d8bd9fc7b3
Summary: This PR has two commits: 1. Modify the code to allow different Lock Managers (of any kind) to be used. It is implied that a LockManager uses its own custom LockTracker. 2. Add definitions for Range Locking (class Endpoint and GetRangeLock() function. cheng-chang, is this what you've had in mind (should the PR have both item 1 and item 2?) Pull Request resolved: https://github.com/facebook/rocksdb/pull/7443 Reviewed By: zhichao-cao Differential Revision: D24123172 Pulled By: cheng-chang fbshipit-source-id: c6548ad6d4cc3c25f68d13b29147bc6fdf357185
271 lines
8.3 KiB
C++
271 lines
8.3 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/lock/point/point_lock_tracker.h"
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namespace ROCKSDB_NAMESPACE {
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namespace {
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class TrackedKeysColumnFamilyIterator
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: public LockTracker::ColumnFamilyIterator {
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public:
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explicit TrackedKeysColumnFamilyIterator(const TrackedKeys& keys)
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: tracked_keys_(keys), it_(keys.begin()) {}
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bool HasNext() const override { return it_ != tracked_keys_.end(); }
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ColumnFamilyId Next() override { return (it_++)->first; }
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private:
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const TrackedKeys& tracked_keys_;
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TrackedKeys::const_iterator it_;
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};
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class TrackedKeysIterator : public LockTracker::KeyIterator {
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public:
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TrackedKeysIterator(const TrackedKeys& keys, ColumnFamilyId id)
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: key_infos_(keys.at(id)), it_(key_infos_.begin()) {}
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bool HasNext() const override { return it_ != key_infos_.end(); }
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const std::string& Next() override { return (it_++)->first; }
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private:
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const TrackedKeyInfos& key_infos_;
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TrackedKeyInfos::const_iterator it_;
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};
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} // namespace
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void PointLockTracker::Track(const PointLockRequest& r) {
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auto& keys = tracked_keys_[r.column_family_id];
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#ifdef __cpp_lib_unordered_map_try_emplace
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// use c++17's try_emplace if available, to avoid rehashing the key
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// in case it is not already in the map
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auto result = keys.try_emplace(r.key, r.seq);
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auto it = result.first;
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if (!result.second && r.seq < it->second.seq) {
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// Now tracking this key with an earlier sequence number
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it->second.seq = r.seq;
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}
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#else
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auto it = keys.find(r.key);
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if (it == keys.end()) {
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auto result = keys.emplace(r.key, TrackedKeyInfo(r.seq));
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it = result.first;
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} else if (r.seq < it->second.seq) {
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// Now tracking this key with an earlier sequence number
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it->second.seq = r.seq;
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}
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#endif
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// else we do not update the seq. The smaller the tracked seq, the stronger it
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// the guarantee since it implies from the seq onward there has not been a
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// concurrent update to the key. So we update the seq if it implies stronger
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// guarantees, i.e., if it is smaller than the existing tracked seq.
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if (r.read_only) {
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it->second.num_reads++;
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} else {
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it->second.num_writes++;
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}
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it->second.exclusive = it->second.exclusive || r.exclusive;
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}
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UntrackStatus PointLockTracker::Untrack(const PointLockRequest& r) {
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auto cf_keys = tracked_keys_.find(r.column_family_id);
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if (cf_keys == tracked_keys_.end()) {
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return UntrackStatus::NOT_TRACKED;
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}
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auto& keys = cf_keys->second;
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auto it = keys.find(r.key);
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if (it == keys.end()) {
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return UntrackStatus::NOT_TRACKED;
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}
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bool untracked = false;
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auto& info = it->second;
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if (r.read_only) {
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if (info.num_reads > 0) {
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info.num_reads--;
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untracked = true;
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}
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} else {
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if (info.num_writes > 0) {
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info.num_writes--;
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untracked = true;
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}
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}
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bool removed = false;
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if (info.num_reads == 0 && info.num_writes == 0) {
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keys.erase(it);
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if (keys.empty()) {
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tracked_keys_.erase(cf_keys);
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}
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removed = true;
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}
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if (removed) {
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return UntrackStatus::REMOVED;
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}
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if (untracked) {
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return UntrackStatus::UNTRACKED;
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}
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return UntrackStatus::NOT_TRACKED;
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}
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void PointLockTracker::Merge(const LockTracker& tracker) {
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const PointLockTracker& t = static_cast<const PointLockTracker&>(tracker);
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for (const auto& cf_keys : t.tracked_keys_) {
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ColumnFamilyId cf = cf_keys.first;
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const auto& keys = cf_keys.second;
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auto current_cf_keys = tracked_keys_.find(cf);
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if (current_cf_keys == tracked_keys_.end()) {
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tracked_keys_.emplace(cf_keys);
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} else {
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auto& current_keys = current_cf_keys->second;
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for (const auto& key_info : keys) {
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const std::string& key = key_info.first;
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const TrackedKeyInfo& info = key_info.second;
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// If key was not previously tracked, just copy the whole struct over.
