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rocksdb/db/flush_job_test.cc
gitbw95 05c678e135 Set Write rate limiter priority dynamically and pass it to FS (#9988) 
Summary:
### Context:
Background compactions and flush generate large reads and writes, and can be long running, especially for universal compaction. In some cases, this can impact foreground reads and writes by users.

From the RocksDB perspective, there can be two kinds of rate limiters, the internal (native) one and the external one.
- The internal (native) rate limiter is introduced in [the wiki](https://github.com/facebook/rocksdb/wiki/Rate-Limiter). Currently, only IO_LOW and IO_HIGH are used and they are set statically.
- For the external rate limiter, in FSWritableFile functions,  IOOptions is open for end users to set and get rate_limiter_priority for their own rate limiter. Currently, RocksDB doesn’t pass the rate_limiter_priority through IOOptions to the file system.

### Solution
During the User Read, Flush write, Compaction read/write, the WriteController is used to determine whether DB writes are stalled or slowed down. The rate limiter priority (Env::IOPriority) can be determined accordingly. We decided to always pass the priority in IOOptions. What the file system does with it should be a contract between the user and the file system. We would like to set the rate limiter priority at file level, since the Flush/Compaction job level may be too coarse with multiple files and block IO level is too granular.

**This PR is for the Write path.** The **Write:** dynamic priority for different state are listed as follows:

| State | Normal | Delayed | Stalled |
| ----- | ------ | ------- | ------- |
|  Flush | IO_HIGH | IO_USER | IO_USER |
|  Compaction | IO_LOW | IO_USER | IO_USER |

Flush and Compaction writes share the same call path through BlockBaseTableWriter, WritableFileWriter, and FSWritableFile. When a new FSWritableFile object is created, its io_priority_ can be set dynamically based on the state of the WriteController. In WritableFileWriter, before the call sites of FSWritableFile functions, WritableFileWriter::DecideRateLimiterPriority() determines the rate_limiter_priority. The options (IOOptions) argument of FSWritableFile functions will be updated with the rate_limiter_priority.

Pull Request resolved: https://github.com/facebook/rocksdb/pull/9988

Test Plan: Add unit tests.

Reviewed By: anand1976

Differential Revision: D36395159

Pulled By: gitbw95

fbshipit-source-id: a7c82fc29759139a1a07ec46c37dbf7e753474cf
2022-05-18 00:41:41 -07:00

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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 "db/flush_job.h"
#include <algorithm>
#include <array>
#include <map>
#include <string>
#include "db/blob/blob_index.h"
#include "db/column_family.h"
#include "db/db_impl/db_impl.h"
#include "db/version_set.h"
#include "file/writable_file_writer.h"
#include "rocksdb/cache.h"
#include "rocksdb/file_system.h"
#include "rocksdb/write_buffer_manager.h"
#include "table/mock_table.h"
#include "test_util/testharness.h"
#include "test_util/testutil.h"
#include "util/random.h"
#include "util/string_util.h"
namespace ROCKSDB_NAMESPACE {
// TODO(icanadi) Mock out everything else:
