// Copyright (c) 2013, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include "port/port.h" #include "rocksdb/types.h" #include "rocksdb/transaction_log.h" #include "rocksdb/utilities/backupable_db.h" #include "util/testharness.h" #include "util/random.h" #include "util/mutexlock.h" #include "util/testutil.h" #include "util/auto_roll_logger.h" namespace rocksdb { namespace { using std::unique_ptr; class DummyDB : public StackableDB { public: /* implicit */ DummyDB(const Options& options, const std::string& dbname) : StackableDB(nullptr), options_(options), dbname_(dbname), deletions_enabled_(true), sequence_number_(0) {} virtual SequenceNumber GetLatestSequenceNumber() const { return ++sequence_number_; } virtual const std::string& GetName() const override { return dbname_; } virtual Env* GetEnv() const override { return options_.env; } using DB::GetOptions; virtual const Options& GetOptions(ColumnFamilyHandle* column_family) const override { return options_; } virtual Status EnableFileDeletions(bool force) override { ASSERT_TRUE(!deletions_enabled_); deletions_enabled_ = true; return Status::OK(); } virtual Status DisableFileDeletions() override { ASSERT_TRUE(deletions_enabled_); deletions_enabled_ = false; return Status::OK(); } virtual Status GetLiveFiles(std::vector& vec, uint64_t* mfs, bool flush_memtable = true) override { ASSERT_TRUE(!deletions_enabled_); vec = live_files_; *mfs = 100; return Status::OK(); } virtual ColumnFamilyHandle* DefaultColumnFamily() const override { return nullptr; } class DummyLogFile : public LogFile { public: /* implicit */ DummyLogFile(const std::string& path, bool alive = true) : path_(path), alive_(alive) {} virtual std::string PathName() const override { return path_; } virtual uint64_t LogNumber() const { // what business do you have calling this method? ASSERT_TRUE(false); return 0; } virtual WalFileType Type() const override { return alive_ ? kAliveLogFile : kArchivedLogFile; } virtual SequenceNumber StartSequence() const { // backupabledb should not need this method ASSERT_TRUE(false); return 0; } virtual uint64_t SizeFileBytes() const { // backupabledb should not need this method ASSERT_TRUE(false); return 0; } private: std::string path_; bool alive_; }; // DummyLogFile virtual Status GetSortedWalFiles(VectorLogPtr& files) override { ASSERT_TRUE(!deletions_enabled_); files.resize(wal_files_.size()); for (size_t i = 0; i < files.size(); ++i) { files[i].reset( new DummyLogFile(wal_files_[i].first, wal_files_[i].second)); } return Status::OK(); } std::vector live_files_; // pair std::vector> wal_files_; private: Options options_; std::string dbname_; bool deletions_enabled_; mutable SequenceNumber sequence_number_; }; // DummyDB class TestEnv : public EnvWrapper { public: explicit TestEnv(Env* t) : EnvWrapper(t) {} class DummySequentialFile : public SequentialFile { public: DummySequentialFile() : SequentialFile(), rnd_(5) {} virtual Status Read(size_t n, Slice* result, char* scratch) { size_t read_size = (n > size_left) ? size_left : n; for (size_t i = 0; i < read_size; ++i) { scratch[i] = rnd_.Next() & 255; } *result = Slice(scratch, read_size); size_left -= read_size; return Status::OK(); } virtual Status Skip(uint64_t n) { size_left = (n > size_left) ? size_left - n : 0; return Status::OK(); } private: size_t size_left = 200; Random rnd_; }; Status NewSequentialFile(const std::string& f, unique_ptr* r, const EnvOptions& options) { MutexLock l(&mutex_); if (dummy_sequential_file_) { r->reset(new TestEnv::DummySequentialFile()); return Status::OK(); } else { return