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/*
* Copyright (C) 2020 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 LOG_NDEBUG 0
#define LOG_TAG "AudioPowerUsage"
#include <utils/Log.h>
#include "AudioAnalytics.h"
#include "MediaMetricsService.h"
#include "StringUtils.h"
#include <map>
#include <sstream>
#include <string>
#include <audio_utils/clock.h>
#include <cutils/properties.h>
#include <stats_media_metrics.h>
#include <sys/timerfd.h>
#include <system/audio.h>
// property to disable audio power use metrics feature, default is enabled
#define PROP_AUDIO_METRICS_DISABLED "persist.media.audio_metrics.power_usage_disabled"
#define AUDIO_METRICS_DISABLED_DEFAULT (false)
// property to set how long to send audio power use metrics data to statsd, default is 24hrs
#define PROP_AUDIO_METRICS_INTERVAL_HR "persist.media.audio_metrics.interval_hr"
#define INTERVAL_HR_DEFAULT (24)
// for Audio Power Usage Metrics
#define AUDIO_POWER_USAGE_KEY_AUDIO_USAGE "audio.power.usage"
#define AUDIO_POWER_USAGE_PROP_DEVICE "device" // int32
#define AUDIO_POWER_USAGE_PROP_DURATION_NS "durationNs" // int64
#define AUDIO_POWER_USAGE_PROP_TYPE "type" // int32
#define AUDIO_POWER_USAGE_PROP_VOLUME "volume" // double
#define AUDIO_POWER_USAGE_PROP_MIN_VOLUME_DURATION_NS "minVolumeDurationNs" // int64
#define AUDIO_POWER_USAGE_PROP_MIN_VOLUME "minVolume" // double
#define AUDIO_POWER_USAGE_PROP_MAX_VOLUME_DURATION_NS "maxVolumeDurationNs" // int64
#define AUDIO_POWER_USAGE_PROP_MAX_VOLUME "maxVolume" // double
namespace android::mediametrics {
/* static */
bool AudioPowerUsage::typeFromString(const std::string& type_string, int32_t& type) {
static std::map<std::string, int32_t> typeTable = {
{ "AUDIO_STREAM_VOICE_CALL", VOIP_CALL_TYPE },
{ "AUDIO_STREAM_SYSTEM", MEDIA_TYPE },
{ "AUDIO_STREAM_RING", RINGTONE_NOTIFICATION_TYPE },
{ "AUDIO_STREAM_MUSIC", MEDIA_TYPE },
{ "AUDIO_STREAM_ALARM", ALARM_TYPE },
{ "AUDIO_STREAM_NOTIFICATION", RINGTONE_NOTIFICATION_TYPE },
{ "AUDIO_CONTENT_TYPE_SPEECH", VOIP_CALL_TYPE },
{ "AUDIO_CONTENT_TYPE_MUSIC", MEDIA_TYPE },
{ "AUDIO_CONTENT_TYPE_MOVIE", MEDIA_TYPE },
{ "AUDIO_CONTENT_TYPE_SONIFICATION", RINGTONE_NOTIFICATION_TYPE },
{ "AUDIO_USAGE_MEDIA", MEDIA_TYPE },
{ "AUDIO_USAGE_VOICE_COMMUNICATION", VOIP_CALL_TYPE },
{ "AUDIO_USAGE_ALARM", ALARM_TYPE },
{ "AUDIO_USAGE_NOTIFICATION", RINGTONE_NOTIFICATION_TYPE },
{ "AUDIO_SOURCE_CAMCORDER", CAMCORDER_TYPE },
{ "AUDIO_SOURCE_VOICE_COMMUNICATION", VOIP_CALL_TYPE },
{ "AUDIO_SOURCE_DEFAULT", RECORD_TYPE },
{ "AUDIO_SOURCE_MIC", RECORD_TYPE },
{ "AUDIO_SOURCE_UNPROCESSED", RECORD_TYPE },
{ "AUDIO_SOURCE_VOICE_RECOGNITION", RECORD_TYPE },
};
auto it = typeTable.find(type_string);
if (it == typeTable.end()) {
type = UNKNOWN_TYPE;
return false;
}
type = it->second;
return true;
}
/* static */
bool AudioPowerUsage::deviceFromString(const std::string& device_string, int32_t& device) {
static std::map<std::string, int32_t> deviceTable = {
{ "AUDIO_DEVICE_OUT_EARPIECE", OUTPUT_EARPIECE },
{ "AUDIO_DEVICE_OUT_SPEAKER_SAFE", OUTPUT_SPEAKER_SAFE },
{ "AUDIO_DEVICE_OUT_SPEAKER", OUTPUT_SPEAKER },
{ "AUDIO_DEVICE_OUT_WIRED_HEADSET", OUTPUT_WIRED_HEADSET },