// 1. VersionSet
// 2. Memtable
class FlushJobTestBase : public testing::Test {
protected:
FlushJobTestBase(std::string dbname, const Comparator* ucmp)
: env_(Env::Default()),
fs_(env_->GetFileSystem()),
dbname_(std::move(dbname)),
ucmp_(ucmp),
options_(),
db_options_(options_),
column_family_names_({kDefaultColumnFamilyName, "foo", "bar"}),
table_cache_(NewLRUCache(50000, 16)),
write_buffer_manager_(db_options_.db_write_buffer_size),
shutting_down_(false),
mock_table_factory_(new mock::MockTableFactory()) {}
virtual ~FlushJobTestBase() {
if (getenv("KEEP_DB")) {
fprintf(stdout, "db is still in %s\n", dbname_.c_str());
} else {
// destroy versions_ to release all file handles
versions_.reset();
EXPECT_OK(DestroyDir(env_, dbname_));
}
}
void NewDB() {
ASSERT_OK(SetIdentityFile(env_, dbname_));
VersionEdit new_db;
new_db.SetLogNumber(0);
new_db.SetNextFile(2);
new_db.SetLastSequence(0);
autovector<VersionEdit> new_cfs;
SequenceNumber last_seq = 1;
uint32_t cf_id = 1;
for (size_t i = 1; i != column_family_names_.size(); ++i) {
VersionEdit new_cf;
new_cf.AddColumnFamily(column_family_names_[i]);
new_cf.SetColumnFamily(cf_id++);
new_cf.SetComparatorName(ucmp_->Name());
new_cf.SetLogNumber(0);
new_cf.SetNextFile(2);
new_cf.SetLastSequence(last_seq++);
new_cfs.emplace_back(new_cf);
}
const std::string manifest = DescriptorFileName(dbname_, 1);
const auto& fs = env_->GetFileSystem();
std::unique_ptr<WritableFileWriter> file_writer;
Status s = WritableFileWriter::Create(
fs, manifest, fs->OptimizeForManifestWrite(env_options_), &file_writer,
nullptr);
ASSERT_OK(s);
{
log::Writer log(std::move(file_writer), 0, false);
std::string record;
new_db.EncodeTo(&record);
s = log.AddRecord(record);
ASSERT_OK(s);
for (const auto& e : new_cfs) {
record.clear();
e.EncodeTo(&record);
s = log.AddRecord(record);
ASSERT_OK(s);
}
}
ASSERT_OK(s);
// Make "CURRENT" file that points to the new manifest file.
s = SetCurrentFile(fs_.get(), dbname_, 1, nullptr);
ASSERT_OK(s);
}
void SetUp() override {
EXPECT_OK(env_->CreateDirIfMissing(dbname_));
// TODO(icanadi) Remove this once we mock out VersionSet
NewDB();
db_options_.env = env_;
db_options_.fs = fs_;
db_options_.db_paths.emplace_back(dbname_,
std::numeric_limits<uint64_t>::max());
db_options_.statistics = CreateDBStatistics();
cf_options_.comparator = ucmp_;
std::vector<ColumnFamilyDescriptor> column_families;
cf_options_.table_factory = mock_table_factory_;
for (const auto& cf_name : column_family_names_) {
column_families.emplace_back(cf_name, cf_options_);
}
versions_.reset(
new VersionSet(dbname_, &db_options_, env_options_, table_cache_.get(),
&write_buffer_manager_, &write_controller_,
/*block_cache_tracer=*/nullptr, /*io_tracer=*/nullptr,
/*db_session_id*/ ""));
EXPECT_OK(versions_->Recover(column_families, false));
}
Env* env_;
std::shared_ptr<FileSystem> fs_;
std::string dbname_;
const Comparator* const ucmp_;
EnvOptions env_options_;
Options options_;
ImmutableDBOptions db_options_;
const std::vector<std::string> column_family_names_;
std::shared_ptr<Cache> table_cache_;
WriteController write_controller_;
WriteBufferManager write_buffer_manager_;
ColumnFamilyOptions cf_options_;
std::unique_ptr<VersionSet> versions_;
InstrumentedMutex mutex_;
