mirror of
https://github.com/facebook/rocksdb.git
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d616ebea23
Summary: Closes https://github.com/facebook/rocksdb/pull/2226 Differential Revision: D4967547 Pulled By: siying fbshipit-source-id: dd3b58ae1e7a106ab6bb6f37ab5c88575b125ab4
249 lines
8.3 KiB
C++
249 lines
8.3 KiB
C++
// Copyright (c) 2011-present, 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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// This source code is also licensed under the GPLv2 license found in the
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// COPYING file in the root directory of this source tree.
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "util/rate_limiter.h"
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#include "monitoring/statistics.h"
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#include "port/port.h"
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#include "rocksdb/env.h"
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#include "util/sync_point.h"
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namespace rocksdb {
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// Pending request
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struct GenericRateLimiter::Req {
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explicit Req(int64_t _bytes, port::Mutex* _mu)
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: request_bytes(_bytes), bytes(_bytes), cv(_mu), granted(false) {}
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int64_t request_bytes;
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int64_t bytes;
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port::CondVar cv;
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bool granted;
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};
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GenericRateLimiter::GenericRateLimiter(int64_t rate_bytes_per_sec,
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int64_t refill_period_us,
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int32_t fairness)
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: refill_period_us_(refill_period_us),
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refill_bytes_per_period_(
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CalculateRefillBytesPerPeriod(rate_bytes_per_sec)),
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env_(Env::Default()),
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stop_(false),
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exit_cv_(&request_mutex_),
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requests_to_wait_(0),
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available_bytes_(0),
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next_refill_us_(NowMicrosMonotonic(env_)),
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fairness_(fairness > 100 ? 100 : fairness),
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rnd_((uint32_t)time(nullptr)),
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leader_(nullptr) {
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total_requests_[0] = 0;
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total_requests_[1] = 0;
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total_bytes_through_[0] = 0;
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total_bytes_through_[1] = 0;
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}
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GenericRateLimiter::~GenericRateLimiter() {
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MutexLock g(&request_mutex_);
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stop_ = true;
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requests_to_wait_ = static_cast<int32_t>(queue_[Env::IO_LOW].size() +
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queue_[Env::IO_HIGH].size());
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for (auto& r : queue_[Env::IO_HIGH]) {
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r->cv.Signal();
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}
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for (auto& r : queue_[Env::IO_LOW]) {
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r->cv.Signal();
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}
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while (requests_to_wait_ > 0) {
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exit_cv_.Wait();
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}
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}
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// This API allows user to dynamically change rate limiter's bytes per second.
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void GenericRateLimiter::SetBytesPerSecond(int64_t bytes_per_second) {
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assert(bytes_per_second > 0);
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refill_bytes_per_period_.store(
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CalculateRefillBytesPerPeriod(bytes_per_second),
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std::memory_order_relaxed);
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}
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void GenericRateLimiter::Request(int64_t bytes, const Env::IOPriority pri,
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Statistics* stats) {
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assert(bytes <= refill_bytes_per_period_.load(std::memory_order_relaxed));
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TEST_SYNC_POINT("GenericRateLimiter::Request");
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MutexLock g(&request_mutex_);
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if (stop_) {
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return;
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}
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++total_requests_[pri];
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if (available_bytes_ >= bytes) {
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// Refill thread assigns quota and notifies requests waiting on
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// the queue under mutex. So if we get here, that means nobody
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// is waiting?
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available_bytes_ -= bytes;
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total_bytes_through_[pri] += bytes;
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return;
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}
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// Request cannot be satisfied at this moment, enqueue
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Req r(bytes, &request_mutex_);
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queue_[pri].push_back(&r);
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do {
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bool timedout = false;
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// Leader election, candidates can be:
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// (1) a new incoming request,
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// (2) a previous leader, whose quota has not been not assigned yet due
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// to lower priority
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// (3) a previous waiter at the front of queue, who got notified by
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// previous leader
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if (leader_ == nullptr &&
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((!queue_[Env::IO_HIGH].empty() &&
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&r == queue_[Env::IO_HIGH].front()) ||
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(!queue_[Env::IO_LOW].empty() &&
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&r == queue_[Env::IO_LOW].front()))) {
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leader_ = &r;
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int64_t delta = next_refill_us_ - NowMicrosMonotonic(env_);
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delta = delta > 0 ? delta : 0;
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if (delta == 0) {
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timedout = true;
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} else {
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int64_t wait_until = env_->NowMicros() + delta;
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RecordTick(stats, NUMBER_RATE_LIMITER_DRAINS);
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timedout = r.cv.TimedWait(wait_until);
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}
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} else {
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// Not at the front of queue or an leader has already been elected
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r.cv.Wait();
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}
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// request_mutex_ is held from now on
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if (stop_) {
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--requests_to_wait_;
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exit_cv_.Signal();
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return;
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}
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// Make sure the waken up request is always the header of its queue
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assert(r.granted ||
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(!queue_[Env::IO_HIGH].empty() &&
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&r == queue_[Env::IO_HIGH].front()) ||
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(!queue_[Env::IO_LOW].empty() &&
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&r == queue_[Env::IO_LOW].front()));
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assert(leader_ == nullptr ||
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(!queue_[Env::IO_HIGH].empty() &&
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leader_ == queue_[Env::IO_HIGH].front()) ||
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(!queue_[Env::IO_LOW].empty() &&
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leader_ == queue_[Env::IO_LOW].front()));
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if (leader_ == &r) {
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// Waken up from TimedWait()
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if (timedout) {
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// Time to do refill!
