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|
/*
* Copyright (C) 2017 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define STATSD_DEBUG false // STOPSHIP if true
#include "Log.h"
#include "StatsLogProcessor.h"
#include <android-base/file.h>
#include <cutils/multiuser.h>
#include <src/active_config_list.pb.h>
#include <src/experiment_ids.pb.h>
#include "StatsService.h"
#include "android-base/stringprintf.h"
#include "external/StatsPullerManager.h"
#include "flags/FlagProvider.h"
#include "guardrail/StatsdStats.h"
#include "logd/LogEvent.h"
#include "metrics/CountMetricProducer.h"
#include "state/StateManager.h"
#include "stats_log_util.h"
#include "stats_util.h"
#include "statslog_statsd.h"
#include "storage/StorageManager.h"
#include "utils/api_tracing.h"
using namespace android;
using android::base::StringPrintf;
using android::util::FIELD_COUNT_REPEATED;
using android::util::FIELD_TYPE_BOOL;
using android::util::FIELD_TYPE_FLOAT;
using android::util::FIELD_TYPE_INT32;
using android::util::FIELD_TYPE_INT64;
using android::util::FIELD_TYPE_MESSAGE;
using android::util::FIELD_TYPE_STRING;
using android::util::ProtoOutputStream;
using std::vector;
namespace android {
namespace os {
namespace statsd {
using aidl::android::os::IStatsQueryCallback;
// for ConfigMetricsReportList
const int FIELD_ID_CONFIG_KEY = 1;
const int FIELD_ID_REPORTS = 2;
// for ConfigKey
const int FIELD_ID_UID = 1;
const int FIELD_ID_ID = 2;
const int FIELD_ID_REPORT_NUMBER = 3;
const int FIELD_ID_STATSD_STATS_ID = 4;
// for ConfigMetricsReport
// const int FIELD_ID_METRICS = 1; // written in MetricsManager.cpp
const int FIELD_ID_UID_MAP = 2;
const int FIELD_ID_LAST_REPORT_ELAPSED_NANOS = 3;
const int FIELD_ID_CURRENT_REPORT_ELAPSED_NANOS = 4;
const int FIELD_ID_LAST_REPORT_WALL_CLOCK_NANOS = 5;
const int FIELD_ID_CURRENT_REPORT_WALL_CLOCK_NANOS = 6;
const int FIELD_ID_DUMP_REPORT_REASON = 8;
const int FIELD_ID_STRINGS = 9;
const int FIELD_ID_DATA_CORRUPTED_REASON = 11;
const int FIELD_ID_ESTIMATED_DATA_BYTES = 12;
// for ActiveConfigList
const int FIELD_ID_ACTIVE_CONFIG_LIST_CONFIG = 1;
// for permissions checks
constexpr const char* kPermissionDump = "android.permission.DUMP";
constexpr const char* kPermissionUsage = "android.permission.PACKAGE_USAGE_STATS";
#define NS_PER_HOUR 3600 * NS_PER_SEC
#define STATS_ACTIVE_METRIC_DIR "/data/misc/stats-active-metric"
#define STATS_METADATA_DIR "/data/misc/stats-metadata"
// Cool down period for writing data to disk to avoid overwriting files.
#define WRITE_DATA_COOL_DOWN_SEC 15
StatsLogProcessor::StatsLogProcessor(
const sp<UidMap>& uidMap, const sp<StatsPullerManager>& pullerManager,
const sp<AlarmMonitor>& anomalyAlarmMonitor, const sp<AlarmMonitor>& periodicAlarmMonitor,
const int64_t timeBaseNs, const std::function<bool(const ConfigKey&)>& sendBroadcast,
const std::function<bool(const int&, const vector<int64_t>&)>& activateBroadcast,
const std::function<void(const ConfigKey&, const string&, const vector<int64_t>&)>&
sendRestrictedMetricsBroadcast,
const std::shared_ptr<LogEventFilter>& logEventFilter)
: mLastTtlTime(0),
mLastFlushRestrictedTime(0),
mLastDbGuardrailEnforcementTime(0),
mUidMap(uidMap),
mPullerManager(pullerManager),
mAnomalyAlarmMonitor(anomalyAlarmMonitor),
mPeriodicAlarmMonitor(periodicAlarmMonitor),
mLogEventFilter(logEventFilter),
mSendBroadcast(sendBroadcast),
mSendActivationBroadcast(activateBroadcast),
mSendRestrictedMetricsBroadcast(sendRestrictedMetricsBroadcast),
mTimeBaseNs(timeBaseNs),
mLargestTimestampSeen(0),
mLastTimestampSeen(0) {
mPullerManager->ForceClearPullerCache();
StateManager::getInstance().updateLogSources(uidMap);
// It is safe called locked version at constructor - no concurrent access possible
updateLogEventFilterLocked();
}
StatsLogProcessor::~StatsLogProcessor() {
}
static void flushProtoToBuffer(ProtoOutputStream& proto, vector<uint8_t>* outData) {
outData->clear();
outData->resize(proto.size());
size_t pos = 0;
sp<android::util::ProtoReader> reader = proto.data();
while (reader->readBuffer() != NULL) {
size_t toRead = reader->currentToRead();
std::memcpy(&((*outData)[pos]), reader->readBuffer(), toRead);
pos += toRead;
reader->move(toRead);
}
}
void StatsLogProcessor::processFiredAnomalyAlarmsLocked(
const int64_t timestampNs,
unordered_set<sp<const InternalAlarm>, SpHash<InternalAlarm>>& alarmSet) {
for (const auto& itr : mMetricsManagers) {
itr.second->onAnomalyAlarmFired(timestampNs, alarmSet);
}
}
void StatsLogProcessor::onPeriodicAlarmFired(
const int64_t timestampNs,
unordered_set<sp<const InternalAlarm>, SpHash<InternalAlarm>>& alarmSet) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
for (const auto& itr : mMetricsManagers) {
itr.second->onPeriodicAlarmFired(timestampNs, alarmSet);
}
}
void StatsLogProcessor::mapIsolatedUidToHostUidIfNecessaryLocked(LogEvent* event) const {
if (std::pair<size_t, size_t> indexRange; event->hasAttributionChain(&indexRange)) {
vector<FieldValue>* const fieldValues = event->getMutableValues();
for (size_t i = indexRange.first; i <= indexRange.second; i++) {
FieldValue& fieldValue = fieldValues->at(i);
if (isAttributionUidField(fieldValue)) {
const int hostUid = mUidMap->getHostUidOrSelf(fieldValue.mValue.int_value);
fieldValue.mValue.setInt(hostUid);
}
}
} else {
mapIsolatedUidsToHostUidInLogEvent(mUidMap, *event);
}
}
void StatsLogProcessor::onIsolatedUidChangedEventLocked(const LogEvent& event) {
status_t err = NO_ERROR, err2 = NO_ERROR, err3 = NO_ERROR;
bool is_create = event.GetBool(3, &err);
auto parent_uid = int(event.GetLong(1, &err2));
auto isolated_uid = int(event.GetLong(2, &err3));
if (err == NO_ERROR && err2 == NO_ERROR && err3 == NO_ERROR) {
if (is_create) {
mUidMap->assignIsolatedUid(isolated_uid, parent_uid);
} else {
mUidMap->removeIsolatedUid(isolated_uid);
}
} else {
ALOGE("Failed to parse uid in the isolated uid change event.");
}
}
void StatsLogProcessor::onBinaryPushStateChangedEventLocked(LogEvent* event) {
pid_t pid = event->GetPid();
uid_t uid = event->GetUid();
if (!checkPermissionForIds(kPermissionDump, pid, uid) ||
!checkPermissionForIds(kPermissionUsage, pid, uid)) {
return;
}
// The Get* functions don't modify the status on success, they only write in
// failure statuses, so we can use one status variable for all calls then
// check if it is no longer NO_ERROR.