{ "AUDIO_DEVICE_OUT_WIRED_HEADPHONE", OUTPUT_WIRED_HEADSET },
{ "AUDIO_DEVICE_OUT_BLUETOOTH_SCO", OUTPUT_BLUETOOTH_SCO },
{ "AUDIO_DEVICE_OUT_BLUETOOTH_A2DP", OUTPUT_BLUETOOTH_A2DP },
{ "AUDIO_DEVICE_OUT_USB_HEADSET", OUTPUT_USB_HEADSET },
{ "AUDIO_DEVICE_OUT_BLUETOOTH_SCO_HEADSET", OUTPUT_BLUETOOTH_SCO },
{ "AUDIO_DEVICE_IN_BUILTIN_MIC", INPUT_BUILTIN_MIC },
{ "AUDIO_DEVICE_IN_BLUETOOTH_SCO_HEADSET", INPUT_BLUETOOTH_SCO },
{ "AUDIO_DEVICE_IN_WIRED_HEADSET", INPUT_WIRED_HEADSET_MIC },
{ "AUDIO_DEVICE_IN_USB_DEVICE", INPUT_USB_HEADSET_MIC },
{ "AUDIO_DEVICE_IN_BACK_MIC", INPUT_BUILTIN_BACK_MIC },
};
auto it = deviceTable.find(device_string);
if (it == deviceTable.end()) {
device = 0;
return false;
}
device = it->second;
return true;
}
int32_t AudioPowerUsage::deviceFromStringPairs(const std::string& device_strings) {
int32_t deviceMask = 0;
const auto devaddrvec = stringutils::getDeviceAddressPairs(device_strings);
for (const auto &[device, addr] : devaddrvec) {
int32_t combo_device = 0;
deviceFromString(device, combo_device);
deviceMask |= combo_device;
}
return deviceMask;
}
void AudioPowerUsage::sendItem(const std::shared_ptr<const mediametrics::Item>& item) const
{
int32_t type;
if (!item->getInt32(AUDIO_POWER_USAGE_PROP_TYPE, &type)) return;
int32_t audio_device;
if (!item->getInt32(AUDIO_POWER_USAGE_PROP_DEVICE, &audio_device)) return;
int64_t duration_ns;
if (!item->getInt64(AUDIO_POWER_USAGE_PROP_DURATION_NS, &duration_ns)) return;
double volume;
if (!item->getDouble(AUDIO_POWER_USAGE_PROP_VOLUME, &volume)) return;
int64_t min_volume_duration_ns;
if (!item->getInt64(AUDIO_POWER_USAGE_PROP_MIN_VOLUME_DURATION_NS, &min_volume_duration_ns)) {
return;
}
double min_volume;
if (!item->getDouble(AUDIO_POWER_USAGE_PROP_MIN_VOLUME, &min_volume)) return;
int64_t max_volume_duration_ns;
if (!item->getInt64(AUDIO_POWER_USAGE_PROP_MAX_VOLUME_DURATION_NS, &max_volume_duration_ns)) {
return;
}
double max_volume;
if (!item->getDouble(AUDIO_POWER_USAGE_PROP_MAX_VOLUME, &max_volume)) return;
const int32_t duration_secs = (int32_t)(duration_ns / NANOS_PER_SECOND);
const int32_t min_volume_duration_secs = (int32_t)(min_volume_duration_ns / NANOS_PER_SECOND);
const int32_t max_volume_duration_secs = (int32_t)(max_volume_duration_ns / NANOS_PER_SECOND);
const int result = stats::media_metrics::stats_write(stats::media_metrics::AUDIO_POWER_USAGE_DATA_REPORTED,
audio_device,
duration_secs,
(float)volume,
type,
min_volume_duration_secs,
(float)min_volume,
max_volume_duration_secs,
(float)max_volume);
std::stringstream log;
log << "result:" << result << " {"
<< " mediametrics_audio_power_usage_data_reported:"
<< stats::media_metrics::AUDIO_POWER_USAGE_DATA_REPORTED
<< " audio_device:" << audio_device
<< " duration_secs:" << duration_secs
<< " average_volume:" << (float)volume
<< " type:" << type
<< " min_volume_duration_secs:" << min_volume_duration_secs
<< " min_volume:" << (float)min_volume
<< " max_volume_duration_secs:" << max_volume_duration_secs
<< " max_volume:" << (float)max_volume
<< " }";
mStatsdLog->log(stats::media_metrics::AUDIO_POWER_USAGE_DATA_REPORTED, log.str());
}
