/* * Copyright (c) 2020, 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/mutex.hpp" #include "runtime/mutexLocker.hpp" #include "runtime/thread.hpp" #include "utilities/formatBuffer.hpp" #include "threadHelper.inline.hpp" #include "unittest.hpp" const int iterations = 10; static Mutex* m[iterations]; static int i = 0; static void create_mutex(Thread* thr) { m[i] = new Mutex(Mutex::nosafepoint, FormatBuffer<128>("MyLock#%u_lock", i)); i++; } TEST_VM(MutexName, mutex_name) { // Create mutexes in threads, where the names are created on the thread // stacks and then check that their names are correct. for (int i = 0; i < iterations; i++) { nomt_test_doer(create_mutex); } for (int i = 0; i < iterations; i++) { FormatBuffer<128> f("MyLock#%u_lock", i); ASSERT_STREQ(m[i]->name(), f.buffer()) << "Wrong name!"; } } #ifdef ASSERT const Mutex::Rank rankA = Mutex::safepoint-5; const Mutex::Rank rankAplusOne = Mutex::safepoint-4; const Mutex::Rank rankAplusTwo = Mutex::safepoint-3; TEST_OTHER_VM(MutexRank, mutex_lock_rank_in_order) { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rankA = new Mutex(rankA, "mutex_rankA"); Mutex* mutex_rankA_plus_one = new Mutex(rankAplusOne, "mutex_rankA_plus_one"); mutex_rankA_plus_one->lock(); mutex_rankA->lock(); mutex_rankA->unlock(); mutex_rankA_plus_one->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, mutex_lock_rank_out_of_orderA, ".* Attempting to acquire lock mutex_rankA_plus_one/safepoint-4 out of order with lock mutex_rankA/safepoint-5 -- possible deadlock") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rankA = new Mutex(rankA, "mutex_rankA"); Mutex* mutex_rankA_plus_one = new Mutex(rankAplusOne, "mutex_rankA_plus_one"); mutex_rankA->lock(); mutex_rankA_plus_one->lock(); mutex_rankA_plus_one->unlock(); mutex_rankA->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, mutex_lock_rank_out_of_orderB, ".* Attempting to acquire lock mutex_rankB/.* out of order with lock mutex_rankA/.* -- possible deadlock") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rankA = new Mutex(rankA, "mutex_rankA"); Mutex* mutex_rankB = new Mutex(rankA, "mutex_rankB"); mutex_rankA->lock(); mutex_rankB->lock(); mutex_rankB->unlock(); mutex_rankA->unlock(); } TEST_OTHER_VM(MutexRank, mutex_trylock_rank_out_of_orderA) { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rankA = new Mutex(rankA, "mutex_rankA"); Mutex* mutex_rankA_plus_one = new Mutex(rankAplusOne, "mutex_rankA_plus_one"); Mutex* mutex_rankA_plus_two = new Mutex(rankAplusTwo, "mutex_rankA_plus_two"); mutex_rankA_plus_one->lock(); mutex_rankA_plus_two->try_lock_without_rank_check(); mutex_rankA->lock(); mutex_rankA->unlock(); mutex_rankA_plus_two->unlock(); mutex_rankA_plus_one->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, mutex_trylock_rank_out_of_orderB, ".* Attempting to acquire lock mutex_rankA_plus_one/.* out of order with lock mutex_rankA/.* -- possible deadlock") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rankA = new Mutex(rankA, "mutex_rankA"); Mutex* mutex_rankA_plus_one = new Mutex(rankAplusOne, "mutex_rankA_plus_one"); mutex_rankA->lock(); mutex_rankA_plus_one->try_lock_without_rank_check(); mutex_rankA_plus_one->unlock(); mutex_rankA_plus_one->try_lock(); mutex_rankA_plus_one->unlock(); mutex_rankA->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, mutex_lock_event_nosafepoint, ".* Attempting to acquire lock mutex_rank_nosafepoint/nosafepoint out of order with lock mutex_rank_event/event " "-- possible deadlock") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rank_event = new Mutex(Mutex::event, "mutex_rank_event"); Mutex* mutex_rank_safepoint = new Mutex(Mutex::nosafepoint, "mutex_rank_nosafepoint"); mutex_rank_event->lock_without_safepoint_check(); mutex_rank_safepoint->lock_without_safepoint_check(); mutex_rank_safepoint->unlock(); mutex_rank_event->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, mutex_lock_tty_nosafepoint, ".