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Refill();
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// Re-elect a new leader regardless. This is to simplify the
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// election handling.
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leader_ = nullptr;
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// Notify the header of queue if current leader is going away
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if (r.granted) {
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// Current leader already got granted with quota. Notify header
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// of waiting queue to participate next round of election.
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assert((queue_[Env::IO_HIGH].empty() ||
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&r != queue_[Env::IO_HIGH].front()) &&
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(queue_[Env::IO_LOW].empty() ||
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&r != queue_[Env::IO_LOW].front()));
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if (!queue_[Env::IO_HIGH].empty()) {
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queue_[Env::IO_HIGH].front()->cv.Signal();
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} else if (!queue_[Env::IO_LOW].empty()) {
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queue_[Env::IO_LOW].front()->cv.Signal();
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}
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// Done
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break;
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}
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} else {
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// Spontaneous wake up, need to continue to wait
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assert(!r.granted);
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leader_ = nullptr;
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}
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} else {
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// Waken up by previous leader:
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// (1) if requested quota is granted, it is done.
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// (2) if requested quota is not granted, this means current thread
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// was picked as a new leader candidate (previous leader got quota).
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// It needs to participate leader election because a new request may
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// come in before this thread gets waken up. So it may actually need
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// to do Wait() again.
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assert(!timedout);
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}
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} while (!r.granted);
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}
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void GenericRateLimiter::Refill() {
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TEST_SYNC_POINT("GenericRateLimiter::Refill");
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next_refill_us_ = NowMicrosMonotonic(env_) + refill_period_us_;
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// Carry over the left over quota from the last period
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auto refill_bytes_per_period =
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refill_bytes_per_period_.load(std::memory_order_relaxed);
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if (available_bytes_ < refill_bytes_per_period) {
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available_bytes_ += refill_bytes_per_period;
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}
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int use_low_pri_first = rnd_.OneIn(fairness_) ? 0 : 1;
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for (int q = 0; q < 2; ++q) {
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auto use_pri = (use_low_pri_first == q) ? Env::IO_LOW : Env::IO_HIGH;
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auto* queue = &queue_[use_pri];
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while (!queue->empty()) {
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auto* next_req = queue->front();
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if (available_bytes_ < next_req->request_bytes) {
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// avoid starvation
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next_req->request_bytes -= available_bytes_;
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available_bytes_ = 0;
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break;
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}
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available_bytes_ -= next_req->request_bytes;
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next_req->request_bytes = 0;
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total_bytes_through_[use_pri] += next_req->bytes;
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queue->pop_front();
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next_req->granted = true;
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if (next_req != leader_) {
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// Quota granted, signal the thread
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next_req->cv.Signal();
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}
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}
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}
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}
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int64_t GenericRateLimiter::CalculateRefillBytesPerPeriod(
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int64_t rate_bytes_per_sec) {
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if (port::kMaxInt64 / rate_bytes_per_sec < refill_period_us_) {
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// Avoid unexpected result in the overflow case. The result now is still
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// inaccurate but is a number that is large enough.
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return port::kMaxInt64 / 1000000;
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} else {
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return std::max(kMinRefillBytesPerPeriod,
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rate_bytes_per_sec * refill_period_us_ / 1000000);
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}
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}
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RateLimiter* NewGenericRateLimiter(
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int64_t rate_bytes_per_sec, int64_t refill_period_us, int32_t fairness) {
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assert(rate_bytes_per_sec > 0);
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assert(refill_period_us > 0);
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assert(fairness > 0);
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return new GenericRateLimiter(
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rate_bytes_per_sec, refill_period_us, fairness);
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}
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} // namespace rocksdb
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