fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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460 lines
15 KiB
460 lines
15 KiB
// Copyright (c) 2015, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same directory.
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#ifndef ROCKSDB_LITE
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#ifndef __STDC_FORMAT_MACROS
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#define __STDC_FORMAT_MACROS
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#endif
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#include "utilities/transactions/transaction_lock_mgr.h"
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#include <inttypes.h>
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#include <algorithm>
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#include <condition_variable>
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#include <functional>
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#include <mutex>
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#include <string>
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#include <vector>
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#include "rocksdb/slice.h"
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#include "rocksdb/utilities/transaction_db_mutex.h"
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#include "util/autovector.h"
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#include "util/murmurhash.h"
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#include "util/thread_local.h"
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namespace rocksdb {
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struct LockInfo {
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TransactionID txn_id;
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// Transaction locks are not valid after this time in us
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uint64_t expiration_time;
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LockInfo(TransactionID id, uint64_t time)
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: txn_id(id), expiration_time(time) {}
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LockInfo(const LockInfo& lock_info)
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: txn_id(lock_info.txn_id), expiration_time(lock_info.expiration_time) {}
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};
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struct LockMapStripe {
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explicit LockMapStripe(std::shared_ptr<TransactionDBMutexFactory> factory) {
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stripe_mutex = factory->AllocateMutex();
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stripe_cv = factory->AllocateCondVar();
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assert(stripe_mutex);
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assert(stripe_cv);
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}
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// Mutex must be held before modifying keys map
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std::shared_ptr<TransactionDBMutex> stripe_mutex;
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// Condition Variable per stripe for waiting on a lock
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std::shared_ptr<TransactionDBCondVar> stripe_cv;
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// Locked keys mapped to the info about the transactions that locked them.
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// TODO(agiardullo): Explore performance of other data structures.
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std::unordered_map<std::string, LockInfo> keys;
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};
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// Map of #num_stripes LockMapStripes
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struct LockMap {
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explicit LockMap(size_t num_stripes,
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std::shared_ptr<TransactionDBMutexFactory> factory)
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: num_stripes_(num_stripes) {
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lock_map_stripes_.reserve(num_stripes);
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for (size_t i = 0; i < num_stripes; i++) {
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LockMapStripe* stripe = new LockMapStripe(factory);
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lock_map_stripes_.push_back(stripe);
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}
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}
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~LockMap() {
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for (auto stripe : lock_map_stripes_) {
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delete stripe;
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}
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}
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// Number of sepearate LockMapStripes to create, each with their own Mutex
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const size_t num_stripes_;
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// Count of keys that are currently locked in this column family.
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// (Only maintained if TransactionLockMgr::max_num_locks_ is positive.)
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std::atomic<int64_t> lock_cnt{0};
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std::vector<LockMapStripe*> lock_map_stripes_;
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size_t GetStripe(const std::string& key) const;
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};
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namespace {
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void UnrefLockMapsCache(void* ptr) {
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// Called when a thread exits or a ThreadLocalPtr gets destroyed.
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auto lock_maps_cache =
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static_cast<std::unordered_map<uint32_t, std::shared_ptr<LockMap>>*>(ptr);
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delete lock_maps_cache;
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}
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} // anonymous namespace
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TransactionLockMgr::TransactionLockMgr(
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size_t default_num_stripes, int64_t max_num_locks,
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std::shared_ptr<TransactionDBMutexFactory> mutex_factory)
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: default_num_stripes_(default_num_stripes),
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max_num_locks_(max_num_locks),
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mutex_factory_(mutex_factory),
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lock_maps_cache_(new ThreadLocalPtr(&UnrefLockMapsCache)) {}
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TransactionLockMgr::~TransactionLockMgr() {}
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size_t LockMap::GetStripe(const std::string& key) const {
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assert(num_stripes_ > 0);
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static murmur_hash hash;
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size_t stripe = hash(key) % num_stripes_;
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return stripe;
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}
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void TransactionLockMgr::AddColumnFamily(uint32_t column_family_id) {
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InstrumentedMutexLock l(&lock_map_mutex_);
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if (lock_maps_.find(column_family_id) == lock_maps_.end()) {
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lock_maps_.emplace(column_family_id,
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std::shared_ptr<LockMap>(
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new LockMap(default_num_stripes_, mutex_factory_)));
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} else {
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// column_family already exists in lock map
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assert(false);
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}
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}
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void TransactionLockMgr::RemoveColumnFamily(uint32_t column_family_id) {
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// Remove lock_map for this column family. Since the lock map is stored
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// as a shared ptr, concurrent transactions can still keep keep using it
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// until they release their reference to it.