EnvWrapper::NewSequentialFile(f, r, options); } } Status NewWritableFile(const std::string& f, unique_ptr* r, const EnvOptions& options) { MutexLock l(&mutex_); written_files_.push_back(f); if (limit_written_files_ <= 0) { return Status::NotSupported("Sorry, can't do this"); } limit_written_files_--; return EnvWrapper::NewWritableFile(f, r, options); } virtual Status DeleteFile(const std::string& fname) override { MutexLock l(&mutex_); ASSERT_GT(limit_delete_files_, 0U); limit_delete_files_--; return EnvWrapper::DeleteFile(fname); } void AssertWrittenFiles(std::vector& should_have_written) { MutexLock l(&mutex_); sort(should_have_written.begin(), should_have_written.end()); sort(written_files_.begin(), written_files_.end()); ASSERT_TRUE(written_files_ == should_have_written); } void ClearWrittenFiles() { MutexLock l(&mutex_); written_files_.clear(); } void SetLimitWrittenFiles(uint64_t limit) { MutexLock l(&mutex_); limit_written_files_ = limit; } void SetLimitDeleteFiles(uint64_t limit) { MutexLock l(&mutex_); limit_delete_files_ = limit; } void SetDummySequentialFile(bool dummy_sequential_file) { MutexLock l(&mutex_); dummy_sequential_file_ = dummy_sequential_file; } private: port::Mutex mutex_; bool dummy_sequential_file_ = false; std::vector written_files_; uint64_t limit_written_files_ = 1000000; uint64_t limit_delete_files_ = 1000000; }; // TestEnv class FileManager : public EnvWrapper { public: explicit FileManager(Env* t) : EnvWrapper(t), rnd_(5) {} Status DeleteRandomFileInDir(const std::string& dir) { std::vector children; GetChildren(dir, &children); if (children.size() <= 2) { // . and .. return Status::NotFound(""); } while (true) { int i = rnd_.Next() % children.size(); if (children[i] != "." && children[i] != "..") { return DeleteFile(dir + "/" + children[i]); } } // should never get here assert(false); return Status::NotFound(""); } Status CorruptFile(const std::string& fname, uint64_t bytes_to_corrupt) { uint64_t size; Status s = GetFileSize(fname, &size); if (!s.ok()) { return s; } unique_ptr file; EnvOptions env_options; env_options.use_mmap_writes = false; s = NewRandomRWFile(fname, &file, env_options); if (!s.ok()) { return s; } for (uint64_t i = 0; s.ok() && i < bytes_to_corrupt; ++i) { std::string tmp; // write one random byte to a random position s = file->Write(rnd_.Next() % size, test::RandomString(&rnd_, 1, &tmp)); } return s; } Status CorruptChecksum(const std::string& fname, bool appear_valid) { std::string metadata; Status s = ReadFileToString(this, fname, &metadata); if (!s.ok()) { return s; } s = DeleteFile(fname); if (!s.ok()) { return s; } auto pos = metadata.find("private"); if (pos == std::string::npos) { return Status::Corruption("private file is expected"); } pos = metadata.find(" crc32 ", pos + 6); if (pos == std::string::npos) { return Status::Corruption("checksum not found"); } if (metadata.size() < pos + 7) { return Status::Corruption("bad CRC32 checksum value"); } if (appear_valid) { if (metadata[pos + 8] == '\n') { // single digit value, safe to insert one more digit metadata.insert(pos + 8, 1, '0'); } else { metadata.erase(pos + 8, 1); } } else { metadata[pos + 7] = 'a'; } return WriteToFile(fname, metadata); } Status WriteToFile(const std::string& fname, const std::string& data) { unique_ptr file; EnvOptions env_options; env_options.use_mmap_writes = false; Status s = EnvWrapper::NewWritableFile(fname, &file, env_options); if (!s.ok()) { return s; } return file->Append(Slice(data)); } private: Random rnd_; }; // FileManager // utility functions static size_t FillDB(DB* db, int from, int to) { size_t