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3b6dc049f7
Summary: Pull Request resolved: https://github.com/facebook/rocksdb/pull/9629 Pessimistic transactions use pessimistic concurrency control, i.e. locking. Keys are locked upon first operation that writes the key or has the intention of writing. For example, `PessimisticTransaction::Put()`, `PessimisticTransaction::Delete()`, `PessimisticTransaction::SingleDelete()` will write to or delete a key, while `PessimisticTransaction::GetForUpdate()` is used by application to indicate to RocksDB that the transaction has the intention of performing write operation later in the same transaction. Pessimistic transactions support two-phase commit (2PC). A transaction can be `Prepared()`'ed and then `Commit()`. The prepare phase is similar to a promise: once `Prepare()` succeeds, the transaction has acquired the necessary resources to commit. The resources include locks, persistence of WAL, etc. Write-committed transaction is the default pessimistic transaction implementation. In RocksDB write-committed transaction, `Prepare()` will write data to the WAL as a prepare section. `Commit()` will write a commit marker to the WAL and then write data to the memtables. While writing to the memtables, different keys in the transaction's write batch will be assigned different sequence numbers in ascending order. Until commit/rollback, the transaction holds locks on the keys so that no other transaction can write to the same keys. Furthermore, the keys' sequence numbers represent the order in which they are committed and should be made visible. This is convenient for us to implement support for user-defined timestamps. Since column families with and without timestamps can co-exist in the same database, a transaction may or may not involve timestamps. Based on this observation, we add two optional members to each `PessimisticTransaction`, `read_timestamp_` and `commit_timestamp_`. If no key in the transaction's write batch has timestamp, then setting these two variables do not have any effect. For the rest of this commit, we discuss only the cases when these two variables are meaningful. read_timestamp_ is used mainly for validation, and should be set before first call to `GetForUpdate()`. Otherwise, the latter will return non-ok status. `GetForUpdate()` calls `TryLock()` that can verify if another transaction has written the same key since `read_timestamp_` till this call to `GetForUpdate()`. If another transaction has indeed written the same key, then validation fails, and RocksDB allows this transaction to refine `read_timestamp_` by increasing it. Note that a transaction can still use `Get()` with a different timestamp to read, but the result of the read should not be used to determine data that will be written later. commit_timestamp_ must be set after finishing writing and before transaction commit. This applies to both 2PC and non-2PC cases. In the case of 2PC, it's usually set after prepare phase succeeds. We currently require that the commit timestamp be chosen after all keys are locked. This means we disallow the `TransactionDB`-level APIs if user-defined timestamp is used by the transaction. Specifically, calling `PessimisticTransactionDB::Put()`, `PessimisticTransactionDB::Delete()`, `PessimisticTransactionDB::SingleDelete()`, etc. will return non-ok status because they specify timestamps before locking the keys. Users are also prompted to use the `Transaction` APIs when they receive the non-ok status. Reviewed By: ltamasi Differential Revision: D31822445 fbshipit-source-id: b82abf8e230216dc89cc519564a588224a88fd43
313 lines
12 KiB
C++
313 lines
12 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#pragma once
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#ifndef ROCKSDB_LITE
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#include <algorithm>
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#include <atomic>
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#include <mutex>
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#include <stack>
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#include <string>
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#include <unordered_map>
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#include <vector>
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#include "db/write_callback.h"
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#include "rocksdb/db.h"
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#include "rocksdb/slice.h"
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#include "rocksdb/snapshot.h"
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#include "rocksdb/status.h"
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#include "rocksdb/types.h"
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#include "rocksdb/utilities/transaction.h"
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#include "rocksdb/utilities/transaction_db.h"
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#include "rocksdb/utilities/write_batch_with_index.h"
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#include "util/autovector.h"
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#include "utilities/transactions/transaction_base.h"
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#include "utilities/transactions/transaction_util.h"
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namespace ROCKSDB_NAMESPACE {
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class PessimisticTransactionDB;
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// A transaction under pessimistic concurrency control. This class implements
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// the locking API and interfaces with the lock manager as well as the
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// pessimistic transactional db.
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class PessimisticTransaction : public TransactionBaseImpl {
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public:
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PessimisticTransaction(TransactionDB* db, const WriteOptions& write_options,
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const TransactionOptions& txn_options,
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const bool init = true);
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// No copying allowed
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PessimisticTransaction(const PessimisticTransaction&) = delete;
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void operator=(const PessimisticTransaction&) = delete;
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~PessimisticTransaction() override;
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void Reinitialize(TransactionDB* txn_db, const WriteOptions& write_options,
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const TransactionOptions& txn_options);
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Status Prepare() override;
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Status Commit() override;
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// It is basically Commit without going through Prepare phase. The write batch
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// is also directly provided instead of expecting txn to gradually batch the
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// transactions writes to an internal write batch.
