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android / device / google / zuma / refs/heads/android14-d2-release / . / powerstats / ZumaCommonDataProviders.cpp
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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.
*/
#include <PowerStatsAidl.h>
#include <ZumaCommonDataProviders.h>
#include <AocStateResidencyDataProvider.h>
#include <CpupmStateResidencyDataProvider.h>
#include <DevfreqStateResidencyDataProvider.h>
#include <AdaptiveDvfsStateResidencyDataProvider.h>
#include <UfsStateResidencyDataProvider.h>
#include <dataproviders/GenericStateResidencyDataProvider.h>
#include <dataproviders/IioEnergyMeterDataProvider.h>
#include <dataproviders/PowerStatsEnergyConsumer.h>
#include <dataproviders/PowerStatsEnergyAttribution.h>
#include <dataproviders/PixelStateResidencyDataProvider.h>
#include <android-base/logging.h>
#include <android-base/properties.h>
#include <android/binder_manager.h>
#include <android/binder_process.h>
#include <log/log.h>
#include <sys/stat.h>
using aidl::android::hardware::power::stats::AdaptiveDvfsStateResidencyDataProvider;
using aidl::android::hardware::power::stats::AocStateResidencyDataProvider;
using aidl::android::hardware::power::stats::CpupmStateResidencyDataProvider;
using aidl::android::hardware::power::stats::DevfreqStateResidencyDataProvider;
using aidl::android::hardware::power::stats::DvfsStateResidencyDataProvider;
using aidl::android::hardware::power::stats::UfsStateResidencyDataProvider;
using aidl::android::hardware::power::stats::EnergyConsumerType;
using aidl::android::hardware::power::stats::GenericStateResidencyDataProvider;
using aidl::android::hardware::power::stats::IioEnergyMeterDataProvider;
using aidl::android::hardware::power::stats::PixelStateResidencyDataProvider;
using aidl::android::hardware::power::stats::PowerStatsEnergyConsumer;
// TODO (b/181070764) (b/182941084):
// Remove this when Wifi/BT energy consumption models are available or revert before ship
using aidl::android::hardware::power::stats::EnergyConsumerResult;
using aidl::android::hardware::power::stats::Channel;
using aidl::android::hardware::power::stats::EnergyMeasurement;
class PlaceholderEnergyConsumer : public PowerStats::IEnergyConsumer {
public:
PlaceholderEnergyConsumer(std::shared_ptr<PowerStats> p, EnergyConsumerType type,
std::string name) : kType(type), kName(name), mPowerStats(p), mChannelId(-1) {
std::vector<Channel> channels;
mPowerStats->getEnergyMeterInfo(&channels);
for (const auto &c : channels) {
if (c.name == "VSYS_PWR_WLAN_BT") {
mChannelId = c.id;
break;
}
}
}
std::pair<EnergyConsumerType, std::string> getInfo() override { return {kType, kName}; }
std::optional<EnergyConsumerResult> getEnergyConsumed() override {
int64_t totalEnergyUWs = 0;
int64_t timestampMs = 0;
if (mChannelId != -1) {
std::vector<EnergyMeasurement> measurements;
if (mPowerStats->readEnergyMeter({mChannelId}, &measurements).isOk()) {
for (const auto &m : measurements) {
totalEnergyUWs += m.energyUWs;
timestampMs = m.timestampMs;
}
} else {
LOG(ERROR) << "Failed to read energy meter";
return {};
}
}
return EnergyConsumerResult{.timestampMs = timestampMs,
.energyUWs = totalEnergyUWs>>1};
}
std::string getConsumerName() override {
return kName;
};
private:
const EnergyConsumerType kType;
const std::string kName;
std::shared_ptr<PowerStats> mPowerStats;
int32_t mChannelId;
};
void addPlaceholderEnergyConsumers(std::shared_ptr<PowerStats> p) {
p->addEnergyConsumer(
std::make_unique<PlaceholderEnergyConsumer>(p, EnergyConsumerType::WIFI, "Wifi"));
p->addEnergyConsumer(
std::make_unique<PlaceholderEnergyConsumer>(p, EnergyConsumerType::BLUETOOTH, "BT"));