bytes_written = 0; for (int i = from; i < to; ++i) { std::string key = "testkey" + std::to_string(i); std::string value = "testvalue" + std::to_string(i); bytes_written += key.size() + value.size(); ASSERT_OK(db->Put(WriteOptions(), Slice(key), Slice(value))); } return bytes_written; } static void AssertExists(DB* db, int from, int to) { for (int i = from; i < to; ++i) { std::string key = "testkey" + std::to_string(i); std::string value; Status s = db->Get(ReadOptions(), Slice(key), &value); ASSERT_EQ(value, "testvalue" + std::to_string(i)); } } static void AssertEmpty(DB* db, int from, int to) { for (int i = from; i < to; ++i) { std::string key = "testkey" + std::to_string(i); std::string value = "testvalue" + std::to_string(i); Status s = db->Get(ReadOptions(), Slice(key), &value); ASSERT_TRUE(s.IsNotFound()); } } class BackupableDBTest { public: BackupableDBTest() { // set up files dbname_ = test::TmpDir() + "/backupable_db"; backupdir_ = test::TmpDir() + "/backupable_db_backup"; // set up envs env_ = Env::Default(); test_db_env_.reset(new TestEnv(env_)); test_backup_env_.reset(new TestEnv(env_)); file_manager_.reset(new FileManager(env_)); // set up db options options_.create_if_missing = true; options_.paranoid_checks = true; options_.write_buffer_size = 1 << 17; // 128KB options_.env = test_db_env_.get(); options_.wal_dir = dbname_; // set up backup db options CreateLoggerFromOptions(dbname_, backupdir_, env_, DBOptions(), &logger_); backupable_options_.reset(new BackupableDBOptions( backupdir_, test_backup_env_.get(), true, logger_.get(), true)); // delete old files in db DestroyDB(dbname_, Options()); } DB* OpenDB() { DB* db; ASSERT_OK(DB::Open(options_, dbname_, &db)); return db; } void OpenBackupableDB(bool destroy_old_data = false, bool dummy = false, bool share_table_files = true, bool share_with_checksums = false) { // reset all the defaults test_backup_env_->SetLimitWrittenFiles(1000000); test_db_env_->SetLimitWrittenFiles(1000000); test_db_env_->SetDummySequentialFile(dummy); DB* db; if (dummy) { dummy_db_ = new DummyDB(options_, dbname_); db = dummy_db_; } else { ASSERT_OK(DB::Open(options_, dbname_, &db)); } backupable_options_->destroy_old_data = destroy_old_data; backupable_options_->share_table_files = share_table_files; backupable_options_->share_files_with_checksum = share_with_checksums; db_.reset(new BackupableDB(db, *backupable_options_)); } void CloseBackupableDB() { db_.reset(nullptr); } void OpenRestoreDB() { backupable_options_->destroy_old_data = false; restore_db_.reset( new RestoreBackupableDB(test_db_env_.get(), *backupable_options_)); } void CloseRestoreDB() { restore_db_.reset(nullptr); } // restores backup backup_id and asserts the existence of // [start_exist, end_exist> and not-existence of // [end_exist, end> // // if backup_id == 0, it means restore from latest // if end == 0, don't check AssertEmpty void AssertBackupConsistency(BackupID backup_id, uint32_t start_exist, uint32_t end_exist, uint32_t end = 0, bool keep_log_files = false) { RestoreOptions restore_options(keep_log_files); bool opened_restore = false; if (restore_db_.get() == nullptr) { opened_restore = true; OpenRestoreDB(); } if (backup_id > 0) { ASSERT_OK(restore_db_->RestoreDBFromBackup(backup_id, dbname_, dbname_, restore_options)); } else { ASSERT_OK(restore_db_->RestoreDBFromLatestBackup(dbname_, dbname_, restore_options)); } DB* db = OpenDB(); AssertExists(db, start_exist, end_exist); if (end != 0) { AssertEmpty(db, end_exist, end); } delete db; if (opened_restore) { CloseRestoreDB(); } } void DeleteLogFiles() { std::vector