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{
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InstrumentedMutexLock l(&lock_map_mutex_);
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auto lock_maps_iter = lock_maps_.find(column_family_id);
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assert(lock_maps_iter != lock_maps_.end());
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lock_maps_.erase(lock_maps_iter);
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} // lock_map_mutex_
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// Clear all thread-local caches
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autovector<void*> local_caches;
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lock_maps_cache_->Scrape(&local_caches, nullptr);
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for (auto cache : local_caches) {
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delete static_cast<LockMaps*>(cache);
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}
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}
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// Look up the LockMap shared_ptr for a given column_family_id.
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// Note: The LockMap is only valid as long as the caller is still holding on
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// to the returned shared_ptr.
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std::shared_ptr<LockMap> TransactionLockMgr::GetLockMap(
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uint32_t column_family_id) {
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// First check thread-local cache
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if (lock_maps_cache_->Get() == nullptr) {
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lock_maps_cache_->Reset(new LockMaps());
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}
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auto lock_maps_cache = static_cast<LockMaps*>(lock_maps_cache_->Get());
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auto lock_map_iter = lock_maps_cache->find(column_family_id);
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if (lock_map_iter != lock_maps_cache->end()) {
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// Found lock map for this column family.
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return lock_map_iter->second;
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}
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// Not found in local cache, grab mutex and check shared LockMaps
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InstrumentedMutexLock l(&lock_map_mutex_);
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lock_map_iter = lock_maps_.find(column_family_id);
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if (lock_map_iter == lock_maps_.end()) {
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return std::shared_ptr<LockMap>(nullptr);
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} else {
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// Found lock map. Store in thread-local cache and return.
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std::shared_ptr<LockMap>& lock_map = lock_map_iter->second;
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lock_maps_cache->insert({column_family_id, lock_map});
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return lock_map;
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}
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}
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// Returns true if this lock has expired and can be acquired by another
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// transaction.
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// If false, sets *expire_time to the expiration time of the lock according
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// to Env->GetMicros() or 0 if no expiration.
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bool TransactionLockMgr::IsLockExpired(const LockInfo& lock_info, Env* env,
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uint64_t* expire_time) {
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auto now = env->NowMicros();
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bool expired =
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(lock_info.expiration_time > 0 && lock_info.expiration_time <= now);
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if (!expired && lock_info.expiration_time > 0) {
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// return how many microseconds until lock will be expired
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*expire_time = lock_info.expiration_time;
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} else {
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*expire_time = 0;
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}
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return expired;
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}
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Status TransactionLockMgr::TryLock(const TransactionImpl* txn,
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uint32_t column_family_id,
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const std::string& key, Env* env) {
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// Lookup lock map for this column family id
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std::shared_ptr<LockMap> lock_map_ptr = GetLockMap(column_family_id);
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LockMap* lock_map = lock_map_ptr.get();
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if (lock_map == nullptr) {
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char msg[255];
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snprintf(msg, sizeof(msg), "Column family id not found: %" PRIu32,
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column_family_id);
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return Status::InvalidArgument(msg);
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}
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// Need to lock the mutex for the stripe that this key hashes to
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size_t stripe_num = lock_map->GetStripe(key);
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assert(lock_map->lock_map_stripes_.size() > stripe_num);
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LockMapStripe* stripe = lock_map->lock_map_stripes_.at(stripe_num);
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LockInfo lock_info(txn->GetTxnID(), txn->GetExpirationTime());
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int64_t timeout = txn->GetLockTimeout();
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return AcquireWithTimeout(lock_map, stripe, key, env, timeout, lock_info);
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}
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// Helper function for TryLock().
