e8263dbdaa
Summary: Further apply formatter to more recent commits. Pull Request resolved: https://github.com/facebook/rocksdb/pull/5830 Test Plan: Run all existing tests. Differential Revision: D17488031 fbshipit-source-id: 137458fd94d56dd271b8b40c522b03036943a2ab
694 lines
22 KiB
C++
694 lines
22 KiB
C++
// Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#ifndef ROCKSDB_LITE
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#include <map>
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#include <memory>
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#include "rocksdb/compaction_filter.h"
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#include "rocksdb/utilities/db_ttl.h"
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#include "test_util/testharness.h"
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#include "util/string_util.h"
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#ifndef OS_WIN
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#include <unistd.h>
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#endif
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namespace rocksdb {
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namespace {
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typedef std::map<std::string, std::string> KVMap;
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enum BatchOperation { OP_PUT = 0, OP_DELETE = 1 };
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}
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class SpecialTimeEnv : public EnvWrapper {
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public:
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explicit SpecialTimeEnv(Env* base) : EnvWrapper(base) {
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base->GetCurrentTime(¤t_time_);
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}
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void Sleep(int64_t sleep_time) { current_time_ += sleep_time; }
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Status GetCurrentTime(int64_t* current_time) override {
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*current_time = current_time_;
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return Status::OK();
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}
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private:
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int64_t current_time_ = 0;
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};
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class TtlTest : public testing::Test {
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public:
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TtlTest() {
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env_.reset(new SpecialTimeEnv(Env::Default()));
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dbname_ = test::PerThreadDBPath("db_ttl");
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options_.create_if_missing = true;
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options_.env = env_.get();
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// ensure that compaction is kicked in to always strip timestamp from kvs
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options_.max_compaction_bytes = 1;
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// compaction should take place always from level0 for determinism
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db_ttl_ = nullptr;
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DestroyDB(dbname_, Options());
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}
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~TtlTest() override {
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CloseTtl();
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DestroyDB(dbname_, Options());
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}
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// Open database with TTL support when TTL not provided with db_ttl_ pointer
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void OpenTtl() {
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ASSERT_TRUE(db_ttl_ ==
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nullptr); // db should be closed before opening again
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ASSERT_OK(DBWithTTL::Open(options_, dbname_, &db_ttl_));
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}
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// Open database with TTL support when TTL provided with db_ttl_ pointer
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void OpenTtl(int32_t ttl) {
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ASSERT_TRUE(db_ttl_ == nullptr);
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ASSERT_OK(DBWithTTL::Open(options_, dbname_, &db_ttl_, ttl));
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}
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// Open with TestFilter compaction filter
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void OpenTtlWithTestCompaction(int32_t ttl) {
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options_.compaction_filter_factory =
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std::shared_ptr<CompactionFilterFactory>(
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new TestFilterFactory(kSampleSize_, kNewValue_));
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OpenTtl(ttl);
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}
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// Open database with TTL support in read_only mode
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void OpenReadOnlyTtl(int32_t ttl) {
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ASSERT_TRUE(db_ttl_ == nullptr);
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ASSERT_OK(DBWithTTL::Open(options_, dbname_, &db_ttl_, ttl, true));
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}
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// Call db_ttl_->Close() before delete db_ttl_
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void CloseTtl() { CloseTtlHelper(true); }
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// No db_ttl_->Close() before delete db_ttl_
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void CloseTtlNoDBClose() { CloseTtlHelper(false); }
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void CloseTtlHelper(bool close_db) {
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if (db_ttl_ != nullptr) {
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if (close_db) {
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db_ttl_->Close();
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}
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delete db_ttl_;
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db_ttl_ = nullptr;
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}
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}
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// Populates and returns a kv-map
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void MakeKVMap(int64_t num_entries) {
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kvmap_.clear();
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int digits = 1;
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for (int64_t dummy = num_entries; dummy /= 10; ++digits) {
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}
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int digits_in_i = 1;
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for (int64_t i = 0; i < num_entries; i++) {
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std::string key = "key";
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std::string value = "value";
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if (i % 10 == 0) {