}
void addAoC(std::shared_ptr<PowerStats> p) {
// AoC clock is synced from "libaoc.c"
static const uint64_t AOC_CLOCK = 24576;
std::string base = "/sys/devices/platform/17000000.aoc/";
std::string prefix = base + "control/";
// Add AoC cores (a32, ff1, hf0, and hf1)
std::vector<std::pair<std::string, std::string>> coreIds = {
{"AoC-A32", prefix + "a32_"},
{"AoC-FF1", prefix + "ff1_"},
{"AoC-HF1", prefix + "hf1_"},
{"AoC-HF0", prefix + "hf0_"},
};
std::vector<std::pair<std::string, std::string>> coreStates = {
{"DWN", "off"}, {"RET", "retention"}, {"WFI", "wfi"}};
p->addStateResidencyDataProvider(std::make_unique<AocStateResidencyDataProvider>(coreIds,
coreStates, AOC_CLOCK));
// Add AoC voltage stats
std::vector<std::pair<std::string, std::string>> voltageIds = {
{"AoC-Voltage", prefix + "voltage_"},
};
std::vector<std::pair<std::string, std::string>> voltageStates = {{"NOM", "nominal"},
{"SUD", "super_underdrive"},
{"UUD", "ultra_underdrive"},
{"UD", "underdrive"}};
p->addStateResidencyDataProvider(
std::make_unique<AocStateResidencyDataProvider>(voltageIds, voltageStates, AOC_CLOCK));
// Add AoC monitor mode
std::vector<std::pair<std::string, std::string>> monitorIds = {
{"AoC", prefix + "monitor_"},
};
std::vector<std::pair<std::string, std::string>> monitorStates = {
{"MON", "mode"},
};
p->addStateResidencyDataProvider(
std::make_unique<AocStateResidencyDataProvider>(monitorIds, monitorStates, AOC_CLOCK));
// Add AoC restart count
const GenericStateResidencyDataProvider::StateResidencyConfig restartCountConfig = {
.entryCountSupported = true,
.entryCountPrefix = "",
.totalTimeSupported = false,
.lastEntrySupported = false,
};
const std::vector<std::pair<std::string, std::string>> restartCountHeaders = {
std::make_pair("RESTART", ""),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
cfgs.emplace_back(
generateGenericStateResidencyConfigs(restartCountConfig, restartCountHeaders),
"AoC-Count", "");
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
base + "restart_count", cfgs));
}
void addDvfsStats(std::shared_ptr<PowerStats> p) {
// A constant to represent the number of nanoseconds in one millisecond
const int NS_TO_MS = 1000000;
std::string path = "/sys/devices/platform/acpm_stats/fvp_stats";
std::vector<std::pair<std::string, std::string>> adpCfgs = {
std::make_pair("CL0", "/sys/devices/system/cpu/cpufreq/policy0/stats"),
std::make_pair("CL1", "/sys/devices/system/cpu/cpufreq/policy4/stats"),
std::make_pair("CL2", "/sys/devices/system/cpu/cpufreq/policy8/stats"),
std::make_pair("MIF",
"/sys/devices/platform/17000010.devfreq_mif/devfreq/17000010.devfreq_mif")};
p->addStateResidencyDataProvider(std::make_unique<AdaptiveDvfsStateResidencyDataProvider>(
path, NS_TO_MS, adpCfgs));
std::vector<DvfsStateResidencyDataProvider::Config> cfgs;
cfgs.push_back({"TPU", {
std::make_pair("1119MHz", "1119000"),
std::make_pair("1066MHz", "1066000"),
std::make_pair("967MHz", "967000"),
std::make_pair("845MHz", "845000"),
std::make_pair("712MHz", "712000"),
std::make_pair("627MHz", "627000"),
std::make_pair("455MHz", "455000"),
std::make_pair("226MHz", "226000"),
}});
cfgs.push_back({"AUR", {
std::make_pair("1065MHz", "1065000"),
std::make_pair("861MHz", "861000"),
std::make_pair("713MHz", "713000"),
std::make_pair("525MHz", "525000"),
std::make_pair("355MHz", "355000"),
std::make_pair("256MHz", "256000"),
std::make_pair("178MHz", "178000"),
}});
p->addStateResidencyDataProvider(std::make_unique<DvfsStateResidencyDataProvider>(
path, NS_TO_MS, cfgs));
}
void addSoC(std::shared_ptr<PowerStats> p) {
// A constant to represent the number of nanoseconds in one millisecond.
