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rocksdb/utilities/transactions/pessimistic_transaction_db.h

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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
#pragma once
#ifndef ROCKSDB_LITE
#include <mutex>
#include <queue>
#include <set>
#include <string>
#include <unordered_map>
#include <vector>
#include "db/db_iter.h"
#include "db/read_callback.h"
#include "db/snapshot_checker.h"
#include "rocksdb/db.h"
#include "rocksdb/options.h"
#include "rocksdb/utilities/transaction_db.h"
#include "utilities/transactions/pessimistic_transaction.h"
#include "utilities/transactions/transaction_lock_mgr.h"
#include "utilities/transactions/write_prepared_txn.h"
namespace rocksdb {
class PessimisticTransactionDB : public TransactionDB {
public:
explicit PessimisticTransactionDB(DB* db,
const TransactionDBOptions& txn_db_options);
explicit PessimisticTransactionDB(StackableDB* db,
const TransactionDBOptions& txn_db_options);
virtual ~PessimisticTransactionDB();
virtual Status Initialize(
const std::vector<size_t>& compaction_enabled_cf_indices,
const std::vector<ColumnFamilyHandle*>& handles);
Transaction* BeginTransaction(const WriteOptions& write_options,
const TransactionOptions& txn_options,
Transaction* old_txn) override = 0;
using StackableDB::Put;
virtual Status Put(const WriteOptions& options,
ColumnFamilyHandle* column_family, const Slice& key,
const Slice& val) override;
using StackableDB::Delete;
virtual Status Delete(const WriteOptions& wopts,
ColumnFamilyHandle* column_family,
const Slice& key) override;
using StackableDB::SingleDelete;
virtual Status SingleDelete(const WriteOptions& wopts,
ColumnFamilyHandle* column_family,
const Slice& key) override;
using StackableDB::Merge;
virtual Status Merge(const WriteOptions& options,
ColumnFamilyHandle* column_family, const Slice& key,
const Slice& value) override;
using StackableDB::Write;
virtual Status Write(const WriteOptions& opts, WriteBatch* updates) override;
using StackableDB::CreateColumnFamily;
virtual Status CreateColumnFamily(const ColumnFamilyOptions& options,
const std::string& column_family_name,
ColumnFamilyHandle** handle) override;
using StackableDB::DropColumnFamily;
virtual Status DropColumnFamily(ColumnFamilyHandle* column_family) override;
Status TryLock(PessimisticTransaction* txn, uint32_t cfh_id,
const std::string& key, bool exclusive);
void UnLock(PessimisticTransaction* txn, const TransactionKeyMap* keys);
void UnLock(PessimisticTransaction* txn, uint32_t cfh_id,
const std::string& key);
void AddColumnFamily(const ColumnFamilyHandle* handle);
static TransactionDBOptions ValidateTxnDBOptions(
const TransactionDBOptions& txn_db_options);
const TransactionDBOptions& GetTxnDBOptions() const {
return txn_db_options_;
}
void InsertExpirableTransaction(TransactionID tx_id,
PessimisticTransaction* tx);
void RemoveExpirableTransaction(TransactionID tx_id);
// If transaction is no longer available, locks can be stolen
// If transaction is available, try stealing locks directly from transaction
// It is the caller's responsibility to ensure that the referred transaction
// is expirable (GetExpirationTime() > 0) and that it is expired.
bool TryStealingExpiredTransactionLocks(TransactionID tx_id);
Transaction* GetTransactionByName(const TransactionName& name) override;
void RegisterTransaction(Transaction* txn);
void UnregisterTransaction(Transaction* txn);
// not thread safe. current use case is during recovery (single thread)
void GetAllPreparedTransactions(std::vector<Transaction*>* trans) override;
TransactionLockMgr::LockStatusData GetLockStatusData() override;
std::vector<DeadlockPath> GetDeadlockInfoBuffer() override;
void SetDeadlockInfoBufferSize(uint32_t target_size) override;
protected:
void ReinitializeTransaction(
Transaction* txn, const WriteOptions& write_options,
const TransactionOptions& txn_options = TransactionOptions());
DBImpl* db_impl_;
std::shared_ptr<Logger> info_log_;
private:
friend class WritePreparedTxnDB;
friend class WritePreparedTxnDBMock;
const TransactionDBOptions txn_db_options_;
TransactionLockMgr lock_mgr_;
// Must be held when adding/dropping column families.