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digits_in_i++;
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}
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for(int j = digits_in_i; j < digits; j++) {
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key.append("0");
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value.append("0");
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}
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AppendNumberTo(&key, i);
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AppendNumberTo(&value, i);
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kvmap_[key] = value;
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}
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ASSERT_EQ(static_cast<int64_t>(kvmap_.size()),
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num_entries); // check all insertions done
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}
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// Makes a write-batch with key-vals from kvmap_ and 'Write''s it
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void MakePutWriteBatch(const BatchOperation* batch_ops, int64_t num_ops) {
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ASSERT_LE(num_ops, static_cast<int64_t>(kvmap_.size()));
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static WriteOptions wopts;
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static FlushOptions flush_opts;
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WriteBatch batch;
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kv_it_ = kvmap_.begin();
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for (int64_t i = 0; i < num_ops && kv_it_ != kvmap_.end(); i++, ++kv_it_) {
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switch (batch_ops[i]) {
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case OP_PUT:
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batch.Put(kv_it_->first, kv_it_->second);
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break;
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case OP_DELETE:
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batch.Delete(kv_it_->first);
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break;
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default:
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FAIL();
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}
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}
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db_ttl_->Write(wopts, &batch);
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db_ttl_->Flush(flush_opts);
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}
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// Puts num_entries starting from start_pos_map from kvmap_ into the database
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void PutValues(int64_t start_pos_map, int64_t num_entries, bool flush = true,
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ColumnFamilyHandle* cf = nullptr) {
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ASSERT_TRUE(db_ttl_);
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ASSERT_LE(start_pos_map + num_entries, static_cast<int64_t>(kvmap_.size()));
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static WriteOptions wopts;
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static FlushOptions flush_opts;
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kv_it_ = kvmap_.begin();
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advance(kv_it_, start_pos_map);
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for (int64_t i = 0; kv_it_ != kvmap_.end() && i < num_entries;
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i++, ++kv_it_) {
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ASSERT_OK(cf == nullptr
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? db_ttl_->Put(wopts, kv_it_->first, kv_it_->second)
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: db_ttl_->Put(wopts, cf, kv_it_->first, kv_it_->second));
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}
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// Put a mock kv at the end because CompactionFilter doesn't delete last key
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ASSERT_OK(cf == nullptr ? db_ttl_->Put(wopts, "keymock", "valuemock")
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: db_ttl_->Put(wopts, cf, "keymock", "valuemock"));
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if (flush) {
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if (cf == nullptr) {
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db_ttl_->Flush(flush_opts);
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} else {
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db_ttl_->Flush(flush_opts, cf);
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}
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}
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}
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// Runs a manual compaction
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void ManualCompact(ColumnFamilyHandle* cf = nullptr) {
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if (cf == nullptr) {
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db_ttl_->CompactRange(CompactRangeOptions(), nullptr, nullptr);
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} else {
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db_ttl_->CompactRange(CompactRangeOptions(), cf, nullptr, nullptr);
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}
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}
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// checks the whole kvmap_ to return correct values using KeyMayExist
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void SimpleKeyMayExistCheck() {
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static ReadOptions ropts;
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bool value_found;
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std::string val;
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for(auto &kv : kvmap_) {
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bool ret = db_ttl_->KeyMayExist(ropts, kv.first, &val, &value_found);
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if (ret == false || value_found == false) {
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fprintf(stderr, "KeyMayExist could not find key=%s in the database but"
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" should have\n", kv.first.c_str());
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FAIL();
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} else if (val.compare(kv.second) != 0) {
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fprintf(stderr, " value for key=%s present in database is %s but"
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" should be %s\n", kv.first.c_str(), val.c_str(),
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kv.second.c_str());
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FAIL();
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}
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}
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}
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// checks the whole kvmap_ to return correct values using MultiGet
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void SimpleMultiGetTest() {
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static ReadOptions ropts;
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std::vector<Slice> keys;
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std::vector<std::string> values;
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for (auto& kv : kvmap_) {
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keys.emplace_back(kv.first);