const int NS_TO_MS = 1000000;
// ACPM stats are reported in nanoseconds. The transform function
// converts nanoseconds to milliseconds.
std::function<uint64_t(uint64_t)> acpmNsToMs = [](uint64_t a) { return a / NS_TO_MS; };
const GenericStateResidencyDataProvider::StateResidencyConfig lpmStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "success_count:",
.totalTimeSupported = true,
.totalTimePrefix = "total_time_ns:",
.totalTimeTransform = acpmNsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_entry_time_ns:",
.lastEntryTransform = acpmNsToMs,
};
const GenericStateResidencyDataProvider::StateResidencyConfig downStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "down_count:",
.totalTimeSupported = true,
.totalTimePrefix = "total_down_time_ns:",
.totalTimeTransform = acpmNsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_down_time_ns:",
.lastEntryTransform = acpmNsToMs,
};
const GenericStateResidencyDataProvider::StateResidencyConfig reqStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "req_up_count:",
.totalTimeSupported = true,
.totalTimePrefix = "total_req_up_time_ns:",
.totalTimeTransform = acpmNsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_req_up_time_ns:",
.lastEntryTransform = acpmNsToMs,
};
const std::vector<std::pair<std::string, std::string>> powerStateHeaders = {
std::make_pair("SICD", "SICD"),
std::make_pair("SLEEP", "SLEEP"),
std::make_pair("SLEEP_SLCMON", "SLEEP_SLCMON"),
std::make_pair("SLEEP_HSI1ON", "SLEEP_HSI1ON"),
std::make_pair("STOP", "STOP"),
};
const std::vector<std::pair<std::string, std::string>> mifReqStateHeaders = {
std::make_pair("AOC", "AOC"),
std::make_pair("GSA", "GSA"),
std::make_pair("TPU", "TPU"),
std::make_pair("AUR", "AUR"),
};
const std::vector<std::pair<std::string, std::string>> slcReqStateHeaders = {
std::make_pair("AOC", "AOC"),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
cfgs.emplace_back(generateGenericStateResidencyConfigs(lpmStateConfig, powerStateHeaders),
"LPM", "LPM:");
cfgs.emplace_back(generateGenericStateResidencyConfigs(downStateConfig, powerStateHeaders),
"MIF", "MIF:");
cfgs.emplace_back(generateGenericStateResidencyConfigs(reqStateConfig, mifReqStateHeaders),
"MIF-REQ", "MIF_REQ:");
cfgs.emplace_back(generateGenericStateResidencyConfigs(downStateConfig, powerStateHeaders),
"SLC", "SLC:");
cfgs.emplace_back(generateGenericStateResidencyConfigs(reqStateConfig, slcReqStateHeaders),
"SLC-REQ", "SLC_REQ:");
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/devices/platform/acpm_stats/soc_stats", cfgs));
}
void setEnergyMeter(std::shared_ptr<PowerStats> p) {
std::vector<const std::string> deviceNames { "s2mpg14-odpm", "s2mpg15-odpm" };
p->setEnergyMeterDataProvider(std::make_unique<IioEnergyMeterDataProvider>(deviceNames, true));
}
void addCPUclusters(std::shared_ptr<PowerStats> p) {
// A constant to represent the number of nanoseconds in one millisecond.
