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jdk-24/test/hotspot/gtest/runtime/test_lockStack.cpp
Axel Boldt-Christmas 5dbf13730e 8319797: Recursive lightweight locking: Runtime implementation 
Co-authored-by: Stefan Karlsson <stefank@openjdk.org>
Co-authored-by: Erik Österlund <eosterlund@openjdk.org>
Reviewed-by: rkennke, dcubed, coleenp, stefank
2024-02-13 09:32:58 +00:00

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/*
* Copyright (c) 2023, 2024, 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.
*/
#include "precompiled.hpp"
#include "runtime/interfaceSupport.inline.hpp"
#include "runtime/lockStack.inline.hpp"
#include "runtime/os.hpp"
#include "unittest.hpp"
#include "utilities/globalDefinitions.hpp"
class LockStackTest : public ::testing::Test {
public:
static void push_raw(LockStack& ls, oop obj) {
ls._base[ls.to_index(ls._top)] = obj;
ls._top += oopSize;
}
static void pop_raw(LockStack& ls) {
ls._top -= oopSize;
#ifdef ASSERT
ls._base[ls.to_index(ls._top)] = nullptr;
#endif
}
static oop at(LockStack& ls, int index) {
return ls._base[index];
}
static size_t size(LockStack& ls) {
return ls.to_index(ls._top);
}
};
#define recursive_enter(ls, obj) \
do { \
bool ret = ls.try_recursive_enter(obj); \
EXPECT_TRUE(ret); \
} while (false)
#define recursive_exit(ls, obj) \
do { \
bool ret = ls.try_recursive_exit(obj); \
EXPECT_TRUE(ret); \
} while (false)
TEST_VM_F(LockStackTest, is_recursive) {
if (LockingMode != LM_LIGHTWEIGHT || !VM_Version::supports_recursive_lightweight_locking()) {
return;
}
JavaThread* THREAD = JavaThread::current();
// the thread should be in vm to use locks
ThreadInVMfromNative ThreadInVMfromNative(THREAD);
LockStack& ls = THREAD->lock_stack();
EXPECT_TRUE(ls.is_empty());
oop obj0 = Universe::int_mirror();
oop obj1 = Universe::float_mirror();
push_raw(ls, obj0);
// 0
EXPECT_FALSE(ls.is_recursive(obj0));
push_raw(ls, obj1);
// 0, 1
EXPECT_FALSE(ls.is_recursive(obj0));
EXPECT_FALSE(ls.is_recursive(obj1));
push_raw(ls, obj1);
// 0, 1, 1
EXPECT_FALSE(ls.is_recursive(obj0));
EXPECT_TRUE(ls.is_recursive(obj1));
pop_raw(ls);
pop_raw(ls);
push_raw(ls, obj0);
// 0, 0
EXPECT_TRUE(ls.is_recursive(obj0));
push_raw(ls, obj0);
// 0, 0, 0
EXPECT_TRUE(ls.is_recursive(obj0));
pop_raw(ls);
push_raw(ls, obj1);
// 0, 0, 1
EXPECT_TRUE(ls.is_recursive(obj0));
EXPECT_FALSE(ls.is_recursive(obj1));
push_raw(ls, obj1);
// 0, 0, 1, 1
EXPECT_TRUE(ls.is_recursive(obj0));
EXPECT_TRUE(ls.is_recursive(obj1));
// Clear stack
pop_raw(ls);
pop_raw(ls);
pop_raw(ls);
pop_raw(ls);
EXPECT_TRUE(ls.is_empty());
}
TEST_VM_F(LockStackTest, try_recursive_enter) {