status_t err = NO_ERROR;
InstallTrainInfo trainInfo;
trainInfo.trainName = string(event->GetString(1 /*train name field id*/, &err));
trainInfo.trainVersionCode = event->GetLong(2 /*train version field id*/, &err);
trainInfo.requiresStaging = event->GetBool(3 /*requires staging field id*/, &err);
trainInfo.rollbackEnabled = event->GetBool(4 /*rollback enabled field id*/, &err);
trainInfo.requiresLowLatencyMonitor =
event->GetBool(5 /*requires low latency monitor field id*/, &err);
trainInfo.status = int32_t(event->GetLong(6 /*state field id*/, &err));
std::vector<uint8_t> trainExperimentIdBytes =
event->GetStorage(7 /*experiment ids field id*/, &err);
bool is_rollback = event->GetBool(10 /*is rollback field id*/, &err);
if (err != NO_ERROR) {
ALOGE("Failed to parse fields in binary push state changed log event");
return;
}
ExperimentIds trainExperimentIds;
if (!trainExperimentIds.ParseFromArray(trainExperimentIdBytes.data(),
trainExperimentIdBytes.size())) {
ALOGE("Failed to parse experimentids in binary push state changed.");
return;
}
trainInfo.experimentIds = {trainExperimentIds.experiment_id().begin(),
trainExperimentIds.experiment_id().end()};
// Update the train info on disk and get any data the logevent is missing.
getAndUpdateTrainInfoOnDisk(is_rollback, &trainInfo);
std::vector<uint8_t> trainExperimentIdProto;
writeExperimentIdsToProto(trainInfo.experimentIds, &trainExperimentIdProto);
int32_t userId = multiuser_get_user_id(uid);
event->updateValue(2 /*train version field id*/, trainInfo.trainVersionCode, LONG);
event->updateValue(7 /*experiment ids field id*/, trainExperimentIdProto, STORAGE);
event->updateValue(8 /*user id field id*/, userId, INT);
// If this event is a rollback event, then the following bits in the event
// are invalid and we will need to update them with the values we pulled
// from disk.
if (is_rollback) {
int bit = trainInfo.requiresStaging ? 1 : 0;
event->updateValue(3 /*requires staging field id*/, bit, INT);
bit = trainInfo.rollbackEnabled ? 1 : 0;
event->updateValue(4 /*rollback enabled field id*/, bit, INT);
bit = trainInfo.requiresLowLatencyMonitor ? 1 : 0;
event->updateValue(5 /*requires low latency monitor field id*/, bit, INT);
}
}
void StatsLogProcessor::getAndUpdateTrainInfoOnDisk(bool is_rollback,
InstallTrainInfo* trainInfo) {
// If the train name is empty, we don't know which train to attribute the
// event to, so return early.
if (trainInfo->trainName.empty()) {
return;
}
bool readTrainInfoSuccess = false;
InstallTrainInfo trainInfoOnDisk;
readTrainInfoSuccess = StorageManager::readTrainInfo(trainInfo->trainName, trainInfoOnDisk);
bool resetExperimentIds = false;
if (readTrainInfoSuccess) {
// Keep the old train version if we received an empty version.
if (trainInfo->trainVersionCode == -1) {
trainInfo->trainVersionCode = trainInfoOnDisk.trainVersionCode;
} else if (trainInfo->trainVersionCode != trainInfoOnDisk.trainVersionCode) {
// Reset experiment ids if we receive a new non-empty train version.
resetExperimentIds = true;
}
// Reset if we received a different experiment id.
if (!trainInfo->experimentIds.empty() &&
(trainInfoOnDisk.experimentIds.empty() ||
trainInfo->experimentIds.at(0) != trainInfoOnDisk.experimentIds[0])) {
resetExperimentIds = true;
}
}
// Find the right experiment IDs
if ((!resetExperimentIds || is_rollback) && readTrainInfoSuccess) {
trainInfo->experimentIds = trainInfoOnDisk.experimentIds;
}
if (!trainInfo->experimentIds.empty()) {
int64_t firstId = trainInfo->experimentIds.at(0);
auto& ids = trainInfo->experimentIds;
switch (trainInfo->status) {
case util::BINARY_PUSH_STATE_CHANGED__STATE__INSTALL_SUCCESS:
if (find(ids.begin(), ids.end(), firstId + 1) == ids.end()) {
ids.push_back(firstId + 1);
}
break;
case util::BINARY_PUSH_STATE_CHANGED__STATE__INSTALLER_ROLLBACK_INITIATED:
if (find(ids.begin(), ids.end(), firstId + 2) == ids.end()) {
ids.push_back(firstId + 2);
}
break;
case util::BINARY_PUSH_STATE_CHANGED__STATE__INSTALLER_ROLLBACK_SUCCESS:
if (find(ids.begin(), ids.end(), firstId + 3) == ids.end()) {
ids.push_back(firstId + 3);
}
break;
}
}
// If this event is a rollback event, the following fields are invalid and
// need to be replaced by the fields stored to disk.
if (is_rollback) {
trainInfo->requiresStaging = trainInfoOnDisk.requiresStaging;
trainInfo->rollbackEnabled = trainInfoOnDisk.rollbackEnabled;
trainInfo->requiresLowLatencyMonitor = trainInfoOnDisk.requiresLowLatencyMonitor;
}
StorageManager::writeTrainInfo(*trainInfo);
}
void StatsLogProcessor::onWatchdogRollbackOccurredLocked(LogEvent* event) {
pid_t pid = event->GetPid();
uid_t uid = event->GetUid();
if (!checkPermissionForIds(kPermissionDump, pid, uid) ||
!checkPermissionForIds(kPermissionUsage, pid, uid)) {
return;
}
// The Get* functions don't modify the status on success, they only write in
// failure statuses, so we can use one status variable for all calls then
// check if it is no longer NO_ERROR.
status_t err = NO_ERROR;
int32_t rollbackType = int32_t(event->GetInt(1 /*rollback type field id*/, &err));
string packageName = string(event->GetString(2 /*package name field id*/, &err));
if (err != NO_ERROR) {
ALOGE("Failed to parse fields in watchdog rollback occurred log event");
return;
}
vector<int64_t> experimentIds =
processWatchdogRollbackOccurred(rollbackType, packageName);
vector<uint8_t> experimentIdProto;
writeExperimentIdsToProto(experimentIds, &experimentIdProto);
event->updateValue(6 /*experiment ids field id*/, experimentIdProto, STORAGE);
}
vector<int64_t> StatsLogProcessor::processWatchdogRollbackOccurred(const int32_t rollbackTypeIn,
const string& packageNameIn) {
// If the package name is empty, we can't attribute it to any train, so
// return early.
if (packageNameIn.empty()) {
return vector<int64_t>();
}
bool readTrainInfoSuccess = false;
InstallTrainInfo trainInfoOnDisk;
// We use the package name of the event as the train name.
readTrainInfoSuccess = StorageManager::readTrainInfo(packageNameIn, trainInfoOnDisk);
if (!readTrainInfoSuccess) {
return vector<int64_t>();
}
if (trainInfoOnDisk.experimentIds.empty()) {
return vector<int64_t>();
}
int64_t firstId = trainInfoOnDisk.experimentIds[0];
auto& ids = trainInfoOnDisk.experimentIds;
switch (rollbackTypeIn) {
case util::WATCHDOG_ROLLBACK_OCCURRED__ROLLBACK_TYPE__ROLLBACK_INITIATE:
if (find(ids.begin(), ids.end(), firstId + 4) == ids.end()) {
ids.push_back(firstId + 4);
}
StorageManager::writeTrainInfo(trainInfoOnDisk);
break;
case util::WATCHDOG_ROLLBACK_OCCURRED__ROLLBACK_TYPE__ROLLBACK_SUCCESS:
if (find(ids.begin(), ids.end(), firstId + 5) == ids.end()) {
ids.push_back(firstId + 5);
}
StorageManager::writeTrainInfo(trainInfoOnDisk);
break;
}
return trainInfoOnDisk.experimentIds;
}
void StatsLogProcessor::resetConfigs() {
std::lock_guard<std::mutex> lock(mMetricsMutex);
resetConfigsLocked(getElapsedRealtimeNs());
}
void StatsLogProcessor::resetConfigsLocked(const int64_t timestampNs) {
std::vector<ConfigKey> configKeys;
for (auto it = mMetricsManagers.begin(); it != mMetricsManagers.end(); it++) {
configKeys.push_back(it->first);
}
resetConfigsLocked(timestampNs, configKeys);
}
void StatsLogProcessor::OnLogEvent(LogEvent* event) {
ATRACE_CALL();
OnLogEvent(event, getElapsedRealtimeNs());
}
void StatsLogProcessor::OnLogEvent(LogEvent* event, int64_t elapsedRealtimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
// Tell StatsdStats about new event
const int64_t eventElapsedTimeNs = event->GetElapsedTimestampNs();
const int atomId = event->GetTagId();
StatsdStats::getInstance().noteAtomLogged(atomId, eventElapsedTimeNs / NS_PER_SEC,
event->isParsedHeaderOnly());
if (!event->isValid()) {
StatsdStats::getInstance().noteAtomError(atomId);
return;
}
// Hard-coded logic to update train info on disk and fill in any information
// this log event may be missing.
if (atomId == util::BINARY_PUSH_STATE_CHANGED) {
onBinaryPushStateChangedEventLocked(event);
}
// Hard-coded logic to update experiment ids on disk for certain rollback
// types and fill the rollback atom with experiment ids
if (atomId == util::WATCHDOG_ROLLBACK_OCCURRED) {
onWatchdogRollbackOccurredLocked(event);
}
if (mPrintAllLogs) {
ALOGI("%s", event->ToString().c_str());
}
resetIfConfigTtlExpiredLocked(eventElapsedTimeNs);
// Hard-coded logic to update the isolated uid's in the uid-map.