const int NS_TO_MS = 1000000;
std::function<uint64_t(uint64_t)> acpmNsToMs = [](uint64_t a) { return a / NS_TO_MS; };
const GenericStateResidencyDataProvider::StateResidencyConfig cpuStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "down_count:",
.totalTimeSupported = true,
.totalTimePrefix = "total_down_time_ns:",
.totalTimeTransform = acpmNsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_down_time_ns:",
.lastEntryTransform = acpmNsToMs,
};
const std::vector<std::pair<std::string, std::string>> cpuStateHeaders = {
std::make_pair("DOWN", ""),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
for (std::string name : {
"CLUSTER0",
"CLUSTER1",
"CLUSTER2"}) {
cfgs.emplace_back(generateGenericStateResidencyConfigs(cpuStateConfig, cpuStateHeaders),
name, name);
}
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/devices/platform/acpm_stats/core_stats", cfgs));
CpupmStateResidencyDataProvider::Config config = {
.entities = {
std::make_pair("CPU0", "cpu0"),
std::make_pair("CPU1", "cpu1"),
std::make_pair("CPU2", "cpu2"),
std::make_pair("CPU3", "cpu3"),
std::make_pair("CPU4", "cpu4"),
std::make_pair("CPU5", "cpu5"),
std::make_pair("CPU6", "cpu6"),
std::make_pair("CPU7", "cpu7"),
std::make_pair("CPU8", "cpu8")},
.states = {
std::make_pair("DOWN", "[state1]")}};
CpupmStateResidencyDataProvider::SleepConfig sleepConfig = {"LPM:", "SLEEP", "total_time_ns:"};
p->addStateResidencyDataProvider(std::make_unique<CpupmStateResidencyDataProvider>(
"/sys/devices/system/cpu/cpupm/cpupm/time_in_state", config,
"/sys/devices/platform/acpm_stats/soc_stats", sleepConfig));
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterConsumer(p,
EnergyConsumerType::CPU_CLUSTER, "CPUCL0", {"S4M_VDD_CPUCL0"}));
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterConsumer(p,
EnergyConsumerType::CPU_CLUSTER, "CPUCL1", {"S3M_VDD_CPUCL1"}));
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterConsumer(p,
EnergyConsumerType::CPU_CLUSTER, "CPUCL2", {"S2M_VDD_CPUCL2"}));
}
void addGPU(std::shared_ptr<PowerStats> p) {
// Add gpu energy consumer
std::map<std::string, int32_t> stateCoeffs;
std::string path = "/sys/devices/platform/1f000000.mali";
stateCoeffs = {
{"150000", 637},
{"302000", 1308},
{"337000", 1461},
{"376000", 1650},
{"419000", 1861},
{"467000", 2086},
{"521000", 2334},
{"580000", 2558},
{"649000", 2886},
{"723000", 3244},
{"807000", 3762},
{"890000", 4333}};
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterAndAttrConsumer(p,
EnergyConsumerType::OTHER, "GPU", {"S2S_VDD_G3D", "S8S_VDD_G3D_L2"},
{{UID_TIME_IN_STATE, path + "/uid_time_in_state"}},
stateCoeffs));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>("GPU",
path));
}
void addMobileRadio(std::shared_ptr<PowerStats> p)
{
// A constant to represent the number of microseconds in one millisecond.
const int US_TO_MS = 1000;
// modem power_stats are reported in microseconds. The transform function
// converts microseconds to milliseconds.
std::function<uint64_t(uint64_t)> modemUsToMs = [](uint64_t a) { return a / US_TO_MS; };
const GenericStateResidencyDataProvider::StateResidencyConfig powerStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "count:",
.totalTimeSupported = true,
.totalTimePrefix = "duration_usec:",
.totalTimeTransform = modemUsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_entry_timestamp_usec:",
.lastEntryTransform = modemUsToMs,
};
const std::vector<std::pair<std::string, std::string>> powerStateHeaders = {
std::make_pair("SLEEP", "SLEEP:"),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
cfgs.emplace_back(generateGenericStateResidencyConfigs(powerStateConfig, powerStateHeaders),
"MODEM", "");
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/devices/platform/cpif/modem/power_stats", cfgs));
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterConsumer(p,
EnergyConsumerType::MOBILE_RADIO, "MODEM",
{"VSYS_PWR_MODEM", "VSYS_PWR_RFFE", "VSYS_PWR_MMWAVE"}));
}
void addGNSS(std::shared_ptr<PowerStats> p)
{
// A constant to represent the number of microseconds in one millisecond.
