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// Copyright (C) 2015-2020 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <stats/observation.h>
#include <util/chrono_time_utils.h>
#include <cc/data.h>
#include <chrono>
#include <utility>
using namespace std;
using namespace std::chrono;
using namespace isc::data;
namespace isc {
namespace stats {
std::pair<bool, uint32_t>
Observation::default_max_sample_count_ = std::make_pair(true, 20);
std::pair<bool, StatsDuration>
Observation::default_max_sample_age_ =
std::make_pair(false, StatsDuration::zero());
Observation::Observation(const std::string& name, const int64_t value) :
name_(name), type_(STAT_INTEGER),
max_sample_count_(default_max_sample_count_),
max_sample_age_(default_max_sample_age_) {
setValue(value);
}
Observation::Observation(const std::string& name, const double value) :
name_(name), type_(STAT_FLOAT),
max_sample_count_(default_max_sample_count_),
max_sample_age_(default_max_sample_age_) {
setValue(value);
}
Observation::Observation(const std::string& name, const StatsDuration& value) :
name_(name), type_(STAT_DURATION),
max_sample_count_(default_max_sample_count_),
max_sample_age_(default_max_sample_age_) {
setValue(value);
}
Observation::Observation(const std::string& name, const std::string& value) :
name_(name), type_(STAT_STRING),
max_sample_count_(default_max_sample_count_),
max_sample_age_(default_max_sample_age_) {
setValue(value);
}
void Observation::setMaxSampleAge(const StatsDuration& duration) {
switch(type_) {
case STAT_INTEGER: {
setMaxSampleAgeInternal(integer_samples_, duration, STAT_INTEGER);
return;
}
case STAT_FLOAT: {
setMaxSampleAgeInternal(float_samples_, duration, STAT_FLOAT);
return;
}
case STAT_DURATION: {
setMaxSampleAgeInternal(duration_samples_, duration, STAT_DURATION);
return;
}
case STAT_STRING: {
setMaxSampleAgeInternal(string_samples_, duration, STAT_STRING);
return;
}
default:
isc_throw(InvalidStatType, "Unknown statistic type: "
<< typeToText(type_));
};
}
void Observation::setMaxSampleCount(uint32_t max_samples) {
switch(type_) {
case STAT_INTEGER: {
setMaxSampleCountInternal(integer_samples_, max_samples, STAT_INTEGER);
return;
}
case STAT_FLOAT: {
setMaxSampleCountInternal(float_samples_, max_samples, STAT_FLOAT);
return;
}
case STAT_DURATION: {
setMaxSampleCountInternal(duration_samples_, max_samples, STAT_DURATION);
return;
}
case STAT_STRING: {
setMaxSampleCountInternal(string_samples_, max_samples, STAT_STRING);
return;
}
default:
isc_throw(InvalidStatType, "Unknown statistic type: "
<< typeToText(type_));
};
}
void Observation::addValue(const int64_t value) {
IntegerSample current = getInteger();
setValue(current.first + value);
}
void Observation::addValue(const double value) {
FloatSample current = getFloat();
setValue(current.first + value);
}
void Observation::addValue(const StatsDuration& value) {
DurationSample current = getDuration();
setValue(current.first + value);
}
void Observation::addValue(const std::string& value) {
StringSample current = getString();
setValue(current.first + value);
}
void Observation::setValue(const int64_t value) {
setValueInternal(value, integer_samples_, STAT_INTEGER);
}
void Observation::setValue(const double value) {
setValueInternal(value, float_samples_, STAT_FLOAT);
}
void Observation::setValue(const StatsDuration& value) {
setValueInternal(value, duration_samples_, STAT_DURATION);
}
void Observation::setValue(const std::string& value) {
setValueInternal(value, string_samples_, STAT_STRING);
}
size_t Observation::getSize() const {
size_t size = 0;
switch(type_) {
case STAT_INTEGER: {
size = getSizeInternal(integer_samples_, STAT_INTEGER);
return (size);
}
case STAT_FLOAT: {
size = getSizeInternal(float_samples_, STAT_FLOAT);
return (size);
}
case STAT_DURATION: {
size = getSizeInternal(duration_samples_, STAT_DURATION);
return (size);
}
case STAT_STRING: {
size = getSizeInternal(string_samples_, STAT_STRING);
return (size);
}
default:
isc_throw(InvalidStatType, "Unknown statistic type: "
<< typeToText(type_));
};
return (size);
}
std::pair<bool, StatsDuration> Observation::getMaxSampleAge() const {
return (max_sample_age_);
}
std::pair<bool, uint32_t> Observation::getMaxSampleCount() const {
return (max_sample_count_);
}
template<typename StorageType>
size_t Observation::getSizeInternal(StorageType& storage, Type exp_type) const {
if (type_ != exp_type) {
isc_throw(InvalidStatType, "Invalid statistic type requested: "
