rocksdb/db/periodic_task_scheduler_test.cc

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// Copyright (c) Meta Platforms, Inc. and affiliates.
//
// 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 "db/periodic_task_scheduler.h"
#include "db/db_test_util.h"
#include "env/composite_env_wrapper.h"
#include "test_util/mock_time_env.h"
namespace ROCKSDB_NAMESPACE {
class PeriodicTaskSchedulerTest : public DBTestBase {
public:
PeriodicTaskSchedulerTest()
: DBTestBase("periodic_task_scheduler_test", /*env_do_fsync=*/true) {
mock_clock_ = std::make_shared<MockSystemClock>(env_->GetSystemClock());
mock_env_.reset(new CompositeEnvWrapper(env_, mock_clock_));
Fix many tests to run with MEM_ENV and ENCRYPTED_ENV; Introduce a MemoryFileSystem class (#7566) Summary: This PR does a few things: 1. The MockFileSystem class was split out from the MockEnv. This change would theoretically allow a MockFileSystem to be used by other Environments as well (if we created a means of constructing one). The MockFileSystem implements a FileSystem in its entirety and does not rely on any Wrapper implementation. 2. Make the RocksDB test suite work when MOCK_ENV=1 and ENCRYPTED_ENV=1 are set. To accomplish this, a few things were needed: - The tests that tried to use the "wrong" environment (Env::Default() instead of env_) were updated - The MockFileSystem was changed to support the features it was missing or mishandled (such as recursively deleting files in a directory or supporting renaming of a directory). 3. Updated the test framework to have a ROCKSDB_GTEST_SKIP macro. This can be used to flag tests that are skipped. Currently, this defaults to doing nothing (marks the test as SUCCESS) but will mark the tests as SKIPPED when RocksDB is upgraded to a version of gtest that supports this (gtest-1.10). I have run a full "make check" with MEM_ENV, ENCRYPTED_ENV, both, and neither under both MacOS and RedHat. A few tests were disabled/skipped for the MEM/ENCRYPTED cases. The error_handler_fs_test fails/hangs for MEM_ENV (presumably a timing problem) and I will introduce another PR/issue to track that problem. (I will also push a change to disable those tests soon). There is one more test in DBTest2 that also fails which I need to investigate or skip before this PR is merged. Theoretically, this PR should also allow the test suite to run against an Env loaded from the registry, though I do not have one to try it with currently. Finally, once this is accepted, it would be nice if there was a CircleCI job to run these tests on a checkin so this effort does not become stale. I do not know how to do that, so if someone could write that job, it would be appreciated :) Pull Request resolved: https://github.com/facebook/rocksdb/pull/7566 Reviewed By: zhichao-cao Differential Revision: D24408980 Pulled By: jay-zhuang fbshipit-source-id: 911b1554a4d0da06fd51feca0c090a4abdcb4a5f
2020-10-27 17:31:34 +00:00
}
protected:
std::unique_ptr<Env> mock_env_;
std::shared_ptr<MockSystemClock> mock_clock_;
void SetUp() override {
mock_clock_->InstallTimedWaitFixCallback();
SyncPoint::GetInstance()->SetCallBack(
"DBImpl::StartPeriodicTaskScheduler:Init", [&](void* arg) {
auto periodic_task_scheduler_ptr =
Prefer static_cast in place of most reinterpret_cast (#12308) Summary: The following are risks associated with pointer-to-pointer reinterpret_cast: * Can produce the "wrong result" (crash or memory corruption). IIRC, in theory this can happen for any up-cast or down-cast for a non-standard-layout type, though in practice would only happen for multiple inheritance cases (where the base class pointer might be "inside" the derived object). We don't use multiple inheritance a lot, but we do. * Can mask useful compiler errors upon code change, including converting between unrelated pointer types that you are expecting to be related, and converting between pointer and scalar types unintentionally. I can only think of some obscure cases where static_cast could be troublesome when it compiles as a replacement: * Going through `void*` could plausibly cause unnecessary or