* Attempting to acquire lock mutex_rank_nosafepoint/nosafepoint out of order with lock mutex_rank_tty/tty " "-- possible deadlock") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Mutex* mutex_rank_tty = new Mutex(Mutex::tty, "mutex_rank_tty"); Mutex* mutex_rank_nosafepoint = new Mutex(Mutex::nosafepoint, "mutex_rank_nosafepoint"); mutex_rank_tty->lock_without_safepoint_check(); mutex_rank_nosafepoint->lock_without_safepoint_check(); mutex_rank_nosafepoint->unlock(); mutex_rank_tty->unlock(); } TEST_OTHER_VM(MutexRank, monitor_wait_rank_in_order) { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rankA = new Monitor(rankA, "monitor_rankA"); Monitor* monitor_rankA_plus_one = new Monitor(rankAplusOne, "monitor_rankA_plus_one"); monitor_rankA_plus_one->lock(); monitor_rankA->lock(); monitor_rankA->wait(1); monitor_rankA->unlock(); monitor_rankA_plus_one->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, monitor_wait_rank_out_of_order, ".* Attempting to wait on monitor monitor_rankA_plus_one/.* while holding lock monitor_rankA/.* " "-- possible deadlock. Should wait on the least ranked monitor from all owned locks.") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rankA = new Monitor(rankA, "monitor_rankA"); Monitor* monitor_rankA_plus_one = new Monitor(rankAplusOne, "monitor_rankA_plus_one"); monitor_rankA_plus_one->lock(); monitor_rankA->lock(); monitor_rankA_plus_one->wait(1); monitor_rankA_plus_one->unlock(); monitor_rankA->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, monitor_wait_rank_out_of_order_trylock, ".* Attempting to wait on monitor monitor_rankA_plus_one/.* while holding lock monitor_rankA/.* " "-- possible deadlock. Should wait on the least ranked monitor from all owned locks.") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rankA = new Monitor(rankA, "monitor_rankA"); Monitor* monitor_rankA_plus_one = new Monitor(rankAplusOne, "monitor_rankA_plus_one"); monitor_rankA->lock(); monitor_rankA_plus_one->try_lock_without_rank_check(); monitor_rankA_plus_one->wait(); monitor_rankA_plus_one->unlock(); monitor_rankA->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, monitor_wait_rank_nosafepoint, ".* Attempting to wait on monitor monitor_rank_nosafepoint_minus_one/.* while holding lock monitor_rank_nosafepoint/.*" "-- possible deadlock. Should not block\\(wait\\) while holding a lock of rank nosafepoint or below.") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_nosafepoint = new Monitor(Mutex::nosafepoint, "monitor_rank_nosafepoint"); Monitor* monitor_rank_nosafepoint_minus_one = new Monitor(Mutex::nosafepoint - 1, "monitor_rank_nosafepoint_minus_one"); monitor_rank_nosafepoint->lock_without_safepoint_check(); monitor_rank_nosafepoint_minus_one->lock_without_safepoint_check(); monitor_rank_nosafepoint_minus_one->wait_without_safepoint_check(1); monitor_rank_nosafepoint_minus_one->unlock(); monitor_rank_nosafepoint->unlock(); } // NonJavaThreads can't wait while holding tty lock or below. class VM_MutexWaitTTY : public VM_GTestExecuteAtSafepoint { public: void doit() { Monitor* monitor_rank_tty = new Monitor(Mutex::tty, "monitor_rank_tty"); Monitor* monitor_rank_event = new Monitor(Mutex::event, "monitor_rank_event"); monitor_rank_tty->lock_without_safepoint_check(); monitor_rank_event->lock_without_safepoint_check(); monitor_rank_event->wait_without_safepoint_check(1); monitor_rank_event->unlock(); monitor_rank_tty->unlock(); } }; TEST_VM_ASSERT_MSG(MutexRank, monitor_wait_event_tty, ".