if (LockingMode != LM_LIGHTWEIGHT || !VM_Version::supports_recursive_lightweight_locking()) {
return;
}
JavaThread* THREAD = JavaThread::current();
// the thread should be in vm to use locks
ThreadInVMfromNative ThreadInVMfromNative(THREAD);
LockStack& ls = THREAD->lock_stack();
EXPECT_TRUE(ls.is_empty());
oop obj0 = Universe::int_mirror();
oop obj1 = Universe::float_mirror();
ls.push(obj0);
// 0
EXPECT_FALSE(ls.is_recursive(obj0));
ls.push(obj1);
// 0, 1
EXPECT_FALSE(ls.is_recursive(obj0));
EXPECT_FALSE(ls.is_recursive(obj1));
recursive_enter(ls, obj1);
// 0, 1, 1
EXPECT_FALSE(ls.is_recursive(obj0));
EXPECT_TRUE(ls.is_recursive(obj1));
recursive_exit(ls, obj1);
pop_raw(ls);
recursive_enter(ls, obj0);
// 0, 0
EXPECT_TRUE(ls.is_recursive(obj0));
recursive_enter(ls, obj0);
// 0, 0, 0
EXPECT_TRUE(ls.is_recursive(obj0));
recursive_exit(ls, obj0);
push_raw(ls, obj1);
// 0, 0, 1
EXPECT_TRUE(ls.is_recursive(obj0));
EXPECT_FALSE(ls.is_recursive(obj1));
recursive_enter(ls, obj1);
// 0, 0, 1, 1
EXPECT_TRUE(ls.is_recursive(obj0));
EXPECT_TRUE(ls.is_recursive(obj1));
// Clear stack
pop_raw(ls);
pop_raw(ls);
pop_raw(ls);
pop_raw(ls);
EXPECT_TRUE(ls.is_empty());
}
TEST_VM_F(LockStackTest, contains) {
if (LockingMode != LM_LIGHTWEIGHT) {
return;
}
const bool test_recursive = VM_Version::supports_recursive_lightweight_locking();
JavaThread* THREAD = JavaThread::current();
// the thread should be in vm to use locks
ThreadInVMfromNative ThreadInVMfromNative(THREAD);
LockStack& ls = THREAD->lock_stack();
EXPECT_TRUE(ls.is_empty());
oop obj0 = Universe::int_mirror();
oop obj1 = Universe::float_mirror();
EXPECT_FALSE(ls.contains(obj0));
ls.push(obj0);
// 0
EXPECT_TRUE(ls.contains(obj0));
EXPECT_FALSE(ls.contains(obj1));
if (test_recursive) {
push_raw(ls, obj0);
// 0, 0
EXPECT_TRUE(ls.contains(obj0));
EXPECT_FALSE(ls.contains(obj1));
}
push_raw(ls, obj1);
// 0, 0, 1
EXPECT_TRUE(ls.contains(obj0));
EXPECT_TRUE(ls.contains(obj1));
if (test_recursive) {
push_raw(ls, obj1);
// 0, 0, 1, 1
EXPECT_TRUE(ls.contains(obj0));
EXPECT_TRUE(ls.contains(obj1));
}
pop_raw(ls);
if (test_recursive) {
pop_raw(ls);
pop_raw(ls);
}
push_raw(ls, obj1);
// 0, 1
EXPECT_TRUE(ls.contains(obj0));
EXPECT_TRUE(ls.contains(obj1));
// Clear stack
pop_raw(ls);
pop_raw(ls);
EXPECT_TRUE(ls.is_empty());
}
TEST_VM_F(LockStackTest, remove) {
if (LockingMode != LM_LIGHTWEIGHT) {
return;
}
const bool test_recursive = VM_Version::supports_recursive_lightweight_locking();
JavaThread* THREAD = JavaThread::current();
// the thread should be in vm to use locks
ThreadInVMfromNative ThreadInVMfromNative(THREAD);
LockStack& ls = THREAD->lock_stack();
EXPECT_TRUE(ls.is_empty());
oop obj0 = Universe::int_mirror();