broken pointer arithmetic. Suppose we have `struct Derived: public Base1, public Base2`. If we have `Derived*` -> `void*` -> `Base2*` -> `Derived*` through reinterpret casts, this could plausibly work (though technical UB) assuming the `Base2*` is not dereferenced. Changing to static cast could introduce breaking pointer arithmetic. * Unnecessary (but safe) pointer arithmetic could arise in a case like `Derived*` -> `Base2*` -> `Derived*` where before the Base2 pointer might not have been dereferenced. This could potentially affect performance. With some light scripting, I tried replacing pointer-to-pointer reinterpret_casts with static_cast and kept the cases that still compile. Most occurrences of reinterpret_cast have successfully been changed (except for java/ and third-party/). 294 changed, 257 remain. A couple of related interventions included here: * Previously Cache::Handle was not actually derived from in the implementations and just used as a `void*` stand-in with reinterpret_cast. Now there is a relationship to allow static_cast. In theory, this could introduce pointer arithmetic (as described above) but is unlikely without multiple inheritance AND non-empty Cache::Handle. * Remove some unnecessary casts to void* as this is allowed to be implicit (for better or worse). Most of the remaining reinterpret_casts are for converting to/from raw bytes of objects. We could consider better idioms for these patterns in follow-up work. I wish there were a way to implement a template variant of static_cast that would only compile if no pointer arithmetic is generated, but best I can tell, this is not possible. AFAIK the best you could do is a dynamic check that the void* conversion after the static cast is unchanged. Pull Request resolved: https://github.com/facebook/rocksdb/pull/12308 Test Plan: existing tests, CI Reviewed By: ltamasi Differential Revision: D53204947 Pulled By: pdillinger fbshipit-source-id: 9de23e618263b0d5b9820f4e15966876888a16e2
2024-02-07 18:44:11 +00:00
static_cast<PeriodicTaskScheduler*>(arg);
periodic_task_scheduler_ptr->TEST_OverrideTimer(mock_clock_.get());
});
}
};
TEST_F(PeriodicTaskSchedulerTest, Basic) {
constexpr unsigned int kPeriodSec = 10;
Close();
Options options;
options.stats_dump_period_sec = kPeriodSec;
options.stats_persist_period_sec = kPeriodSec;
options.create_if_missing = true;
options.env = mock_env_.get();
int dump_st_counter = 0;
SyncPoint::GetInstance()->SetCallBack("DBImpl::DumpStats:StartRunning",
[&](void*) { dump_st_counter++; });
int pst_st_counter = 0;
SyncPoint::GetInstance()->SetCallBack("DBImpl::PersistStats:StartRunning",
[&](void*) { pst_st_counter++; });
int flush_info_log_counter = 0;
SyncPoint::GetInstance()->SetCallBack(
"DBImpl::FlushInfoLog:StartRunning",
[&](void*) { flush_info_log_counter++; });
SyncPoint::GetInstance()->EnableProcessing();
Reopen(options);
ASSERT_EQ(kPeriodSec, dbfull()->GetDBOptions().stats_dump_period_sec);
ASSERT_EQ(kPeriodSec, dbfull()->GetDBOptions().stats_persist_period_sec);
ASSERT_GT(kPeriodSec, 1u);
dbfull()->TEST_WaitForPeriodicTaskRun([&] {
mock_clock_->MockSleepForSeconds(static_cast<int>(kPeriodSec) - 1);
});
const PeriodicTaskScheduler& scheduler =
dbfull()->TEST_GetPeriodicTaskScheduler();
ASSERT_EQ(3, scheduler.TEST_GetValidTaskNum());
ASSERT_EQ(1, dump_st_counter);
ASSERT_EQ(1, pst_st_counter);
ASSERT_EQ(1, flush_info_log_counter);
dbfull()->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(static_cast<int>(kPeriodSec)); });
ASSERT_EQ(2, dump_st_counter);
ASSERT_EQ(2, pst_st_counter);
ASSERT_EQ(2, flush_info_log_counter);
dbfull()->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(static_cast<int>(kPeriodSec)); });
ASSERT_EQ(3, dump_st_counter);
ASSERT_EQ(3, pst_st_counter);
ASSERT_EQ(3, flush_info_log_counter);
// Disable scheduler with SetOption
ASSERT_OK(dbfull()->SetDBOptions(
{{"stats_dump_period_sec", "0"}, {"stats_persist_period_sec", "0"}}));
ASSERT_EQ(0u, dbfull()->GetDBOptions().stats_dump_period_sec);
ASSERT_EQ(0u, dbfull()->GetDBOptions().stats_persist_period_sec);
// Info log flush should still run.