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}
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auto statuses = db_ttl_->MultiGet(ropts, keys, &values);
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size_t i = 0;
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for (auto& kv : kvmap_) {
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ASSERT_OK(statuses[i]);
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ASSERT_EQ(values[i], kv.second);
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++i;
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}
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}
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// Sleeps for slp_tim then runs a manual compaction
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// Checks span starting from st_pos from kvmap_ in the db and
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// Gets should return true if check is true and false otherwise
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// Also checks that value that we got is the same as inserted; and =kNewValue
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// if test_compaction_change is true
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void SleepCompactCheck(int slp_tim, int64_t st_pos, int64_t span,
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bool check = true, bool test_compaction_change = false,
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ColumnFamilyHandle* cf = nullptr) {
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ASSERT_TRUE(db_ttl_);
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env_->Sleep(slp_tim);
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ManualCompact(cf);
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static ReadOptions ropts;
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kv_it_ = kvmap_.begin();
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advance(kv_it_, st_pos);
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std::string v;
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for (int64_t i = 0; kv_it_ != kvmap_.end() && i < span; i++, ++kv_it_) {
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Status s = (cf == nullptr) ? db_ttl_->Get(ropts, kv_it_->first, &v)
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: db_ttl_->Get(ropts, cf, kv_it_->first, &v);
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if (s.ok() != check) {
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fprintf(stderr, "key=%s ", kv_it_->first.c_str());
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if (!s.ok()) {
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fprintf(stderr, "is absent from db but was expected to be present\n");
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} else {
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fprintf(stderr, "is present in db but was expected to be absent\n");
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}
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FAIL();
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} else if (s.ok()) {
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if (test_compaction_change && v.compare(kNewValue_) != 0) {
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fprintf(stderr, " value for key=%s present in database is %s but "
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" should be %s\n", kv_it_->first.c_str(), v.c_str(),
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kNewValue_.c_str());
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FAIL();
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} else if (!test_compaction_change && v.compare(kv_it_->second) !=0) {
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fprintf(stderr, " value for key=%s present in database is %s but "
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" should be %s\n", kv_it_->first.c_str(), v.c_str(),
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kv_it_->second.c_str());
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FAIL();
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}
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}
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}
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}
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// Similar as SleepCompactCheck but uses TtlIterator to read from db
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void SleepCompactCheckIter(int slp, int st_pos, int64_t span,
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bool check = true) {
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ASSERT_TRUE(db_ttl_);
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env_->Sleep(slp);
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ManualCompact();
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static ReadOptions ropts;
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Iterator *dbiter = db_ttl_->NewIterator(ropts);
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kv_it_ = kvmap_.begin();
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advance(kv_it_, st_pos);
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dbiter->Seek(kv_it_->first);
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if (!check) {
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if (dbiter->Valid()) {
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ASSERT_NE(dbiter->value().compare(kv_it_->second), 0);
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}
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} else { // dbiter should have found out kvmap_[st_pos]
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for (int64_t i = st_pos; kv_it_ != kvmap_.end() && i < st_pos + span;
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i++, ++kv_it_) {
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ASSERT_TRUE(dbiter->Valid());
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ASSERT_EQ(dbiter->value().compare(kv_it_->second), 0);
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dbiter->Next();
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}
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}
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delete dbiter;
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}
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// Set ttl on open db
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void SetTtl(int32_t ttl, ColumnFamilyHandle* cf = nullptr) {
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ASSERT_TRUE(db_ttl_);
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cf == nullptr ? db_ttl_->SetTtl(ttl) : db_ttl_->SetTtl(cf, ttl);
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}
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class TestFilter : public CompactionFilter {
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public:
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TestFilter(const int64_t kSampleSize, const std::string& kNewValue)
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: kSampleSize_(kSampleSize),
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kNewValue_(kNewValue) {
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}
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// Works on keys of the form "key<number>"
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// Drops key if number at the end of key is in [0, kSampleSize_/3),
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// Keeps key if it is in [kSampleSize_/3, 2*kSampleSize_/3),
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// Change value if it is in [2*kSampleSize_/3, kSampleSize_)
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// Eg. kSampleSize_=6. Drop:key0-1...Keep:key2-3...Change:key4-5...