delete_logs; env_->GetChildren(dbname_, &delete_logs); for (auto f : delete_logs) { uint64_t number; FileType type; bool ok = ParseFileName(f, &number, &type); if (ok && type == kLogFile) { env_->DeleteFile(dbname_ + "/" + f); } } } // files std::string dbname_; std::string backupdir_; // envs Env* env_; unique_ptr test_db_env_; unique_ptr test_backup_env_; unique_ptr file_manager_; // all the dbs! DummyDB* dummy_db_; // BackupableDB owns dummy_db_ unique_ptr db_; unique_ptr restore_db_; // options Options options_; unique_ptr backupable_options_; std::shared_ptr logger_; }; // BackupableDBTest void AppendPath(const std::string& path, std::vector& v) { for (auto& f : v) { f = path + f; } } // this will make sure that backup does not copy the same file twice TEST(BackupableDBTest, NoDoubleCopy) { OpenBackupableDB(true, true); // should write 5 DB files + LATEST_BACKUP + one meta file test_backup_env_->SetLimitWrittenFiles(7); test_backup_env_->ClearWrittenFiles(); test_db_env_->SetLimitWrittenFiles(0); dummy_db_->live_files_ = { "/00010.sst", "/00011.sst", "/CURRENT", "/MANIFEST-01" }; dummy_db_->wal_files_ = {{"/00011.log", true}, {"/00012.log", false}}; ASSERT_OK(db_->CreateNewBackup(false)); std::vector should_have_written = { "/shared/00010.sst.tmp", "/shared/00011.sst.tmp", "/private/1.tmp/CURRENT", "/private/1.tmp/MANIFEST-01", "/private/1.tmp/00011.log", "/meta/1.tmp", "/LATEST_BACKUP.tmp" }; AppendPath(dbname_ + "_backup", should_have_written); test_backup_env_->AssertWrittenFiles(should_have_written); // should write 4 new DB files + LATEST_BACKUP + one meta file // should not write/copy 00010.sst, since it's already there! test_backup_env_->SetLimitWrittenFiles(6); test_backup_env_->ClearWrittenFiles(); dummy_db_->live_files_ = { "/00010.sst", "/00015.sst", "/CURRENT", "/MANIFEST-01" }; dummy_db_->wal_files_ = {{"/00011.log", true}, {"/00012.log", false}}; ASSERT_OK(db_->CreateNewBackup(false)); // should not open 00010.sst - it's already there should_have_written = { "/shared/00015.sst.tmp", "/private/2.tmp/CURRENT", "/private/2.tmp/MANIFEST-01", "/private/2.tmp/00011.log", "/meta/2.tmp", "/LATEST_BACKUP.tmp" }; AppendPath(dbname_ + "_backup", should_have_written); test_backup_env_->AssertWrittenFiles(should_have_written); ASSERT_OK(db_->DeleteBackup(1)); ASSERT_EQ(true, test_backup_env_->FileExists(backupdir_ + "/shared/00010.sst")); // 00011.sst was only in backup 1, should be deleted ASSERT_EQ(false, test_backup_env_->FileExists(backupdir_ + "/shared/00011.sst")); ASSERT_EQ(true, test_backup_env_->FileExists(backupdir_ + "/shared/00015.sst")); // MANIFEST file size should be only 100 uint64_t size; test_backup_env_->GetFileSize(backupdir_ + "/private/2/MANIFEST-01", &size); ASSERT_EQ(100UL, size); test_backup_env_->GetFileSize(backupdir_ + "/shared/00015.sst", &size); ASSERT_EQ(200UL, size); CloseBackupableDB(); } // test various kind of corruptions that may happen: // 1. Not able to write a file for backup - that backup should fail, // everything else should work // 2. Corrupted/deleted LATEST_BACKUP - everything should work fine // 3. Corrupted backup meta file or missing backuped file - we should // not be able to open that backup, but all other backups should be // fine // 4. Corrupted checksum value - if the checksum is not a valid uint32_t, // db open should fail, otherwise, it aborts during the restore process. TEST(BackupableDBTest, CorruptionsTest) { const int keys_iteration = 5000; Random rnd(6); Status s; OpenBackupableDB(true); // create five backups for (int i = 0; i < 5; ++i) { FillDB(db_.get(), keys_iteration * i, keys_iteration * (i + 1)); ASSERT_OK(db_->CreateNewBackup(!!