std::atomic<bool> shutting_down_;
std::shared_ptr<mock::MockTableFactory> mock_table_factory_;
};
class FlushJobTest : public FlushJobTestBase {
public:
FlushJobTest()
: FlushJobTestBase(test::PerThreadDBPath("flush_job_test"),
BytewiseComparator()) {}
};
TEST_F(FlushJobTest, Empty) {
JobContext job_context(0);
auto cfd = versions_->GetColumnFamilySet()->GetDefault();
EventLogger event_logger(db_options_.info_log.get());
SnapshotChecker* snapshot_checker = nullptr; // not relavant
FlushJob flush_job(
dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_,
*cfd->GetLatestMutableCFOptions(),
std::numeric_limits<uint64_t>::max() /* memtable_id */, env_options_,
versions_.get(), &mutex_, &shutting_down_, {}, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
nullptr, &event_logger, false, true /* sync_output_directory */,
true /* write_manifest */, Env::Priority::USER, nullptr /*IOTracer*/);
{
InstrumentedMutexLock l(&mutex_);
flush_job.PickMemTable();
ASSERT_OK(flush_job.Run());
}
job_context.Clean();
}
TEST_F(FlushJobTest, NonEmpty) {
JobContext job_context(0);
auto cfd = versions_->GetColumnFamilySet()->GetDefault();
auto new_mem = cfd->ConstructNewMemtable(*cfd->GetLatestMutableCFOptions(),
kMaxSequenceNumber);
new_mem->Ref();
auto inserted_keys = mock::MakeMockFile();
// Test data:
// seqno [ 1, 2 ... 8998, 8999, 9000, 9001, 9002 ... 9999 ]
// key [ 1001, 1002 ... 9998, 9999, 0, 1, 2 ... 999 ]
// range-delete "9995" -> "9999" at seqno 10000
// blob references with seqnos 10001..10006
for (int i = 1; i < 10000; ++i) {
std::string key(std::to_string((i + 1000) % 10000));
std::string value("value" + key);
ASSERT_OK(new_mem->Add(SequenceNumber(i), kTypeValue, key, value,
nullptr /* kv_prot_info */));
if ((i + 1000) % 10000 < 9995) {
InternalKey internal_key(key, SequenceNumber(i), kTypeValue);
inserted_keys.push_back({internal_key.Encode().ToString(), value});
}
}
{
ASSERT_OK(new_mem->Add(SequenceNumber(10000), kTypeRangeDeletion, "9995",
"9999a", nullptr /* kv_prot_info */));
InternalKey internal_key("9995", SequenceNumber(10000), kTypeRangeDeletion);
inserted_keys.push_back({internal_key.Encode().ToString(), "9999a"});
}
// Note: the first two blob references will not be considered when resolving
// the oldest blob file referenced (the first one is inlined TTL, while the
// second one is TTL and thus points to a TTL blob file).
constexpr std::array<uint64_t, 6> blob_file_numbers{{
kInvalidBlobFileNumber, 5, 103, 17, 102, 101}};
for (size_t i = 0; i < blob_file_numbers.size(); ++i) {
std::string key(std::to_string(i + 10001));
std::string blob_index;
if (i == 0) {
BlobIndex::EncodeInlinedTTL(&blob_index, /* expiration */ 1234567890ULL,
"foo");
} else if (i == 1) {
BlobIndex::EncodeBlobTTL(&blob_index, /* expiration */ 1234567890ULL,
blob_file_numbers[i], /* offset */ i << 10,
/* size */ i << 20, kNoCompression);
} else {
BlobIndex::EncodeBlob(&blob_index, blob_file_numbers[i],
/* offset */ i << 10, /* size */ i << 20,
kNoCompression);
}
const SequenceNumber seq(i + 10001);
ASSERT_OK(new_mem->Add(seq, kTypeBlobIndex, key, blob_index,
nullptr /* kv_prot_info */));
InternalKey internal_key(key, seq, kTypeBlobIndex);
inserted_keys.push_back({internal_key.Encode().ToString(), blob_index});
