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71c7e4935e
Summary: We're going to support more locking protocols such as range lock in transaction. However, in current design, `TransactionBase` has a member `tracked_keys` which assumes that point lock (lock a single key) is used, and is used in snapshot checking (isolation protocol). When using range lock, we may use read committed instead of snapshot checking as the isolation protocol. The most significant usage scenarios of `tracked_keys` are: 1. pessimistic transaction uses it to track the locked keys, and unlock these keys when commit or rollback. 2. optimistic transaction does not lock keys upfront, it only tracks the lock intentions in tracked_keys, and do write conflict checking when commit. 3. each `SavePoint` tracks the keys that are locked since the `SavePoint`, `RollbackToSavePoint` or `PopSavePoint` relies on both the tracked keys in `SavePoint`s and `tracked_keys`. Based on these scenarios, if we can abstract out a `LockTracker` interface to hold a set of tracked locks (can be keys or key ranges), and have methods that can be composed together to implement the scenarios, then `tracked_keys` can be an internal data structure of one implementation of `LockTracker`. See `utilities/transactions/lock/lock_tracker.h` for the detailed interface design, and `utilities/transactions/lock/point_lock_tracker.cc` for the implementation. In the future, a `RangeLockTracker` can be implemented to track range locks without affecting other components. After this PR, a clean interface for lock manager should be possible, and then ideally, we can have pluggable locking protocols. Pull Request resolved: https://github.com/facebook/rocksdb/pull/7013 Test Plan: Run `transaction_test` and `optimistic_transaction_test`. Reviewed By: ajkr Differential Revision: D22163706 Pulled By: cheng-chang fbshipit-source-id: f2860577b5334e31dd2994f5bc6d7c40d502b1b4
189 lines
6.8 KiB
C++
189 lines
6.8 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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#ifndef ROCKSDB_LITE
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#include "utilities/transactions/transaction_util.h"
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#include <cinttypes>
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#include <string>
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#include <vector>
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#include "db/db_impl/db_impl.h"
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#include "rocksdb/status.h"
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#include "rocksdb/utilities/write_batch_with_index.h"
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#include "util/cast_util.h"
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#include "util/string_util.h"
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namespace ROCKSDB_NAMESPACE {
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Status TransactionUtil::CheckKeyForConflicts(
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DBImpl* db_impl, ColumnFamilyHandle* column_family, const std::string& key,
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SequenceNumber snap_seq, bool cache_only, ReadCallback* snap_checker,
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SequenceNumber min_uncommitted) {
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Status result;
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auto cfh = static_cast_with_check<ColumnFamilyHandleImpl>(column_family);
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auto cfd = cfh->cfd();
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SuperVersion* sv = db_impl->GetAndRefSuperVersion(cfd);
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if (sv == nullptr) {
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result = Status::InvalidArgument("Could not access column family " +
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cfh->GetName());
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}
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if (result.ok()) {
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SequenceNumber earliest_seq =
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db_impl->GetEarliestMemTableSequenceNumber(sv, true);
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result = CheckKey(db_impl, sv, earliest_seq, snap_seq, key, cache_only,
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snap_checker, min_uncommitted);
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db_impl->ReturnAndCleanupSuperVersion(cfd, sv);
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}
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return result;
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}
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Status TransactionUtil::CheckKey(DBImpl* db_impl, SuperVersion* sv,
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SequenceNumber earliest_seq,
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SequenceNumber snap_seq,
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const std::string& key, bool cache_only,
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ReadCallback* snap_checker,
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SequenceNumber min_uncommitted) {
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// When `min_uncommitted` is provided, keys are not always committed
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// in sequence number order, and `snap_checker` is used to check whether
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// specific sequence number is in the database is visible to the transaction.
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// So `snap_checker` must be provided.
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assert(min_uncommitted == kMaxSequenceNumber || snap_checker != nullptr);
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Status result;
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bool need_to_read_sst = false;
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// Since it would be too slow to check the SST files, we will only use
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// the memtables to check whether there have been any recent writes
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// to this key after it was accessed in this transaction. But if the
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// Memtables do not contain a long enough history, we must fail the
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// transaction.