// The field numbers need to be currently updated by hand with atoms.proto
if (atomId == util::ISOLATED_UID_CHANGED) {
onIsolatedUidChangedEventLocked(*event);
} else {
// Map the isolated uid to host uid if necessary.
mapIsolatedUidToHostUidIfNecessaryLocked(event);
}
StateManager::getInstance().onLogEvent(*event);
if (mMetricsManagers.empty()) {
return;
}
bool fireAlarm = false;
{
std::lock_guard<std::mutex> anomalyLock(mAnomalyAlarmMutex);
if (mNextAnomalyAlarmTime != 0 &&
MillisToNano(mNextAnomalyAlarmTime) <= elapsedRealtimeNs) {
mNextAnomalyAlarmTime = 0;
VLOG("informing anomaly alarm at time %lld", (long long)elapsedRealtimeNs);
fireAlarm = true;
}
}
if (fireAlarm) {
informAnomalyAlarmFiredLocked(NanoToMillis(elapsedRealtimeNs));
}
const int64_t curTimeSec = NanoToSeconds(elapsedRealtimeNs);
if (curTimeSec - mLastPullerCacheClearTimeSec > StatsdStats::kPullerCacheClearIntervalSec) {
mPullerManager->ClearPullerCacheIfNecessary(curTimeSec * NS_PER_SEC);
mLastPullerCacheClearTimeSec = curTimeSec;
}
flushRestrictedDataIfNecessaryLocked(elapsedRealtimeNs);
enforceDataTtlsIfNecessaryLocked(getWallClockNs(), elapsedRealtimeNs);
enforceDbGuardrailsIfNecessaryLocked(getWallClockNs(), elapsedRealtimeNs);
if (!validateAppBreadcrumbEvent(*event)) {
return;
}
std::unordered_set<int> uidsWithActiveConfigsChanged;
std::unordered_map<int, std::vector<int64_t>> activeConfigsPerUid;
// pass the event to metrics managers.
for (auto& pair : mMetricsManagers) {
if (event->isRestricted() && !pair.second->hasRestrictedMetricsDelegate()) {
continue;
}
int uid = pair.first.GetUid();
int64_t configId = pair.first.GetId();
bool isPrevActive = pair.second->isActive();
pair.second->onLogEvent(*event);
bool isCurActive = pair.second->isActive();
// Map all active configs by uid.
if (isCurActive) {
auto activeConfigs = activeConfigsPerUid.find(uid);
if (activeConfigs != activeConfigsPerUid.end()) {
activeConfigs->second.push_back(configId);
} else {
vector<int64_t> newActiveConfigs;
newActiveConfigs.push_back(configId);
activeConfigsPerUid[uid] = newActiveConfigs;
}
}
// The activation state of this config changed.
if (isPrevActive != isCurActive) {
VLOG("Active status changed for uid %d", uid);
uidsWithActiveConfigsChanged.insert(uid);
StatsdStats::getInstance().noteActiveStatusChanged(pair.first, isCurActive);
}
flushIfNecessaryLocked(pair.first, *(pair.second));
}
// Don't use the event timestamp for the guardrail.
for (int uid : uidsWithActiveConfigsChanged) {
// Send broadcast so that receivers can pull data.
auto lastBroadcastTime = mLastActivationBroadcastTimes.find(uid);
if (lastBroadcastTime != mLastActivationBroadcastTimes.end()) {
if (elapsedRealtimeNs - lastBroadcastTime->second <
StatsdStats::kMinActivationBroadcastPeriodNs) {
StatsdStats::getInstance().noteActivationBroadcastGuardrailHit(uid);
VLOG("StatsD would've sent an activation broadcast but the rate limit stopped us.");
return;
}
}
auto activeConfigs = activeConfigsPerUid.find(uid);
if (activeConfigs != activeConfigsPerUid.end()) {
if (mSendActivationBroadcast(uid, activeConfigs->second)) {
VLOG("StatsD sent activation notice for uid %d", uid);
mLastActivationBroadcastTimes[uid] = elapsedRealtimeNs;
}
} else {
std::vector<int64_t> emptyActiveConfigs;
if (mSendActivationBroadcast(uid, emptyActiveConfigs)) {
VLOG("StatsD sent EMPTY activation notice for uid %d", uid);
mLastActivationBroadcastTimes[uid] = elapsedRealtimeNs;
}
}
}
}
void StatsLogProcessor::GetActiveConfigs(const int uid, vector<int64_t>& outActiveConfigs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
GetActiveConfigsLocked(uid, outActiveConfigs);
}
void StatsLogProcessor::GetActiveConfigsLocked(const int uid, vector<int64_t>& outActiveConfigs) {
outActiveConfigs.clear();
for (auto& pair : mMetricsManagers) {
if (pair.first.GetUid() == uid && pair.second->isActive()) {
outActiveConfigs.push_back(pair.first.GetId());
}
}
}
void StatsLogProcessor::OnConfigUpdated(const int64_t timestampNs, const int64_t wallClockNs,
const ConfigKey& key, const StatsdConfig& config,
bool modularUpdate) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
WriteDataToDiskLocked(key, timestampNs, wallClockNs, CONFIG_UPDATED, NO_TIME_CONSTRAINTS);
OnConfigUpdatedLocked(timestampNs, key, config, modularUpdate);
}
void StatsLogProcessor::OnConfigUpdated(const int64_t timestampNs, const ConfigKey& key,
const StatsdConfig& config, bool modularUpdate) {
OnConfigUpdated(timestampNs, getWallClockNs(), key, config, modularUpdate);
}
void StatsLogProcessor::OnConfigUpdatedLocked(const int64_t timestampNs, const ConfigKey& key,
const StatsdConfig& config, bool modularUpdate) {
VLOG("Updated configuration for key %s", key.ToString().c_str());
const auto& it = mMetricsManagers.find(key);
bool configValid = false;
if (isAtLeastU() && it != mMetricsManagers.end()) {
if (it->second->hasRestrictedMetricsDelegate() !=
config.has_restricted_metrics_delegate_package_name()) {
// Not a modular update if has_restricted_metrics_delegate changes
modularUpdate = false;
}
if (!modularUpdate && it->second->hasRestrictedMetricsDelegate()) {
StatsdStats::getInstance().noteDbDeletionConfigUpdated(key);
// Always delete the old db if restricted metrics config is not a
// modular update.
dbutils::deleteDb(key);
}
}
// Create new config if this is not a modular update or if this is a new config.
if (!modularUpdate || it == mMetricsManagers.end()) {
sp<MetricsManager> newMetricsManager =
new MetricsManager(key, config, mTimeBaseNs, timestampNs, mUidMap, mPullerManager,
mAnomalyAlarmMonitor, mPeriodicAlarmMonitor);
configValid = newMetricsManager->isConfigValid();
if (configValid) {
newMetricsManager->init();
newMetricsManager->refreshTtl(timestampNs);
// Sdk check for U+ is unnecessary because config with restricted metrics delegate
// will be invalid on non U+ devices.