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Status CommitBatch(WriteBatch* batch);
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Status Rollback() override;
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Status RollbackToSavePoint() override;
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Status SetName(const TransactionName& name) override;
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// Generate a new unique transaction identifier
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static TransactionID GenTxnID();
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TransactionID GetID() const override { return txn_id_; }
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std::vector<TransactionID> GetWaitingTxns(uint32_t* column_family_id,
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std::string* key) const override {
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std::lock_guard<std::mutex> lock(wait_mutex_);
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std::vector<TransactionID> ids(waiting_txn_ids_.size());
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if (key) *key = waiting_key_ ? *waiting_key_ : "";
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if (column_family_id) *column_family_id = waiting_cf_id_;
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std::copy(waiting_txn_ids_.begin(), waiting_txn_ids_.end(), ids.begin());
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return ids;
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}
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void SetWaitingTxn(autovector<TransactionID> ids, uint32_t column_family_id,
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const std::string* key) {
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std::lock_guard<std::mutex> lock(wait_mutex_);
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waiting_txn_ids_ = ids;
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waiting_cf_id_ = column_family_id;
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waiting_key_ = key;
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}
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void ClearWaitingTxn() {
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std::lock_guard<std::mutex> lock(wait_mutex_);
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waiting_txn_ids_.clear();
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waiting_cf_id_ = 0;
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waiting_key_ = nullptr;
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}
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// Returns the time (in microseconds according to Env->GetMicros())
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// that this transaction will be expired. Returns 0 if this transaction does
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// not expire.
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uint64_t GetExpirationTime() const { return expiration_time_; }
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// returns true if this transaction has an expiration_time and has expired.
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bool IsExpired() const;
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// Returns the number of microseconds a transaction can wait on acquiring a
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// lock or -1 if there is no timeout.
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int64_t GetLockTimeout() const { return lock_timeout_; }
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void SetLockTimeout(int64_t timeout) override {
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lock_timeout_ = timeout * 1000;
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}
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// Returns true if locks were stolen successfully, false otherwise.
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bool TryStealingLocks();
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bool IsDeadlockDetect() const override { return deadlock_detect_; }
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int64_t GetDeadlockDetectDepth() const { return deadlock_detect_depth_; }
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virtual Status GetRangeLock(ColumnFamilyHandle* column_family,
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const Endpoint& start_key,
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const Endpoint& end_key) override;
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protected:
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// Refer to
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// TransactionOptions::use_only_the_last_commit_time_batch_for_recovery
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bool use_only_the_last_commit_time_batch_for_recovery_ = false;
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// Refer to
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// TransactionOptions::skip_prepare
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bool skip_prepare_ = false;
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virtual Status PrepareInternal() = 0;
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virtual Status CommitWithoutPrepareInternal() = 0;
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// batch_cnt if non-zero is the number of sub-batches. A sub-batch is a batch
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// with no duplicate keys. If zero, then the number of sub-batches is unknown.
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virtual Status CommitBatchInternal(WriteBatch* batch,
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size_t batch_cnt = 0) = 0;
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virtual Status CommitInternal() = 0;
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virtual Status RollbackInternal() = 0;
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virtual void Initialize(const TransactionOptions& txn_options);
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Status LockBatch(WriteBatch* batch, LockTracker* keys_to_unlock);
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Status TryLock(ColumnFamilyHandle* column_family, const Slice& key,
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bool read_only, bool exclusive, const bool do_validate = true,
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const bool assume_tracked = false) override;
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void Clear() override;
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PessimisticTransactionDB* txn_db_impl_;
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DBImpl* db_impl_;
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// If non-zero, this transaction should not be committed after this time (in
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// microseconds according to Env->NowMicros())
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uint64_t expiration_time_;
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// Timestamp used by the transaction to perform all GetForUpdate.
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// Use this timestamp for conflict checking.
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// read_timestamp_ == kMaxTxnTimestamp means this transaction has not
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// performed any GetForUpdate. It is possible that the transaction has
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// performed blind writes or Get, though.
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TxnTimestamp read_timestamp_{kMaxTxnTimestamp};
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TxnTimestamp commit_timestamp_{kMaxTxnTimestamp};
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private:
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friend class TransactionTest_ValidateSnapshotTest_Test;
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// Used to create unique ids for transactions.
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static std::atomic<TransactionID> txn_id_counter_;
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// Unique ID for this transaction
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TransactionID txn_id_;
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// IDs for the transactions that are blocking the current transaction.
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//
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// empty if current transaction is not waiting.
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autovector<TransactionID> waiting_txn_ids_;
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// The following two represents the (cf, key) that a transaction is waiting
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// on.
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//
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// If waiting_key_ is not null, then the pointer should always point to
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// a valid string object. The reason is that it is only non-null when the
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// transaction is blocked in the PointLockManager::AcquireWithTimeout
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// function. At that point, the key string object is one of the function
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// parameters.