const int US_TO_MS = 1000;
// gnss power_stats are reported in microseconds. The transform function
// converts microseconds to milliseconds.
std::function<uint64_t(uint64_t)> gnssUsToMs = [](uint64_t a) { return a / US_TO_MS; };
const GenericStateResidencyDataProvider::StateResidencyConfig gnssStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "count:",
.totalTimeSupported = true,
.totalTimePrefix = "duration_usec:",
.totalTimeTransform = gnssUsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_entry_timestamp_usec:",
.lastEntryTransform = gnssUsToMs,
};
const std::vector<std::pair<std::string, std::string>> gnssStateHeaders = {
std::make_pair("ON", "GPS_ON:"),
std::make_pair("OFF", "GPS_OFF:"),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
cfgs.emplace_back(generateGenericStateResidencyConfigs(gnssStateConfig, gnssStateHeaders),
"GPS", "");
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/dev/bbd_pwrstat", cfgs));
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterConsumer(p,
EnergyConsumerType::GNSS, "GPS", {"L9S_GNSS_CORE"}));
}
void addPCIe(std::shared_ptr<PowerStats> p) {
// Add PCIe power entities for Modem and WiFi
const GenericStateResidencyDataProvider::StateResidencyConfig pcieStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "Cumulative count:",
.totalTimeSupported = true,
.totalTimePrefix = "Cumulative duration msec:",
.lastEntrySupported = true,
.lastEntryPrefix = "Last entry timestamp msec:",
};
const std::vector<std::pair<std::string, std::string>> pcieStateHeaders = {
std::make_pair("UP", "Link up:"),
std::make_pair("DOWN", "Link down:"),
};
// Add PCIe - Modem
const std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> pcieModemCfgs = {
{generateGenericStateResidencyConfigs(pcieStateConfig, pcieStateHeaders), "PCIe-Modem",
"Version: 1"}
};
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/devices/platform/12100000.pcie/power_stats", pcieModemCfgs));
// Add PCIe - WiFi
const std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> pcieWifiCfgs = {
{generateGenericStateResidencyConfigs(pcieStateConfig, pcieStateHeaders),
"PCIe-WiFi", "Version: 1"}
};
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/devices/platform/13120000.pcie/power_stats", pcieWifiCfgs));
}
void addWifi(std::shared_ptr<PowerStats> p) {
// The transform function converts microseconds to milliseconds.
std::function<uint64_t(uint64_t)> usecToMs = [](uint64_t a) { return a / 1000; };
const GenericStateResidencyDataProvider::StateResidencyConfig stateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "count:",
.totalTimeSupported = true,
.totalTimePrefix = "duration_usec:",
.totalTimeTransform = usecToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_entry_timestamp_usec:",
.lastEntryTransform = usecToMs,
};
const GenericStateResidencyDataProvider::StateResidencyConfig pcieStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "count:",
.totalTimeSupported = true,
.totalTimePrefix = "duration_usec:",
.totalTimeTransform = usecToMs,
.lastEntrySupported = false,
};
const std::vector<std::pair<std::string, std::string>> stateHeaders = {
std::make_pair("AWAKE", "AWAKE:"),
std::make_pair("ASLEEP", "ASLEEP:"),
};
const std::vector<std::pair<std::string, std::string>> pcieStateHeaders = {
std::make_pair("L0", "L0:"),
std::make_pair("L1", "L1:"),
std::make_pair("L1_1", "L1_1:"),
std::make_pair("L1_2", "L1_2:"),
std::make_pair("L2", "L2:"),
};
const std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs = {
{generateGenericStateResidencyConfigs(stateConfig, stateHeaders), "WIFI", "WIFI"},
{generateGenericStateResidencyConfigs(pcieStateConfig, pcieStateHeaders), "WIFI-PCIE",
"WIFI-PCIE"}
};
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/wifi/power_stats", cfgs));
}
void addUfs(std::shared_ptr<PowerStats> p) {
p->addStateResidencyDataProvider(std::make_unique<UfsStateResidencyDataProvider>(
"/sys/bus/platform/devices/13200000.ufs/ufs_stats/"));
}
void addPowerDomains(std::shared_ptr<PowerStats> p) {
// A constant to represent the number of nanoseconds in one millisecond.