if (newMetricsManager->hasRestrictedMetricsDelegate()) {
mSendRestrictedMetricsBroadcast(key,
newMetricsManager->getRestrictedMetricsDelegate(),
newMetricsManager->getAllMetricIds());
string err;
if (!dbutils::updateDeviceInfoTable(key, err)) {
ALOGE("Failed to create device_info table for configKey %s, err: %s",
key.ToString().c_str(), err.c_str());
StatsdStats::getInstance().noteDeviceInfoTableCreationFailed(key);
}
} else if (it != mMetricsManagers.end() && it->second->hasRestrictedMetricsDelegate()) {
mSendRestrictedMetricsBroadcast(key, it->second->getRestrictedMetricsDelegate(),
{});
}
mMetricsManagers[key] = newMetricsManager;
VLOG("StatsdConfig valid");
}
} else {
// Preserve the existing MetricsManager, update necessary components and metadata in place.
configValid = it->second->updateConfig(config, mTimeBaseNs, timestampNs,
mAnomalyAlarmMonitor, mPeriodicAlarmMonitor);
if (configValid && it->second->hasRestrictedMetricsDelegate()) {
mSendRestrictedMetricsBroadcast(key, it->second->getRestrictedMetricsDelegate(),
it->second->getAllMetricIds());
}
}
if (configValid && !config.has_restricted_metrics_delegate_package_name()) {
// We do not need to track uid map changes for restricted metrics since the uidmap is not
// stored in the sqlite db.
mUidMap->OnConfigUpdated(key);
} else if (configValid && config.has_restricted_metrics_delegate_package_name()) {
mUidMap->OnConfigRemoved(key);
}
if (!configValid) {
// If there is any error in the config, don't use it.
// Remove any existing config with the same key.
ALOGE("StatsdConfig NOT valid");
// Send an empty restricted metrics broadcast if the previous config was restricted.
if (isAtLeastU() && it != mMetricsManagers.end() &&
it->second->hasRestrictedMetricsDelegate()) {
mSendRestrictedMetricsBroadcast(key, it->second->getRestrictedMetricsDelegate(), {});
StatsdStats::getInstance().noteDbConfigInvalid(key);
dbutils::deleteDb(key);
}
mMetricsManagers.erase(key);
mUidMap->OnConfigRemoved(key);
}
updateLogEventFilterLocked();
}
size_t StatsLogProcessor::GetMetricsSize(const ConfigKey& key) const {
std::lock_guard<std::mutex> lock(mMetricsMutex);
auto it = mMetricsManagers.find(key);
if (it == mMetricsManagers.end()) {
ALOGW("Config source %s does not exist", key.ToString().c_str());
return 0;
}
return it->second->byteSize();
}
void StatsLogProcessor::dumpStates(int out, bool verbose) const {
std::lock_guard<std::mutex> lock(mMetricsMutex);
dprintf(out, "MetricsManager count: %lu\n", (unsigned long)mMetricsManagers.size());
for (const auto& metricsManager : mMetricsManagers) {
metricsManager.second->dumpStates(out, verbose);
}
}
/*
* onDumpReport dumps serialized ConfigMetricsReportList into proto.
*/
void StatsLogProcessor::onDumpReport(const ConfigKey& key, const int64_t dumpTimeStampNs,
const int64_t wallClockNs,
const bool include_current_partial_bucket,
const bool erase_data, const DumpReportReason dumpReportReason,
const DumpLatency dumpLatency, ProtoOutputStream* proto) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
auto it = mMetricsManagers.find(key);
if (it != mMetricsManagers.end() && it->second->hasRestrictedMetricsDelegate()) {
VLOG("Unexpected call to StatsLogProcessor::onDumpReport for restricted metrics.");
return;
}
// Start of ConfigKey.
uint64_t configKeyToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_ID_CONFIG_KEY);
proto->write(FIELD_TYPE_INT32 | FIELD_ID_UID, key.GetUid());
proto->write(FIELD_TYPE_INT64 | FIELD_ID_ID, (long long)key.GetId());
proto->end(configKeyToken);
// End of ConfigKey.
bool keepFile = false;
if (it != mMetricsManagers.end() && it->second->shouldPersistLocalHistory()) {
keepFile = true;
}
// Then, check stats-data directory to see there's any file containing
// ConfigMetricsReport from previous shutdowns to concatenate to reports.
StorageManager::appendConfigMetricsReport(
key, proto, erase_data && !keepFile /* should remove file after appending it */,
dumpReportReason == ADB_DUMP /*if caller is adb*/);
if (it != mMetricsManagers.end()) {
// This allows another broadcast to be sent within the rate-limit period if we get close to
// filling the buffer again soon.
mLastBroadcastTimes.erase(key);
vector<uint8_t> buffer;
onConfigMetricsReportLocked(key, dumpTimeStampNs, wallClockNs,
include_current_partial_bucket, erase_data, dumpReportReason,
dumpLatency, false /* is this data going to be saved on disk */,
&buffer);
proto->write(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_REPORTS,
reinterpret_cast<char*>(buffer.data()), buffer.size());
} else {
ALOGW("Config source %s does not exist", key.ToString().c_str());
}
if (erase_data) {
++mDumpReportNumbers[key];
}
proto->write(FIELD_TYPE_INT32 | FIELD_ID_REPORT_NUMBER, mDumpReportNumbers[key]);
proto->write(FIELD_TYPE_INT32 | FIELD_ID_STATSD_STATS_ID,
StatsdStats::getInstance().getStatsdStatsId());
if (erase_data) {
StatsdStats::getInstance().noteMetricsReportSent(key, proto->size(),
mDumpReportNumbers[key]);
}
}
/*
* onDumpReport dumps serialized ConfigMetricsReportList into outData.
*/
void StatsLogProcessor::onDumpReport(const ConfigKey& key, const int64_t dumpTimeStampNs,
const int64_t wallClockNs,
const bool include_current_partial_bucket,
const bool erase_data, const DumpReportReason dumpReportReason,
const DumpLatency dumpLatency, vector<uint8_t>* outData) {
ProtoOutputStream proto;
onDumpReport(key, dumpTimeStampNs, wallClockNs, include_current_partial_bucket, erase_data,
dumpReportReason, dumpLatency, &proto);
if (outData != nullptr) {
flushProtoToBuffer(proto, outData);
VLOG("output data size %zu", outData->size());
}
}
/*
* For test use only. Excludes wallclockNs.
* onDumpReport dumps serialized ConfigMetricsReportList into outData.
*/
void StatsLogProcessor::onDumpReport(const ConfigKey& key, const int64_t dumpTimeStampNs,
const bool include_current_partial_bucket,
const bool erase_data, const DumpReportReason dumpReportReason,
const DumpLatency dumpLatency, vector<uint8_t>* outData) {
onDumpReport(key, dumpTimeStampNs, getWallClockNs(), include_current_partial_bucket, erase_data,
dumpReportReason, dumpLatency, outData);
}
/*
* onConfigMetricsReportLocked dumps serialized ConfigMetricsReport into outData.
*/
void StatsLogProcessor::onConfigMetricsReportLocked(
const ConfigKey& key, const int64_t dumpTimeStampNs, const int64_t wallClockNs,
const bool include_current_partial_bucket, const bool erase_data,
const DumpReportReason dumpReportReason, const DumpLatency dumpLatency,
const bool dataSavedOnDisk, vector<uint8_t>* buffer) {
// We already checked whether key exists in mMetricsManagers in
// WriteDataToDisk.
auto it = mMetricsManagers.find(key);
if (it == mMetricsManagers.end()) {
return;
}
if (it->second->hasRestrictedMetricsDelegate()) {
VLOG("Unexpected call to StatsLogProcessor::onConfigMetricsReportLocked for restricted "
"metrics.");
// Do not call onDumpReport for restricted metrics.
return;
}
int64_t lastReportTimeNs = it->second->getLastReportTimeNs();
int64_t lastReportWallClockNs = it->second->getLastReportWallClockNs();
std::set<string> str_set;
int64_t totalSize = it->second->byteSize();
ProtoOutputStream tempProto;
// First, fill in ConfigMetricsReport using current data on memory, which
// starts from filling in StatsLogReport's.
it->second->onDumpReport(dumpTimeStampNs, wallClockNs, include_current_partial_bucket,
erase_data, dumpLatency, &str_set, &tempProto);
// Fill in UidMap if there is at least one metric to report.
