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cb2476a0ca
Summary: The current implementation of rate limiter has the possibility to introduce resource starvation when change its limit. This diff aims to fix this problem by consuming request bytes partially. Test Plan: ``` ./rate_limiter_test [==========] Running 4 tests from 1 test case. [----------] Global test environment set-up. [----------] 4 tests from RateLimiterTest [ RUN ] RateLimiterTest.OverflowRate [ OK ] RateLimiterTest.OverflowRate (0 ms) [ RUN ] RateLimiterTest.StartStop [ OK ] RateLimiterTest.StartStop (0 ms) [ RUN ] RateLimiterTest.Rate request size [1 - 1023], limit 10 KB/sec, actual rate: 10.355712 KB/sec, elapsed 2.00 seconds request size [1 - 1023], limit 20 KB/sec, actual rate: 19.136564 KB/sec, elapsed 2.00 seconds request size [1 - 2047], limit 20 KB/sec, actual rate: 20.783976 KB/sec, elapsed 2.10 seconds request size [1 - 2047], limit 40 KB/sec, actual rate: 39.308144 KB/sec, elapsed 2.10 seconds request size [1 - 4095], limit 40 KB/sec, actual rate: 40.318349 KB/sec, elapsed 2.20 seconds request size [1 - 4095], limit 80 KB/sec, actual rate: 79.667396 KB/sec, elapsed 2.20 seconds request size [1 - 8191], limit 80 KB/sec, actual rate: 81.807158 KB/sec, elapsed 2.30 seconds request size [1 - 8191], limit 160 KB/sec, actual rate: 160.659761 KB/sec, elapsed 2.20 seconds request size [1 - 16383], limit 160 KB/sec, actual rate: 160.700990 KB/sec, elapsed 3.00 seconds request size [1 - 16383], limit 320 KB/sec, actual rate: 317.639481 KB/sec, elapsed 2.50 seconds [ OK ] RateLimiterTest.Rate (22618 ms) [ RUN ] RateLimiterTest.LimitChangeTest [COMPLETE] request size 10 KB, new limit 20KB/sec, refill period 1000 ms [COMPLETE] request size 10 KB, new limit 5KB/sec, refill period 1000 ms [COMPLETE] request size 20 KB, new limit 40KB/sec, refill period 1000 ms [COMPLETE] request size 20 KB, new limit 10KB/sec, refill period 1000 ms [COMPLETE] request size 40 KB, new limit 80KB/sec, refill period 1000 ms [COMPLETE] request size 40 KB, new limit 20KB/sec, refill period 1000 ms [COMPLETE] request size 80 KB, new limit 160KB/sec, refill period 1000 ms [COMPLETE] request size 80 KB, new limit 40KB/sec, refill period 1000 ms [COMPLETE] request size 160 KB, new limit 320KB/sec, refill period 1000 ms [COMPLETE] request size 160 KB, new limit 80KB/sec, refill period 1000 ms [ OK ] RateLimiterTest.LimitChangeTest (5002 ms) [----------] 4 tests from RateLimiterTest (27620 ms total) [----------] Global test environment tear-down [==========] 4 tests from 1 test case ran. (27621 ms total) [ PASSED ] 4 tests. ``` Reviewers: sdong, IslamAbdelRahman, yiwu, andrewkr Reviewed By: andrewkr Subscribers: andrewkr, dhruba, leveldb Differential Revision: https://reviews.facebook.net/D60207
237 lines
7.8 KiB
C++
237 lines
7.8 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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//
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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 "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_(env_->NowMicros()),
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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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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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timedout = r.cv.TimedWait(next_refill_us_);
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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_ = env_->NowMicros() + 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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