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Status TransactionLockMgr::AcquireWithTimeout(LockMap* lock_map,
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LockMapStripe* stripe,
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const std::string& key, Env* env,
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int64_t timeout,
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const LockInfo& lock_info) {
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Status result;
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uint64_t start_time = 0;
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uint64_t end_time = 0;
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if (timeout > 0) {
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start_time = env->NowMicros();
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end_time = start_time + timeout;
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}
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if (timeout < 0) {
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// If timeout is negative, we wait indefinitely to acquire the lock
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result = stripe->stripe_mutex->Lock();
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} else {
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result = stripe->stripe_mutex->TryLockFor(timeout);
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}
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if (!result.ok()) {
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// failed to acquire mutex
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return result;
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}
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// Acquire lock if we are able to
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uint64_t expire_time_hint = 0;
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result =
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AcquireLocked(lock_map, stripe, key, env, lock_info, &expire_time_hint);
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if (!result.ok() && timeout != 0) {
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// If we weren't able to acquire the lock, we will keep retrying as long
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// as the timeout allows.
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bool timed_out = false;
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do {
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// Decide how long to wait
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int64_t cv_end_time = -1;
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// Check if held lock's expiration time is sooner than our timeout
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if (expire_time_hint > 0 &&
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(timeout < 0 || (timeout > 0 && expire_time_hint < end_time))) {
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// expiration time is sooner than our timeout
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cv_end_time = expire_time_hint;
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} else if (timeout >= 0) {
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cv_end_time = end_time;
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}
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if (cv_end_time < 0) {
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// Wait indefinitely
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result = stripe->stripe_cv->Wait(stripe->stripe_mutex);
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} else {
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uint64_t now = env->NowMicros();
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if (static_cast<uint64_t>(cv_end_time) > now) {
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result = stripe->stripe_cv->WaitFor(stripe->stripe_mutex,
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cv_end_time - now);
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}
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}
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if (result.IsTimedOut()) {
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timed_out = true;
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// Even though we timed out, we will still make one more attempt to
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// acquire lock below (it is possible the lock expired and we
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// were never signaled).
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}
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if (result.ok() || result.IsTimedOut()) {
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result = AcquireLocked(lock_map, stripe, key, env, lock_info,
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&expire_time_hint);
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}
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} while (!result.ok() && !timed_out);
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}
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stripe->stripe_mutex->UnLock();
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return result;
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}
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// Try to lock this key after we have acquired the mutex.
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// Sets *expire_time to the expiration time in microseconds
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// or 0 if no expiration.
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// REQUIRED: Stripe mutex must be held.
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Status TransactionLockMgr::AcquireLocked(LockMap* lock_map,
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LockMapStripe* stripe,
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const std::string& key, Env* env,
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const LockInfo& txn_lock_info,
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uint64_t* expire_time) {
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Status result;
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// Check if this key is already locked
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if (stripe->keys.find(key) != stripe->keys.end()) {
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// Lock already held
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LockInfo& lock_info = stripe->keys.at(key);
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if (lock_info.txn_id != txn_lock_info.txn_id) {
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// locked by another txn. Check if it's expired
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if (IsLockExpired(lock_info, env, expire_time)) {
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// lock is expired, can steal it
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lock_info.txn_id = txn_lock_info.txn_id;
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lock_info.expiration_time = txn_lock_info.expiration_time;
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// lock_cnt does not change
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} else {
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result = Status::TimedOut(Status::SubCode::kLockTimeout);
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}
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}
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} else { // Lock not held.