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uint32_t waiting_cf_id_;
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const std::string* waiting_key_;
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// Mutex protecting waiting_txn_ids_, waiting_cf_id_ and waiting_key_.
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mutable std::mutex wait_mutex_;
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// Timeout in microseconds when locking a key or -1 if there is no timeout.
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int64_t lock_timeout_;
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// Whether to perform deadlock detection or not.
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bool deadlock_detect_;
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// Whether to perform deadlock detection or not.
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int64_t deadlock_detect_depth_;
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// Refer to TransactionOptions::skip_concurrency_control
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bool skip_concurrency_control_;
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virtual Status ValidateSnapshot(ColumnFamilyHandle* column_family,
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const Slice& key,
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SequenceNumber* tracked_at_seq);
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void UnlockGetForUpdate(ColumnFamilyHandle* column_family,
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const Slice& key) override;
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};
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class WriteCommittedTxn : public PessimisticTransaction {
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public:
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WriteCommittedTxn(TransactionDB* db, const WriteOptions& write_options,
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const TransactionOptions& txn_options);
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// No copying allowed
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WriteCommittedTxn(const WriteCommittedTxn&) = delete;
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void operator=(const WriteCommittedTxn&) = delete;
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~WriteCommittedTxn() override {}
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using TransactionBaseImpl::GetForUpdate;
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Status GetForUpdate(const ReadOptions& read_options,
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ColumnFamilyHandle* column_family, const Slice& key,
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std::string* value, bool exclusive,
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const bool do_validate) override;
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Status GetForUpdate(const ReadOptions& read_options,
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ColumnFamilyHandle* column_family, const Slice& key,
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PinnableSlice* pinnable_val, bool exclusive,
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const bool do_validate) override;
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using TransactionBaseImpl::Put;
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// `key` does NOT include timestamp even when it's enabled.
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Status Put(ColumnFamilyHandle* column_family, const Slice& key,
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const Slice& value, const bool assume_tracked = false) override;
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Status Put(ColumnFamilyHandle* column_family, const SliceParts& key,
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const SliceParts& value,
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const bool assume_tracked = false) override;
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using TransactionBaseImpl::PutUntracked;
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Status PutUntracked(ColumnFamilyHandle* column_family, const Slice& key,
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const Slice& value) override;
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Status PutUntracked(ColumnFamilyHandle* column_family, const SliceParts& key,
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const SliceParts& value) override;
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using TransactionBaseImpl::Delete;
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// `key` does NOT include timestamp even when it's enabled.
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Status Delete(ColumnFamilyHandle* column_family, const Slice& key,
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const bool assume_tracked = false) override;
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Status Delete(ColumnFamilyHandle* column_family, const SliceParts& key,
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const bool assume_tracked = false) override;
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using TransactionBaseImpl::DeleteUntracked;
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Status DeleteUntracked(ColumnFamilyHandle* column_family,
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const Slice& key) override;
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Status DeleteUntracked(ColumnFamilyHandle* column_family,
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const SliceParts& key) override;
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using TransactionBaseImpl::SingleDelete;
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// `key` does NOT include timestamp even when it's enabled.
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Status SingleDelete(ColumnFamilyHandle* column_family, const Slice& key,
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const bool assume_tracked = false) override;
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Status SingleDelete(ColumnFamilyHandle* column_family, const SliceParts& key,
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const bool assume_tracked = false) override;
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using TransactionBaseImpl::SingleDeleteUntracked;
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Status SingleDeleteUntracked(ColumnFamilyHandle* column_family,
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const Slice& key) override;
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using TransactionBaseImpl::Merge;
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Status Merge(ColumnFamilyHandle* column_family, const Slice& key,
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const Slice& value, const bool assume_tracked = false) override;
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Status SetReadTimestampForValidation(TxnTimestamp ts) override;
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Status SetCommitTimestamp(TxnTimestamp ts) override;
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private:
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template <typename TValue>
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Status GetForUpdateImpl(const ReadOptions& read_options,
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ColumnFamilyHandle* column_family, const Slice& key,
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TValue* value, bool exclusive,
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const bool do_validate);
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template <typename TKey, typename TOperation>
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Status Operate(ColumnFamilyHandle* column_family, const TKey& key,
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const bool do_validate, const bool assume_tracked,
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TOperation&& operation);
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Status PrepareInternal() override;
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Status CommitWithoutPrepareInternal() override;
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Status CommitBatchInternal(WriteBatch* batch, size_t batch_cnt) override;
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Status CommitInternal() override;
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Status RollbackInternal() override;
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// Column families that enable timestamps and whose data are written when
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// indexing_enabled_ is false. If a key is written when indexing_enabled_ is
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// true, then the corresponding column family is not added to cfs_with_ts
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// even if it enables timestamp.
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std::unordered_set<uint32_t> cfs_with_ts_tracked_when_indexing_disabled_;
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};
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} // namespace ROCKSDB_NAMESPACE
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#endif // ROCKSDB_LITE
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