}
mock::SortKVVector(&inserted_keys);
autovector<MemTable*> to_delete;
cfd->imm()->Add(new_mem, &to_delete);
for (auto& m : to_delete) {
delete m;
}
EventLogger event_logger(db_options_.info_log.get());
SnapshotChecker* snapshot_checker = nullptr; // not relavant
FlushJob flush_job(
dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_,
*cfd->GetLatestMutableCFOptions(),
std::numeric_limits<uint64_t>::max() /* memtable_id */, env_options_,
versions_.get(), &mutex_, &shutting_down_, {}, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
true /* sync_output_directory */, true /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/);
HistogramData hist;
FileMetaData file_meta;
mutex_.Lock();
flush_job.PickMemTable();
ASSERT_OK(flush_job.Run(nullptr, &file_meta));
mutex_.Unlock();
db_options_.statistics->histogramData(FLUSH_TIME, &hist);
ASSERT_GT(hist.average, 0.0);
ASSERT_EQ(std::to_string(0), file_meta.smallest.user_key().ToString());
ASSERT_EQ("9999a", file_meta.largest.user_key().ToString());
ASSERT_EQ(1, file_meta.fd.smallest_seqno);
ASSERT_EQ(10006, file_meta.fd.largest_seqno);
ASSERT_EQ(17, file_meta.oldest_blob_file_number);
mock_table_factory_->AssertSingleFile(inserted_keys);
job_context.Clean();
}
TEST_F(FlushJobTest, FlushMemTablesSingleColumnFamily) {
const size_t num_mems = 2;
const size_t num_mems_to_flush = 1;
const size_t num_keys_per_table = 100;
JobContext job_context(0);
ColumnFamilyData* cfd = versions_->GetColumnFamilySet()->GetDefault();
std::vector<uint64_t> memtable_ids;
std::vector<MemTable*> new_mems;
for (size_t i = 0; i != num_mems; ++i) {
MemTable* mem = cfd->ConstructNewMemtable(*cfd->GetLatestMutableCFOptions(),
kMaxSequenceNumber);
mem->SetID(i);
mem->Ref();
new_mems.emplace_back(mem);
memtable_ids.push_back(mem->GetID());
for (size_t j = 0; j < num_keys_per_table; ++j) {
std::string key(std::to_string(j + i * num_keys_per_table));
std::string value("value" + key);
ASSERT_OK(mem->Add(SequenceNumber(j + i * num_keys_per_table), kTypeValue,
key, value, nullptr /* kv_prot_info */));
}
}
autovector<MemTable*> to_delete;
for (auto mem : new_mems) {
cfd->imm()->Add(mem, &to_delete);
}
EventLogger event_logger(db_options_.info_log.get());
SnapshotChecker* snapshot_checker = nullptr; // not relavant
assert(memtable_ids.size() == num_mems);
uint64_t smallest_memtable_id = memtable_ids.front();
uint64_t flush_memtable_id = smallest_memtable_id + num_mems_to_flush - 1;
FlushJob flush_job(
dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_,
*cfd->GetLatestMutableCFOptions(), flush_memtable_id, env_options_,
versions_.get(), &mutex_, &shutting_down_, {}, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
true /* sync_output_directory */, true /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/);
HistogramData hist;
FileMetaData file_meta;
mutex_.Lock();
flush_job.PickMemTable();
ASSERT_OK(flush_job.Run(nullptr /* prep_tracker */, &file_meta));
mutex_.Unlock();
db_options_.statistics->histogramData(FLUSH_TIME, &hist);
ASSERT_GT(hist.average, 0.0);
ASSERT_EQ(std::to_string(0), file_meta.smallest.user_key().ToString());
ASSERT_EQ("99", file_meta.largest.user_key().ToString());
ASSERT_EQ(0, file_meta.fd.smallest_seqno);