void AudioPowerUsage::updateMinMaxVolumeAndDuration(
const int64_t cur_max_volume_duration_ns, const double cur_max_volume,
const int64_t cur_min_volume_duration_ns, const double cur_min_volume,
int64_t& f_max_volume_duration_ns, double& f_max_volume,
int64_t& f_min_volume_duration_ns, double& f_min_volume)
{
if (f_min_volume > cur_min_volume) {
f_min_volume = cur_min_volume;
f_min_volume_duration_ns = cur_min_volume_duration_ns;
} else if (f_min_volume == cur_min_volume) {
f_min_volume_duration_ns += cur_min_volume_duration_ns;
}
if (f_max_volume < cur_max_volume) {
f_max_volume = cur_max_volume;
f_max_volume_duration_ns = cur_max_volume_duration_ns;
} else if (f_max_volume == cur_max_volume) {
f_max_volume_duration_ns += cur_max_volume_duration_ns;
}
}
bool AudioPowerUsage::saveAsItem_l(
int32_t device, int64_t duration_ns, int32_t type, double average_vol,
int64_t max_volume_duration_ns, double max_volume,
int64_t min_volume_duration_ns, double min_volume)
{
ALOGV("%s: (%#x, %d, %lld, %f)", __func__, device, type,
(long long)duration_ns, average_vol);
if (duration_ns == 0) {
return true; // skip duration 0 usage
}
if (device == 0) {
return true; //ignore unknown device
}
for (const auto& item : mItems) {
int32_t item_type = 0, item_device = 0;
double item_volume = 0.;
int64_t item_duration_ns = 0;
item->getInt32(AUDIO_POWER_USAGE_PROP_DEVICE, &item_device);
item->getInt64(AUDIO_POWER_USAGE_PROP_DURATION_NS, &item_duration_ns);
item->getInt32(AUDIO_POWER_USAGE_PROP_TYPE, &item_type);
item->getDouble(AUDIO_POWER_USAGE_PROP_VOLUME, &item_volume);
// aggregate by device and type
if (item_device == device && item_type == type) {
int64_t final_duration_ns = item_duration_ns + duration_ns;
double final_volume = (device & INPUT_DEVICE_BIT) ? 1.0:
((item_volume * (double)item_duration_ns +
average_vol * (double)duration_ns) / (double)final_duration_ns);
item->setInt64(AUDIO_POWER_USAGE_PROP_DURATION_NS, final_duration_ns);
item->setDouble(AUDIO_POWER_USAGE_PROP_VOLUME, final_volume);
item->setTimestamp(systemTime(SYSTEM_TIME_REALTIME));
// Update the max/min volume and duration
int64_t final_min_volume_duration_ns;
int64_t final_max_volume_duration_ns;
double final_min_volume;
double final_max_volume;
item->getInt64(AUDIO_POWER_USAGE_PROP_MIN_VOLUME_DURATION_NS,
&final_min_volume_duration_ns);
item->getDouble(AUDIO_POWER_USAGE_PROP_MIN_VOLUME, &final_min_volume);
item->getInt64(AUDIO_POWER_USAGE_PROP_MAX_VOLUME_DURATION_NS,
&final_max_volume_duration_ns);
item->getDouble(AUDIO_POWER_USAGE_PROP_MAX_VOLUME, &final_max_volume);
updateMinMaxVolumeAndDuration(max_volume_duration_ns, max_volume,
min_volume_duration_ns, min_volume,
final_max_volume_duration_ns, final_max_volume,
final_min_volume_duration_ns, final_min_volume);
item->setInt64(AUDIO_POWER_USAGE_PROP_MIN_VOLUME_DURATION_NS,
final_min_volume_duration_ns);
item->setDouble(AUDIO_POWER_USAGE_PROP_MIN_VOLUME, final_min_volume);
item->setInt64(AUDIO_POWER_USAGE_PROP_MAX_VOLUME_DURATION_NS,
final_max_volume_duration_ns);
item->setDouble(AUDIO_POWER_USAGE_PROP_MAX_VOLUME, final_max_volume);
ALOGV("%s: update (%#x, %d, %lld, %f) --> (%lld, %f) min(%lld, %f) max(%lld, %f)",