* Attempting to wait on monitor monitor_rank_event/event while holding lock monitor_rank_tty/tty " "-- possible deadlock. Should not block\\(wait\\) while holding a lock of rank tty or below.") { VM_MutexWaitTTY op; ThreadInVMfromNative invm(JavaThread::current()); VMThread::execute(&op); } TEST_VM_ASSERT_MSG(MutexRank, monitor_wait_tty_nosafepoint, ".* Attempting to wait on monitor monitor_rank_tty/.* while holding lock monitor_rank_nosafepoint/.* " "-- possible deadlock. Should not block\\(wait\\) while holding a lock of rank nosafepoint or below.") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_nosafepoint = new Monitor(Mutex::nosafepoint, "monitor_rank_nosafepoint"); Monitor* monitor_rank_tty = new Monitor(Mutex::tty, "monitor_rank_tty"); monitor_rank_nosafepoint->lock_without_safepoint_check(); monitor_rank_tty->lock_without_safepoint_check(); monitor_rank_tty->wait_without_safepoint_check(1); monitor_rank_tty->unlock(); monitor_rank_nosafepoint->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, monitor_nosafepoint_vm_block, ".*Locks that don't check for safepoint should always allow the vm to block: monitor_rank_nosafepoint") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_nosafepoint = new Monitor(Mutex::nosafepoint, "monitor_rank_nosafepoint", false); monitor_rank_nosafepoint->lock_without_safepoint_check(); monitor_rank_nosafepoint->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, monitor_negative_rank, ".*Bad lock rank") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_broken = new Monitor(Mutex::safepoint-100, "monitor_rank_broken"); monitor_rank_broken->lock_without_safepoint_check(); monitor_rank_broken->unlock(); } TEST_VM_ASSERT_MSG(MutexRank, monitor_overlapping_oopstorage_rank, ".*Rank oopstorage-4 overlaps with tty-1") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_broken = new Monitor(Mutex::oopstorage-4, "monitor_rank_broken"); } TEST_VM_ASSERT_MSG(MutexRank, monitor_overlapping_safepoint_rank, ".*Rank safepoint-40 overlaps with service-5") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_broken = new Monitor(Mutex::safepoint-40, "monitor_rank_broken"); } TEST_VM_ASSERT_MSG(MutexRank, monitor_overlapping_safepoint_rank2, ".*Rank safepoint-1-39 overlaps with service-5") { JavaThread* THREAD = JavaThread::current(); ThreadInVMfromNative invm(THREAD); Monitor* monitor_rank_ok = new Monitor(Mutex::safepoint-1, "monitor_rank_ok"); Monitor* monitor_rank_broken = new Monitor(monitor_rank_ok->rank()-39, "monitor_rank_broken"); } // Test mismatched safepoint check flag on lock declaration vs. lock acquisition. TEST_VM_ASSERT_MSG(MutexSafepoint, always_check, ".*This lock should always have a safepoint check for Java threads: SFPT_Test_lock") { MutexLocker ml(new Mutex(Mutex::safepoint, "SFPT_Test_lock"), Mutex::_no_safepoint_check_flag); } TEST_VM_ASSERT_MSG(MutexSafepoint, never_check, ".*This lock should not be taken with a safepoint check: SFPT_Test_lock") { MutexLocker ml(new Mutex(Mutex::nosafepoint, "SFPT_Test_lock"), Mutex::_safepoint_check_flag); } TEST_VM_ASSERT_MSG(MutexSafepoint, possible_safepoint_lock, ".* Possible safepoint reached by thread that does not allow it") { JavaThread* thread = JavaThread::current(); ThreadInVMfromNative in_native(thread); MutexLocker ml(new Mutex(Mutex::nosafepoint, "SpecialTest_lock"), Mutex::_no_safepoint_check_flag); thread->print_thread_state_on(tty); // If the lock above succeeds, try to safepoint to test the NSV implied with this nosafepoint lock. ThreadBlockInVM tbivm(thread); thread->print_thread_state_on(tty); } #endif // ASSERT