ASSERT_EQ(SequenceNumber(num_mems_to_flush * num_keys_per_table - 1),
file_meta.fd.largest_seqno);
ASSERT_EQ(kInvalidBlobFileNumber, file_meta.oldest_blob_file_number);
for (auto m : to_delete) {
delete m;
}
to_delete.clear();
job_context.Clean();
}
TEST_F(FlushJobTest, FlushMemtablesMultipleColumnFamilies) {
autovector<ColumnFamilyData*> all_cfds;
for (auto cfd : *versions_->GetColumnFamilySet()) {
all_cfds.push_back(cfd);
}
const std::vector<size_t> num_memtables = {2, 1, 3};
assert(num_memtables.size() == column_family_names_.size());
const size_t num_keys_per_memtable = 1000;
JobContext job_context(0);
std::vector<uint64_t> memtable_ids;
std::vector<SequenceNumber> smallest_seqs;
std::vector<SequenceNumber> largest_seqs;
autovector<MemTable*> to_delete;
SequenceNumber curr_seqno = 0;
size_t k = 0;
for (auto cfd : all_cfds) {
smallest_seqs.push_back(curr_seqno);
for (size_t i = 0; i != num_memtables[k]; ++i) {
MemTable* mem = cfd->ConstructNewMemtable(
*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber);
mem->SetID(i);
mem->Ref();
for (size_t j = 0; j != num_keys_per_memtable; ++j) {
std::string key(std::to_string(j + i * num_keys_per_memtable));
std::string value("value" + key);
ASSERT_OK(mem->Add(curr_seqno++, kTypeValue, key, value,
nullptr /* kv_prot_info */));
}
cfd->imm()->Add(mem, &to_delete);
}
largest_seqs.push_back(curr_seqno - 1);
memtable_ids.push_back(num_memtables[k++] - 1);
}
EventLogger event_logger(db_options_.info_log.get());
SnapshotChecker* snapshot_checker = nullptr; // not relevant
std::vector<std::unique_ptr<FlushJob>> flush_jobs;
k = 0;
for (auto cfd : all_cfds) {
std::vector<SequenceNumber> snapshot_seqs;
flush_jobs.emplace_back(new FlushJob(
dbname_, cfd, db_options_, *cfd->GetLatestMutableCFOptions(),
memtable_ids[k], env_options_, versions_.get(), &mutex_,
&shutting_down_, snapshot_seqs, kMaxSequenceNumber, snapshot_checker,
&job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
false /* sync_output_directory */, false /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/));
k++;
}
HistogramData hist;
std::vector<FileMetaData> file_metas;
// Call reserve to avoid auto-resizing
file_metas.reserve(flush_jobs.size());
mutex_.Lock();
for (auto& job : flush_jobs) {
job->PickMemTable();
}
for (auto& job : flush_jobs) {
FileMetaData meta;
// Run will release and re-acquire mutex
ASSERT_OK(job->Run(nullptr /**/, &meta));
file_metas.emplace_back(meta);
}
autovector<FileMetaData*> file_meta_ptrs;
for (auto& meta : file_metas) {
file_meta_ptrs.push_back(&meta);
}
autovector<const autovector<MemTable*>*> mems_list;
for (size_t i = 0; i != all_cfds.size(); ++i) {
const auto& mems = flush_jobs[i]->GetMemTables();
mems_list.push_back(&mems);
}
autovector<const MutableCFOptions*> mutable_cf_options_list;
for (auto cfd : all_cfds) {
mutable_cf_options_list.push_back(cfd->GetLatestMutableCFOptions());
}
autovector<std::list<std::unique_ptr<FlushJobInfo>>*>
committed_flush_jobs_info;
#ifndef ROCKSDB_LITE
for (auto& job : flush_jobs) {
committed_flush_jobs_info.push_back(job->GetCommittedFlushJobsInfo());
}
#endif //! ROCKSDB_LITE
Status s = InstallMemtableAtomicFlushResults(
nullptr /* imm_lists */, all_cfds, mutable_cf_options_list, mems_list,
versions_.get(), nullptr /* prep_tracker */, &mutex_, file_meta_ptrs,