// This skips the uid map if it's an empty config.
if (it->second->getNumMetrics() > 0) {
uint64_t uidMapToken = tempProto.start(FIELD_TYPE_MESSAGE | FIELD_ID_UID_MAP);
mUidMap->appendUidMap(dumpTimeStampNs, key, it->second->versionStringsInReport(),
it->second->installerInReport(),
it->second->packageCertificateHashSizeBytes(),
it->second->hashStringInReport() ? &str_set : nullptr, &tempProto);
tempProto.end(uidMapToken);
}
// Fill in the timestamps.
tempProto.write(FIELD_TYPE_INT64 | FIELD_ID_LAST_REPORT_ELAPSED_NANOS,
(long long)lastReportTimeNs);
tempProto.write(FIELD_TYPE_INT64 | FIELD_ID_CURRENT_REPORT_ELAPSED_NANOS,
(long long)dumpTimeStampNs);
tempProto.write(FIELD_TYPE_INT64 | FIELD_ID_LAST_REPORT_WALL_CLOCK_NANOS,
(long long)lastReportWallClockNs);
tempProto.write(FIELD_TYPE_INT64 | FIELD_ID_CURRENT_REPORT_WALL_CLOCK_NANOS,
(long long)wallClockNs);
// Dump report reason
tempProto.write(FIELD_TYPE_INT32 | FIELD_ID_DUMP_REPORT_REASON, dumpReportReason);
for (const auto& str : str_set) {
tempProto.write(FIELD_TYPE_STRING | FIELD_COUNT_REPEATED | FIELD_ID_STRINGS, str);
}
// Data corrupted reason
writeDataCorruptedReasons(tempProto, FIELD_ID_DATA_CORRUPTED_REASON,
StatsdStats::getInstance().hasEventQueueOverflow(),
StatsdStats::getInstance().hasSocketLoss());
// Estimated memory bytes
tempProto.write(FIELD_TYPE_INT64 | FIELD_ID_ESTIMATED_DATA_BYTES, totalSize);
flushProtoToBuffer(tempProto, buffer);
// save buffer to disk if needed
if (erase_data && !dataSavedOnDisk && it->second->shouldPersistLocalHistory()) {
VLOG("save history to disk");
string file_name = StorageManager::getDataHistoryFileName((long)getWallClockSec(),
key.GetUid(), key.GetId());
StorageManager::writeFile(file_name.c_str(), buffer->data(), buffer->size());
}
}
void StatsLogProcessor::resetConfigsLocked(const int64_t timestampNs,
const std::vector<ConfigKey>& configs) {
for (const auto& key : configs) {
StatsdConfig config;
if (StorageManager::readConfigFromDisk(key, &config)) {
// Force a full update when resetting a config.
OnConfigUpdatedLocked(timestampNs, key, config, /*modularUpdate=*/false);
StatsdStats::getInstance().noteConfigReset(key);
} else {
ALOGE("Failed to read backup config from disk for : %s", key.ToString().c_str());
auto it = mMetricsManagers.find(key);
if (it != mMetricsManagers.end()) {
it->second->refreshTtl(timestampNs);
}
}
}
}
void StatsLogProcessor::resetIfConfigTtlExpiredLocked(const int64_t eventTimeNs) {
std::vector<ConfigKey> configKeysTtlExpired;
for (auto it = mMetricsManagers.begin(); it != mMetricsManagers.end(); it++) {
if (it->second != nullptr && !it->second->isInTtl(eventTimeNs)) {
configKeysTtlExpired.push_back(it->first);
}
}
if (configKeysTtlExpired.size() > 0) {
WriteDataToDiskLocked(CONFIG_RESET, NO_TIME_CONSTRAINTS, getElapsedRealtimeNs(),
getWallClockNs());
resetConfigsLocked(eventTimeNs, configKeysTtlExpired);
}
}
void StatsLogProcessor::OnConfigRemoved(const ConfigKey& key) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
auto it = mMetricsManagers.find(key);
if (it != mMetricsManagers.end()) {
WriteDataToDiskLocked(key, getElapsedRealtimeNs(), getWallClockNs(), CONFIG_REMOVED,
NO_TIME_CONSTRAINTS);
if (isAtLeastU() && it->second->hasRestrictedMetricsDelegate()) {
StatsdStats::getInstance().noteDbDeletionConfigRemoved(key);
dbutils::deleteDb(key);
mSendRestrictedMetricsBroadcast(key, it->second->getRestrictedMetricsDelegate(), {});
}
mMetricsManagers.erase(it);
mUidMap->OnConfigRemoved(key);
}
StatsdStats::getInstance().noteConfigRemoved(key);
mLastBroadcastTimes.erase(key);
mLastByteSizeTimes.erase(key);
mDumpReportNumbers.erase(key);
int uid = key.GetUid();
bool lastConfigForUid = true;
for (const auto& it : mMetricsManagers) {
if (it.first.GetUid() == uid) {
lastConfigForUid = false;
break;
}
}
if (lastConfigForUid) {
mLastActivationBroadcastTimes.erase(uid);
}
if (mMetricsManagers.empty()) {
mPullerManager->ForceClearPullerCache();
}
updateLogEventFilterLocked();
}
// TODO(b/267501143): Add unit tests when metric producer is ready
void StatsLogProcessor::enforceDataTtlsIfNecessaryLocked(const int64_t wallClockNs,
const int64_t elapsedRealtimeNs) {
if (!isAtLeastU()) {
return;
}
if (elapsedRealtimeNs - mLastTtlTime < StatsdStats::kMinTtlCheckPeriodNs) {
return;
}
enforceDataTtlsLocked(wallClockNs, elapsedRealtimeNs);
}
void StatsLogProcessor::flushRestrictedDataIfNecessaryLocked(const int64_t elapsedRealtimeNs) {
if (!isAtLeastU()) {
return;
}
if (elapsedRealtimeNs - mLastFlushRestrictedTime < StatsdStats::kMinFlushRestrictedPeriodNs) {
return;
}
flushRestrictedDataLocked(elapsedRealtimeNs);
}
void StatsLogProcessor::querySql(const string& sqlQuery, const int32_t minSqlClientVersion,
const optional<vector<uint8_t>>& policyConfig,
const shared_ptr<IStatsQueryCallback>& callback,
const int64_t configId, const string& configPackage,
const int32_t callingUid) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
string err = "";
if (!isAtLeastU()) {
ALOGW("Restricted metrics query invoked on U- device");
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, std::nullopt, callingUid,
InvalidQueryReason(FLAG_DISABLED));
return;
}
const int64_t elapsedRealtimeNs = getElapsedRealtimeNs();
// TODO(b/268416460): validate policyConfig here
if (minSqlClientVersion > dbutils::getDbVersion()) {
callback->sendFailure(StringPrintf(
"Unsupported sqlite version. Installed Version: %d, Requested Version: %d.",
dbutils::getDbVersion(), minSqlClientVersion));
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, std::nullopt, callingUid,
InvalidQueryReason(UNSUPPORTED_SQLITE_VERSION));
return;
}
set<int32_t> configPackageUids;
const auto& uidMapItr = UidMap::sAidToUidMapping.find(configPackage);
if (uidMapItr != UidMap::sAidToUidMapping.end()) {
configPackageUids.insert(uidMapItr->second);
} else {
configPackageUids = mUidMap->getAppUid(configPackage);
}
InvalidQueryReason invalidQueryReason;
set<ConfigKey> keysToQuery = getRestrictedConfigKeysToQueryLocked(
callingUid, configId, configPackageUids, err, invalidQueryReason);
if (keysToQuery.empty()) {
callback->sendFailure(err);
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, std::nullopt, callingUid,
InvalidQueryReason(invalidQueryReason));
return;
}
if (keysToQuery.size() > 1) {
err = "Ambiguous ConfigKey";
callback->sendFailure(err);
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, std::nullopt, callingUid,
InvalidQueryReason(AMBIGUOUS_CONFIG_KEY));
return;
}
flushRestrictedDataLocked(elapsedRealtimeNs);
enforceDataTtlsLocked(getWallClockNs(), elapsedRealtimeNs);
std::vector<std::vector<std::string>> rows;
std::vector<int32_t> columnTypes;
std::vector<string> columnNames;
if (!dbutils::query(*(keysToQuery.begin()), sqlQuery, rows, columnTypes, columnNames, err)) {
callback->sendFailure(StringPrintf("failed to query db %s:", err.c_str()));
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, keysToQuery.begin()->GetUid(), callingUid,
InvalidQueryReason(QUERY_FAILURE), err.c_str());
return;
}
vector<string> queryData;
queryData.reserve(rows.size() * columnNames.size());
// TODO(b/268415904): avoid this vector transformation.
