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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#ifndef DYNAMIC_PERF_STATS_H
#define DYNAMIC_PERF_STATS_H
#include "include/random.h"
#include "messages/MOSDOp.h"
#include "mgr/OSDPerfMetricTypes.h"
#include "osd/OSD.h"
#include "osd/OpRequest.h"
class DynamicPerfStats {
public:
DynamicPerfStats() {
}
DynamicPerfStats(const std::list<OSDPerfMetricQuery> &queries) {
for (auto &query : queries) {
data[query];
}
}
void merge(const DynamicPerfStats &dps) {
for (auto &query_it : dps.data) {
auto &query = query_it.first;
for (auto &key_it : query_it.second) {
auto &key = key_it.first;
auto counter_it = key_it.second.begin();
auto update_counter_fnc =
[&counter_it](const PerformanceCounterDescriptor &d,
PerformanceCounter *c) {
c->first += counter_it->first;
c->second += counter_it->second;
counter_it++;
};
ceph_assert(key_it.second.size() >= data[query][key].size());
query.update_counters(update_counter_fnc, &data[query][key]);
}
}
}
void set_queries(const std::list<OSDPerfMetricQuery> &queries) {
std::map<OSDPerfMetricQuery,
std::map<OSDPerfMetricKey, PerformanceCounters>> new_data;
for (auto &query : queries) {
std::swap(new_data[query], data[query]);
}
std::swap(data, new_data);
}
bool is_enabled() {
return !data.empty();
}
void add(const OSDService *osd, const pg_info_t &pg_info, const OpRequest& op,
uint64_t inb, uint64_t outb, const utime_t &latency) {
auto update_counter_fnc =
[&op, inb, outb, &latency](const PerformanceCounterDescriptor &d,
PerformanceCounter *c) {
ceph_assert(d.is_supported());
switch(d.type) {
case PerformanceCounterType::OPS:
c->first++;
return;
case PerformanceCounterType::WRITE_OPS:
if (op.may_write() || op.may_cache()) {
c->first++;
}
return;
case PerformanceCounterType::READ_OPS:
if (op.may_read()) {
c->first++;
}
return;
case PerformanceCounterType::BYTES:
c->first += inb + outb;
return;
case PerformanceCounterType::WRITE_BYTES:
if (op.may_write() || op.may_cache()) {
c->first += inb;
}
return;
case PerformanceCounterType::READ_BYTES:
if (op.may_read()) {
c->first += outb;
}
return;
case PerformanceCounterType::LATENCY:
c->first += latency.to_nsec();
c->second++;
return;
case PerformanceCounterType::WRITE_LATENCY:
if (op.may_write() || op.may_cache()) {
c->first += latency.to_nsec();
c->second++;
}
return;
case PerformanceCounterType::READ_LATENCY:
if (op.may_read()) {
c->first += latency.to_nsec();
c->second++;
}
return;
default:
ceph_abort_msg("unknown counter type");
}
};
auto get_subkey_fnc =
[&osd, &pg_info, &op](const OSDPerfMetricSubKeyDescriptor &d,
OSDPerfMetricSubKey *sub_key) {
ceph_assert(d.is_supported());
auto m = static_cast<const MOSDOp*>(op.get_req());
std::string match_string;
switch(d.type) {
case OSDPerfMetricSubKeyType::CLIENT_ID:
match_string = stringify(m->get_reqid().name);
break;
case OSDPerfMetricSubKeyType::CLIENT_ADDRESS:
match_string = stringify(m->get_connection()->get_peer_addr());
break;
case OSDPerfMetricSubKeyType::POOL_ID:
match_string = stringify(m->get_spg().pool());
break;
case OSDPerfMetricSubKeyType::NAMESPACE:
match_string = m->get_hobj().nspace;
break;
case OSDPerfMetricSubKeyType::OSD_ID:
match_string = stringify(osd->get_nodeid());
break;
case OSDPerfMetricSubKeyType::PG_ID:
match_string = stringify(pg_info.pgid);
break;
case OSDPerfMetricSubKeyType::OBJECT_NAME:
match_string = m->get_oid().name;
break;
case OSDPerfMetricSubKeyType::SNAP_ID:
match_string = stringify(m->get_snapid());
break;
default:
ceph_abort_msg("unknown counter type");
}
std::smatch match;
if (!std::regex_search(match_string, match, d.regex)) {
return false;
}
if (match.size() <= 1) {
return false;
}
for (size_t i = 1; i < match.size(); i++) {
sub_key->push_back(match[i].str());
}
return true;
};
for (auto &it : data) {
auto &query = it.first;
OSDPerfMetricKey key;
if (query.get_key(get_subkey_fnc, &key)) {
query.update_counters(update_counter_fnc, &it.second[key]);
}
}
}
void add_to_reports(
const std::map<OSDPerfMetricQuery, OSDPerfMetricLimits> &limits,
std::map<OSDPerfMetricQuery, OSDPerfMetricReport> *reports) {
for (auto &it : data) {
auto &query = it.first;
auto limit_it = limits.find(query);
if (limit_it == limits.end()) {
continue;
}
auto &query_limits = limit_it->second;
auto &counters = it.second;
auto &report = (*reports)[query];
query.get_performance_counter_descriptors(
&report.performance_counter_descriptors);
auto &descriptors = report.performance_counter_descriptors;
ceph_assert(descriptors.size() > 0);
if (!is_limited(query_limits, counters.size())) {
for (auto &it_counters : counters) {
auto &bl = report.group_packed_performance_counters[it_counters.first];
query.pack_counters(it_counters.second, &bl);
}
continue;
}
for (auto &limit : query_limits) {
size_t index = 0;
for (; index < descriptors.size(); index++) {
if (descriptors[index] == limit.order_by) {
break;
}
}
if (index == descriptors.size()) {
// should not happen
continue;
}
// Weighted Random Sampling (Algorithm A-Chao):
// Select the first [0, max_count) samples, randomly replace
// with samples from [max_count, end) using weighted
// probability, and return [0, max_count) as the result.
ceph_assert(limit.max_count < counters.size());
typedef std::map<OSDPerfMetricKey, PerformanceCounters>::iterator
Iterator;
std::vector<Iterator> counter_iterators;
counter_iterators.reserve(limit.max_count);
Iterator it_counters = counters.begin();
uint64_t wsum = 0;
for (size_t i = 0; i < limit.max_count; i++) {
wsum += it_counters->second[index].first;
counter_iterators.push_back(it_counters++);
}
for (; it_counters != counters.end(); it_counters++) {
wsum += it_counters->second[index].first;
if (ceph::util::generate_random_number(0, wsum) <=
it_counters->second[index].first) {
auto i = ceph::util::generate_random_number(0, limit.max_count - 1);
counter_iterators[i] = it_counters;
}
}
for (auto it_counters : counter_iterators) {
auto &bl =
report.group_packed_performance_counters[it_counters->first];
if (bl.length() == 0) {
query.pack_counters(it_counters->second, &bl);
}
}
}
}
}
private:
static bool is_limited(const OSDPerfMetricLimits &limits,
size_t counters_size) {
if (limits.empty()) {
return false;
}
for (auto &limit : limits) {
if (limit.max_count >= counters_size) {
return false;
}
}
return true;
}
std::map<OSDPerfMetricQuery,
std::map<OSDPerfMetricKey, PerformanceCounters>> data;
};
#endif // DYNAMIC_PERF_STATS_H
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