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// Otherwise, some merging needs to occur.
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auto current_info = current_keys.find(key);
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if (current_info == current_keys.end()) {
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current_keys.emplace(key_info);
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} else {
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current_info->second.Merge(info);
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}
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}
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}
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}
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}
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void PointLockTracker::Subtract(const LockTracker& tracker) {
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const PointLockTracker& t = static_cast<const PointLockTracker&>(tracker);
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for (const auto& cf_keys : t.tracked_keys_) {
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ColumnFamilyId cf = cf_keys.first;
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const auto& keys = cf_keys.second;
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auto& current_keys = tracked_keys_.at(cf);
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for (const auto& key_info : keys) {
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const std::string& key = key_info.first;
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const TrackedKeyInfo& info = key_info.second;
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uint32_t num_reads = info.num_reads;
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uint32_t num_writes = info.num_writes;
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auto current_key_info = current_keys.find(key);
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assert(current_key_info != current_keys.end());
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// Decrement the total reads/writes of this key by the number of
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// reads/writes done since the last SavePoint.
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if (num_reads > 0) {
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assert(current_key_info->second.num_reads >= num_reads);
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current_key_info->second.num_reads -= num_reads;
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}
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if (num_writes > 0) {
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assert(current_key_info->second.num_writes >= num_writes);
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current_key_info->second.num_writes -= num_writes;
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}
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if (current_key_info->second.num_reads == 0 &&
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current_key_info->second.num_writes == 0) {
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current_keys.erase(current_key_info);
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}
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}
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}
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}
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LockTracker* PointLockTracker::GetTrackedLocksSinceSavePoint(
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const LockTracker& save_point_tracker) const {
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// Examine the number of reads/writes performed on all keys written
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// since the last SavePoint and compare to the total number of reads/writes
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// for each key.
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LockTracker* t = new PointLockTracker();
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const PointLockTracker& save_point_t =
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static_cast<const PointLockTracker&>(save_point_tracker);
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for (const auto& cf_keys : save_point_t.tracked_keys_) {
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ColumnFamilyId cf = cf_keys.first;
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const auto& keys = cf_keys.second;
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auto& current_keys = tracked_keys_.at(cf);
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for (const auto& key_info : keys) {
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const std::string& key = key_info.first;
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const TrackedKeyInfo& info = key_info.second;
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uint32_t num_reads = info.num_reads;
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uint32_t num_writes = info.num_writes;
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auto current_key_info = current_keys.find(key);
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assert(current_key_info != current_keys.end());
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assert(current_key_info->second.num_reads >= num_reads);
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assert(current_key_info->second.num_writes >= num_writes);
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if (current_key_info->second.num_reads == num_reads &&
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current_key_info->second.num_writes == num_writes) {
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// All the reads/writes to this key were done in the last savepoint.
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PointLockRequest r;
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r.column_family_id = cf;
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r.key = key;
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r.seq = info.seq;
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r.read_only = (num_writes == 0);
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r.exclusive = info.exclusive;
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t->Track(r);
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}
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}
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}
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return t;
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}
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PointLockStatus PointLockTracker::GetPointLockStatus(
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ColumnFamilyId column_family_id, const std::string& key) const {
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assert(IsPointLockSupported());
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PointLockStatus status;
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auto it = tracked_keys_.find(column_family_id);
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if (it == tracked_keys_.end()) {
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return status;
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}
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const auto& keys = it->second;
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auto key_it = keys.find(key);
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if (key_it == keys.end()) {
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return status;
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}
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const TrackedKeyInfo& key_info = key_it->second;
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status.locked = true;
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status.exclusive = key_info.exclusive;
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status.seq = key_info.seq;
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return status;
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}
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uint64_t PointLockTracker::GetNumPointLocks() const {
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uint64_t num_keys = 0;
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for (const auto& cf_keys : tracked_keys_) {
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num_keys += cf_keys.second.size();
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}
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return num_keys;
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}
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LockTracker::ColumnFamilyIterator* PointLockTracker::GetColumnFamilyIterator()
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const {
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return new TrackedKeysColumnFamilyIterator(tracked_keys_);
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}
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LockTracker::KeyIterator* PointLockTracker::GetKeyIterator(
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ColumnFamilyId column_family_id) const {
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assert(tracked_keys_.find(column_family_id) != tracked_keys_.end());
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return new TrackedKeysIterator(tracked_keys_, column_family_id);
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}
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void PointLockTracker::Clear() { tracked_keys_.clear(); }
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} // namespace ROCKSDB_NAMESPACE
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#endif // ROCKSDB_LITE
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