InstrumentedMutex column_family_mutex_;
Transaction* BeginInternalTransaction(const WriteOptions& options);
// Used to ensure that no locks are stolen from an expirable transaction
// that has started a commit. Only transactions with an expiration time
// should be in this map.
std::mutex map_mutex_;
std::unordered_map<TransactionID, PessimisticTransaction*>
expirable_transactions_map_;
// map from name to two phase transaction instance
std::mutex name_map_mutex_;
std::unordered_map<TransactionName, Transaction*> transactions_;
};
// A PessimisticTransactionDB that writes the data to the DB after the commit.
// In this way the DB only contains the committed data.
class WriteCommittedTxnDB : public PessimisticTransactionDB {
public:
explicit WriteCommittedTxnDB(DB* db,
const TransactionDBOptions& txn_db_options)
: PessimisticTransactionDB(db, txn_db_options) {}
explicit WriteCommittedTxnDB(StackableDB* db,
const TransactionDBOptions& txn_db_options)
: PessimisticTransactionDB(db, txn_db_options) {}
virtual ~WriteCommittedTxnDB() {}
Transaction* BeginTransaction(const WriteOptions& write_options,
const TransactionOptions& txn_options,
Transaction* old_txn) override;
};
// A PessimisticTransactionDB that writes data to DB after prepare phase of 2PC.
// In this way some data in the DB might not be committed. The DB provides
// mechanisms to tell such data apart from committed data.
class WritePreparedTxnDB : public PessimisticTransactionDB {
public:
explicit WritePreparedTxnDB(
DB* db, const TransactionDBOptions& txn_db_options,
size_t snapshot_cache_bits = DEF_SNAPSHOT_CACHE_BITS,
size_t commit_cache_bits = DEF_COMMIT_CACHE_BITS)
: PessimisticTransactionDB(db, txn_db_options),
SNAPSHOT_CACHE_BITS(snapshot_cache_bits),
SNAPSHOT_CACHE_SIZE(static_cast<size_t>(1ull << SNAPSHOT_CACHE_BITS)),
COMMIT_CACHE_BITS(commit_cache_bits),
COMMIT_CACHE_SIZE(static_cast<size_t>(1ull << COMMIT_CACHE_BITS)),
FORMAT(COMMIT_CACHE_BITS) {
Init(txn_db_options);
}
explicit WritePreparedTxnDB(
StackableDB* db, const TransactionDBOptions& txn_db_options,
size_t snapshot_cache_bits = DEF_SNAPSHOT_CACHE_BITS,
size_t commit_cache_bits = DEF_COMMIT_CACHE_BITS)
: PessimisticTransactionDB(db, txn_db_options),
SNAPSHOT_CACHE_BITS(snapshot_cache_bits),
SNAPSHOT_CACHE_SIZE(static_cast<size_t>(1ull << SNAPSHOT_CACHE_BITS)),
COMMIT_CACHE_BITS(commit_cache_bits),
COMMIT_CACHE_SIZE(static_cast<size_t>(1ull << COMMIT_CACHE_BITS)),
FORMAT(COMMIT_CACHE_BITS) {
Init(txn_db_options);
}
virtual ~WritePreparedTxnDB();
virtual Status Initialize(
const std::vector<size_t>& compaction_enabled_cf_indices,
const std::vector<ColumnFamilyHandle*>& handles) override;
Transaction* BeginTransaction(const WriteOptions& write_options,
const TransactionOptions& txn_options,
Transaction* old_txn) override;
using DB::Get;
virtual Status Get(const ReadOptions& options,
ColumnFamilyHandle* column_family, const Slice& key,
PinnableSlice* value) override;
using DB::NewIterator;
virtual Iterator* NewIterator(const ReadOptions& options,
ColumnFamilyHandle* column_family) override;
using DB::NewIterators;
virtual Status NewIterators(
const ReadOptions& options,
const std::vector<ColumnFamilyHandle*>& column_families,
std::vector<Iterator*>* iterators) override;
// Check whether the transaction that wrote the value with seqeunce number seq
// is visible to the snapshot with sequence number snapshot_seq
bool IsInSnapshot(uint64_t seq, uint64_t snapshot_seq) const;
// Add the trasnaction with prepare sequence seq to the prepared list
void AddPrepared(uint64_t seq);
// Rollback a prepared txn identified with prep_seq. rollback_seq is the seq
// with which the additional data is written to cancel the txn effect. It can
// be used to idenitfy the snapshots that overlap with the rolled back txn.