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bool Filter(int /*level*/, const Slice& key, const Slice& /*value*/,
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std::string* new_value, bool* value_changed) const override {
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assert(new_value != nullptr);
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std::string search_str = "0123456789";
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std::string key_string = key.ToString();
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size_t pos = key_string.find_first_of(search_str);
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int num_key_end;
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if (pos != std::string::npos) {
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auto key_substr = key_string.substr(pos, key.size() - pos);
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#ifndef CYGWIN
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num_key_end = std::stoi(key_substr);
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#else
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num_key_end = std::strtol(key_substr.c_str(), 0, 10);
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#endif
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} else {
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return false; // Keep keys not matching the format "key<NUMBER>"
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}
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int64_t partition = kSampleSize_ / 3;
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if (num_key_end < partition) {
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return true;
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} else if (num_key_end < partition * 2) {
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return false;
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} else {
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*new_value = kNewValue_;
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*value_changed = true;
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return false;
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}
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}
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const char* Name() const override { return "TestFilter"; }
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private:
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const int64_t kSampleSize_;
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const std::string kNewValue_;
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};
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class TestFilterFactory : public CompactionFilterFactory {
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public:
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TestFilterFactory(const int64_t kSampleSize, const std::string& kNewValue)
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: kSampleSize_(kSampleSize),
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kNewValue_(kNewValue) {
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}
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std::unique_ptr<CompactionFilter> CreateCompactionFilter(
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const CompactionFilter::Context& /*context*/) override {
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return std::unique_ptr<CompactionFilter>(
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new TestFilter(kSampleSize_, kNewValue_));
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}
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const char* Name() const override { return "TestFilterFactory"; }
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private:
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const int64_t kSampleSize_;
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const std::string kNewValue_;
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};
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// Choose carefully so that Put, Gets & Compaction complete in 1 second buffer
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static const int64_t kSampleSize_ = 100;
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std::string dbname_;
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DBWithTTL* db_ttl_;
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std::unique_ptr<SpecialTimeEnv> env_;
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private:
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Options options_;
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KVMap kvmap_;
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KVMap::iterator kv_it_;
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const std::string kNewValue_ = "new_value";
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std::unique_ptr<CompactionFilter> test_comp_filter_;
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}; // class TtlTest
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// If TTL is non positive or not provided, the behaviour is TTL = infinity
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// This test opens the db 3 times with such default behavior and inserts a
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// bunch of kvs each time. All kvs should accumulate in the db till the end
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// Partitions the sample-size provided into 3 sets over boundary1 and boundary2
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TEST_F(TtlTest, NoEffect) {
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MakeKVMap(kSampleSize_);
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int64_t boundary1 = kSampleSize_ / 3;
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int64_t boundary2 = 2 * boundary1;
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OpenTtl();
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PutValues(0, boundary1); //T=0: Set1 never deleted
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SleepCompactCheck(1, 0, boundary1); //T=1: Set1 still there
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CloseTtl();
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OpenTtl(0);
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PutValues(boundary1, boundary2 - boundary1); //T=1: Set2 never deleted
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SleepCompactCheck(1, 0, boundary2); //T=2: Sets1 & 2 still there
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CloseTtl();
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OpenTtl(-1);
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PutValues(boundary2, kSampleSize_ - boundary2); //T=3: Set3 never deleted
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SleepCompactCheck(1, 0, kSampleSize_, true); //T=4: Sets 1,2,3 still there
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CloseTtl();
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}
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// Rerun the NoEffect test with a different version of CloseTtl
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// function, where db is directly deleted without close.