if (columnNames.size() != columnTypes.size()) {
callback->sendFailure("Inconsistent row sizes");
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, keysToQuery.begin()->GetUid(), callingUid,
InvalidQueryReason(INCONSISTENT_ROW_SIZE));
}
for (size_t i = 0; i < rows.size(); ++i) {
if (rows[i].size() != columnNames.size()) {
callback->sendFailure("Inconsistent row sizes");
StatsdStats::getInstance().noteQueryRestrictedMetricFailed(
configId, configPackage, keysToQuery.begin()->GetUid(), callingUid,
InvalidQueryReason(INCONSISTENT_ROW_SIZE));
return;
}
queryData.insert(std::end(queryData), std::make_move_iterator(std::begin(rows[i])),
std::make_move_iterator(std::end(rows[i])));
}
callback->sendResults(queryData, columnNames, columnTypes, rows.size());
StatsdStats::getInstance().noteQueryRestrictedMetricSucceed(
configId, configPackage, keysToQuery.begin()->GetUid(), callingUid,
/*queryLatencyNs=*/getElapsedRealtimeNs() - elapsedRealtimeNs);
}
set<ConfigKey> StatsLogProcessor::getRestrictedConfigKeysToQueryLocked(
const int32_t callingUid, const int64_t configId, const set<int32_t>& configPackageUids,
string& err, InvalidQueryReason& invalidQueryReason) {
set<ConfigKey> matchedConfigKeys;
for (auto uid : configPackageUids) {
ConfigKey configKey(uid, configId);
if (mMetricsManagers.find(configKey) != mMetricsManagers.end()) {
matchedConfigKeys.insert(configKey);
}
}
set<ConfigKey> excludedKeys;
for (auto& configKey : matchedConfigKeys) {
auto it = mMetricsManagers.find(configKey);
if (!it->second->validateRestrictedMetricsDelegate(callingUid)) {
excludedKeys.insert(configKey);
};
}
set<ConfigKey> result;
std::set_difference(matchedConfigKeys.begin(), matchedConfigKeys.end(), excludedKeys.begin(),
excludedKeys.end(), std::inserter(result, result.end()));
if (matchedConfigKeys.empty()) {
err = "No configs found matching the config key";
invalidQueryReason = InvalidQueryReason(CONFIG_KEY_NOT_FOUND);
} else if (result.empty()) {
err = "No matching configs for restricted metrics delegate";
invalidQueryReason = InvalidQueryReason(CONFIG_KEY_WITH_UNMATCHED_DELEGATE);
}
return result;
}
void StatsLogProcessor::EnforceDataTtls(const int64_t wallClockNs,
const int64_t elapsedRealtimeNs) {
if (!isAtLeastU()) {
return;
}
std::lock_guard<std::mutex> lock(mMetricsMutex);
enforceDataTtlsLocked(wallClockNs, elapsedRealtimeNs);
}
void StatsLogProcessor::enforceDataTtlsLocked(const int64_t wallClockNs,
const int64_t elapsedRealtimeNs) {
for (const auto& itr : mMetricsManagers) {
itr.second->enforceRestrictedDataTtls(wallClockNs);
}
mLastTtlTime = elapsedRealtimeNs;
}
void StatsLogProcessor::enforceDbGuardrailsIfNecessaryLocked(const int64_t wallClockNs,
const int64_t elapsedRealtimeNs) {
if (elapsedRealtimeNs - mLastDbGuardrailEnforcementTime <
StatsdStats::kMinDbGuardrailEnforcementPeriodNs) {
return;
}
StorageManager::enforceDbGuardrails(STATS_RESTRICTED_DATA_DIR, wallClockNs / NS_PER_SEC,
StatsdStats::kMaxFileSize);
mLastDbGuardrailEnforcementTime = elapsedRealtimeNs;
}
void StatsLogProcessor::fillRestrictedMetrics(const int64_t configId, const string& configPackage,
const int32_t delegateUid, vector<int64_t>* output) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
set<int32_t> configPackageUids;
const auto& uidMapItr = UidMap::sAidToUidMapping.find(configPackage);
if (uidMapItr != UidMap::sAidToUidMapping.end()) {
configPackageUids.insert(uidMapItr->second);
} else {
configPackageUids = mUidMap->getAppUid(configPackage);
}
string err;
InvalidQueryReason invalidQueryReason;
set<ConfigKey> keysToGetMetrics = getRestrictedConfigKeysToQueryLocked(
delegateUid, configId, configPackageUids, err, invalidQueryReason);
for (const ConfigKey& key : keysToGetMetrics) {
vector<int64_t> metricIds = mMetricsManagers[key]->getAllMetricIds();
output->insert(output->end(), metricIds.begin(), metricIds.end());
}
}
void StatsLogProcessor::flushRestrictedDataLocked(const int64_t elapsedRealtimeNs) {
for (const auto& it : mMetricsManagers) {
// no-op if metricsManager is not restricted
it.second->flushRestrictedData();
}
mLastFlushRestrictedTime = elapsedRealtimeNs;
}
void StatsLogProcessor::flushIfNecessaryLocked(const ConfigKey& key,
MetricsManager& metricsManager) {
int64_t elapsedRealtimeNs = getElapsedRealtimeNs();
auto lastCheckTime = mLastByteSizeTimes.find(key);
int64_t minCheckPeriodNs = metricsManager.useV2SoftMemoryCalculation()
? StatsdStats::kMinByteSizeV2CheckPeriodNs
: StatsdStats::kMinByteSizeCheckPeriodNs;
if (lastCheckTime != mLastByteSizeTimes.end()) {
if (elapsedRealtimeNs - lastCheckTime->second < minCheckPeriodNs) {
return;
}
}
// We suspect that the byteSize() computation is expensive, so we set a rate limit.
size_t totalBytes = metricsManager.byteSize();
mLastByteSizeTimes[key] = elapsedRealtimeNs;
const size_t kBytesPerConfig = metricsManager.hasRestrictedMetricsDelegate()
? StatsdStats::kBytesPerRestrictedConfigTriggerFlush
: metricsManager.getTriggerGetDataBytes();
bool requestDump = false;
if (totalBytes > metricsManager.getMaxMetricsBytes()) {
// Too late. We need to start clearing data.
metricsManager.dropData(elapsedRealtimeNs);
StatsdStats::getInstance().noteDataDropped(key, totalBytes);
VLOG("StatsD had to toss out metrics for %s", key.ToString().c_str());
} else if ((totalBytes > kBytesPerConfig) ||
(mOnDiskDataConfigs.find(key) != mOnDiskDataConfigs.end())) {
// Request to dump if:
// 1. in memory data > threshold OR
// 2. config has old data report on disk.
requestDump = true;
}
if (requestDump) {
if (metricsManager.hasRestrictedMetricsDelegate()) {
metricsManager.flushRestrictedData();
// No need to send broadcast for restricted metrics.
return;
}
// Send broadcast so that receivers can pull data.
