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rocksdb/monitoring/histogram.cc
Andrew Kryczka 508a09fd62 Print histogram count and sum in statistics string 
Summary:
Previously it only printed percentiles, even though our histogram keeps track of count and sum (and more). There have been many times we want to know more than the percentiles. For example, we currently want sum of "rocksdb.compression.times.nanos" and sum of "rocksdb.decompression.times.nanos", which would allow us to know the relative cost of compression vs decompression.

This PR adds count and sum to the string printed by `StatisticsImpl::ToString`. This is a bit risky as there are definitely parsers assuming the old format. I will mention it in HISTORY.md and hope for the best...
Closes https://github.com/facebook/rocksdb/pull/3863

Differential Revision: D8038831

Pulled By: ajkr

fbshipit-source-id: 0465b72e4b0cbf18ef965f4efe402601d16d5b5c
2018-05-21 11:12:47 -07:00

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9.2 KiB
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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
//
// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#ifndef __STDC_FORMAT_MACROS
#define __STDC_FORMAT_MACROS
#endif
#include "monitoring/histogram.h"
#include <inttypes.h>
#include <cassert>
#include <math.h>
#include <stdio.h>
#include "port/port.h"
#include "util/cast_util.h"
namespace rocksdb {
HistogramBucketMapper::HistogramBucketMapper() {
// If you change this, you also need to change
// size of array buckets_ in HistogramImpl
bucketValues_ = {1, 2};
valueIndexMap_ = {{1, 0}, {2, 1}};
double bucket_val = static_cast<double>(bucketValues_.back());
while ((bucket_val = 1.5 * bucket_val) <= static_cast<double>(port::kMaxUint64)) {
bucketValues_.push_back(static_cast<uint64_t>(bucket_val));
// Extracts two most significant digits to make histogram buckets more
// human-readable. E.g., 172 becomes 170.
uint64_t pow_of_ten = 1;
while (bucketValues_.back() / 10 > 10) {
bucketValues_.back() /= 10;
pow_of_ten *= 10;
}
bucketValues_.back() *= pow_of_ten;
valueIndexMap_[bucketValues_.back()] = bucketValues_.size() - 1;
}
maxBucketValue_ = bucketValues_.back();
minBucketValue_ = bucketValues_.front();
}
size_t HistogramBucketMapper::IndexForValue(const uint64_t value) const {
if (value >= maxBucketValue_) {
return bucketValues_.size() - 1;
} else if ( value >= minBucketValue_ ) {
std::map<uint64_t, uint64_t>::const_iterator lowerBound =
valueIndexMap_.lower_bound(value);
if (lowerBound != valueIndexMap_.end()) {
return static_cast<size_t>(lowerBound->second);
} else {
return 0;
}
} else {
return 0;
}
}
namespace {
const HistogramBucketMapper bucketMapper;
}
HistogramStat::HistogramStat()
: num_buckets_(bucketMapper.BucketCount()) {
assert(num_buckets_ == sizeof(buckets_) / sizeof(*buckets_));
Clear();
}
void HistogramStat::Clear() {
min_.store(bucketMapper.LastValue(), std::memory_order_relaxed);
max_.store(0, std::memory_order_relaxed);
num_.store(0, std::memory_order_relaxed);
sum_.store(0, std::memory_order_relaxed);
sum_squares_.store(0, std::memory_order_relaxed);
for (unsigned int b = 0; b < num_buckets_; b++) {
buckets_[b].store(0, std::memory_order_relaxed);
}
};
bool HistogramStat::Empty() const { return num() == 0; }
void HistogramStat::Add(uint64_t value) {
// This function is designed to be lock free, as it's in the critical path
// of any operation. Each individual value is atomic and the order of updates
// by concurrent threads is tolerable.
const size_t index = bucketMapper.IndexForValue(value);
assert(index < num_buckets_);
buckets_[index].store(buckets_[index].load(std::memory_order_relaxed) + 1,
std::memory_order_relaxed);
uint64_t old_min = min();
if (value < old_min) {
min_.store(value, std::memory_order_relaxed);
}
uint64_t old_max = max();
if (value > old_max) {
max_.store(value, std::memory_order_relaxed);
}
num_.store(num_.load(std::memory_order_relaxed) + 1,
std::memory_order_relaxed);
sum_.store(sum_.load(std::memory_order_relaxed) + value,
std::memory_order_relaxed);
sum_squares_.store(
sum_squares_.load(std::memory_order_relaxed) + value * value,
std::memory_order_relaxed);
}
void HistogramStat::Merge(const HistogramStat& other) {
// This function needs to be performned with the outer lock acquired
// However, atomic operation on every member is still need, since Add()
// requires no lock and value update can still happen concurrently
uint64_t old_min = min();
uint64_t other_min = other.min();
while (other_min < old_min &&
!min_.compare_exchange_weak(old_min, other_min)) {}
uint64_t old_max = max();
uint64_t other_max = other.max();
while (other_max > old_max &&
