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threadSMR.hpp
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threadSMR.hpp
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/*
* Copyright (c) 2017, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
#ifndef SHARE_VM_RUNTIME_THREADSMR_HPP
#define SHARE_VM_RUNTIME_THREADSMR_HPP
#include "memory/allocation.hpp"
#include "runtime/timer.hpp"
class JavaThread;
class Monitor;
class outputStream;
class Thread;
class ThreadClosure;
// Thread Safe Memory Reclamation (Thread-SMR) support.
//
// ThreadsListHandles are used to safely perform operations on one or more
// threads without the risk of the thread or threads exiting during the
// operation. It is no longer necessary to hold the Threads_lock to safely
// perform an operation on a target thread.
//
// There are several different ways to refer to java.lang.Thread objects
// so we have a few ways to get a protected JavaThread *:
//
// JNI jobject example:
// jobject jthread = ...;
// :
// ThreadsListHandle tlh;
// JavaThread* jt = NULL;
// bool is_alive = tlh.cv_internal_thread_to_JavaThread(jthread, &jt, NULL);
// if (is_alive) {
// : // do stuff with 'jt'...
// }
//
// JVM/TI jthread example:
// jthread thread = ...;
// :
// JavaThread* jt = NULL;
// ThreadsListHandle tlh;
// jvmtiError err = JvmtiExport::cv_external_thread_to_JavaThread(tlh.list(), thread, &jt, NULL);
// if (err != JVMTI_ERROR_NONE) {
// return err;
// }
// : // do stuff with 'jt'...
//
// JVM/TI oop example (this one should be very rare):
// oop thread_obj = ...;
// :
// JavaThread *jt = NULL;
// ThreadsListHandle tlh;
// jvmtiError err = JvmtiExport::cv_oop_to_JavaThread(tlh.list(), thread_obj, &jt);
// if (err != JVMTI_ERROR_NONE) {
// return err;
// }
// : // do stuff with 'jt'...
//
// A JavaThread * that is included in the ThreadsList that is held by
// a ThreadsListHandle is protected as long as the ThreadsListHandle
// remains in scope. The target JavaThread * may have logically exited,
// but that target JavaThread * will not be deleted until it is no
// longer protected by a ThreadsListHandle.
// SMR Support for the Threads class.
//
class ThreadsSMRSupport : AllStatic {
friend class SafeThreadsListPtr; // for _nested_thread_list_max, delete_notify(), release_stable_list_wake_up() access
// The coordination between ThreadsSMRSupport::release_stable_list() and
// ThreadsSMRSupport::smr_delete() uses the delete_lock in order to
// reduce the traffic on the Threads_lock.
static Monitor* _delete_lock;
// The '_cnt', '_max' and '_times" fields are enabled via
// -XX:+EnableThreadSMRStatistics (see thread.cpp for a
// description about each field):
static uint _delete_lock_wait_cnt;
static uint _delete_lock_wait_max;
// The delete_notify flag is used for proper double-check
// locking in order to reduce the traffic on the system wide
// Thread-SMR delete_lock.
static volatile uint _delete_notify;
static volatile uint _deleted_thread_cnt;
static volatile uint _deleted_thread_time_max;
static volatile uint _deleted_thread_times;
static ThreadsList* volatile _java_thread_list;
static uint64_t _java_thread_list_alloc_cnt;
static uint64_t _java_thread_list_free_cnt;
static uint _java_thread_list_max;
static uint _nested_thread_list_max;
static volatile uint _tlh_cnt;
static volatile uint _tlh_time_max;
static volatile uint _tlh_times;
static ThreadsList* _to_delete_list;
static uint _to_delete_list_cnt;
static uint _to_delete_list_max;
static ThreadsList *acquire_stable_list_fast_path(Thread *self);
static ThreadsList *acquire_stable_list_nested_path(Thread *self);
static void add_deleted_thread_times(uint add_value);
static void add_tlh_times(uint add_value);
static void clear_delete_notify();
static Monitor* delete_lock() { return _delete_lock; }
static bool delete_notify();
static void free_list(ThreadsList* threads);
static void inc_deleted_thread_cnt();
static void inc_java_thread_list_alloc_cnt();
static void inc_tlh_cnt();
static bool is_a_protected_JavaThread(JavaThread *thread);
static void release_stable_list_wake_up(bool is_nested);
static void set_delete_notify();
static void threads_do(ThreadClosure *tc);
static void threads_do(ThreadClosure *tc, ThreadsList *list);
static void update_deleted_thread_time_max(uint new_value);
static void update_java_thread_list_max(uint new_value);
static void update_tlh_time_max(uint new_value);
static void verify_hazard_ptr_scanned(Thread *self, ThreadsList *threads);
static ThreadsList* xchg_java_thread_list(ThreadsList* new_list);
public:
static void add_thread(JavaThread *thread);
static ThreadsList* get_java_thread_list();
static bool is_a_protected_JavaThread_with_lock(JavaThread *thread);
static void remove_thread(JavaThread *thread);
static void smr_delete(JavaThread *thread);
static void update_tlh_stats(uint millis);
// Logging and printing support:
static void log_statistics();
static void print_info_elements_on(outputStream* st, ThreadsList* t_list);
static void print_info_on(outputStream* st);
static void print_info_on(const Thread* thread, outputStream* st);
};
// A fast list of JavaThreads.