dbfull()->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(static_cast<int>(kPeriodSec)); });
ASSERT_EQ(3, dump_st_counter);
ASSERT_EQ(3, pst_st_counter);
ASSERT_EQ(4, flush_info_log_counter);
ASSERT_EQ(1u, scheduler.TEST_GetValidTaskNum());
// Re-enable one task
ASSERT_OK(dbfull()->SetDBOptions({{"stats_dump_period_sec", "5"}}));
ASSERT_EQ(5u, dbfull()->GetDBOptions().stats_dump_period_sec);
ASSERT_EQ(0u, dbfull()->GetDBOptions().stats_persist_period_sec);
ASSERT_EQ(2, scheduler.TEST_GetValidTaskNum());
dbfull()->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(static_cast<int>(kPeriodSec)); });
ASSERT_EQ(4, dump_st_counter);
ASSERT_EQ(3, pst_st_counter);
ASSERT_EQ(5, flush_info_log_counter);
Close();
}
TEST_F(PeriodicTaskSchedulerTest, MultiInstances) {
constexpr int kPeriodSec = 5;
const int kInstanceNum = 10;
Close();
Options options;
options.stats_dump_period_sec = kPeriodSec;
options.stats_persist_period_sec = kPeriodSec;
options.create_if_missing = true;
options.env = mock_env_.get();
int dump_st_counter = 0;
SyncPoint::GetInstance()->SetCallBack("DBImpl::DumpStats:2",
[&](void*) { dump_st_counter++; });
int pst_st_counter = 0;
SyncPoint::GetInstance()->SetCallBack("DBImpl::PersistStats:StartRunning",
[&](void*) { pst_st_counter++; });
SyncPoint::GetInstance()->EnableProcessing();
auto dbs = std::vector<DB*>(kInstanceNum);
for (int i = 0; i < kInstanceNum; i++) {
ASSERT_OK(
DB::Open(options, test::PerThreadDBPath(std::to_string(i)), &(dbs[i])));
}
auto dbi = static_cast_with_check<DBImpl>(dbs[kInstanceNum - 1]);
const PeriodicTaskScheduler& scheduler = dbi->TEST_GetPeriodicTaskScheduler();
ASSERT_EQ(kInstanceNum * 3, scheduler.TEST_GetValidTaskNum());
int expected_run = kInstanceNum;
dbi->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(kPeriodSec - 1); });
ASSERT_EQ(expected_run, dump_st_counter);
ASSERT_EQ(expected_run, pst_st_counter);
expected_run += kInstanceNum;
dbi->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(kPeriodSec); });
ASSERT_EQ(expected_run, dump_st_counter);
ASSERT_EQ(expected_run, pst_st_counter);
expected_run += kInstanceNum;
dbi->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(kPeriodSec); });
ASSERT_EQ(expected_run, dump_st_counter);
ASSERT_EQ(expected_run, pst_st_counter);
int half = kInstanceNum / 2;
for (int i = 0; i < half; i++) {
delete dbs[i];
}
expected_run += (kInstanceNum - half) * 2;
dbi->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(kPeriodSec); });
dbi->TEST_WaitForPeriodicTaskRun(
[&] { mock_clock_->MockSleepForSeconds(kPeriodSec); });
ASSERT_EQ(expected_run, dump_st_counter);
ASSERT_EQ(expected_run, pst_st_counter);
for (int i = half; i < kInstanceNum; i++) {
ASSERT_OK(dbs[i]->Close());
delete dbs[i];
}
}
TEST_F(PeriodicTaskSchedulerTest, MultiEnv) {
constexpr int kDumpPeriodSec = 5;
constexpr int kPersistPeriodSec = 10;
Close();
Options options1;
options1.stats_dump_period_sec = kDumpPeriodSec;
options1.stats_persist_period_sec = kPersistPeriodSec;
options1.create_if_missing = true;
options1.env = mock_env_.get();
Reopen(options1);
std::unique_ptr<Env> mock_env2(
new CompositeEnvWrapper(Env::Default(), mock_clock_));
Options options2;
options2.stats_dump_period_sec = kDumpPeriodSec;
options2.stats_persist_period_sec = kPersistPeriodSec;
options2.create_if_missing = true;
options1.env = mock_env2.get();
std::string dbname = test::PerThreadDBPath("multi_env_test");
DB* db;
ASSERT_OK(DB::Open(options2, dbname, &db));
ASSERT_OK(db->Close());
delete db;
Close();
}
} // namespace ROCKSDB_NAMESPACE
int main(int argc, char** argv) {
ROCKSDB_NAMESPACE::port::InstallStackTraceHandler();
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}