void RollbackPrepared(uint64_t prep_seq, uint64_t rollback_seq);
// Add the transaction with prepare sequence prepare_seq and commit sequence
// commit_seq to the commit map
void AddCommitted(uint64_t prepare_seq, uint64_t commit_seq);
struct CommitEntry {
uint64_t prep_seq;
uint64_t commit_seq;
CommitEntry() : prep_seq(0), commit_seq(0) {}
CommitEntry(uint64_t ps, uint64_t cs) : prep_seq(ps), commit_seq(cs) {}
bool operator==(const CommitEntry& rhs) const {
return prep_seq == rhs.prep_seq && commit_seq == rhs.commit_seq;
}
};
struct CommitEntry64bFormat {
explicit CommitEntry64bFormat(size_t index_bits)
: INDEX_BITS(index_bits),
PREP_BITS(static_cast<size_t>(64 - PAD_BITS - INDEX_BITS)),
COMMIT_BITS(static_cast<size_t>(64 - PREP_BITS)),
COMMIT_FILTER(static_cast<uint64_t>((1ull << COMMIT_BITS) - 1)) {}
// Number of higher bits of a sequence number that is not used. They are
// used to encode the value type, ...
const size_t PAD_BITS = static_cast<size_t>(8);
// Number of lower bits from prepare seq that can be skipped as they are
// implied by the index of the entry in the array
const size_t INDEX_BITS;
// Number of bits we use to encode the prepare seq
const size_t PREP_BITS;
// Number of bits we use to encode the commit seq.
const size_t COMMIT_BITS;
// Filter to encode/decode commit seq
const uint64_t COMMIT_FILTER;
};
// Prepare Seq (64 bits) = PAD ... PAD PREP PREP ... PREP INDEX INDEX ...
// INDEX Detal Seq (64 bits) = 0 0 0 0 0 0 0 0 0 0 0 0 DELTA DELTA ...
// DELTA DELTA Encoded Value = PREP PREP .... PREP PREP DELTA DELTA
// ... DELTA DELTA PAD: first bits of a seq that is reserved for tagging and
// hence ignored PREP/INDEX: the used bits in a prepare seq number INDEX: the
// bits that do not have to be encoded (will be provided externally) DELTA:
// prep seq - commit seq + 1 Number of DELTA bits should be equal to number of
// index bits + PADs
struct CommitEntry64b {
constexpr CommitEntry64b() noexcept : rep_(0) {}
CommitEntry64b(const CommitEntry& entry, const CommitEntry64bFormat& format)
: CommitEntry64b(entry.prep_seq, entry.commit_seq, format) {}
CommitEntry64b(const uint64_t ps, const uint64_t cs,
const CommitEntry64bFormat& format) {
assert(ps < static_cast<uint64_t>(
(1ull << (format.PREP_BITS + format.INDEX_BITS))));
assert(ps <= cs);
uint64_t delta = cs - ps + 1; // make initialized delta always >= 1
// zero is reserved for uninitialized entries
assert(0 < delta);
assert(delta < static_cast<uint64_t>((1ull << format.COMMIT_BITS)));
rep_ = (ps << format.PAD_BITS) & ~format.COMMIT_FILTER;
rep_ = rep_ | delta;
}
// Return false if the entry is empty
bool Parse(const uint64_t indexed_seq, CommitEntry* entry,
const CommitEntry64bFormat& format) {
uint64_t delta = rep_ & format.COMMIT_FILTER;
// zero is reserved for uninitialized entries
assert(delta < static_cast<uint64_t>((1ull << format.COMMIT_BITS)));
if (delta == 0) {
return false; // initialized entry would have non-zero delta
}
assert(indexed_seq < static_cast<uint64_t>((1ull << format.INDEX_BITS)));
uint64_t prep_up = rep_ & ~format.COMMIT_FILTER;
prep_up >>= format.PAD_BITS;
const uint64_t& prep_low = indexed_seq;
entry->prep_seq = prep_up | prep_low;
entry->commit_seq = entry->prep_seq + delta - 1;
return true;
}
private:
uint64_t rep_;
};
// Struct to hold ownership of snapshot and read callback for cleanup.