!max_.compare_exchange_weak(old_max, other_max)) {}
num_.fetch_add(other.num(), std::memory_order_relaxed);
sum_.fetch_add(other.sum(), std::memory_order_relaxed);
sum_squares_.fetch_add(other.sum_squares(), std::memory_order_relaxed);
for (unsigned int b = 0; b < num_buckets_; b++) {
buckets_[b].fetch_add(other.bucket_at(b), std::memory_order_relaxed);
}
}
double HistogramStat::Median() const {
return Percentile(50.0);
}
double HistogramStat::Percentile(double p) const {
double threshold = num() * (p / 100.0);
uint64_t cumulative_sum = 0;
for (unsigned int b = 0; b < num_buckets_; b++) {
uint64_t bucket_value = bucket_at(b);
cumulative_sum += bucket_value;
if (cumulative_sum >= threshold) {
// Scale linearly within this bucket
uint64_t left_point = (b == 0) ? 0 : bucketMapper.BucketLimit(b-1);
uint64_t right_point = bucketMapper.BucketLimit(b);
uint64_t left_sum = cumulative_sum - bucket_value;
uint64_t right_sum = cumulative_sum;
double pos = 0;
uint64_t right_left_diff = right_sum - left_sum;
if (right_left_diff != 0) {
pos = (threshold - left_sum) / right_left_diff;
}
double r = left_point + (right_point - left_point) * pos;
uint64_t cur_min = min();
uint64_t cur_max = max();
if (r < cur_min) r = static_cast<double>(cur_min);
if (r > cur_max) r = static_cast<double>(cur_max);
return r;
}
}
return static_cast<double>(max());
}
double HistogramStat::Average() const {
uint64_t cur_num = num();
uint64_t cur_sum = sum();
if (cur_num == 0) return 0;
return static_cast<double>(cur_sum) / static_cast<double>(cur_num);
}
double HistogramStat::StandardDeviation() const {
uint64_t cur_num = num();
uint64_t cur_sum = sum();
uint64_t cur_sum_squares = sum_squares();
if (cur_num == 0) return 0;
double variance =
static_cast<double>(cur_sum_squares * cur_num - cur_sum * cur_sum) /
static_cast<double>(cur_num * cur_num);
return sqrt(variance);
}
std::string HistogramStat::ToString() const {
uint64_t cur_num = num();
std::string r;
char buf[1650];
snprintf(buf, sizeof(buf),
"Count: %" PRIu64 " Average: %.4f StdDev: %.2f\n",
cur_num, Average(), StandardDeviation());
r.append(buf);
snprintf(buf, sizeof(buf),
"Min: %" PRIu64 " Median: %.4f Max: %" PRIu64 "\n",
(cur_num == 0 ? 0 : min()), Median(), (cur_num == 0 ? 0 : max()));
r.append(buf);
snprintf(buf, sizeof(buf),
"Percentiles: "
"P50: %.2f P75: %.2f P99: %.2f P99.9: %.2f P99.99: %.2f\n",
Percentile(50), Percentile(75), Percentile(99), Percentile(99.9),
Percentile(99.99));
r.append(buf);
r.append("------------------------------------------------------\n");
if (cur_num == 0) return r; // all buckets are empty
const double mult = 100.0 / cur_num;
uint64_t cumulative_sum = 0;
for (unsigned int b = 0; b < num_buckets_; b++) {
uint64_t bucket_value = bucket_at(b);
if (bucket_value <= 0.0) continue;
cumulative_sum += bucket_value;
snprintf(buf, sizeof(buf),
"%c %7" PRIu64 ", %7" PRIu64 " ] %8" PRIu64 " %7.3f%% %7.3f%% ",
(b == 0) ? '[' : '(',
(b == 0) ? 0 : bucketMapper.BucketLimit(b-1), // left
bucketMapper.BucketLimit(b), // right
bucket_value, // count
(mult * bucket_value), // percentage
(mult * cumulative_sum)); // cumulative percentage
r.append(buf);
// Add hash marks based on percentage; 20 marks for 100%.
size_t marks = static_cast<size_t>(mult * bucket_value / 5 + 0.5);
r.append(marks, '#');
r.push_back('\n');
}
return r;
}
void HistogramStat::Data(HistogramData * const data) const {
assert(data);
data->median = Median();
data->percentile95 = Percentile(95);
data->percentile99 = Percentile(99);
data->max = static_cast<double>(max());
data->average = Average();
data->standard_deviation = StandardDeviation();
data->count = num();
data->sum = sum();
}
void HistogramImpl::Clear() {
std::lock_guard<std::mutex> lock(mutex_);
stats_.Clear();
}
bool HistogramImpl::Empty() const {
return stats_.Empty();
}
void HistogramImpl::Add(uint64_t value) {
stats_.Add(value);
}
void HistogramImpl::Merge(const Histogram& other) {
if (strcmp(Name(), other.Name()) == 0) {
Merge(
*static_cast_with_check<const HistogramImpl, const Histogram>(&other));
}
}
void HistogramImpl::Merge(const HistogramImpl& other) {
std::lock_guard<std::mutex> lock(mutex_);
stats_.Merge(other.stats_);
}
double HistogramImpl::Median() const {
return stats_.Median();
}
double HistogramImpl::Percentile(double p) const {
return stats_.Percentile(p);
}
double HistogramImpl::Average() const {
return stats_.Average();
}
double HistogramImpl::StandardDeviation() const {
return stats_.StandardDeviation();
}
std::string HistogramImpl::ToString() const {
return stats_.ToString();
}
void HistogramImpl::Data(HistogramData * const data) const {
stats_.Data(data);
}
} // namespace levedb
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