oop obj1 = Universe::float_mirror();
oop obj2 = Universe::short_mirror();
oop obj3 = Universe::long_mirror();
push_raw(ls, obj0);
// 0
{
size_t removed = ls.remove(obj0);
EXPECT_EQ(removed, 1u);
EXPECT_FALSE(ls.contains(obj0));
}
if (test_recursive) {
push_raw(ls, obj0);
push_raw(ls, obj0);
// 0, 0
{
size_t removed = ls.remove(obj0);
EXPECT_EQ(removed, 2u);
EXPECT_FALSE(ls.contains(obj0));
}
}
push_raw(ls, obj0);
push_raw(ls, obj1);
// 0, 1
{
size_t removed = ls.remove(obj0);
EXPECT_EQ(removed, 1u);
EXPECT_FALSE(ls.contains(obj0));
EXPECT_TRUE(ls.contains(obj1));
ls.remove(obj1);
EXPECT_TRUE(ls.is_empty());
}
push_raw(ls, obj0);
push_raw(ls, obj1);
// 0, 1
{
size_t removed = ls.remove(obj1);
EXPECT_EQ(removed, 1u);
EXPECT_FALSE(ls.contains(obj1));
EXPECT_TRUE(ls.contains(obj0));
ls.remove(obj0);
EXPECT_TRUE(ls.is_empty());
}
if (test_recursive) {
push_raw(ls, obj0);
push_raw(ls, obj0);
push_raw(ls, obj1);
// 0, 0, 1
{
size_t removed = ls.remove(obj0);
EXPECT_EQ(removed, 2u);
EXPECT_FALSE(ls.contains(obj0));
EXPECT_TRUE(ls.contains(obj1));
ls.remove(obj1);
EXPECT_TRUE(ls.is_empty());
}
push_raw(ls, obj0);
push_raw(ls, obj1);
push_raw(ls, obj1);
// 0, 1, 1
{
size_t removed = ls.remove(obj1);
EXPECT_EQ(removed, 2u);
EXPECT_FALSE(ls.contains(obj1));
EXPECT_TRUE(ls.contains(obj0));
ls.remove(obj0);
EXPECT_TRUE(ls.is_empty());
}
push_raw(ls, obj0);
push_raw(ls, obj1);
push_raw(ls, obj1);
push_raw(ls, obj2);
push_raw(ls, obj2);
push_raw(ls, obj2);
push_raw(ls, obj2);
push_raw(ls, obj3);
// 0, 1, 1, 2, 2, 2, 2, 3
{
EXPECT_EQ(size(ls), 8u);
size_t removed = ls.remove(obj1);
EXPECT_EQ(removed, 2u);
EXPECT_TRUE(ls.contains(obj0));
EXPECT_FALSE(ls.contains(obj1));
EXPECT_TRUE(ls.contains(obj2));
EXPECT_TRUE(ls.contains(obj3));
EXPECT_EQ(at(ls, 0), obj0);
EXPECT_EQ(at(ls, 1), obj2);
EXPECT_EQ(at(ls, 2), obj2);
EXPECT_EQ(at(ls, 3), obj2);
EXPECT_EQ(at(ls, 4), obj2);
EXPECT_EQ(at(ls, 5), obj3);
EXPECT_EQ(size(ls), 6u);
removed = ls.remove(obj2);
EXPECT_EQ(removed, 4u);
EXPECT_TRUE(ls.contains(obj0));
EXPECT_FALSE(ls.contains(obj1));
EXPECT_FALSE(ls.contains(obj2));
EXPECT_TRUE(ls.contains(obj3));
EXPECT_EQ(at(ls, 0), obj0);
EXPECT_EQ(at(ls, 1), obj3);
EXPECT_EQ(size(ls), 2u);
removed = ls.remove(obj0);
EXPECT_EQ(removed, 1u);
EXPECT_FALSE(ls.contains(obj0));
EXPECT_FALSE(ls.contains(obj1));
EXPECT_FALSE(ls.contains(obj2));
EXPECT_TRUE(ls.contains(obj3));
EXPECT_EQ(at(ls, 0), obj3);
EXPECT_EQ(size(ls), 1u);
removed = ls.remove(obj3);
EXPECT_EQ(removed, 1u);
EXPECT_TRUE(ls.is_empty());
EXPECT_EQ(size(ls), 0u);
}
}
EXPECT_TRUE(ls.is_empty());
}
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