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ConnectionStats.h
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ConnectionStats.h
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/* -*- c++ -*- */
#ifndef CONNECTIONSTATS_H
#define CONNECTIONSTATS_H
#include <algorithm>
#include <inttypes.h>
#include <vector>
#ifdef USE_ADAPTIVE_SAMPLER
#include "AdaptiveSampler.h"
#elif defined(USE_HISTOGRAM_SAMPLER)
#include "HistogramSampler.h"
#else
#include "LogHistogramSampler.h"
#endif
#include "AgentStats.h"
#include "Operation.h"
using namespace std;
class ConnectionStats {
public:
ConnectionStats(bool _sampling = true) :
#ifdef USE_ADAPTIVE_SAMPLER
get_sampler(100000), set_sampler(100000), op_sampler(100000),
#elif defined(USE_HISTOGRAM_SAMPLER)
get_sampler(10000,1), set_sampler(10000,1), op_sampler(1000,1),
#else
get_sampler(200), set_sampler(200), op_sampler(100),
#endif
rx_bytes(0), tx_bytes(0), gets(0), sets(0),
get_misses(0), skips(0), sampling(_sampling) {}
#ifdef USE_ADAPTIVE_SAMPLER
AdaptiveSampler<Operation> get_sampler;
AdaptiveSampler<Operation> set_sampler;
AdaptiveSampler<double> op_sampler;
#elif defined(USE_HISTOGRAM_SAMPLER)
HistogramSampler get_sampler;
HistogramSampler set_sampler;
HistogramSampler op_sampler;
#else
LogHistogramSampler get_sampler;
LogHistogramSampler set_sampler;
LogHistogramSampler op_sampler;
#endif
uint64_t rx_bytes, tx_bytes;
uint64_t gets, sets, get_misses;
uint64_t skips;
double start, stop;
bool sampling;
void log_get(Operation& op) { if (sampling) get_sampler.sample(op); gets++; }
void log_set(Operation& op) { if (sampling) set_sampler.sample(op); sets++; }
void log_op (double op) { if (sampling) op_sampler.sample(op); }
double get_qps() {
return (gets + sets) / (stop - start);
}
#ifdef USE_ADAPTIVE_SAMPLER
double get_nth(double nth) {
vector<double> samples;
if (samples.size() == 0) return 0;
for (auto s: get_sampler.samples)
samples.push_back(s.time()); // (s.end_time - s.start_time) * 1000000);
for (auto s: set_sampler.samples)
samples.push_back(s.time()); // (s.end_time - s.start_time) * 1000000);
sort(samples.begin(), samples.end());
int l = samples.size();
int i = (int)((nth * l) / 100);
assert(i < l);
return samples[i];
}
#else
double get_nth(double nth) {
// FIXME: nth across gets & sets?
return get_sampler.get_nth(nth);
}
#endif
void accumulate(const ConnectionStats &cs) {
#ifdef USE_ADAPTIVE_SAMPLER
for (auto i: cs.get_sampler.samples) get_sampler.sample(i); //log_get(i);
for (auto i: cs.set_sampler.samples) set_sampler.sample(i); //log_set(i);
for (auto i: cs.op_sampler.samples) op_sampler.sample(i); //log_op(i);
#else
get_sampler.accumulate(cs.get_sampler);
set_sampler.accumulate(cs.set_sampler);
op_sampler.accumulate(cs.op_sampler);
#endif
rx_bytes += cs.rx_bytes;
tx_bytes += cs.tx_bytes;
gets += cs.gets;
sets += cs.sets;
get_misses += cs.get_misses;
skips += cs.skips;
start = cs.start;
stop = cs.stop;
}
void accumulate(const AgentStats &as) {
rx_bytes += as.rx_bytes;
tx_bytes += as.tx_bytes;
gets += as.gets;
sets += as.sets;
get_misses += as.get_misses;
skips += as.skips;
start = as.start;
stop = as.stop;
}
static void print_header() {
printf("%-7s %7s %7s %7s %7s %7s %7s %7s %7s\n",
"#type", "avg", "std", "min", /*"1st",*/ "5th", "10th",
"90th", "95th", "99th");
}
#ifdef USE_ADAPTIVE_SAMPLER
void print_stats(const char *tag, AdaptiveSampler<Operation> &sampler,
bool newline = true) {
vector<double> copy;
for (auto i: sampler.samples) copy.push_back(i.time());
size_t l = copy.size();
if (l == 0) {
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
if (newline) printf("\n");
return;
}
sort(copy.begin(), copy.end());
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, std::accumulate(copy.begin(), copy.end(), 0.0) / l,
copy[0], copy[(l*1) / 100], copy[(l*5) / 100], copy[(l*10) / 100],
copy[(l*90) / 100], copy[(l*95) / 100], copy[(l*99) / 100]
);
if (newline) printf("\n");
}
void print_stats(const char *tag, AdaptiveSampler<double> &sampler,
bool newline = true) {
vector<double> copy;
for (auto i: sampler.samples) copy.push_back(i);
size_t l = copy.size();
if (l == 0) { printf("%-7s 0", tag); if (newline) printf("\n"); return; }
sort(copy.begin(), copy.end());
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, std::accumulate(copy.begin(), copy.end(), 0.0) / l,
copy[0], copy[(l*1) / 100], copy[(l*5) / 100], copy[(l*10) / 100],
copy[(l*90) / 100], copy[(l*95) / 100], copy[(l*99) / 100]
);
if (newline) printf("\n");
}
#elif defined(USE_HISTOGRAM_SAMPLER)
void print_stats(const char *tag, HistogramSampler &sampler,
bool newline = true) {
if (sampler.total() == 0) {
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
if (newline) printf("\n");
return;
}
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, sampler.average(),
sampler.get_nth(0), sampler.get_nth(1), sampler.get_nth(5),
sampler.get_nth(10), sampler.get_nth(90),
sampler.get_nth(95), sampler.get_nth(99));
if (newline) printf("\n");
}
#else
void print_stats(const char *tag, LogHistogramSampler &sampler,
bool newline = true) {
if (sampler.total() == 0) {
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
if (newline) printf("\n");
return;
}
printf("%-7s %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f",
tag, sampler.average(), sampler.stddev(),
sampler.get_nth(0), /*sampler.get_nth(1),*/ sampler.get_nth(5),
sampler.get_nth(10), sampler.get_nth(90),
sampler.get_nth(95), sampler.get_nth(99));
if (newline) printf("\n");
}
#endif
};
#endif // CONNECTIONSTATS_H