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TEST_F(TtlTest, DestructWithoutClose) {
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MakeKVMap(kSampleSize_);
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int64_t boundary1 = kSampleSize_ / 3;
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int64_t boundary2 = 2 * boundary1;
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OpenTtl();
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PutValues(0, boundary1); // T=0: Set1 never deleted
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SleepCompactCheck(1, 0, boundary1); // T=1: Set1 still there
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CloseTtlNoDBClose();
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OpenTtl(0);
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PutValues(boundary1, boundary2 - boundary1); // T=1: Set2 never deleted
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SleepCompactCheck(1, 0, boundary2); // T=2: Sets1 & 2 still there
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CloseTtlNoDBClose();
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OpenTtl(-1);
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PutValues(boundary2, kSampleSize_ - boundary2); // T=3: Set3 never deleted
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SleepCompactCheck(1, 0, kSampleSize_, true); // T=4: Sets 1,2,3 still there
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CloseTtlNoDBClose();
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}
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// Puts a set of values and checks its presence using Get during ttl
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TEST_F(TtlTest, PresentDuringTTL) {
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MakeKVMap(kSampleSize_);
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OpenTtl(2); // T=0:Open the db with ttl = 2
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PutValues(0, kSampleSize_); // T=0:Insert Set1. Delete at t=2
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SleepCompactCheck(1, 0, kSampleSize_, true); // T=1:Set1 should still be there
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CloseTtl();
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}
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// Puts a set of values and checks its absence using Get after ttl
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TEST_F(TtlTest, AbsentAfterTTL) {
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MakeKVMap(kSampleSize_);
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OpenTtl(1); // T=0:Open the db with ttl = 2
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PutValues(0, kSampleSize_); // T=0:Insert Set1. Delete at t=2
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SleepCompactCheck(2, 0, kSampleSize_, false); // T=2:Set1 should not be there
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CloseTtl();
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}
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// Resets the timestamp of a set of kvs by updating them and checks that they
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// are not deleted according to the old timestamp
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TEST_F(TtlTest, ResetTimestamp) {
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MakeKVMap(kSampleSize_);
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OpenTtl(3);
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PutValues(0, kSampleSize_); // T=0: Insert Set1. Delete at t=3
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env_->Sleep(2); // T=2
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PutValues(0, kSampleSize_); // T=2: Insert Set1. Delete at t=5