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// Check lock limit
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if (max_num_locks_ > 0 &&
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lock_map->lock_cnt.load(std::memory_order_acquire) >= max_num_locks_) {
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result = Status::Busy(Status::SubCode::kLockLimit);
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} else {
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// acquire lock
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stripe->keys.insert({key, txn_lock_info});
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// Maintain lock count if there is a limit on the number of locks
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if (max_num_locks_) {
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lock_map->lock_cnt++;
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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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void TransactionLockMgr::UnLock(TransactionImpl* txn, uint32_t column_family_id,
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const std::string& key, Env* env) {
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std::shared_ptr<LockMap> lock_map_ptr = GetLockMap(column_family_id);
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LockMap* lock_map = lock_map_ptr.get();
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if (lock_map == nullptr) {
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// Column Family must have been dropped.
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return;
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}
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// Lock the mutex for the stripe that this key hashes to
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size_t stripe_num = lock_map->GetStripe(key);
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assert(lock_map->lock_map_stripes_.size() > stripe_num);
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LockMapStripe* stripe = lock_map->lock_map_stripes_.at(stripe_num);
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TransactionID txn_id = txn->GetTxnID();
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stripe->stripe_mutex->Lock();
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const auto& iter = stripe->keys.find(key);
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if (iter != stripe->keys.end() && iter->second.txn_id == txn_id) {
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// Found the key we locked. unlock it.
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stripe->keys.erase(iter);
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if (max_num_locks_ > 0) {
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// Maintain lock count if there is a limit on the number of locks.
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assert(lock_map->lock_cnt.load(std::memory_order_relaxed) > 0);
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lock_map->lock_cnt--;
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}
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} else {
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// This key is either not locked or locked by someone else. This should
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// only happen if the unlocking transaction has expired.
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assert(txn->GetExpirationTime() > 0 &&
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txn->GetExpirationTime() < env->NowMicros());
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}
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stripe->stripe_mutex->UnLock();
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// Signal waiting threads to retry locking
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stripe->stripe_cv->NotifyAll();
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}
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void TransactionLockMgr::UnLock(const TransactionImpl* txn,
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const TransactionKeyMap* key_map, Env* env) {
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TransactionID txn_id = txn->GetTxnID();
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for (auto& key_map_iter : *key_map) {
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uint32_t column_family_id = key_map_iter.first;
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auto& keys = key_map_iter.second;
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std::shared_ptr<LockMap> lock_map_ptr = GetLockMap(column_family_id);
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LockMap* lock_map = lock_map_ptr.get();
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if (lock_map == nullptr) {
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// Column Family must have been dropped.
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return;
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}
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// Bucket keys by lock_map_ stripe
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std::unordered_map<size_t, std::vector<const std::string*>> keys_by_stripe(
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std::max(keys.size(), lock_map->num_stripes_));
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for (auto& key_iter : keys) {
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const std::string& key = key_iter.first;
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size_t stripe_num = lock_map->GetStripe(key);
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keys_by_stripe[stripe_num].push_back(&key);
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}
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// For each stripe, grab the stripe mutex and unlock all keys in this stripe
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for (auto& stripe_iter : keys_by_stripe) {
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size_t stripe_num = stripe_iter.first;
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auto& stripe_keys = stripe_iter.second;
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assert(lock_map->lock_map_stripes_.size() > stripe_num);
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LockMapStripe* stripe = lock_map->lock_map_stripes_.at(stripe_num);
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stripe->stripe_mutex->Lock();
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for (const std::string* key : stripe_keys) {
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const auto& iter = stripe->keys.find(*key);
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if (iter != stripe->keys.end() && iter->second.txn_id == txn_id) {
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// Found the key we locked. unlock it.
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stripe->keys.erase(iter);
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if (max_num_locks_ > 0) {
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// Maintain lock count if there is a limit on the number of locks.
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assert(lock_map->lock_cnt.load(std::memory_order_relaxed) > 0);
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lock_map->lock_cnt--;
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}
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} else {
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// This key is either not locked or locked by someone else. This
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// should only
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// happen if the unlocking transaction has expired.
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assert(txn->GetExpirationTime() > 0 &&
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txn->GetExpirationTime() < env->NowMicros());
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}
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}
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stripe->stripe_mutex->UnLock();
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// Signal waiting threads to retry locking
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stripe->stripe_cv->NotifyAll();
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}
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}
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}
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} // namespace rocksdb
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#endif // ROCKSDB_LITE
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