struct IteratorState;
private:
friend class WritePreparedTransactionTest_IsInSnapshotTest_Test;
friend class WritePreparedTransactionTest_CheckAgainstSnapshotsTest_Test;
friend class WritePreparedTransactionTest_CommitMapTest_Test;
friend class WritePreparedTransactionTest_SnapshotConcurrentAccessTest_Test;
friend class WritePreparedTransactionTest;
friend class PreparedHeap_BasicsTest_Test;
friend class WritePreparedTxnDBMock;
friend class WritePreparedTransactionTest_AdvanceMaxEvictedSeqBasicTest_Test;
friend class WritePreparedTransactionTest_BasicRecoveryTest_Test;
friend class WritePreparedTransactionTest_IsInSnapshotEmptyMapTest_Test;
friend class WritePreparedTransactionTest_RollbackTest_Test;
void Init(const TransactionDBOptions& /* unused */);
// A heap with the amortized O(1) complexity for erase. It uses one extra heap
// to keep track of erased entries that are not yet on top of the main heap.
class PreparedHeap {
std::priority_queue<uint64_t, std::vector<uint64_t>, std::greater<uint64_t>>
heap_;
std::priority_queue<uint64_t, std::vector<uint64_t>, std::greater<uint64_t>>
erased_heap_;
public:
bool empty() { return heap_.empty(); }
uint64_t top() { return heap_.top(); }
void push(uint64_t v) { heap_.push(v); }
void pop() {
heap_.pop();
while (!heap_.empty() && !erased_heap_.empty() &&
heap_.top() == erased_heap_.top()) {
heap_.pop();
erased_heap_.pop();
}
while (heap_.empty() && !erased_heap_.empty()) {
erased_heap_.pop();
}
}
void erase(uint64_t seq) {
if (!heap_.empty()) {
if (seq < heap_.top()) {
// Already popped, ignore it.
} else if (heap_.top() == seq) {
pop();
} else { // (heap_.top() > seq)
// Down the heap, remember to pop it later
erased_heap_.push(seq);
}
}
}
};
// Get the commit entry with index indexed_seq from the commit table. It
// returns true if such entry exists.
bool GetCommitEntry(const uint64_t indexed_seq, CommitEntry64b* entry_64b,
CommitEntry* entry) const;
// Rewrite the entry with the index indexed_seq in the commit table with the
// commit entry <prep_seq, commit_seq>. If the rewrite results into eviction,
// sets the evicted_entry and returns true.
bool AddCommitEntry(const uint64_t indexed_seq, const CommitEntry& new_entry,
CommitEntry* evicted_entry);
// Rewrite the entry with the index indexed_seq in the commit table with the
// commit entry new_entry only if the existing entry matches the
// expected_entry. Returns false otherwise.
bool ExchangeCommitEntry(const uint64_t indexed_seq,
CommitEntry64b& expected_entry,
const CommitEntry& new_entry);
// Increase max_evicted_seq_ from the previous value prev_max to the new
// value. This also involves taking care of prepared txns that are not
// committed before new_max, as well as updating the list of live snapshots at
// the time of updating the max. Thread-safety: this function can be called
// concurrently. The concurrent invocations of this function is equivalent to
// a serial invocation in which the last invocation is the one with the
// largetst new_max value.
void AdvanceMaxEvictedSeq(SequenceNumber& prev_max, SequenceNumber& new_max);
virtual const std::vector<SequenceNumber> GetSnapshotListFromDB(
SequenceNumber max);
// Update the list of snapshots corresponding to the soon-to-be-updated
// max_eviceted_seq_. Thread-safety: this function can be called concurrently.
// The concurrent invocations of this function is equivalent to a serial
// invocation in which the last invocation is the one with the largetst
// version value.
void UpdateSnapshots(const std::vector<SequenceNumber>& snapshots,
const SequenceNumber& version);
// Check an evicted entry against live snapshots to see if it should be kept
// around or it can be safely discarded (and hence assume committed for all
// snapshots). Thread-safety: this function can be called concurrently. If it
// is called concurrently with multiple UpdateSnapshots, the result is the
// same as checking the intersection of the snapshot list before updates with
// the snapshot list of all the concurrent updates.
void CheckAgainstSnapshots(const CommitEntry& evicted);
// Add a new entry to old_commit_map_ if prep_seq <= snapshot_seq <
// commit_seq. Return false if checking the next snapshot(s) is not needed.