(rnd.Next() % 2))); } // ---------- case 1. - fail a write ----------- // try creating backup 6, but fail a write FillDB(db_.get(), keys_iteration * 5, keys_iteration * 6); test_backup_env_->SetLimitWrittenFiles(2); // should fail s = db_->CreateNewBackup(!!(rnd.Next() % 2)); ASSERT_TRUE(!s.ok()); test_backup_env_->SetLimitWrittenFiles(1000000); // latest backup should have all the keys CloseBackupableDB(); AssertBackupConsistency(0, 0, keys_iteration * 5, keys_iteration * 6); // ---------- case 2. - corrupt/delete latest backup ----------- ASSERT_OK(file_manager_->CorruptFile(backupdir_ + "/LATEST_BACKUP", 2)); AssertBackupConsistency(0, 0, keys_iteration * 5); ASSERT_OK(file_manager_->DeleteFile(backupdir_ + "/LATEST_BACKUP")); AssertBackupConsistency(0, 0, keys_iteration * 5); // create backup 6, point LATEST_BACKUP to 5 OpenBackupableDB(); FillDB(db_.get(), keys_iteration * 5, keys_iteration * 6); ASSERT_OK(db_->CreateNewBackup(false)); CloseBackupableDB(); ASSERT_OK(file_manager_->WriteToFile(backupdir_ + "/LATEST_BACKUP", "5")); AssertBackupConsistency(0, 0, keys_iteration * 5, keys_iteration * 6); // assert that all 6 data is gone! ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/6") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/6") == false); // --------- case 3. corrupted backup meta or missing backuped file ---- ASSERT_OK(file_manager_->CorruptFile(backupdir_ + "/meta/5", 3)); // since 5 meta is now corrupted, latest backup should be 4 AssertBackupConsistency(0, 0, keys_iteration * 4, keys_iteration * 5); OpenRestoreDB(); s = restore_db_->RestoreDBFromBackup(5, dbname_, dbname_); ASSERT_TRUE(!s.ok()); CloseRestoreDB(); ASSERT_OK(file_manager_->DeleteRandomFileInDir(backupdir_ + "/private/4")); // 4 is corrupted, 3 is the latest backup now AssertBackupConsistency(0, 0, keys_iteration * 3, keys_iteration * 5); OpenRestoreDB(); s = restore_db_->RestoreDBFromBackup(4, dbname_, dbname_); CloseRestoreDB(); ASSERT_TRUE(!s.ok()); // --------- case 4. corrupted checksum value ---- ASSERT_OK(file_manager_->CorruptChecksum(backupdir_ + "/meta/3", false)); // checksum of backup 3 is an invalid value, this can be detected at // db open time, and it reverts to the previous backup automatically AssertBackupConsistency(0, 0, keys_iteration * 2, keys_iteration * 5); // checksum of the backup 2 appears to be valid, this can cause checksum // mismatch and abort restore process ASSERT_OK(file_manager_->CorruptChecksum(backupdir_ + "/meta/2", true)); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/2")); OpenRestoreDB(); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/2")); s = restore_db_->RestoreDBFromBackup(2, dbname_, dbname_); ASSERT_TRUE(!s.ok()); // make sure that no corrupt backups have actually been deleted! ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/1")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/2")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/3")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/4")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/5")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/1")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/2")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/3")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/4")); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/5")); // delete the corrupt backups and then make sure they're actually deleted