396
// asserts is that error message -- often something about negative array
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2397
// indices -- is opaque.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2398
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2399
#define CTASSERT(x) { int tag[1-(2*!(x))]; printf ("Tag @" INTPTR_FORMAT "\n", (intptr_t)tag); }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2400
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2401
void ObjectMonitor::ctAsserts() {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2402
  CTASSERT(offset_of (ObjectMonitor, _header) == 0);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2403
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2404
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2405
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2406
static char * kvGet (char * kvList, const char * Key) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2407
    if (kvList == NULL) return NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2408
    size_t n = strlen (Key) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2409
    char * Search ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2410
    for (Search = kvList ; *Search ; Search += strlen(Search) + 1) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2411
        if (strncmp (Search, Key, n) == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2412
            if (Search[n] == '=') return Search + n + 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2413
            if (Search[n] == 0)   return (char *) "1" ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2414
        }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2415
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2416
    return NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2417
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2418
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2419
static int kvGetInt (char * kvList, const char * Key, int Default) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2420
    char * v = kvGet (kvList, Key) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2421
    int rslt = v ? ::strtol (v, NULL, 0) : Default ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2422
    if (Knob_ReportSettings && v != NULL) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2423
        ::printf ("  SyncKnob: %s %d(%d)\n", Key, rslt, Default) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2424
        ::fflush (stdout) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2425
    }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2426
    return rslt ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2427
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2428
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2429
void ObjectMonitor::DeferredInitialize () {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2430
  if (InitDone > 0) return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2431
  if (Atomic::cmpxchg (-1, &InitDone, 0) != 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2432
      while (InitDone != 1) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2433
      return ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2434
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2435
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2436
  // One-shot global initialization ...
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2437
  // The initialization is idempotent, so we don't need locks.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2438
  // In the future consider doing this via os::init_2().
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2439
  // SyncKnobs consist of <Key>=<Value> pairs in the style
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2440
  // of environment variables.  Start by converting ':' to NUL.
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2441
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2442
  if (SyncKnobs == NULL) SyncKnobs = "" ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2443
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2444
  size_t sz = strlen (SyncKnobs) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2445
  char * knobs = (char *) malloc (sz + 2) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2446
  if (knobs == NULL) {
17087
f0b76c4c93a0 8011661: Insufficient memory message says "malloc" when sometimes it should say "mmap"
ccheung
parents: 15234
diff changeset
  2447
     vm_exit_out_of_memory (sz + 2, OOM_MALLOC_ERROR, "Parse SyncKnobs") ;
6975
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2448
     guarantee (0, "invariant") ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2449
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2450
  strcpy (knobs, SyncKnobs) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2451
  knobs[sz+1] = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2452
  for (char * p = knobs ; *p ; p++) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2453
     if (*p == ':') *p = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2454
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2455
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2456
  #define SETKNOB(x) { Knob_##x = kvGetInt (knobs, #x, Knob_##x); }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2457
  SETKNOB(ReportSettings) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2458
  SETKNOB(Verbose) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2459
  SETKNOB(FixedSpin) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2460
  SETKNOB(SpinLimit) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2461
  SETKNOB(SpinBase) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2462
  SETKNOB(SpinBackOff);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2463
  SETKNOB(CASPenalty) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2464
  SETKNOB(OXPenalty) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2465
  SETKNOB(LogSpins) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2466
  SETKNOB(SpinSetSucc) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2467
  SETKNOB(SuccEnabled) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2468
  SETKNOB(SuccRestrict) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2469
  SETKNOB(Penalty) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2470
  SETKNOB(Bonus) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2471
  SETKNOB(BonusB) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2472
  SETKNOB(Poverty) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2473
  SETKNOB(SpinAfterFutile) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2474
  SETKNOB(UsePause) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2475
  SETKNOB(SpinEarly) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2476
  SETKNOB(OState) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2477
  SETKNOB(MaxSpinners) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2478
  SETKNOB(PreSpin) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2479
  SETKNOB(ExitPolicy) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2480
  SETKNOB(QMode);
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2481
  SETKNOB(ResetEvent) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2482
  SETKNOB(MoveNotifyee) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2483
  SETKNOB(FastHSSEC) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2484
  #undef SETKNOB
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2485
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2486
  if (os::is_MP()) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2487
     BackOffMask = (1 << Knob_SpinBackOff) - 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2488
     if (Knob_ReportSettings) ::printf ("BackOffMask=%X\n", BackOffMask) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2489
     // CONSIDER: BackOffMask = ROUNDUP_NEXT_POWER2 (ncpus-1)
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2490
  } else {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2491
     Knob_SpinLimit = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2492
     Knob_SpinBase  = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2493
     Knob_PreSpin   = 0 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2494
     Knob_FixedSpin = -1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2495
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2496
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2497
  if (Knob_LogSpins == 0) {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2498
     ObjectMonitor::_sync_FailedSpins = NULL ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2499
  }
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2500
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2501
  free (knobs) ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2502
  OrderAccess::fence() ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2503
  InitDone = 1 ;
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2504
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2505
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2506
#ifndef PRODUCT
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2507
void ObjectMonitor::verify() {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2508
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2509
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2510
void ObjectMonitor::print() {
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2511
}
dc9b63952682 6988353: refactor contended sync subsystem
acorn
parents:
diff changeset
  2512
#endif