<< typeToText(exp_type) << ", but the actual type is "
<< typeToText(type_));
} else {
return (storage.size());
}
return (0); // to avoid compilation error
}
template<typename SampleType, typename StorageType>
void Observation::setValueInternal(SampleType value, StorageType& storage,
Type exp_type) {
if (type_ != exp_type) {
isc_throw(InvalidStatType, "Invalid statistic type requested: "
<< typeToText(exp_type) << ", but the actual type is "
<< typeToText(type_));
}
if (storage.empty()) {
storage.push_back(make_pair(value, SampleClock::now()));
} else {
// Storing of more than one sample
storage.push_front(make_pair(value, SampleClock::now()));
if (max_sample_count_.first) {
// if max_sample_count_ is set to true
// and size of storage is equal to max_sample_count_
if (storage.size() > max_sample_count_.second) {
storage.pop_back(); // removing the last element
}
} else {
StatsDuration range_of_storage =
storage.front().second - storage.back().second;
// removing samples until the range_of_storage
// stops exceeding the duration limit
while (range_of_storage > max_sample_age_.second) {
storage.pop_back();
range_of_storage =
storage.front().second - storage.back().second;
}
}
}
}
IntegerSample Observation::getInteger() const {
return (getValueInternal<IntegerSample>(integer_samples_, STAT_INTEGER));
}
FloatSample Observation::getFloat() const {
return (getValueInternal<FloatSample>(float_samples_, STAT_FLOAT));
}
DurationSample Observation::getDuration() const {
return (getValueInternal<DurationSample>(duration_samples_, STAT_DURATION));
}
StringSample Observation::getString() const {
return (getValueInternal<StringSample>(string_samples_, STAT_STRING));
}
template<typename SampleType, typename Storage>
SampleType Observation::getValueInternal(Storage& storage, Type exp_type) const {
if (type_ != exp_type) {
isc_throw(InvalidStatType, "Invalid statistic type requested: "
<< typeToText(exp_type) << ", but the actual type is "
<< typeToText(type_));
}
if (storage.empty()) {
// That should never happen. The first element is always initialized in
// the constructor. reset() sets its value to zero, but the element should
// still be there.
isc_throw(Unexpected, "Observation storage container empty");
}
return (*storage.begin());
}
std::list<IntegerSample> Observation::getIntegers() const {
return (getValuesInternal<IntegerSample>(integer_samples_, STAT_INTEGER));
}
std::list<FloatSample> Observation::getFloats() const {
return (getValuesInternal<FloatSample>(float_samples_, STAT_FLOAT));
}
std::list<DurationSample> Observation::getDurations() const {
return (getValuesInternal<DurationSample>(duration_samples_, STAT_DURATION));
}
std::list<StringSample> Observation::getStrings() const {
return (getValuesInternal<StringSample>(string_samples_, STAT_STRING));
}
template<typename SampleType, typename Storage>
std::list<SampleType> Observation::getValuesInternal(Storage& storage,
Type exp_type) const {
if (type_ != exp_type) {
isc_throw(InvalidStatType, "Invalid statistic type requested: "
<< typeToText(exp_type) << ", but the actual type is "
<< typeToText(type_));
}
if (storage.empty()) {
// That should never happen. The first element is always initialized in
// the constructor. reset() sets its value to zero, but the element should
// still be there.
isc_throw(Unexpected, "Observation storage container empty");
}
return (storage);
}
template<typename StorageType>
void Observation::setMaxSampleAgeInternal(StorageType& storage,
const StatsDuration& duration,
Type exp_type) {
if (type_ != exp_type) {
isc_throw(InvalidStatType, "Invalid statistic type requested: "
<< typeToText(exp_type) << ", but the actual type is "
<< typeToText(type_));
}
// setting new value of max_sample_age_
max_sample_age_.first = true;
max_sample_age_.second = duration;
// deactivating the max_sample_count_ limit
max_sample_count_.first = false;
StatsDuration range_of_storage =
storage.front().second - storage.back().second;
while (range_of_storage > duration) {
// deleting elements which are exceeding the duration limit
storage.pop_back();
range_of_storage = storage.front().second - storage.back().second;
}
}
template<typename StorageType>
void Observation::setMaxSampleCountInternal(StorageType& storage,
uint32_t max_samples,
Type exp_type) {
if (type_ != exp_type) {
isc_throw(InvalidStatType, "Invalid statistic type requested: "
<< typeToText(exp_type) << ", but the actual type is "
<< typeToText(type_));
}
// Should we refuse the max_samples = 0 value here?