__func__,
device, type,
(long long)item_duration_ns, item_volume,
(long long)final_duration_ns, final_volume,
(long long)final_min_volume_duration_ns, final_min_volume,
(long long)final_max_volume_duration_ns, final_max_volume);
return true;
}
}
auto sitem = std::make_shared<mediametrics::Item>(AUDIO_POWER_USAGE_KEY_AUDIO_USAGE);
sitem->setTimestamp(systemTime(SYSTEM_TIME_REALTIME));
sitem->setInt32(AUDIO_POWER_USAGE_PROP_DEVICE, device);
sitem->setInt64(AUDIO_POWER_USAGE_PROP_DURATION_NS, duration_ns);
sitem->setInt32(AUDIO_POWER_USAGE_PROP_TYPE, type);
sitem->setDouble(AUDIO_POWER_USAGE_PROP_VOLUME, average_vol);
sitem->setInt64(AUDIO_POWER_USAGE_PROP_MIN_VOLUME_DURATION_NS, min_volume_duration_ns);
sitem->setDouble(AUDIO_POWER_USAGE_PROP_MIN_VOLUME, min_volume);
sitem->setInt64(AUDIO_POWER_USAGE_PROP_MAX_VOLUME_DURATION_NS, max_volume_duration_ns);
sitem->setDouble(AUDIO_POWER_USAGE_PROP_MAX_VOLUME, max_volume);
mItems.emplace_back(sitem);
return true;
}
bool AudioPowerUsage::saveAsItems_l(
int32_t device, int64_t duration_ns, int32_t type, double average_vol,
int64_t max_volume_duration, double max_volume,
int64_t min_volume_duration, double min_volume)
{
ALOGV("%s: (%#x, %d, %lld, %f)", __func__, device, type,
(long long)duration_ns, average_vol );
if (duration_ns == 0) {
return true; // skip duration 0 usage
}
if (device == 0) {
return true; //ignore unknown device
}
bool ret = false;
const int32_t input_bit = device & INPUT_DEVICE_BIT;
int32_t device_bits = device ^ input_bit;
while (device_bits != 0) {
int32_t tmp_device = device_bits & -device_bits; // get lowest bit
device_bits ^= tmp_device; // clear lowest bit
tmp_device |= input_bit; // restore input bit
ret = saveAsItem_l(tmp_device, duration_ns, type, average_vol,
max_volume_duration, max_volume,
min_volume_duration, min_volume);
ALOGV("%s: device %#x recorded, remaining device_bits = %#x", __func__,
tmp_device, device_bits);
}
return ret;
}
void AudioPowerUsage::checkTrackRecord(
const std::shared_ptr<const mediametrics::Item>& item, bool isTrack)
{
const std::string key = item->getKey();
int64_t deviceTimeNs = 0;
if (!item->getInt64(AMEDIAMETRICS_PROP_DEVICETIMENS, &deviceTimeNs)) {
return;
}
double deviceVolume = 1.;
int64_t maxVolumeDurationNs = 0;
double maxVolume = AMEDIAMETRICS_INITIAL_MAX_VOLUME;
int64_t minVolumeDurationNs = 0;
double minVolume = AMEDIAMETRICS_INITIAL_MIN_VOLUME;
if (isTrack) {
if (!item->getDouble(AMEDIAMETRICS_PROP_DEVICEVOLUME, &deviceVolume)) {
return;
}
if (!item->getInt64(AMEDIAMETRICS_PROP_DEVICEMAXVOLUMEDURATIONNS, &maxVolumeDurationNs)) {
return;
}
if (!item->getDouble(AMEDIAMETRICS_PROP_DEVICEMAXVOLUME, &maxVolume)) {
return;
}
if (!item->getInt64(AMEDIAMETRICS_PROP_DEVICEMINVOLUMEDURATIONNS, &minVolumeDurationNs)) {
return;
}
if (!item->getDouble(AMEDIAMETRICS_PROP_DEVICEMINVOLUME, &minVolume)) {
return;
}
}
int32_t type = 0;
std::string type_string;
if ((isTrack && mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_STREAMTYPE, &type_string) == OK) ||
(!isTrack && mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_SOURCE, &type_string) == OK)) {
typeFromString(type_string, type);
if (isTrack && type == UNKNOWN_TYPE &&
mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_USAGE, &type_string) == OK) {
typeFromString(type_string, type);
}
if (isTrack && type == UNKNOWN_TYPE &&
mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_CONTENTTYPE, &type_string) == OK) {
typeFromString(type_string, type);
}
ALOGV("type = %s => %d", type_string.c_str(), type);
}
int32_t device = 0;
std::string device_strings;
if ((isTrack && mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_OUTPUTDEVICES, &device_strings) == OK) ||
(!isTrack && mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_INPUTDEVICES, &device_strings) == OK)) {
device = deviceFromStringPairs(device_strings);
ALOGV("device = %s => %d", device_strings.c_str(), device);
}
std::lock_guard l(mLock);
saveAsItems_l(device, deviceTimeNs, type, deviceVolume,
maxVolumeDurationNs, maxVolume, minVolumeDurationNs, minVolume);
}
void AudioPowerUsage::checkMode(const std::shared_ptr<const mediametrics::Item>& item)
{
std::string mode;
if (!item->getString(AMEDIAMETRICS_PROP_AUDIOMODE, &mode)) return;
std::lock_guard l(mLock);
if (mode == mMode) return; // no change in mode.
if (mMode == "AUDIO_MODE_IN_CALL") { // leaving call mode
const int64_t endCallNs = item->getTimestamp();
const int64_t durationNs = endCallNs - mDeviceTimeNs;
const int64_t volumeDurationNs = endCallNs - mVolumeTimeNs;
if (durationNs > 0) {
mDeviceVolume = (mDeviceVolume * double(mVolumeTimeNs - mDeviceTimeNs) +
mVoiceVolume * double(volumeDurationNs)) / (double)durationNs;
updateMinMaxVolumeAndDuration(volumeDurationNs, mVoiceVolume,
volumeDurationNs, mVoiceVolume,
mMaxVoiceVolumeDurationNs, mMaxVoiceVolume,
mMinVoiceVolumeDurationNs, mMinVoiceVolume);
saveAsItems_l(mPrimaryDevice, durationNs, VOICE_CALL_TYPE, mDeviceVolume,
mMaxVoiceVolumeDurationNs, mMaxVoiceVolume,
mMinVoiceVolumeDurationNs, mMinVoiceVolume);
}
} else if (mode == "AUDIO_MODE_IN_CALL") { // entering call mode
mStartCallNs = item->getTimestamp(); // advisory only
mDeviceVolume = 0;
mVolumeTimeNs = mStartCallNs;
mDeviceTimeNs = mStartCallNs;
}
ALOGV("%s: new mode:%s old mode:%s", __func__, mode.c_str(), mMode.c_str());
mMode = mode;
}
void AudioPowerUsage::checkVoiceVolume(const std::shared_ptr<const mediametrics::Item>& item)
{
double voiceVolume = 0.;
if (!item->getDouble(AMEDIAMETRICS_PROP_VOICEVOLUME, &voiceVolume)) return;
std::lock_guard l(mLock);
if (voiceVolume == mVoiceVolume) return; // no change in volume
// we only track average device volume when we are in-call
if (mMode == "AUDIO_MODE_IN_CALL") {
const int64_t timeNs = item->getTimestamp();
const int64_t durationNs = timeNs - mDeviceTimeNs;
const int64_t volumeDurationNs = timeNs - mVolumeTimeNs;
if (durationNs > 0) {
mDeviceVolume = (mDeviceVolume * double(mVolumeTimeNs - mDeviceTimeNs) +
mVoiceVolume * double(volumeDurationNs)) / (double)durationNs;
mVolumeTimeNs = timeNs;
updateMinMaxVolumeAndDuration(volumeDurationNs, mVoiceVolume,
volumeDurationNs, mVoiceVolume,
mMaxVoiceVolumeDurationNs, mMaxVoiceVolume,
mMinVoiceVolumeDurationNs, mMinVoiceVolume);
}
}
ALOGV("%s: new voice volume:%lf old voice volume:%lf", __func__, voiceVolume, mVoiceVolume);