ASSERT_OK(restore_db_->DeleteBackup(5)); ASSERT_OK(restore_db_->DeleteBackup(4)); ASSERT_OK(restore_db_->DeleteBackup(3)); ASSERT_OK(restore_db_->DeleteBackup(2)); (void) restore_db_->GarbageCollect(); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/5") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/5") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/4") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/4") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/3") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/3") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/meta/2") == false); ASSERT_TRUE(file_manager_->FileExists(backupdir_ + "/private/2") == false); CloseRestoreDB(); AssertBackupConsistency(0, 0, keys_iteration * 1, keys_iteration * 5); // new backup should be 2! OpenBackupableDB(); FillDB(db_.get(), keys_iteration * 1, keys_iteration * 2); ASSERT_OK(db_->CreateNewBackup(!!(rnd.Next() % 2))); CloseBackupableDB(); AssertBackupConsistency(2, 0, keys_iteration * 2, keys_iteration * 5); } // open DB, write, close DB, backup, restore, repeat TEST(BackupableDBTest, OfflineIntegrationTest) { // has to be a big number, so that it triggers the memtable flush const int keys_iteration = 5000; const int max_key = keys_iteration * 4 + 10; // first iter -- flush before backup // second iter -- don't flush before backup for (int iter = 0; iter < 2; ++iter) { // delete old data DestroyDB(dbname_, Options()); bool destroy_data = true; // every iteration -- // 1. insert new data in the DB // 2. backup the DB // 3. destroy the db // 4. restore the db, check everything is still there for (int i = 0; i < 5; ++i) { // in last iteration, put smaller amount of data, int fill_up_to = std::min(keys_iteration * (i + 1), max_key); // ---- insert new data and back up ---- OpenBackupableDB(destroy_data); destroy_data = false; FillDB(db_.get(), keys_iteration * i, fill_up_to); ASSERT_OK(db_->CreateNewBackup(iter == 0)); CloseBackupableDB(); DestroyDB(dbname_, Options()); // ---- make sure it's empty ---- DB* db = OpenDB(); AssertEmpty(db, 0, fill_up_to); delete db; // ---- restore the DB ---- OpenRestoreDB(); if (i >= 3) { // test purge old backups // when i == 4, purge to only 1 backup // when i == 3, purge to 2 backups ASSERT_OK(restore_db_->PurgeOldBackups(5 - i)); } // ---- make sure the data is there --- AssertBackupConsistency(0, 0, fill_up_to, max_key); CloseRestoreDB(); } } } // open DB, write, backup, write, backup, close, restore TEST(BackupableDBTest, OnlineIntegrationTest) { // has to be a big number, so that it triggers the memtable flush const int keys_iteration = 5000; const int max_key = keys_iteration * 4 + 10; Random rnd(7); // delete old data DestroyDB(dbname_, Options()); OpenBackupableDB(true); // write some data, backup, repeat for (int i = 0; i < 5; ++i) { if (i == 4) { // delete backup number 2, online delete! OpenRestoreDB(); ASSERT_OK(restore_db_->DeleteBackup(2)); CloseRestoreDB(); } // in last iteration, put smaller amount of data, // so that backups can share sst files int fill_up_to = std::min(keys_iteration * (i + 1), max_key); FillDB(db_.get(), keys_iteration * i, fill_up_to); // we should get consistent results with flush_before_backup // set to both true and false ASSERT_OK(db_->CreateNewBackup(!!