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if (earliest_seq == kMaxSequenceNumber) {
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// The age of this memtable is unknown. Cannot rely on it to check
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// for recent writes. This error shouldn't happen often in practice as
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// the Memtable should have a valid earliest sequence number except in some
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// corner cases (such as error cases during recovery).
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need_to_read_sst = true;
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if (cache_only) {
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result = Status::TryAgain(
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"Transaction could not check for conflicts as the MemTable does not "
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"contain a long enough history to check write at SequenceNumber: ",
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ToString(snap_seq));
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}
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} else if (snap_seq < earliest_seq || min_uncommitted <= earliest_seq) {
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// Use <= for min_uncommitted since earliest_seq is actually the largest sec
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// before this memtable was created
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need_to_read_sst = true;
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if (cache_only) {
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// The age of this memtable is too new to use to check for recent
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// writes.
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char msg[300];
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snprintf(msg, sizeof(msg),
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"Transaction could not check for conflicts for operation at "
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"SequenceNumber %" PRIu64
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" as the MemTable only contains changes newer than "
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"SequenceNumber %" PRIu64
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". Increasing the value of the "
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"max_write_buffer_size_to_maintain option could reduce the "
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"frequency "
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"of this error.",
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snap_seq, earliest_seq);
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result = Status::TryAgain(msg);
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}
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}
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if (result.ok()) {
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SequenceNumber seq = kMaxSequenceNumber;
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bool found_record_for_key = false;
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// When min_uncommitted == kMaxSequenceNumber, writes are committed in
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// sequence number order, so only keys larger than `snap_seq` can cause
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// conflict.
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// When min_uncommitted != kMaxSequenceNumber, keys lower than
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// min_uncommitted will not triggered conflicts, while keys larger than
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// min_uncommitted might create conflicts, so we need to read them out
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// from the DB, and call callback to snap_checker to determine. So only
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// keys lower than min_uncommitted can be skipped.
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SequenceNumber lower_bound_seq =
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(min_uncommitted == kMaxSequenceNumber) ? snap_seq : min_uncommitted;
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Status s = db_impl->GetLatestSequenceForKey(sv, key, !need_to_read_sst,
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lower_bound_seq, &seq,
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&found_record_for_key);
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if (!(s.ok() || s.IsNotFound() || s.IsMergeInProgress())) {
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result = s;
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} else if (found_record_for_key) {
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bool write_conflict = snap_checker == nullptr
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? snap_seq < seq
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: !snap_checker->IsVisible(seq);
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if (write_conflict) {
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result = Status::Busy();
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}
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}
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}
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return result;
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}
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Status TransactionUtil::CheckKeysForConflicts(DBImpl* db_impl,
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const LockTracker& tracker,
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bool cache_only) {
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Status result;
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std::unique_ptr<LockTracker::ColumnFamilyIterator> cf_it(
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tracker.GetColumnFamilyIterator());
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assert(cf_it != nullptr);
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while (cf_it->HasNext()) {
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ColumnFamilyId cf = cf_it->Next();
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SuperVersion* sv = db_impl->GetAndRefSuperVersion(cf);
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if (sv == nullptr) {
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result = Status::InvalidArgument("Could not access column family " +
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ToString(cf));
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break;
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}
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SequenceNumber earliest_seq =
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db_impl->GetEarliestMemTableSequenceNumber(sv, true);
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// For each of the keys in this transaction, check to see if someone has
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// written to this key since the start of the transaction.
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std::unique_ptr<LockTracker::KeyIterator> key_it(
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tracker.GetKeyIterator(cf));
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assert(key_it != nullptr);
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while (key_it->HasNext()) {
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const std::string& key = key_it->Next();
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PointLockStatus status = tracker.GetPointLockStatus(cf, key);
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const SequenceNumber key_seq = status.seq;
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result = CheckKey(db_impl, sv, earliest_seq, key_seq, key, cache_only);
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if (!result.ok()) {
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break;
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}
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}
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db_impl->ReturnAndCleanupSuperVersion(cf, sv);
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if (!result.ok()) {
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break;
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}
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}
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return result;
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}
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} // namespace ROCKSDB_NAMESPACE
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#endif // ROCKSDB_LITE
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