committed_flush_jobs_info, &job_context.memtables_to_free,
nullptr /* db_directory */, nullptr /* log_buffer */);
ASSERT_OK(s);
mutex_.Unlock();
db_options_.statistics->histogramData(FLUSH_TIME, &hist);
ASSERT_GT(hist.average, 0.0);
k = 0;
for (const auto& file_meta : file_metas) {
ASSERT_EQ(std::to_string(0), file_meta.smallest.user_key().ToString());
ASSERT_EQ("999", file_meta.largest.user_key()
.ToString()); // max key by bytewise comparator
ASSERT_EQ(smallest_seqs[k], file_meta.fd.smallest_seqno);
ASSERT_EQ(largest_seqs[k], file_meta.fd.largest_seqno);
// Verify that imm is empty
ASSERT_EQ(std::numeric_limits<uint64_t>::max(),
all_cfds[k]->imm()->GetEarliestMemTableID());
ASSERT_EQ(0, all_cfds[k]->imm()->GetLatestMemTableID());
++k;
}
for (auto m : to_delete) {
delete m;
}
to_delete.clear();
job_context.Clean();
}
TEST_F(FlushJobTest, Snapshots) {
JobContext job_context(0);
auto cfd = versions_->GetColumnFamilySet()->GetDefault();
auto new_mem = cfd->ConstructNewMemtable(*cfd->GetLatestMutableCFOptions(),
kMaxSequenceNumber);
std::set<SequenceNumber> snapshots_set;
int keys = 10000;
int max_inserts_per_keys = 8;
Random rnd(301);
for (int i = 0; i < keys / 2; ++i) {
snapshots_set.insert(rnd.Uniform(keys * (max_inserts_per_keys / 2)) + 1);
}
// set has already removed the duplicate snapshots
std::vector<SequenceNumber> snapshots(snapshots_set.begin(),
snapshots_set.end());
new_mem->Ref();
SequenceNumber current_seqno = 0;
auto inserted_keys = mock::MakeMockFile();
for (int i = 1; i < keys; ++i) {
std::string key(std::to_string(i));
int insertions = rnd.Uniform(max_inserts_per_keys);
for (int j = 0; j < insertions; ++j) {
std::string value(rnd.HumanReadableString(10));
auto seqno = ++current_seqno;
ASSERT_OK(new_mem->Add(SequenceNumber(seqno), kTypeValue, key, value,
nullptr /* kv_prot_info */));
// a key is visible only if:
// 1. it's the last one written (j == insertions - 1)
// 2. there's a snapshot pointing at it
bool visible = (j == insertions - 1) ||
(snapshots_set.find(seqno) != snapshots_set.end());
if (visible) {
InternalKey internal_key(key, seqno, kTypeValue);
inserted_keys.push_back({internal_key.Encode().ToString(), value});
}
}
}
mock::SortKVVector(&inserted_keys);
autovector<MemTable*> to_delete;
cfd->imm()->Add(new_mem, &to_delete);
for (auto& m : to_delete) {
delete m;
}
EventLogger event_logger(db_options_.info_log.get());
SnapshotChecker* snapshot_checker = nullptr; // not relavant
FlushJob flush_job(
dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_,
*cfd->GetLatestMutableCFOptions(),
std::numeric_limits<uint64_t>::max() /* memtable_id */, env_options_,
versions_.get(), &mutex_, &shutting_down_, snapshots, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
true /* sync_output_directory */, true /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/);
mutex_.Lock();
flush_job.PickMemTable();
ASSERT_OK(flush_job.Run());
mutex_.Unlock();
mock_table_factory_->AssertSingleFile(inserted_keys);
HistogramData hist;
db_options_.statistics->histogramData(FLUSH_TIME, &hist);
ASSERT_GT(hist.average, 0.0);
job_context.Clean();
}
TEST_F(FlushJobTest, GetRateLimiterPriorityForWrite) {
// Prepare a FlushJob that flush MemTables of Single Column Family.