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SleepCompactCheck(2, 0, kSampleSize_); // T=4: Set1 should still be there
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CloseTtl();
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}
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// Similar to PresentDuringTTL but uses Iterator
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TEST_F(TtlTest, IterPresentDuringTTL) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(2);
|
|
PutValues(0, kSampleSize_); // T=0: Insert. Delete at t=2
|
|
SleepCompactCheckIter(1, 0, kSampleSize_); // T=1: Set should be there
|
|
CloseTtl();
|
|
}
|
|
|
|
// Similar to AbsentAfterTTL but uses Iterator
|
|
TEST_F(TtlTest, IterAbsentAfterTTL) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(1);
|
|
PutValues(0, kSampleSize_); // T=0: Insert. Delete at t=1
|
|
SleepCompactCheckIter(2, 0, kSampleSize_, false); // T=2: Should not be there
|
|
CloseTtl();
|
|
}
|
|
|
|
// Checks presence while opening the same db more than once with the same ttl
|
|
// Note: The second open will open the same db
|
|
TEST_F(TtlTest, MultiOpenSamePresent) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(2);
|
|
PutValues(0, kSampleSize_); // T=0: Insert. Delete at t=2
|
|
CloseTtl();
|
|
|
|
OpenTtl(2); // T=0. Delete at t=2
|
|
SleepCompactCheck(1, 0, kSampleSize_); // T=1: Set should be there
|
|
CloseTtl();
|
|
}
|
|
|
|
// Checks absence while opening the same db more than once with the same ttl
|
|
// Note: The second open will open the same db
|
|
TEST_F(TtlTest, MultiOpenSameAbsent) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(1);
|
|
PutValues(0, kSampleSize_); // T=0: Insert. Delete at t=1
|
|
CloseTtl();
|
|
|
|
OpenTtl(1); // T=0.Delete at t=1
|
|
SleepCompactCheck(2, 0, kSampleSize_, false); // T=2: Set should not be there
|
|
CloseTtl();
|
|
}
|
|
|
|
// Checks presence while opening the same db more than once with bigger ttl
|
|
TEST_F(TtlTest, MultiOpenDifferent) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(1);
|
|
PutValues(0, kSampleSize_); // T=0: Insert. Delete at t=1
|
|
CloseTtl();
|
|
|
|
OpenTtl(3); // T=0: Set deleted at t=3
|
|
SleepCompactCheck(2, 0, kSampleSize_); // T=2: Set should be there
|
|
CloseTtl();
|
|
}
|
|
|
|
// Checks presence during ttl in read_only mode
|
|
TEST_F(TtlTest, ReadOnlyPresentForever) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(1); // T=0:Open the db normally
|
|
PutValues(0, kSampleSize_); // T=0:Insert Set1. Delete at t=1
|
|
CloseTtl();
|
|
|
|
OpenReadOnlyTtl(1);
|
|
SleepCompactCheck(2, 0, kSampleSize_); // T=2:Set1 should still be there
|
|
CloseTtl();
|
|
}
|
|
|
|
// Checks whether WriteBatch works well with TTL
|
|
// Puts all kvs in kvmap_ in a batch and writes first, then deletes first half
|
|
TEST_F(TtlTest, WriteBatchTest) {
|
|
MakeKVMap(kSampleSize_);
|
|
BatchOperation batch_ops[kSampleSize_];
|
|
for (int i = 0; i < kSampleSize_; i++) {
|
|
batch_ops[i] = OP_PUT;
|
|
}
|
|
|
|
OpenTtl(2);
|
|
MakePutWriteBatch(batch_ops, kSampleSize_);
|
|
for (int i = 0; i < kSampleSize_ / 2; i++) {
|
|
batch_ops[i] = OP_DELETE;
|
|
}
|
|
MakePutWriteBatch(batch_ops, kSampleSize_ / 2);
|
|
SleepCompactCheck(0, 0, kSampleSize_ / 2, false);
|
|
SleepCompactCheck(0, kSampleSize_ / 2, kSampleSize_ - kSampleSize_ / 2);
|
|
CloseTtl();
|
|
}
|
|
|
|
// Checks user's compaction filter for correctness with TTL logic
|
|
TEST_F(TtlTest, CompactionFilter) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtlWithTestCompaction(1);
|
|
PutValues(0, kSampleSize_); // T=0:Insert Set1. Delete at t=1
|
|
// T=2: TTL logic takes precedence over TestFilter:-Set1 should not be there
|
|
SleepCompactCheck(2, 0, kSampleSize_, false);
|
|
CloseTtl();
|
|
|
|