mVoiceVolume = voiceVolume;
}
void AudioPowerUsage::checkCreatePatch(const std::shared_ptr<const mediametrics::Item>& item)
{
std::string outputDevices;
if (!item->get(AMEDIAMETRICS_PROP_OUTPUTDEVICES, &outputDevices)) return;
const std::string& key = item->getKey();
std::string flags;
if (mAudioAnalytics->mAnalyticsState->timeMachine().get(
key, AMEDIAMETRICS_PROP_FLAGS, &flags) != OK) return;
if (flags.find("AUDIO_OUTPUT_FLAG_PRIMARY") == std::string::npos) return;
const int32_t device = deviceFromStringPairs(outputDevices);
std::lock_guard l(mLock);
if (mPrimaryDevice == device) return;
if (mMode == "AUDIO_MODE_IN_CALL") {
// Save statistics
const int64_t endDeviceNs = item->getTimestamp();
const int64_t durationNs = endDeviceNs - mDeviceTimeNs;
const int64_t volumeDurationNs = endDeviceNs - mVolumeTimeNs;
if (durationNs > 0) {
mDeviceVolume = (mDeviceVolume * double(mVolumeTimeNs - mDeviceTimeNs) +
mVoiceVolume * double(volumeDurationNs)) / (double)durationNs;
updateMinMaxVolumeAndDuration(volumeDurationNs, mVoiceVolume,
volumeDurationNs, mVoiceVolume,
mMaxVoiceVolumeDurationNs, mMaxVoiceVolume,
mMinVoiceVolumeDurationNs, mMinVoiceVolume);
saveAsItems_l(mPrimaryDevice, durationNs, VOICE_CALL_TYPE, mDeviceVolume,
mMaxVoiceVolumeDurationNs, mMaxVoiceVolume,
mMinVoiceVolumeDurationNs, mMinVoiceVolume);
}
// reset statistics
mDeviceVolume = 0;
mDeviceTimeNs = endDeviceNs;
mVolumeTimeNs = endDeviceNs;
mMaxVoiceVolume = AMEDIAMETRICS_INITIAL_MAX_VOLUME;
mMinVoiceVolume = AMEDIAMETRICS_INITIAL_MIN_VOLUME;
mMaxVoiceVolumeDurationNs = 0;
mMinVoiceVolumeDurationNs = 0;
}
ALOGV("%s: new primary device:%#x old primary device:%#x", __func__, device, mPrimaryDevice);
mPrimaryDevice = device;
}
AudioPowerUsage::AudioPowerUsage(
AudioAnalytics *audioAnalytics, const std::shared_ptr<StatsdLog>& statsdLog)
: mAudioAnalytics(audioAnalytics)
, mStatsdLog(statsdLog)
, mDisabled(property_get_bool(PROP_AUDIO_METRICS_DISABLED, AUDIO_METRICS_DISABLED_DEFAULT))
, mIntervalHours(property_get_int32(PROP_AUDIO_METRICS_INTERVAL_HR, INTERVAL_HR_DEFAULT))
{
ALOGD("%s", __func__);
ALOGI_IF(mDisabled, "AudioPowerUsage is disabled.");
collect(); // send items
}
AudioPowerUsage::~AudioPowerUsage()
{
ALOGD("%s", __func__);
}
void AudioPowerUsage::clear()
{
std::lock_guard _l(mLock);
mItems.clear();
}
void AudioPowerUsage::collect()
{
std::lock_guard _l(mLock);
for (const auto &item : mItems) {
sendItem(item);
}
mItems.clear();
mAudioAnalytics->mTimedAction.postIn(
mIntervalHours <= 0 ? std::chrono::seconds(5) : std::chrono::hours(mIntervalHours),
[this](){ collect(); });
}
std::pair<std::string, int32_t> AudioPowerUsage::dump(int limit) const {
if (limit <= 2) {
return {{}, 0};
}
std::lock_guard _l(mLock);
if (mDisabled) {
return {"AudioPowerUsage disabled\n", 1};
}
if (mItems.empty()) {
return {"AudioPowerUsage empty\n", 1};
}
int slot = 1;
std::stringstream ss;
ss << "AudioPowerUsage:\n";
for (const auto &item : mItems) {
if (slot >= limit - 1) {
ss << "-- AudioPowerUsage may be truncated!\n";
++slot;
break;
}
ss << " " << slot << " " << item->toString() << "\n";
slot++;
}
return { ss.str(), slot };
}
} // namespace android::mediametrics