/* * Copyright (C) 2018 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. */ #include "src/traced/probes/power/android_power_data_source.h" #include #include "perfetto/base/logging.h" #include "perfetto/base/task_runner.h" #include "perfetto/base/time.h" #include "perfetto/ext/base/optional.h" #include "perfetto/ext/base/scoped_file.h" #include "perfetto/ext/tracing/core/trace_packet.h" #include "perfetto/ext/tracing/core/trace_writer.h" #include "perfetto/tracing/core/data_source_config.h" #include "src/android_internal/health_hal.h" #include "src/android_internal/lazy_library_loader.h" #include "src/android_internal/power_stats_hal.h" #include "protos/perfetto/config/power/android_power_config.pbzero.h" #include "protos/perfetto/trace/power/battery_counters.pbzero.h" #include "protos/perfetto/trace/power/power_rails.pbzero.h" #include "protos/perfetto/trace/trace_packet.pbzero.h" namespace perfetto { namespace { constexpr uint32_t kMinPollIntervalMs = 100; constexpr size_t kMaxNumRails = 32; } // namespace // static const ProbesDataSource::Descriptor AndroidPowerDataSource::descriptor = { /*name*/ "android.power", /*flags*/ Descriptor::kFlagsNone, }; // Dynamically loads the libperfetto_android_internal.so library which // allows to proxy calls to android hwbinder in in-tree builds. struct AndroidPowerDataSource::DynamicLibLoader { PERFETTO_LAZY_LOAD(android_internal::GetBatteryCounter, get_battery_counter_); PERFETTO_LAZY_LOAD(android_internal::GetAvailableRails, get_available_rails_); PERFETTO_LAZY_LOAD(android_internal::GetRailEnergyData, get_rail_energy_data_); base::Optional GetCounter(android_internal::BatteryCounter counter) { if (!get_battery_counter_) return base::nullopt; int64_t value = 0; if (get_battery_counter_(counter, &value)) return base::make_optional(value); return base::nullopt; } std::vector GetRailDescriptors() { if (!get_available_rails_) return std::vector(); std::vector rail_descriptors( kMaxNumRails); size_t num_rails = rail_descriptors.size(); get_available_rails_(&rail_descriptors[0], &num_rails); rail_descriptors.resize(num_rails); return rail_descriptors; } std::vector GetRailEnergyData() { if (!get_rail_energy_data_) return std::vector(); std::vector energy_data(kMaxNumRails); size_t num_rails = energy_data.size(); get_rail_energy_data_(&energy_data[0], &num_rails); energy_data.resize(num_rails); return energy_data; } }; AndroidPowerDataSource::AndroidPowerDataSource( DataSourceConfig cfg, base::TaskRunner* task_runner, TracingSessionID session_id, std::unique_ptr writer) : ProbesDataSource(session_id, &descriptor), task_runner_(task_runner), rail_descriptors_logged_(false), writer_(std::move(writer)), weak_factory_(this) { using protos::pbzero::AndroidPowerConfig; AndroidPowerConfig::Decoder pcfg(cfg.android_power_config_raw()); poll_interval_ms_ = pcfg.battery_poll_ms(); rails_collection_enabled_ = pcfg.collect_power_rails(); if (poll_interval_ms_ < kMinPollIntervalMs) { PERFETTO_ELOG("Battery poll interval of %" PRIu32 " ms is too low. Capping to %" PRIu32 " ms", poll_interval_ms_, kMinPollIntervalMs); poll_interval_ms_ = kMinPollIntervalMs; } for (auto counter = pcfg.battery_counters(); counter; ++counter) { auto hal_id = android_internal::BatteryCounter::kUnspecified; switch (*counter) { case AndroidPowerConfig::BATTERY_COUNTER_UNSPECIFIED: break; case AndroidPowerConfig::BATTERY_COUNTER_CHARGE: hal_id = android_internal::BatteryCounter::kCharge; break; case AndroidPowerConfig::BATTERY_COUNTER_CAPACITY_PERCENT: hal_id = android_internal::BatteryCounter::kCapacityPercent; break; case AndroidPowerConfig::BATTERY_COUNTER_CURRENT: hal_id = android_internal::BatteryCounter::kCurrent; break; case AndroidPowerConfig::BATTERY_COUNTER_CURRENT_AVG: hal_id = android_internal::BatteryCounter::kCurrentAvg; break; } PERFETTO_CHECK(static_cast(hal_id) < counters_enabled_.size()); counters_enabled_.set(static_cast(hal_id)); } } AndroidPowerDataSource::~AndroidPowerDataSource() = default; void AndroidPowerDataSource::Start() { lib_.reset(new DynamicLibLoader()); Tick(); } void AndroidPowerDataSource::Tick() { // Post next task. auto now_ms = base::GetWallTimeMs().count(); auto weak_this = weak_factory_.GetWeakPtr(); task_runner_->PostDelayedTask( [weak_this] { if (weak_this) weak_this->Tick(); }, poll_interval_ms_ - (now_ms % poll_interval_ms_)); WriteBatteryCounters(); WritePowerRailsData(); } void AndroidPowerDataSource::WriteBatteryCounters() { if (counters_enabled_.none()) return; auto packet = writer_->NewTracePacket(); packet->set_timestamp(static_cast(base::GetBootTimeNs().count())); auto* counters_proto = packet->set_battery(); for (size_t i = 0; i < counters_enabled_.size(); i++) { if (!counters_enabled_.test(i)) continue; auto counter = static_cast(i); auto value = lib_->GetCounter(counter); if (!value.has_value()) continue; switch (counter) { case android_internal::BatteryCounter::kUnspecified: PERFETTO_DFATAL("Unspecified counter"); break; case android_internal::BatteryCounter::kCharge: counters_proto->set_charge_counter_uah(*value); break; case android_internal::BatteryCounter::kCapacityPercent: counters_proto->set_capacity_percent(static_cast(*value)); break; case android_internal::BatteryCounter::kCurrent: counters_proto->set_current_ua(*value); break; case android_internal::BatteryCounter::kCurrentAvg: counters_proto->set_current_avg_ua(*value); break; } } } void AndroidPowerDataSource::WritePowerRailsData() { if (!rails_collection_enabled_) return; auto packet = writer_->NewTracePacket(); packet->set_timestamp(static_cast(base::GetBootTimeNs().count())); auto* rails_proto = packet->set_power_rails(); if (!rail_descriptors_logged_) { // We only add the rail descriptors to the first package, to avoid logging // all rail names etc. on each one. rail_descriptors_logged_ = true; auto rail_descriptors = lib_->GetRailDescriptors(); if (rail_descriptors.size() == 0) { // No rails to collect data for. Don't try again in the next iteration. rails_collection_enabled_ = false; return; } for (const auto& rail_descriptor : rail_descriptors) { auto* rail_desc_proto = rails_proto->add_rail_descriptor(); rail_desc_proto->set_index(rail_descriptor.index); rail_desc_proto->set_rail_name(rail_descriptor.rail_name); rail_desc_proto->set_subsys_name(rail_descriptor.subsys_name); rail_desc_proto->set_sampling_rate(rail_descriptor.sampling_rate); } } for (const auto& energy_data : lib_->GetRailEnergyData()) { auto* data = rails_proto->add_energy_data(); data->set_index(energy_data.index); data->set_timestamp_ms(energy_data.timestamp); data->set_energy(energy_data.energy); } } void AndroidPowerDataSource::Flush(FlushRequestID, std::function callback) { writer_->Flush(callback); } } // namespace perfetto