OpenTtlWithTestCompaction(3);
|
|
PutValues(0, kSampleSize_); // T=0:Insert Set1.
|
|
int64_t partition = kSampleSize_ / 3;
|
|
SleepCompactCheck(1, 0, partition, false); // Part dropped
|
|
SleepCompactCheck(0, partition, partition); // Part kept
|
|
SleepCompactCheck(0, 2 * partition, partition, true, true); // Part changed
|
|
CloseTtl();
|
|
}
|
|
|
|
// Insert some key-values which KeyMayExist should be able to get and check that
|
|
// values returned are fine
|
|
TEST_F(TtlTest, KeyMayExist) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl();
|
|
PutValues(0, kSampleSize_, false);
|
|
|
|
SimpleKeyMayExistCheck();
|
|
|
|
CloseTtl();
|
|
}
|
|
|
|
TEST_F(TtlTest, MultiGetTest) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl();
|
|
PutValues(0, kSampleSize_, false);
|
|
|
|
SimpleMultiGetTest();
|
|
|
|
CloseTtl();
|
|
}
|
|
|
|
TEST_F(TtlTest, ColumnFamiliesTest) {
|
|
DB* db;
|
|
Options options;
|
|
options.create_if_missing = true;
|
|
options.env = env_.get();
|
|
|
|
DB::Open(options, dbname_, &db);
|
|
ColumnFamilyHandle* handle;
|
|
ASSERT_OK(db->CreateColumnFamily(ColumnFamilyOptions(options),
|
|
"ttl_column_family", &handle));
|
|
|
|
delete handle;
|
|
delete db;
|
|
|
|
std::vector<ColumnFamilyDescriptor> column_families;
|
|
column_families.push_back(ColumnFamilyDescriptor(
|
|
kDefaultColumnFamilyName, ColumnFamilyOptions(options)));
|
|
column_families.push_back(ColumnFamilyDescriptor(
|
|
"ttl_column_family", ColumnFamilyOptions(options)));
|
|
|
|
std::vector<ColumnFamilyHandle*> handles;
|
|
|
|
ASSERT_OK(DBWithTTL::Open(DBOptions(options), dbname_, column_families,
|
|
&handles, &db_ttl_, {3, 5}, false));
|
|
ASSERT_EQ(handles.size(), 2U);
|
|
ColumnFamilyHandle* new_handle;
|
|
ASSERT_OK(db_ttl_->CreateColumnFamilyWithTtl(options, "ttl_column_family_2",
|
|
&new_handle, 2));
|
|
handles.push_back(new_handle);
|
|
|
|
MakeKVMap(kSampleSize_);
|
|
PutValues(0, kSampleSize_, false, handles[0]);
|
|
PutValues(0, kSampleSize_, false, handles[1]);
|
|
PutValues(0, kSampleSize_, false, handles[2]);
|
|
|
|
// everything should be there after 1 second
|
|
SleepCompactCheck(1, 0, kSampleSize_, true, false, handles[0]);
|
|
SleepCompactCheck(0, 0, kSampleSize_, true, false, handles[1]);
|
|
SleepCompactCheck(0, 0, kSampleSize_, true, false, handles[2]);
|
|
|
|
// only column family 1 should be alive after 4 seconds
|
|
SleepCompactCheck(3, 0, kSampleSize_, false, false, handles[0]);
|
|
SleepCompactCheck(0, 0, kSampleSize_, true, false, handles[1]);
|
|
SleepCompactCheck(0, 0, kSampleSize_, false, false, handles[2]);
|
|
|
|
// nothing should be there after 6 seconds
|
|
SleepCompactCheck(2, 0, kSampleSize_, false, false, handles[0]);
|
|
SleepCompactCheck(0, 0, kSampleSize_, false, false, handles[1]);
|
|
SleepCompactCheck(0, 0, kSampleSize_, false, false, handles[2]);
|
|
|
|
for (auto h : handles) {
|
|
delete h;
|
|
}
|
|
delete db_ttl_;
|
|
db_ttl_ = nullptr;
|
|
}
|
|
|
|
// Puts a set of values and checks its absence using Get after ttl
|
|
TEST_F(TtlTest, ChangeTtlOnOpenDb) {
|
|
MakeKVMap(kSampleSize_);
|
|
|
|
OpenTtl(1); // T=0:Open the db with ttl = 2
|
|
SetTtl(3);
|
|
// @lint-ignore TXT2 T25377293 Grandfathered in
|
|
PutValues(0, kSampleSize_); // T=0:Insert Set1. Delete at t=2
|
|
SleepCompactCheck(2, 0, kSampleSize_, true); // T=2:Set1 should be there
|
|
CloseTtl();
|
|
}
|
|
|
|
} // namespace rocksdb
|
|
|
|
// A black-box test for the ttl wrapper around rocksdb
|
|
int main(int argc, char** argv) {
|
|
::testing::InitGoogleTest(&argc, argv);
|
|
return RUN_ALL_TESTS();
|
|
}
|
|
|
|
#else
|
|
#include <stdio.h>
|
|
|
|
int main(int /*argc*/, char** /*argv*/) {
|
|
fprintf(stderr, "SKIPPED as DBWithTTL is not supported in ROCKSDB_LITE\n");
|
|
return 0;
|
|
}
|
|
|
|
#endif // !ROCKSDB_LITE
|