// setting new value of max_sample_count_
max_sample_count_.first = true;
max_sample_count_.second = max_samples;
// deactivating the max_sample_age_ limit
max_sample_age_.first = false;
while (storage.size() > max_samples) {
// deleting elements which are exceeding the max_samples limit
storage.pop_back();
}
}
void Observation::setMaxSampleAgeDefault(const StatsDuration& duration) {
// setting new value of default_max_sample_age_
default_max_sample_age_.second = duration;
}
void Observation::setMaxSampleCountDefault(uint32_t max_samples) {
if (max_samples == 0) {
// deactivating the default_max_sample_count_ limit
default_max_sample_count_.first = false;
default_max_sample_age_.first = true;
} else {
// setting new value of default_max_sample_count_
default_max_sample_count_.second = max_samples;
// deactivating the default_max_sample_age_ limit
default_max_sample_age_.first = false;
default_max_sample_count_.first = true;
}
}
const StatsDuration& Observation::getMaxSampleAgeDefault() {
return (default_max_sample_age_.second);
}
uint32_t Observation::getMaxSampleCountDefault() {
if (default_max_sample_count_.first) {
return (default_max_sample_count_.second);
} else {
return (0);
}
}
std::string Observation::typeToText(Type type) {
std::stringstream tmp;
switch (type) {
case STAT_INTEGER:
tmp << "integer";
break;
case STAT_FLOAT:
tmp << "float";
break;
case STAT_DURATION:
tmp << "duration";
break;
case STAT_STRING:
tmp << "string";
break;
default:
tmp << "unknown";
break;
}
tmp << "(" << type << ")";
return (tmp.str());
}
isc::data::ConstElementPtr
Observation::getJSON() const {
ElementPtr list = isc::data::Element::createList(); // multiple observations
ElementPtr entry;
ElementPtr value;
ElementPtr timestamp;
// Support for retrieving more than one sample
// retrieving all samples of indicated observation
switch (type_) {
case STAT_INTEGER: {
std::list<IntegerSample> s = getIntegers(); // List of all integer samples
// Iteration over all elements in the list
// and adding alternately value and timestamp to the entry
for (std::list<IntegerSample>::iterator it = s.begin(); it != s.end(); ++it) {
entry = isc::data::Element::createList();
value = isc::data::Element::create(static_cast<int64_t>((*it).first));
timestamp = isc::data::Element::create(isc::util::clockToText((*it).second));
entry->add(value);
entry->add(timestamp);
list->add(entry);
}
break;
}
case STAT_FLOAT: {
std::list<FloatSample> s = getFloats();
// Iteration over all elements in the list
// and adding alternately value and timestamp to the entry
for (std::list<FloatSample>::iterator it = s.begin(); it != s.end(); ++it) {
entry = isc::data::Element::createList();
value = isc::data::Element::create((*it).first);
timestamp = isc::data::Element::create(isc::util::clockToText((*it).second));
entry->add(value);
entry->add(timestamp);
list->add(entry);
}
break;
}
case STAT_DURATION: {
std::list<DurationSample> s = getDurations();
// Iteration over all elements in the list
// and adding alternately value and timestamp to the entry
for (std::list<DurationSample>::iterator it = s.begin(); it != s.end(); ++it) {
entry = isc::data::Element::createList();
value = isc::data::Element::create(isc::util::durationToText((*it).first));
timestamp = isc::data::Element::create(isc::util::clockToText((*it).second));
entry->add(value);
entry->add(timestamp);
list->add(entry);
}
break;
}
case STAT_STRING: {
std::list<StringSample> s = getStrings();
// Iteration over all elements in the list
// and adding alternately value and timestamp to the entry
for (std::list<StringSample>::iterator it = s.begin(); it != s.end(); ++it) {
entry = isc::data::Element::createList();
value = isc::data::Element::create((*it).first);
timestamp = isc::data::Element::create(isc::util::clockToText((*it).second));
entry->add(value);
entry->add(timestamp);
list->add(entry);
}
break;
}
default:
isc_throw(InvalidStatType, "Unknown statistic type: "
<< typeToText(type_));
};
return (list);
}
void Observation::reset() {
switch(type_) {
case STAT_INTEGER: {
integer_samples_.clear();
setValue(static_cast<int64_t>(0));
return;
}
case STAT_FLOAT: {
float_samples_.clear();
setValue(0.0);
return;
}
case STAT_DURATION: {
duration_samples_.clear();
setValue(StatsDuration::zero());
return;
}
case STAT_STRING: {
string_samples_.clear();
setValue(string(""));
return;
}
default:
isc_throw(InvalidStatType, "Unknown statistic type: "
<< typeToText(type_));
};
}
} // end of namespace stats
} // end of namespace isc
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