const size_t num_mems = 2;
const size_t num_mems_to_flush = 1;
const size_t num_keys_per_table = 100;
JobContext job_context(0);
ColumnFamilyData* cfd = versions_->GetColumnFamilySet()->GetDefault();
std::vector<uint64_t> memtable_ids;
std::vector<MemTable*> new_mems;
for (size_t i = 0; i != num_mems; ++i) {
MemTable* mem = cfd->ConstructNewMemtable(*cfd->GetLatestMutableCFOptions(),
kMaxSequenceNumber);
mem->SetID(i);
mem->Ref();
new_mems.emplace_back(mem);
memtable_ids.push_back(mem->GetID());
for (size_t j = 0; j < num_keys_per_table; ++j) {
std::string key(std::to_string(j + i * num_keys_per_table));
std::string value("value" + key);
ASSERT_OK(mem->Add(SequenceNumber(j + i * num_keys_per_table), kTypeValue,
key, value, nullptr /* kv_prot_info */));
}
}
autovector<MemTable*> to_delete;
for (auto mem : new_mems) {
cfd->imm()->Add(mem, &to_delete);
}
EventLogger event_logger(db_options_.info_log.get());
SnapshotChecker* snapshot_checker = nullptr; // not relavant
assert(memtable_ids.size() == num_mems);
uint64_t smallest_memtable_id = memtable_ids.front();
uint64_t flush_memtable_id = smallest_memtable_id + num_mems_to_flush - 1;
FlushJob flush_job(
dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_,
*cfd->GetLatestMutableCFOptions(), flush_memtable_id, env_options_,
versions_.get(), &mutex_, &shutting_down_, {}, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
true /* sync_output_directory */, true /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/);
// When the state from WriteController is normal.
ASSERT_EQ(flush_job.GetRateLimiterPriorityForWrite(), Env::IO_HIGH);
WriteController* write_controller =
flush_job.versions_->GetColumnFamilySet()->write_controller();
{
// When the state from WriteController is Delayed.
std::unique_ptr<WriteControllerToken> delay_token =
write_controller->GetDelayToken(1000000);
ASSERT_EQ(flush_job.GetRateLimiterPriorityForWrite(), Env::IO_USER);
}
{
// When the state from WriteController is Stopped.
std::unique_ptr<WriteControllerToken> stop_token =
write_controller->GetStopToken();
ASSERT_EQ(flush_job.GetRateLimiterPriorityForWrite(), Env::IO_USER);
}
}
class FlushJobTimestampTest : public FlushJobTestBase {
public:
FlushJobTimestampTest()
: FlushJobTestBase(test::PerThreadDBPath("flush_job_ts_gc_test"),
test::BytewiseComparatorWithU64TsWrapper()) {}
void AddKeyValueToMemtable(MemTable* memtable, std::string key, uint64_t ts,
SequenceNumber seq, ValueType value_type,
Slice value) {
std::string key_str(std::move(key));
PutFixed64(&key_str, ts);
ASSERT_OK(memtable->Add(seq, value_type, key_str, value,
nullptr /* kv_prot_info */));
}
protected:
static constexpr uint64_t kStartTs = 10;
static constexpr SequenceNumber kStartSeq = 0;
SequenceNumber curr_seq_{kStartSeq};
std::atomic<uint64_t> curr_ts_{kStartTs};
};
TEST_F(FlushJobTimestampTest, AllKeysExpired) {
ColumnFamilyData* cfd = versions_->GetColumnFamilySet()->GetDefault();
autovector<MemTable*> to_delete;
{
MemTable* new_mem = cfd->ConstructNewMemtable(
*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber);
new_mem->Ref();
for (int i = 0; i < 100; ++i) {
uint64_t ts = curr_ts_.fetch_add(1);
SequenceNumber seq = (curr_seq_++);
AddKeyValueToMemtable(new_mem, test::EncodeInt(0), ts, seq,
ValueType::kTypeValue, "0_value");
}
uint64_t ts = curr_ts_.fetch_add(1);
SequenceNumber seq = (curr_seq_++);