(rnd.Next() % 2))); } // close and destroy CloseBackupableDB(); DestroyDB(dbname_, Options()); // ---- make sure it's empty ---- DB* db = OpenDB(); AssertEmpty(db, 0, max_key); delete db; // ---- restore every backup and verify all the data is there ---- OpenRestoreDB(); for (int i = 1; i <= 5; ++i) { if (i == 2) { // we deleted backup 2 Status s = restore_db_->RestoreDBFromBackup(2, dbname_, dbname_); ASSERT_TRUE(!s.ok()); } else { int fill_up_to = std::min(keys_iteration * i, max_key); AssertBackupConsistency(i, 0, fill_up_to, max_key); } } // delete some backups -- this should leave only backups 3 and 5 alive ASSERT_OK(restore_db_->DeleteBackup(4)); ASSERT_OK(restore_db_->PurgeOldBackups(2)); std::vector backup_info; restore_db_->GetBackupInfo(&backup_info); ASSERT_EQ(2UL, backup_info.size()); // check backup 3 AssertBackupConsistency(3, 0, 3 * keys_iteration, max_key); // check backup 5 AssertBackupConsistency(5, 0, max_key); CloseRestoreDB(); } TEST(BackupableDBTest, FailOverwritingBackups) { options_.write_buffer_size = 1024 * 1024 * 1024; // 1GB // create backups 1, 2, 3, 4, 5 OpenBackupableDB(true); for (int i = 0; i < 5; ++i) { CloseBackupableDB(); DeleteLogFiles(); OpenBackupableDB(false); FillDB(db_.get(), 100 * i, 100 * (i + 1)); ASSERT_OK(db_->CreateNewBackup(true)); } CloseBackupableDB(); // restore 3 OpenRestoreDB(); ASSERT_OK(restore_db_->RestoreDBFromBackup(3, dbname_, dbname_)); CloseRestoreDB(); OpenBackupableDB(false); FillDB(db_.get(), 0, 300); Status s = db_->CreateNewBackup(true); // the new backup fails because new table files // clash with old table files from backups 4 and 5 // (since write_buffer_size is huge, we can be sure that // each backup will generate only one sst file and that // a file generated by a new backup is the same as // sst file generated by backup 4) ASSERT_TRUE(s.IsCorruption()); ASSERT_OK(db_->DeleteBackup(4)); ASSERT_OK(db_->DeleteBackup(5)); // now, the backup can succeed ASSERT_OK(db_->CreateNewBackup(true)); CloseBackupableDB(); } TEST(BackupableDBTest, NoShareTableFiles) { const int keys_iteration = 5000; OpenBackupableDB(true, false, false); for (int i = 0; i < 5; ++i) { FillDB(db_.get(), keys_iteration * i, keys_iteration * (i + 1)); ASSERT_OK(db_->CreateNewBackup(!!(i % 2))); } CloseBackupableDB(); for (int i = 0; i < 5; ++i) { AssertBackupConsistency(i + 1, 0, keys_iteration * (i + 1), keys_iteration * 6); } } // Verify that you can backup and restore with share_files_with_checksum on TEST(BackupableDBTest, ShareTableFilesWithChecksums) { const int keys_iteration = 5000; OpenBackupableDB(true, false, true, true); for (int i = 0; i < 5; ++i) { FillDB(db_.get(), keys_iteration * i, keys_iteration * (i + 1)); ASSERT_OK(db_->CreateNewBackup(!!(i % 2))); } CloseBackupableDB(); for (int i = 0; i < 5; ++i) { AssertBackupConsistency(i + 1, 0, keys_iteration * (i + 1), keys_iteration * 6); } } // Verify that you can backup and restore using share_files_with_checksum set to // false and then transition this option to true TEST(BackupableDBTest, ShareTableFilesWithChecksumsTransition) { const int keys_iteration = 5000; // set share_files_with_checksum to false OpenBackupableDB(true, false, true, false); for (int i = 0; i < 5; ++i) { FillDB(db_.get(), keys_iteration * i, keys_iteration * (i + 1)); ASSERT_OK(db_->CreateNewBackup(true)); } CloseBackupableDB(); for (int i = 0; i < 5; ++i) { AssertBackupConsistency(i + 1, 0, keys_iteration * (i + 1), keys_iteration * 6); } // set share_files_with_checksum to true and do some more backups OpenBackupableDB(true, false, true, true); for (int i = 5; i < 10; ++i) { FillDB(db_.get(), keys_iteration * i, keys_iteration * (i + 1)); ASSERT_OK(db_->CreateNewBackup(true)); } CloseBackupableDB(); for (int i = 0; i < 5; ++i) { AssertBackupConsistency(i + 1, 0, keys_iteration * (i + 5 + 1), keys_iteration * 11); } } TEST(BackupableDBTest, DeleteTmpFiles) { OpenBackupableDB(); CloseBackupableDB(); std::string shared_tmp = backupdir_ + "/shared/00006.sst.tmp"; std::string private_tmp_dir = backupdir_ + "/private/10.tmp"; std::string private_tmp_file = private_tmp_dir + "/00003.sst"; file_manager_->WriteToFile(shared_tmp, "tmp"); file_manager_->CreateDir(private_tmp_dir); file_manager_->WriteToFile(private_tmp_file, "tmp"); ASSERT_EQ(true, file_manager_->FileExists(private_tmp_dir)); OpenBackupableDB(); // Need to call this explicitly to delete tmp files (void) db_->GarbageCollect(); CloseBackupableDB(); ASSERT_EQ(false, file_manager_->FileExists(shared_tmp)); ASSERT_EQ(false, file_manager_->FileExists(private_tmp_file)); ASSERT_EQ(false, file_manager_->FileExists(private_tmp_dir)); } TEST(BackupableDBTest, KeepLogFiles) { backupable_options_->backup_log_files = false; // basically infinite options_.WAL_ttl_seconds = 24 * 60 * 60; OpenBackupableDB(true); FillDB(db_.get(), 0, 100); ASSERT_OK(db_->Flush(FlushOptions())); FillDB(db_.get(), 100, 200); ASSERT_OK(db_->CreateNewBackup(false)); FillDB(db_.get(), 200, 300); ASSERT_OK(db_->Flush(FlushOptions())); FillDB(db_.get(), 300, 400); ASSERT_OK(db_->Flush(FlushOptions())); FillDB(db_.get(), 400, 500); ASSERT_OK(db_->Flush(FlushOptions())); CloseBackupableDB(); // all data should be there if we call with keep_log_files = true AssertBackupConsistency(0, 0, 500, 600, true); } TEST(BackupableDBTest, RateLimiting) { uint64_t const KB = 1024 * 1024; size_t const kMicrosPerSec = 1000 * 1000LL; std::vector> limits( {{KB, 5 * KB}, {2 * KB, 3 * KB}}); for (const auto& limit : limits) { // destroy old data DestroyDB(dbname_, Options()); backupable_options_->backup_rate_limit = limit.first; backupable_options_->restore_rate_limit = limit.second; options_.compression = kNoCompression; OpenBackupableDB(true); size_t bytes_written = FillDB(db_.get(), 0, 100000); auto start_backup = env_->NowMicros(); ASSERT_OK(db_->CreateNewBackup(false)); auto backup_time = env_->NowMicros() - start_backup; auto rate_limited_backup_time = (bytes_written * kMicrosPerSec) / backupable_options_->backup_rate_limit; ASSERT_GT(backup_time, 0.8 * rate_limited_backup_time); CloseBackupableDB(); OpenRestoreDB(); auto start_restore = env_->NowMicros(); ASSERT_OK(restore_db_->RestoreDBFromLatestBackup(dbname_, dbname_)); auto restore_time = env_->NowMicros() - start_restore; CloseRestoreDB(); auto rate_limited_restore_time = (bytes_written * kMicrosPerSec) / backupable_options_->restore_rate_limit; ASSERT_GT(restore_time, 0.8 * rate_limited_restore_time); AssertBackupConsistency(0, 0, 100000, 100010); } } TEST(BackupableDBTest, ReadOnlyBackupEngine) { DestroyDB(dbname_, Options()); OpenBackupableDB(true); FillDB(db_.get(), 0, 100); ASSERT_OK(db_->CreateNewBackup(true)); FillDB(db_.get(), 100, 200); ASSERT_OK(db_->CreateNewBackup(true)); CloseBackupableDB(); DestroyDB(dbname_, Options()); backupable_options_->destroy_old_data = false; test_backup_env_->ClearWrittenFiles(); test_backup_env_->SetLimitDeleteFiles(0); auto read_only_backup_engine = BackupEngineReadOnly::NewReadOnlyBackupEngine(env_, *backupable_options_); std::vector backup_info; read_only_backup_engine->GetBackupInfo(&backup_info); ASSERT_EQ(backup_info.size(), 2U); RestoreOptions restore_options(false); ASSERT_OK(read_only_backup_engine->RestoreDBFromLatestBackup( dbname_, dbname_, restore_options)); delete read_only_backup_engine; std::vector should_have_written; test_backup_env_->AssertWrittenFiles(should_have_written); DB* db = OpenDB(); AssertExists(db, 0, 200); delete db; } } // anon namespace } // namespace rocksdb int main(int argc, char** argv) { return rocksdb::test::RunAllTests(); }