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rocksdb/util/timer_test.cc
Yanqin Jin 76609cd38a Fix potential memory leak (#7245) 
Summary:
```
int* value = new int;
ASSERT_NE(nullptr, value);
```
`ASSERT_NE` can expand the expression such that a memory leak is
reported by clang analyzer.
We can remove this ASSERT_NE since we can assume the memory allocation
must succeed. Otherwise a bad alloc exception will be thrown and the
process will be killed anyway.

Test plan (dev server):
```
USE_CLANG=1 make analyze
```

Pull Request resolved: https://github.com/facebook/rocksdb/pull/7245

Reviewed By: jay-zhuang

Differential Revision: D23079641

Pulled By: riversand963

fbshipit-source-id: a6739a903f90f8715f6f1ef3e5c8a329245b8e78
2020-08-12 12:03:22 -07:00

366 lines
9.5 KiB
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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
#include "util/timer.h"
#include "db/db_test_util.h"
namespace ROCKSDB_NAMESPACE {
class TimerTest : public testing::Test {
public:
TimerTest() : mock_env_(new MockTimeEnv(Env::Default())) {}
protected:
std::unique_ptr<MockTimeEnv> mock_env_;
#if defined(OS_MACOSX) && !defined(NDEBUG)
// On some platforms (MacOS) pthread_cond_timedwait does not appear
// to release the lock for other threads to operate if the deadline time
// is already passed. This is a problem for tests in general because
// TimedWait calls are a bad abstraction: the deadline parameter is
// usually computed from Env time, but is interpreted in real clock time.
// Since this test doesn't even pretend to use clock times, we have
// to mock TimedWait to ensure it yields.
void SetUp() override {
ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->DisableProcessing();
ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->ClearAllCallBacks();
ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->SetCallBack(
"InstrumentedCondVar::TimedWaitInternal", [&](void* arg) {
uint64_t* time_us = reinterpret_cast<uint64_t*>(arg);
if (*time_us < mock_env_->RealNowMicros()) {
*time_us = mock_env_->RealNowMicros() + 1000;
}
});
ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->EnableProcessing();
}
#endif // OS_MACOSX && !NDEBUG
const uint64_t kSecond = 1000000; // 1sec = 1000000us
};
TEST_F(TimerTest, SingleScheduleOnceTest) {
const int kIterations = 1;
uint64_t time_counter = 0;
mock_env_->set_current_time(0);
InstrumentedMutex mutex;
InstrumentedCondVar test_cv(&mutex);
Timer timer(mock_env_.get());
int count = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex);
count++;
if (count >= kIterations) {
test_cv.SignalAll();
}
},
"fn_sch_test", 1 * kSecond, 0);
ASSERT_TRUE(timer.Start());
// Wait for execution to finish
{
InstrumentedMutexLock l(&mutex);
while(count < kIterations) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv.TimedWait(time_counter);
}
}
ASSERT_TRUE(timer.Shutdown());
ASSERT_EQ(1, count);
}
TEST_F(TimerTest, MultipleScheduleOnceTest) {
const int kIterations = 1;
uint64_t time_counter = 0;
mock_env_->set_current_time(0);
InstrumentedMutex mutex1;
InstrumentedCondVar test_cv1(&mutex1);
Timer timer(mock_env_.get());
int count1 = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex1);
count1++;
if (count1 >= kIterations) {
test_cv1.SignalAll();
}
},
"fn_sch_test1", 1 * kSecond, 0);
InstrumentedMutex mutex2;
InstrumentedCondVar test_cv2(&mutex2);
int count2 = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex2);
count2 += 5;
if (count2 >= kIterations) {
test_cv2.SignalAll();
}
},
"fn_sch_test2", 3 * kSecond, 0);
ASSERT_TRUE(timer.Start());
// Wait for execution to finish
{
InstrumentedMutexLock l(&mutex1);
while (count1 < kIterations) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv1.TimedWait(time_counter);
}
}
// Wait for execution to finish
{
InstrumentedMutexLock l(&mutex2);
while(count2 < kIterations) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv2.TimedWait(time_counter);
}
}
ASSERT_TRUE(timer.Shutdown());
ASSERT_EQ(1, count1);
ASSERT_EQ(5, count2);
}
TEST_F(TimerTest, SingleScheduleRepeatedlyTest) {
const int kIterations = 5;
uint64_t time_counter = 0;
mock_env_->set_current_time(0);
InstrumentedMutex mutex;
InstrumentedCondVar test_cv(&mutex);
Timer timer(mock_env_.get());
int count = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex);
count++;
if (count >= kIterations) {
test_cv.SignalAll();
}
},
"fn_sch_test", 1 * kSecond, 1 * kSecond);
ASSERT_TRUE(timer.Start());
// Wait for execution to finish
{
InstrumentedMutexLock l(&mutex);
