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/*
* Copyright 2009, Google Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
// Implementation of a Posix metrics aggregator.
#include "aggregator-posix.h"
#include "const-posix.h"
#include "formatter.h"
#include "util/endian/endian.h"
#include "statsreport/common/pathhelpers.h"
namespace stats_report {
MetricsAggregatorPosix::MetricsAggregatorPosix(const MetricCollection &coll) {
key_value_table_.reset(new KeyValueTable(get_cache_dir() + "stats.sqlite3",
"stats"));
}
MetricsAggregatorPosix::~MetricsAggregatorPosix() {
}
void MetricsAggregatorPosix::ResetMetrics() {
StartAggregation();
(void)transaction_->Clear();
EndAggregation();
}
namespace {
void AddMetric(const string& key,
const ScopedStatement &statement,
void *ref_con) {
Formatter *formatter =
static_cast<Formatter *>(ref_con);
string original_key;
scoped_ptr<MetricBase> metric;
if (key.compare(0, kCountsKeyName.length(), kCountsKeyName) == 0) {
int64 value;
GetColumn(statement.get(), 0, &value);
original_key = key.substr(kCountsKeyName.length());
metric.reset(new CountMetric(original_key.c_str(), value));
} else if (key.compare(0, kTimingsKeyName.length(), kTimingsKeyName) == 0) {
std::vector<BYTE> value_bytes;
TimingMetric::TimingData value;
GetColumn(statement.get(), 0, &value_bytes);
memcpy(&value, &value_bytes[0], value_bytes.size());
value.count = gntohl(value.count);
value.sum = gntohll(value.sum);
value.minimum = gntohll(value.minimum);
value.maximum = gntohll(value.maximum);
metric.reset(new TimingMetric(original_key.c_str(), value));
} else if (key.compare(0, kIntegersKeyName.length(), kIntegersKeyName) == 0) {
int64 value;
GetColumn(statement.get(), 0, &value);
original_key = key.substr(kIntegersKeyName.length());
metric.reset(new IntegerMetric(original_key.c_str(), value));
} else if (key.compare(0, kBooleansKeyName.length(), kBooleansKeyName) == 0) {
int32 value;
GetColumn(statement.get(), 0, &value);
original_key = key.substr(kBooleansKeyName.length());
metric.reset(new BoolMetric(original_key.c_str(), value));
}
if (!original_key.empty())
formatter->AddMetric(&*metric);
}
} // namespace
void MetricsAggregatorPosix::FormatMetrics(Formatter *formatter) {
StartAggregation();
transaction_->Iterate(AddMetric, formatter);
EndAggregation();
}
bool MetricsAggregatorPosix::StartAggregation() {
transaction_.reset(new KeyValueTransaction(&*key_value_table_));
return true;
}
void MetricsAggregatorPosix::EndAggregation() {
transaction_.reset();
}
void MetricsAggregatorPosix::Aggregate(CountMetric *metric) {
// do as little as possible if no value
uint64 value = metric->Reset();
if (0 == value)
return;
string name(metric->name());
name.insert(0, kCountsKeyName);
int64 reg_value = 0; // yes, we only have 63 positive bits here :(
if (!transaction_->Get(name, ®_value)) {
// TODO: clean up??
}
reg_value += value;
(void)transaction_->Put(name, reg_value);
}
void MetricsAggregatorPosix::Aggregate(TimingMetric *metric) {
// do as little as possible if no value
TimingMetric::TimingData value = metric->Reset();
if (0 == value.count)
return;
string name(metric->name());
name.insert(0, kTimingsKeyName);
std::vector<BYTE> reg_value_bytes;
TimingMetric::TimingData reg_value;
if (!transaction_->Get(name, ®_value_bytes)) {
reg_value_bytes.resize(sizeof(reg_value));
memcpy(®_value, &value, sizeof(value));
} else {
memcpy(®_value, ®_value_bytes[0], reg_value_bytes.size());
reg_value.count = gntohl(reg_value.count);
reg_value.sum = gntohll(reg_value.sum);
reg_value.minimum = gntohll(reg_value.minimum);
reg_value.maximum = gntohll(reg_value.maximum);
reg_value.count += value.count;
reg_value.sum += value.sum;
reg_value.minimum = std::min(reg_value.minimum, value.minimum);
reg_value.maximum = std::max(reg_value.maximum, value.maximum);
}
reg_value.count = ghtonl(reg_value.count);
reg_value.sum = ghtonll(reg_value.sum);
reg_value.minimum = ghtonll(reg_value.minimum);
reg_value.maximum = ghtonll(reg_value.maximum);
memcpy(®_value_bytes[0], ®_value, sizeof(reg_value));
(void)transaction_->Put(name, reg_value_bytes);
}
void MetricsAggregatorPosix::Aggregate(IntegerMetric *metric) {
// do as little as possible if no value
int64 value = metric->value(); // yes, we only have 63 positive bits here :(
if (0 == value)
return;
string name(metric->name());
name.insert(0, kIntegersKeyName);
(void)transaction_->Put(name, value);
}
void MetricsAggregatorPosix::Aggregate(BoolMetric *metric) {
// do as little as possible if no value
int32 value = metric->Reset();
if (BoolMetric::kBoolUnset == value)
return;
string name(metric->name());
name.insert(0, kBooleansKeyName);
(void)transaction_->Put(name, value);
}
} // namespace stats_report
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