// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/rappor/rappor_service.h"
#include "base/base64.h"
#include "base/metrics/field_trial.h"
#include "base/prefs/pref_registry_simple.h"
#include "base/prefs/pref_service.h"
#include "base/rand_util.h"
#include "base/stl_util.h"
#include "base/time/time.h"
#include "components/metrics/metrics_hashes.h"
#include "components/rappor/log_uploader.h"
#include "components/rappor/proto/rappor_metric.pb.h"
#include "components/rappor/rappor_metric.h"
#include "components/rappor/rappor_pref_names.h"
#include "components/variations/variations_associated_data.h"
namespace rappor {
namespace {
// Seconds before the initial log is generated.
const int kInitialLogIntervalSeconds = 15;
// Interval between ongoing logs.
const int kLogIntervalSeconds = 30 * 60;
const char kMimeType[] = "application/vnd.chrome.rappor";
// Constants for the RAPPOR rollout field trial.
const char kRapporRolloutFieldTrialName[] = "RapporRollout";
// Constant for the finch parameter name for the server URL
const char kRapporRolloutServerUrlParam[] = "ServerUrl";
GURL GetServerUrl() {
return GURL(chrome_variations::GetVariationParamValue(
kRapporRolloutFieldTrialName,
kRapporRolloutServerUrlParam));
}
const RapporParameters kRapporParametersForType[NUM_RAPPOR_TYPES] = {
// ETLD_PLUS_ONE_RAPPOR_TYPE
{128 /* Num cohorts */,
16 /* Bloom filter size bytes */,
2 /* Bloom filter hash count */,
rappor::PROBABILITY_50 /* Fake data probability */,
rappor::PROBABILITY_50 /* Fake one probability */,
rappor::PROBABILITY_75 /* One coin probability */,
rappor::PROBABILITY_25 /* Zero coin probability */},
};
} // namespace
RapporService::RapporService() : cohort_(-1) {}
RapporService::~RapporService() {
STLDeleteValues(&metrics_map_);
}
void RapporService::Start(PrefService* pref_service,
net::URLRequestContextGetter* request_context) {
const GURL server_url = GetServerUrl();
if (!server_url.is_valid())
return;
DCHECK(!uploader_);
LoadSecret(pref_service);
LoadCohort(pref_service);
uploader_.reset(new LogUploader(server_url, kMimeType, request_context));
log_rotation_timer_.Start(
FROM_HERE,
base::TimeDelta::FromSeconds(kInitialLogIntervalSeconds),
this,
&RapporService::OnLogInterval);
}
void RapporService::OnLogInterval() {
DCHECK(uploader_);
RapporReports reports;
if (ExportMetrics(&reports)) {
std::string log_text;
bool success = reports.SerializeToString(&log_text);
DCHECK(success);
uploader_->QueueLog(log_text);
}
log_rotation_timer_.Start(FROM_HERE,
base::TimeDelta::FromSeconds(kLogIntervalSeconds),
this,
&RapporService::OnLogInterval);
}
// static
void RapporService::RegisterPrefs(PrefRegistrySimple* registry) {
registry->RegisterStringPref(prefs::kRapporSecret, std::string());
registry->RegisterIntegerPref(prefs::kRapporCohortDeprecated, -1);
registry->RegisterIntegerPref(prefs::kRapporCohortSeed, -1);
}
void RapporService::LoadCohort(PrefService* pref_service) {
DCHECK(!IsInitialized());
// Ignore and delete old cohort parameter.
pref_service->ClearPref(prefs::kRapporCohortDeprecated);
cohort_ = pref_service->GetInteger(prefs::kRapporCohortSeed);
// If the user is already assigned to a valid cohort, we're done.
if (cohort_ >= 0 && cohort_ < RapporParameters::kMaxCohorts)
return;
// This is the first time the client has started the service (or their
// preferences were corrupted). Randomly assign them to a cohort.
cohort_ = base::RandGenerator(RapporParameters::kMaxCohorts);
pref_service->SetInteger(prefs::kRapporCohortSeed, cohort_);
}
void RapporService::LoadSecret(PrefService* pref_service) {
DCHECK(secret_.empty());
std::string secret_base64 = pref_service->GetString(prefs::kRapporSecret);
if (!secret_base64.empty()) {
bool decoded = base::Base64Decode(secret_base64, &secret_);
if (decoded && secret_.size() == HmacByteVectorGenerator::kEntropyInputSize)
return;
// If the preference fails to decode, or is the wrong size, it must be
// corrupt, so continue as though it didn't exist yet and generate a new
// one.
}
secret_ = HmacByteVectorGenerator::GenerateEntropyInput();
base::Base64Encode(secret_, &secret_base64);
pref_service->SetString(prefs::kRapporSecret, secret_base64);
}
bool RapporService::ExportMetrics(RapporReports* reports) {
if (metrics_map_.empty())
return false;
DCHECK_GE(cohort_, 0);
reports->set_cohort(cohort_);
for (std::map<std::string, RapporMetric*>::const_iterator it =
metrics_map_.begin();
it != metrics_map_.end();
++it) {
const RapporMetric* metric = it->second;
RapporReports::Report* report = reports->add_report();
report->set_name_hash(metrics::HashMetricName(it->first));
ByteVector bytes = metric->GetReport(secret_);
report->set_bits(std::string(bytes.begin(), bytes.end()));
}
STLDeleteValues(&metrics_map_);
return true;
}
bool RapporService::IsInitialized() const {
return cohort_ >= 0;
}
void RapporService::RecordSample(const std::string& metric_name,
RapporType type,
const std::string& sample) {
// Ignore the sample if the service hasn't started yet.
if (!IsInitialized())
return;
DCHECK_LT(type, NUM_RAPPOR_TYPES);
RecordSampleInternal(metric_name, kRapporParametersForType[type], sample);
}
void RapporService::RecordSampleInternal(const std::string& metric_name,
const RapporParameters& parameters,
const std::string& sample) {
DCHECK(IsInitialized());
RapporMetric* metric = LookUpMetric(metric_name, parameters);
metric->AddSample(sample);
}
RapporMetric* RapporService::LookUpMetric(const std::string& metric_name,
const RapporParameters& parameters) {
DCHECK(IsInitialized());
std::map<std::string, RapporMetric*>::const_iterator it =
metrics_map_.find(metric_name);
if (it != metrics_map_.end()) {
RapporMetric* metric = it->second;
DCHECK_EQ(parameters.ToString(), metric->parameters().ToString());
return metric;
}
RapporMetric* new_metric = new RapporMetric(metric_name, parameters, cohort_);
metrics_map_[metric_name] = new_metric;
return new_metric;
}
} // namespace rappor