while(count < kIterations) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv.TimedWait(time_counter);
}
}
ASSERT_TRUE(timer.Shutdown());
ASSERT_EQ(5, count);
}
TEST_F(TimerTest, MultipleScheduleRepeatedlyTest) {
uint64_t time_counter = 0;
mock_env_->set_current_time(0);
Timer timer(mock_env_.get());
InstrumentedMutex mutex1;
InstrumentedCondVar test_cv1(&mutex1);
const int kIterations1 = 5;
int count1 = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex1);
count1++;
if (count1 >= kIterations1) {
test_cv1.SignalAll();
}
},
"fn_sch_test1", 0, 2 * kSecond);
InstrumentedMutex mutex2;
InstrumentedCondVar test_cv2(&mutex2);
const int kIterations2 = 5;
int count2 = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex2);
count2++;
if (count2 >= kIterations2) {
test_cv2.SignalAll();
}
},
"fn_sch_test2", 1 * kSecond, 2 * kSecond);
ASSERT_TRUE(timer.Start());
// Wait for execution to finish
{
InstrumentedMutexLock l(&mutex1);
while(count1 < kIterations1) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv1.TimedWait(time_counter);
}
}
timer.Cancel("fn_sch_test1");
// Wait for execution to finish
{
InstrumentedMutexLock l(&mutex2);
while(count2 < kIterations2) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv2.TimedWait(time_counter);
}
}
timer.Cancel("fn_sch_test2");
ASSERT_TRUE(timer.Shutdown());
ASSERT_EQ(count1, 5);
ASSERT_EQ(count2, 5);
}
TEST_F(TimerTest, AddAfterStartTest) {
const int kIterations = 5;
InstrumentedMutex mutex;
InstrumentedCondVar test_cv(&mutex);
// wait timer to run and then add a new job
SyncPoint::GetInstance()->LoadDependency(
{{"Timer::Run::Waiting", "TimerTest:AddAfterStartTest:1"}});
SyncPoint::GetInstance()->EnableProcessing();
mock_env_->set_current_time(0);
Timer timer(mock_env_.get());
ASSERT_TRUE(timer.Start());
TEST_SYNC_POINT("TimerTest:AddAfterStartTest:1");
int count = 0;
timer.Add(
[&] {
InstrumentedMutexLock l(&mutex);
count++;
if (count >= kIterations) {
test_cv.SignalAll();
}
},
"fn_sch_test", 1 * kSecond, 1 * kSecond);
// Wait for execution to finish
uint64_t time_counter = 0;
{
InstrumentedMutexLock l(&mutex);
while (count < kIterations) {
time_counter += kSecond;
mock_env_->set_current_time(time_counter);
test_cv.TimedWait(time_counter);
}
}
ASSERT_TRUE(timer.Shutdown());
ASSERT_EQ(kIterations, count);
}
TEST_F(TimerTest, CancelRunningTask) {
constexpr char kTestFuncName[] = "test_func";
mock_env_->set_current_time(0);
Timer timer(mock_env_.get());
ASSERT_TRUE(timer.Start());
int* value = new int;
*value = 0;
SyncPoint::GetInstance()->DisableProcessing();
SyncPoint::GetInstance()->LoadDependency({
{"TimerTest::CancelRunningTask:test_func:0",
"TimerTest::CancelRunningTask:BeforeCancel"},
{"Timer::WaitForTaskCompleteIfNecessary:TaskExecuting",
"TimerTest::CancelRunningTask:test_func:1"},
});
SyncPoint::GetInstance()->EnableProcessing();
timer.Add(
[&]() {
*value = 1;
TEST_SYNC_POINT("TimerTest::CancelRunningTask:test_func:0");
TEST_SYNC_POINT("TimerTest::CancelRunningTask:test_func:1");
},
kTestFuncName, 0, 1 * kSecond);
port::Thread control_thr([&]() {
TEST_SYNC_POINT("TimerTest::CancelRunningTask:BeforeCancel");
timer.Cancel(kTestFuncName);
// Verify that *value has been set to 1.
ASSERT_EQ(1, *value);
delete value;
value = nullptr;
});
mock_env_->set_current_time(1);
control_thr.join();
ASSERT_TRUE(timer.Shutdown());
}
TEST_F(TimerTest, ShutdownRunningTask) {
constexpr char kTestFunc1Name[] = "test_func1";
constexpr char kTestFunc2Name[] = "test_func2";
mock_env_->set_current_time(0);
Timer timer(mock_env_.get());
SyncPoint::GetInstance()->DisableProcessing();
SyncPoint::GetInstance()->LoadDependency({
{"TimerTest::ShutdownRunningTest:test_func:0",
"TimerTest::ShutdownRunningTest:BeforeShutdown"},
{"Timer::WaitForTaskCompleteIfNecessary:TaskExecuting",
"TimerTest::ShutdownRunningTest:test_func:1"},
});
SyncPoint::GetInstance()->EnableProcessing();
ASSERT_TRUE(timer.Start());
int* value = new int;
*value = 0;
timer.Add(
[&]() {
TEST_SYNC_POINT("TimerTest::ShutdownRunningTest:test_func:0");
*value = 1;
TEST_SYNC_POINT("TimerTest::ShutdownRunningTest:test_func:1");
},
kTestFunc1Name, 0, 1 * kSecond);
timer.Add([&]() { ++(*value); }, kTestFunc2Name, 0, 1 * kSecond);
port::Thread control_thr([&]() {
TEST_SYNC_POINT("TimerTest::ShutdownRunningTest:BeforeShutdown");
timer.Shutdown();
});
mock_env_->set_current_time(1);
control_thr.join();
delete value;
}
} // namespace ROCKSDB_NAMESPACE
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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