auto lastBroadcastTime = mLastBroadcastTimes.find(key);
if (lastBroadcastTime != mLastBroadcastTimes.end()) {
if (elapsedRealtimeNs - lastBroadcastTime->second <
StatsdStats::kMinBroadcastPeriodNs) {
VLOG("StatsD would've sent a broadcast but the rate limit stopped us.");
return;
}
}
if (mSendBroadcast(key)) {
mOnDiskDataConfigs.erase(key);
VLOG("StatsD triggered data fetch for %s", key.ToString().c_str());
mLastBroadcastTimes[key] = elapsedRealtimeNs;
StatsdStats::getInstance().noteBroadcastSent(key);
}
}
}
void StatsLogProcessor::WriteDataToDiskLocked(const ConfigKey& key, const int64_t timestampNs,
const int64_t wallClockNs,
const DumpReportReason dumpReportReason,
const DumpLatency dumpLatency) {
if (mMetricsManagers.find(key) == mMetricsManagers.end() ||
!mMetricsManagers.find(key)->second->shouldWriteToDisk()) {
return;
}
if (mMetricsManagers.find(key)->second->hasRestrictedMetricsDelegate()) {
mMetricsManagers.find(key)->second->flushRestrictedData();
return;
}
vector<uint8_t> buffer;
onConfigMetricsReportLocked(key, timestampNs, wallClockNs,
true /* include_current_partial_bucket*/, true /* erase_data */,
dumpReportReason, dumpLatency, true, &buffer);
string file_name =
StorageManager::getDataFileName((long)getWallClockSec(), key.GetUid(), key.GetId());
StorageManager::writeFile(file_name.c_str(), buffer.data(), buffer.size());
// We were able to write the ConfigMetricsReport to disk, so we should trigger collection ASAP.
mOnDiskDataConfigs.insert(key);
}
void StatsLogProcessor::SaveActiveConfigsToDisk(int64_t currentTimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
const int64_t timeNs = getElapsedRealtimeNs();
// Do not write to disk if we already have in the last few seconds.
if (static_cast<unsigned long long> (timeNs) <
mLastActiveMetricsWriteNs + WRITE_DATA_COOL_DOWN_SEC * NS_PER_SEC) {
ALOGI("Statsd skipping writing active metrics to disk. Already wrote data in last %d seconds",
WRITE_DATA_COOL_DOWN_SEC);
return;
}
mLastActiveMetricsWriteNs = timeNs;
ProtoOutputStream proto;
WriteActiveConfigsToProtoOutputStreamLocked(currentTimeNs, DEVICE_SHUTDOWN, &proto);
string file_name = StringPrintf("%s/active_metrics", STATS_ACTIVE_METRIC_DIR);
StorageManager::deleteFile(file_name.c_str());
android::base::unique_fd fd(
open(file_name.c_str(), O_WRONLY | O_CREAT | O_CLOEXEC, S_IRUSR | S_IWUSR));
if (fd == -1) {
ALOGE("Attempt to write %s but failed", file_name.c_str());
return;
}
proto.flush(fd.get());
}
void StatsLogProcessor::SaveMetadataToDisk(int64_t currentWallClockTimeNs,
int64_t systemElapsedTimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
// Do not write to disk if we already have in the last few seconds.
if (static_cast<unsigned long long> (systemElapsedTimeNs) <
mLastMetadataWriteNs + WRITE_DATA_COOL_DOWN_SEC * NS_PER_SEC) {
ALOGI("Statsd skipping writing metadata to disk. Already wrote data in last %d seconds",
WRITE_DATA_COOL_DOWN_SEC);
return;
}
mLastMetadataWriteNs = systemElapsedTimeNs;
metadata::StatsMetadataList metadataList;
WriteMetadataToProtoLocked(
currentWallClockTimeNs, systemElapsedTimeNs, &metadataList);
string file_name = StringPrintf("%s/metadata", STATS_METADATA_DIR);
StorageManager::deleteFile(file_name.c_str());
if (metadataList.stats_metadata_size() == 0) {
// Skip the write if we have nothing to write.
return;
}
std::string data;
metadataList.SerializeToString(&data);
StorageManager::writeFile(file_name.c_str(), data.c_str(), data.size());
}
void StatsLogProcessor::WriteMetadataToProto(int64_t currentWallClockTimeNs,
int64_t systemElapsedTimeNs,
metadata::StatsMetadataList* metadataList) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
WriteMetadataToProtoLocked(currentWallClockTimeNs, systemElapsedTimeNs, metadataList);
}
void StatsLogProcessor::WriteMetadataToProtoLocked(int64_t currentWallClockTimeNs,
int64_t systemElapsedTimeNs,
metadata::StatsMetadataList* metadataList) {
for (const auto& pair : mMetricsManagers) {
const sp<MetricsManager>& metricsManager = pair.second;
metadata::StatsMetadata* statsMetadata = metadataList->add_stats_metadata();
bool metadataWritten = metricsManager->writeMetadataToProto(currentWallClockTimeNs,
systemElapsedTimeNs, statsMetadata);
if (!metadataWritten) {
metadataList->mutable_stats_metadata()->RemoveLast();
}
}
}
void StatsLogProcessor::LoadMetadataFromDisk(int64_t currentWallClockTimeNs,
int64_t systemElapsedTimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
string file_name = StringPrintf("%s/metadata", STATS_METADATA_DIR);
int fd = open(file_name.c_str(), O_RDONLY | O_CLOEXEC);
if (-1 == fd) {
VLOG("Attempt to read %s but failed", file_name.c_str());
StorageManager::deleteFile(file_name.c_str());
return;
}
string content;
if (!android::base::ReadFdToString(fd, &content)) {
ALOGE("Attempt to read %s but failed", file_name.c_str());
close(fd);
StorageManager::deleteFile(file_name.c_str());
return;
}
close(fd);
metadata::StatsMetadataList statsMetadataList;
if (!statsMetadataList.ParseFromString(content)) {
ALOGE("Attempt to read %s but failed; failed to metadata", file_name.c_str());
StorageManager::deleteFile(file_name.c_str());
return;
}
SetMetadataStateLocked(statsMetadataList, currentWallClockTimeNs, systemElapsedTimeNs);
StorageManager::deleteFile(file_name.c_str());
}
void StatsLogProcessor::SetMetadataState(const metadata::StatsMetadataList& statsMetadataList,
int64_t currentWallClockTimeNs,
int64_t systemElapsedTimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
SetMetadataStateLocked(statsMetadataList, currentWallClockTimeNs, systemElapsedTimeNs);
}
void StatsLogProcessor::SetMetadataStateLocked(
const metadata::StatsMetadataList& statsMetadataList,
int64_t currentWallClockTimeNs,
int64_t systemElapsedTimeNs) {
for (const metadata::StatsMetadata& metadata : statsMetadataList.stats_metadata()) {
ConfigKey key(metadata.config_key().uid(), metadata.config_key().config_id());
auto it = mMetricsManagers.find(key);
if (it == mMetricsManagers.end()) {
ALOGE("No config found for configKey %s", key.ToString().c_str());
continue;
}
VLOG("Setting metadata %s", key.ToString().c_str());
it->second->loadMetadata(metadata, currentWallClockTimeNs, systemElapsedTimeNs);
}
VLOG("Successfully loaded %d metadata.", statsMetadataList.stats_metadata_size());
}
void StatsLogProcessor::WriteActiveConfigsToProtoOutputStream(
int64_t currentTimeNs, const DumpReportReason reason, ProtoOutputStream* proto) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
WriteActiveConfigsToProtoOutputStreamLocked(currentTimeNs, reason, proto);
}
void StatsLogProcessor::WriteActiveConfigsToProtoOutputStreamLocked(
int64_t currentTimeNs, const DumpReportReason reason, ProtoOutputStream* proto) {
for (const auto& pair : mMetricsManagers) {
const sp<MetricsManager>& metricsManager = pair.second;
uint64_t configToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED |
FIELD_ID_ACTIVE_CONFIG_LIST_CONFIG);
metricsManager->writeActiveConfigToProtoOutputStream(currentTimeNs, reason, proto);
proto->end(configToken);
}
}
void StatsLogProcessor::LoadActiveConfigsFromDisk() {
std::lock_guard<std::mutex> lock(mMetricsMutex);
string file_name = StringPrintf("%s/active_metrics", STATS_ACTIVE_METRIC_DIR);
int fd = open(file_name.c_str(), O_RDONLY | O_CLOEXEC);
if (-1 == fd) {
VLOG("Attempt to read %s but failed", file_name.c_str());
StorageManager::deleteFile(file_name.c_str());
return;
}
string content;
if (!android::base::ReadFdToString(fd, &content)) {
ALOGE("Attempt to read %s but failed", file_name.c_str());
close(fd);
StorageManager::deleteFile(file_name.c_str());
return;
}
close(fd);
ActiveConfigList activeConfigList;
if (!activeConfigList.ParseFromString(content)) {
ALOGE("Attempt to read %s but failed; failed to load active configs", file_name.c_str());
StorageManager::deleteFile(file_name.c_str());
return;
}
// Passing in mTimeBaseNs only works as long as we only load from disk is when statsd starts.