//
class ThreadsList : public CHeapObj<mtThread> {
friend class SafeThreadsListPtr; // for {dec,inc}_nested_handle_cnt() access
friend class ThreadsSMRSupport; // for _nested_handle_cnt, {add,remove}_thread(), {,set_}next_list() access
const uint _length;
ThreadsList* _next_list;
JavaThread *const *const _threads;
volatile intx _nested_handle_cnt;
template <class T>
void threads_do_dispatch(T *cl, JavaThread *const thread) const;
ThreadsList *next_list() const { return _next_list; }
void set_next_list(ThreadsList *list) { _next_list = list; }
void inc_nested_handle_cnt();
void dec_nested_handle_cnt();
static ThreadsList* add_thread(ThreadsList* list, JavaThread* java_thread);
static ThreadsList* remove_thread(ThreadsList* list, JavaThread* java_thread);
public:
ThreadsList(int entries);
~ThreadsList();
template <class T>
void threads_do(T *cl) const;
uint length() const { return _length; }
JavaThread *const thread_at(uint i) const { return _threads[i]; }
JavaThread *const *threads() const { return _threads; }
// Returns -1 if target is not found.
int find_index_of_JavaThread(JavaThread* target);
JavaThread* find_JavaThread_from_java_tid(jlong java_tid) const;
bool includes(const JavaThread * const p) const;
};
// An abstract safe ptr to a ThreadsList comprising either a stable hazard ptr
// for leaves, or a retained reference count for nested uses. The user of this
// API does not need to know which mechanism is providing the safety.
class SafeThreadsListPtr {
friend class ThreadsListSetter;
SafeThreadsListPtr* _previous;
Thread* _thread;
ThreadsList* _list;
bool _has_ref_count;
bool _needs_release;
void acquire_stable_list();
void acquire_stable_list_fast_path();
void acquire_stable_list_nested_path();
void release_stable_list();
void verify_hazard_ptr_scanned();
public:
// Constructor that attaches the list onto a thread.
SafeThreadsListPtr(Thread *thread, bool acquire) :
_previous(NULL),
_thread(thread),
_list(NULL),
_has_ref_count(false),
_needs_release(false)
{
if (acquire) {
acquire_stable_list();
}
}
// Constructor that transfers ownership of the pointer.
SafeThreadsListPtr(SafeThreadsListPtr& other) :
_previous(other._previous),
_thread(other._thread),
_list(other._list),
_has_ref_count(other._has_ref_count),
_needs_release(other._needs_release)
{
other._needs_release = false;
}
~SafeThreadsListPtr() {
if (_needs_release) {
release_stable_list();
}
}
ThreadsList* list() const { return _list; }
SafeThreadsListPtr* previous() const { return _previous; }
void print_on(outputStream* st);
};
// A helper to optionally set the hazard ptr in ourself. This helper can
// be used by ourself or by another thread. If the hazard ptr is set(),
// then the destructor will release it.
//
class ThreadsListSetter : public StackObj {
private:
SafeThreadsListPtr _list_ptr;
public:
ThreadsListSetter() : _list_ptr(Thread::current(), /* acquire */ false) {}
ThreadsList* list() { return _list_ptr.list(); }
void set() { _list_ptr.acquire_stable_list(); }
bool is_set() { return _list_ptr._needs_release; }
};
// This stack allocated ThreadsListHandle keeps all JavaThreads in the
// ThreadsList from being deleted until it is safe.
//
class ThreadsListHandle : public StackObj {
SafeThreadsListPtr _list_ptr;
elapsedTimer _timer; // Enabled via -XX:+EnableThreadSMRStatistics.
public:
ThreadsListHandle(Thread *self = Thread::current());
~ThreadsListHandle();
ThreadsList *list() const {
return _list_ptr.list();
}
template <class T>
void threads_do(T *cl) const {
return list()->threads_do(cl);
}
bool cv_internal_thread_to_JavaThread(jobject jthread, JavaThread ** jt_pp, oop * thread_oop_p);
bool includes(JavaThread* p) {
return list()->includes(p);
}
uint length() const {
return list()->length();
}
};
// This stack allocated JavaThreadIterator is used to walk the
// specified ThreadsList using the following style:
//
// JavaThreadIterator jti(t_list);
// for (JavaThread *jt = jti.first(); jt != NULL; jt = jti.next()) {
// ...
// }
//
class JavaThreadIterator : public StackObj {
ThreadsList * _list;
uint _index;
public:
JavaThreadIterator(ThreadsList *list) : _list(list), _index(0) {
assert(list != NULL, "ThreadsList must not be NULL.");
}
JavaThread *first() {
_index = 0;
return _list->thread_at(_index);
}
uint length() const {
return _list->length();
}
ThreadsList *list() const {
return _list;
}
JavaThread *next() {
if (++_index >= length()) {
return NULL;
}
return _list->thread_at(_index);
}
};
// This stack allocated ThreadsListHandle and JavaThreadIterator combo
// is used to walk the ThreadsList in the included ThreadsListHandle
// using the following style:
//
// for (JavaThreadIteratorWithHandle jtiwh; JavaThread *jt = jtiwh.next(); ) {
// ...
// }
//
class JavaThreadIteratorWithHandle : public StackObj {
ThreadsListHandle _tlh;
uint _index;
public:
JavaThreadIteratorWithHandle() : _index(0) {}
uint length() const {
return _tlh.length();
}
ThreadsList *list() const {
return _tlh.list();
}
JavaThread *next() {
if (_index >= length()) {
return NULL;
}
return _tlh.list()->thread_at(_index++);
}
void rewind() {
_index = 0;
}
};
#endif // SHARE_VM_RUNTIME_THREADSMR_HPP