AddKeyValueToMemtable(new_mem, test::EncodeInt(0), ts, seq,
ValueType::kTypeDeletionWithTimestamp, "");
cfd->imm()->Add(new_mem, &to_delete);
}
std::vector<SequenceNumber> snapshots;
constexpr SnapshotChecker* const snapshot_checker = nullptr;
JobContext job_context(0);
EventLogger event_logger(db_options_.info_log.get());
std::string full_history_ts_low;
PutFixed64(&full_history_ts_low, std::numeric_limits<uint64_t>::max());
FlushJob flush_job(
dbname_, cfd, db_options_, *cfd->GetLatestMutableCFOptions(),
std::numeric_limits<uint64_t>::max() /* memtable_id */, env_options_,
versions_.get(), &mutex_, &shutting_down_, snapshots, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
true /* sync_output_directory */, true /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/, /*db_id=*/"",
/*db_session_id=*/"", full_history_ts_low);
FileMetaData fmeta;
mutex_.Lock();
flush_job.PickMemTable();
ASSERT_OK(flush_job.Run(/*prep_tracker=*/nullptr, &fmeta));
mutex_.Unlock();
{
std::string key = test::EncodeInt(0);
key.append(test::EncodeInt(curr_ts_.load(std::memory_order_relaxed) - 1));
InternalKey ikey(key, curr_seq_ - 1, ValueType::kTypeDeletionWithTimestamp);
ASSERT_EQ(ikey.Encode(), fmeta.smallest.Encode());
ASSERT_EQ(ikey.Encode(), fmeta.largest.Encode());
}
job_context.Clean();
ASSERT_TRUE(to_delete.empty());
}
TEST_F(FlushJobTimestampTest, NoKeyExpired) {
ColumnFamilyData* cfd = versions_->GetColumnFamilySet()->GetDefault();
autovector<MemTable*> to_delete;
{
MemTable* new_mem = cfd->ConstructNewMemtable(
*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber);
new_mem->Ref();
for (int i = 0; i < 100; ++i) {
uint64_t ts = curr_ts_.fetch_add(1);
SequenceNumber seq = (curr_seq_++);
AddKeyValueToMemtable(new_mem, test::EncodeInt(0), ts, seq,
ValueType::kTypeValue, "0_value");
}
cfd->imm()->Add(new_mem, &to_delete);
}
std::vector<SequenceNumber> snapshots;
SnapshotChecker* const snapshot_checker = nullptr;
JobContext job_context(0);
EventLogger event_logger(db_options_.info_log.get());
std::string full_history_ts_low;
PutFixed64(&full_history_ts_low, 0);
FlushJob flush_job(
dbname_, cfd, db_options_, *cfd->GetLatestMutableCFOptions(),
std::numeric_limits<uint64_t>::max() /* memtable_id */, env_options_,
versions_.get(), &mutex_, &shutting_down_, snapshots, kMaxSequenceNumber,
snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression,
db_options_.statistics.get(), &event_logger, true,
true /* sync_output_directory */, true /* write_manifest */,
Env::Priority::USER, nullptr /*IOTracer*/, /*db_id=*/"",
/*db_session_id=*/"", full_history_ts_low);
FileMetaData fmeta;
mutex_.Lock();
flush_job.PickMemTable();
ASSERT_OK(flush_job.Run(/*prep_tracker=*/nullptr, &fmeta));
mutex_.Unlock();
{
std::string ukey = test::EncodeInt(0);
std::string smallest_key =
ukey + test::EncodeInt(curr_ts_.load(std::memory_order_relaxed) - 1);
std::string largest_key = ukey + test::EncodeInt(kStartTs);
InternalKey smallest(smallest_key, curr_seq_ - 1, ValueType::kTypeValue);
InternalKey largest(largest_key, kStartSeq, ValueType::kTypeValue);
ASSERT_EQ(smallest.Encode(), fmeta.smallest.Encode());
ASSERT_EQ(largest.Encode(), fmeta.largest.Encode());
}
job_context.Clean();
ASSERT_TRUE(to_delete.empty());
}
} // namespace ROCKSDB_NAMESPACE
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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