SetConfigsActiveStateLocked(activeConfigList, mTimeBaseNs);
StorageManager::deleteFile(file_name.c_str());
}
void StatsLogProcessor::SetConfigsActiveState(const ActiveConfigList& activeConfigList,
int64_t currentTimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
SetConfigsActiveStateLocked(activeConfigList, currentTimeNs);
}
void StatsLogProcessor::SetConfigsActiveStateLocked(const ActiveConfigList& activeConfigList,
int64_t currentTimeNs) {
for (int i = 0; i < activeConfigList.config_size(); i++) {
const auto& config = activeConfigList.config(i);
ConfigKey key(config.uid(), config.id());
auto it = mMetricsManagers.find(key);
if (it == mMetricsManagers.end()) {
ALOGE("No config found for config %s", key.ToString().c_str());
continue;
}
VLOG("Setting active config %s", key.ToString().c_str());
it->second->loadActiveConfig(config, currentTimeNs);
}
VLOG("Successfully loaded %d active configs.", activeConfigList.config_size());
}
void StatsLogProcessor::WriteDataToDiskLocked(const DumpReportReason dumpReportReason,
const DumpLatency dumpLatency,
const int64_t elapsedRealtimeNs,
const int64_t wallClockNs) {
// Do not write to disk if we already have in the last few seconds.
// This is to avoid overwriting files that would have the same name if we
// write twice in the same second.
if (static_cast<unsigned long long>(elapsedRealtimeNs) <
mLastWriteTimeNs + WRITE_DATA_COOL_DOWN_SEC * NS_PER_SEC) {
ALOGI("Statsd skipping writing data to disk. Already wrote data in last %d seconds",
WRITE_DATA_COOL_DOWN_SEC);
return;
}
mLastWriteTimeNs = elapsedRealtimeNs;
for (auto& pair : mMetricsManagers) {
WriteDataToDiskLocked(pair.first, elapsedRealtimeNs, wallClockNs, dumpReportReason,
dumpLatency);
}
}
void StatsLogProcessor::WriteDataToDisk(const DumpReportReason dumpReportReason,
const DumpLatency dumpLatency,
const int64_t elapsedRealtimeNs,
const int64_t wallClockNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
WriteDataToDiskLocked(dumpReportReason, dumpLatency, elapsedRealtimeNs, wallClockNs);
}
void StatsLogProcessor::informPullAlarmFired(const int64_t timestampNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
mPullerManager->OnAlarmFired(timestampNs);
}
int64_t StatsLogProcessor::getLastReportTimeNs(const ConfigKey& key) {
auto it = mMetricsManagers.find(key);
if (it == mMetricsManagers.end()) {
return 0;
} else {
return it->second->getLastReportTimeNs();
}
}
void StatsLogProcessor::notifyAppUpgrade(const int64_t eventTimeNs, const string& apk,
const int uid, const int64_t version) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
VLOG("Received app upgrade");
StateManager::getInstance().notifyAppChanged(apk, mUidMap);
for (const auto& it : mMetricsManagers) {
it.second->notifyAppUpgrade(eventTimeNs, apk, uid, version);
}
}
void StatsLogProcessor::notifyAppRemoved(const int64_t eventTimeNs, const string& apk,
const int uid) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
VLOG("Received app removed");
StateManager::getInstance().notifyAppChanged(apk, mUidMap);
for (const auto& it : mMetricsManagers) {
it.second->notifyAppRemoved(eventTimeNs, apk, uid);
}
}
void StatsLogProcessor::onUidMapReceived(const int64_t eventTimeNs) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
VLOG("Received uid map");
StateManager::getInstance().updateLogSources(mUidMap);
for (const auto& it : mMetricsManagers) {
it.second->onUidMapReceived(eventTimeNs);
}
}
void StatsLogProcessor::onStatsdInitCompleted(const int64_t elapsedTimeNs) {
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMetricsMutex);
VLOG("Received boot completed signal");
for (const auto& it : mMetricsManagers) {
it.second->onStatsdInitCompleted(elapsedTimeNs);
}
}
void StatsLogProcessor::noteOnDiskData(const ConfigKey& key) {
std::lock_guard<std::mutex> lock(mMetricsMutex);
mOnDiskDataConfigs.insert(key);
}
void StatsLogProcessor::setAnomalyAlarm(const int64_t elapsedTimeMillis) {
std::lock_guard<std::mutex> lock(mAnomalyAlarmMutex);
mNextAnomalyAlarmTime = elapsedTimeMillis;
}
void StatsLogProcessor::cancelAnomalyAlarm() {
std::lock_guard<std::mutex> lock(mAnomalyAlarmMutex);
mNextAnomalyAlarmTime = 0;
}
void StatsLogProcessor::informAnomalyAlarmFiredLocked(const int64_t elapsedTimeMillis) {
VLOG("StatsService::informAlarmForSubscriberTriggeringFired was called");
unordered_set<sp<const InternalAlarm>, SpHash<InternalAlarm>> alarmSet =
mAnomalyAlarmMonitor->popSoonerThan(static_cast<uint32_t>(elapsedTimeMillis / 1000));
if (alarmSet.size() > 0) {
VLOG("Found periodic alarm fired.");
processFiredAnomalyAlarmsLocked(MillisToNano(elapsedTimeMillis), alarmSet);
} else {
ALOGW("Cannot find an periodic alarm that fired. Perhaps it was recently cancelled.");
}
}
LogEventFilter::AtomIdSet StatsLogProcessor::getDefaultAtomIdSet() {
// populate hard-coded list of useful atoms
// we add also atoms which could be pushed by statsd itself to simplify the logic
// to handle metric configs update: APP_BREADCRUMB_REPORTED & ANOMALY_DETECTED
LogEventFilter::AtomIdSet allAtomIds{
util::BINARY_PUSH_STATE_CHANGED, util::ISOLATED_UID_CHANGED,
util::APP_BREADCRUMB_REPORTED, util::WATCHDOG_ROLLBACK_OCCURRED,
util::ANOMALY_DETECTED, util::STATS_SOCKET_LOSS_REPORTED};
return allAtomIds;
}
void StatsLogProcessor::updateLogEventFilterLocked() const {
VLOG("StatsLogProcessor: Updating allAtomIds");
LogEventFilter::AtomIdSet allAtomIds = getDefaultAtomIdSet();
for (const auto& metricsManager : mMetricsManagers) {
metricsManager.second->addAllAtomIds(allAtomIds);
}
StateManager::getInstance().addAllAtomIds(allAtomIds);
VLOG("StatsLogProcessor: Updating allAtomIds done. Total atoms %d", (int)allAtomIds.size());
mLogEventFilter->setAtomIds(std::move(allAtomIds), this);
}
bool StatsLogProcessor::validateAppBreadcrumbEvent(const LogEvent& event) const {
if (event.GetTagId() == util::APP_BREADCRUMB_REPORTED) {
// Check that app breadcrumb reported fields are valid.
status_t err = NO_ERROR;
// Uid is 3rd from last field and must match the caller's uid,
// unless that caller is statsd itself (statsd is allowed to spoof uids).
const long appHookUid = event.GetLong(event.size() - 2, &err);
if (err != NO_ERROR) {
VLOG("APP_BREADCRUMB_REPORTED had error when parsing the uid");
return false;
}
// Because the uid within the LogEvent may have been mapped from
// isolated to host, map the loggerUid similarly before comparing.
const int32_t loggerUid = mUidMap->getHostUidOrSelf(event.GetUid());
if (loggerUid != appHookUid && loggerUid != AID_STATSD) {
VLOG("APP_BREADCRUMB_REPORTED has invalid uid: claimed %ld but caller is %d",
appHookUid, loggerUid);
return false;
}
// The state must be from 0,3. This part of code must be manually updated.
const long appHookState = event.GetLong(event.size(), &err);
if (err != NO_ERROR) {
VLOG("APP_BREADCRUMB_REPORTED had error when parsing the state field");
return false;
} else if (appHookState < 0 || appHookState > 3) {
VLOG("APP_BREADCRUMB_REPORTED does not have valid state %ld", appHookState);
return false;
}
}
return true;
}
} // namespace statsd
} // namespace os
} // namespace android
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