// This is the case if the entry already added to old_commit_map_ or none of
// the next snapshots could satisfy the condition. next_is_larger: the next
// snapshot will be a larger value
bool MaybeUpdateOldCommitMap(const uint64_t& prep_seq,
const uint64_t& commit_seq,
const uint64_t& snapshot_seq,
const bool next_is_larger);
// The list of live snapshots at the last time that max_evicted_seq_ advanced.
// The list stored into two data structures: in snapshot_cache_ that is
// efficient for concurrent reads, and in snapshots_ if the data does not fit
// into snapshot_cache_. The total number of snapshots in the two lists
std::atomic<size_t> snapshots_total_ = {};
// The list sorted in ascending order. Thread-safety for writes is provided
// with snapshots_mutex_ and concurrent reads are safe due to std::atomic for
// each entry. In x86_64 architecture such reads are compiled to simple read
// instructions. 128 entries
static const size_t DEF_SNAPSHOT_CACHE_BITS = static_cast<size_t>(7);
const size_t SNAPSHOT_CACHE_BITS;
const size_t SNAPSHOT_CACHE_SIZE;
unique_ptr<std::atomic<SequenceNumber>[]> snapshot_cache_;
// 2nd list for storing snapshots. The list sorted in ascending order.
// Thread-safety is provided with snapshots_mutex_.
std::vector<SequenceNumber> snapshots_;
// The version of the latest list of snapshots. This can be used to avoid
// rewrittiing a list that is concurrently updated with a more recent version.
SequenceNumber snapshots_version_ = 0;
// A heap of prepared transactions. Thread-safety is provided with
// prepared_mutex_.
PreparedHeap prepared_txns_;
// 10m entry, 80MB size
static const size_t DEF_COMMIT_CACHE_BITS = static_cast<size_t>(21);
const size_t COMMIT_CACHE_BITS;
const size_t COMMIT_CACHE_SIZE;
const CommitEntry64bFormat FORMAT;
// commit_cache_ must be initialized to zero to tell apart an empty index from
// a filled one. Thread-safety is provided with commit_cache_mutex_.
unique_ptr<std::atomic<CommitEntry64b>[]> commit_cache_;
// The largest evicted *commit* sequence number from the commit_cache_
std::atomic<uint64_t> max_evicted_seq_ = {};
// Advance max_evicted_seq_ by this value each time it needs an update. The
// larger the value, the less frequent advances we would have. We do not want
// it to be too large either as it would cause stalls by doing too much
// maintenance work under the lock.
size_t INC_STEP_FOR_MAX_EVICTED = 1;
// A map of the evicted entries from commit_cache_ that has to be kept around
// to service the old snapshots. This is expected to be empty normally.
// Thread-safety is provided with old_commit_map_mutex_.
std::map<uint64_t, uint64_t> old_commit_map_;
// A set of long-running prepared transactions that are not finished by the
// time max_evicted_seq_ advances their sequence number. This is expected to
// be empty normally. Thread-safety is provided with prepared_mutex_.
std::set<uint64_t> delayed_prepared_;
// Update when delayed_prepared_.empty() changes. Expected to be true
// normally.
std::atomic<bool> delayed_prepared_empty_ = {true};
// Update when old_commit_map_.empty() changes. Expected to be true normally.
std::atomic<bool> old_commit_map_empty_ = {true};
mutable port::RWMutex prepared_mutex_;
mutable port::RWMutex old_commit_map_mutex_;
mutable port::RWMutex commit_cache_mutex_;
mutable port::RWMutex snapshots_mutex_;
};
class WritePreparedTxnReadCallback : public ReadCallback {
public:
WritePreparedTxnReadCallback(WritePreparedTxnDB* db, SequenceNumber snapshot)
: db_(db), snapshot_(snapshot) {}
// Will be called to see if the seq number accepted; if not it moves on to the
// next seq number.
virtual bool IsCommitted(SequenceNumber seq) override {
return db_->IsInSnapshot(seq, snapshot_);
}
private:
WritePreparedTxnDB* db_;
SequenceNumber snapshot_;
};
} // namespace rocksdb
#endif // ROCKSDB_LITE