const int NS_TO_MS = 1000000;
std::function<uint64_t(uint64_t)> acpmNsToMs = [](uint64_t a) { return a / NS_TO_MS; };
const GenericStateResidencyDataProvider::StateResidencyConfig cpuStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "on_count:",
.totalTimeSupported = true,
.totalTimePrefix = "total_on_time_ns:",
.totalTimeTransform = acpmNsToMs,
.lastEntrySupported = true,
.lastEntryPrefix = "last_on_time_ns:",
.lastEntryTransform = acpmNsToMs,
};
const std::vector<std::pair<std::string, std::string>> cpuStateHeaders = {
std::make_pair("ON", ""),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
for (std::string name : {
"pd-tpu",
"pd-ispfe",
"pd-eh",
"pd-bw",
"pd-aur",
"pd-yuvp",
"pd-tnr",
"pd-rgbp",
"pd-mfc",
"pd-mcsc",
"pd-gse",
"pd-gdc",
"pd-g2d",
"pd-dpuf1",
"pd-dpuf0",
"pd-dpub",
"pd-embedded_g3d",
"pd-g3d"}) {
cfgs.emplace_back(generateGenericStateResidencyConfigs(cpuStateConfig, cpuStateHeaders),
name, name + ":");
}
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
"/sys/devices/platform/acpm_stats/pd_stats", cfgs));
}
void addDevfreq(std::shared_ptr<PowerStats> p) {
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"INT",
"/sys/devices/platform/17000020.devfreq_int/devfreq/17000020.devfreq_int"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"INTCAM",
"/sys/devices/platform/17000030.devfreq_intcam/devfreq/17000030.devfreq_intcam"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"DISP",
"/sys/devices/platform/17000040.devfreq_disp/devfreq/17000040.devfreq_disp"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"CAM",
"/sys/devices/platform/17000050.devfreq_cam/devfreq/17000050.devfreq_cam"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"TNR",
"/sys/devices/platform/17000060.devfreq_tnr/devfreq/17000060.devfreq_tnr"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"MFC",
"/sys/devices/platform/17000070.devfreq_mfc/devfreq/17000070.devfreq_mfc"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"BW",
"/sys/devices/platform/17000080.devfreq_bw/devfreq/17000080.devfreq_bw"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"DSU",
"/sys/devices/platform/17000090.devfreq_dsu/devfreq/17000090.devfreq_dsu"));
p->addStateResidencyDataProvider(std::make_unique<DevfreqStateResidencyDataProvider>(
"BCI",
"/sys/devices/platform/170000a0.devfreq_bci/devfreq/170000a0.devfreq_bci"));
}
void addTPU(std::shared_ptr<PowerStats> p) {
std::map<std::string, int32_t> stateCoeffs;
stateCoeffs = {
// TODO (b/197721618): Measuring the TPU power numbers
{"226000", 10},
{"455000", 20},
{"627000", 30},
{"712000", 40},
{"845000", 50},
{"967000", 60},
{"1119000", 70}};
p->addEnergyConsumer(PowerStatsEnergyConsumer::createMeterAndAttrConsumer(p,
EnergyConsumerType::OTHER, "TPU", {"S7M_VDD_TPU"},
{{UID_TIME_IN_STATE, "/sys/devices/platform/1a000000.rio/tpu_usage"}},
stateCoeffs));
}
/**
* Unlike other data providers, which source power entity state residency data from the kernel,
* this data provider acts as a general-purpose channel for state residency data providers
* that live in user space. Entities are defined here and user space clients of this provider's
* vendor service register callbacks to provide state residency data for their given pwoer entity.
*/
void addPixelStateResidencyDataProvider(std::shared_ptr<PowerStats> p) {
auto pixelSdp = std::make_unique<PixelStateResidencyDataProvider>();
pixelSdp->addEntity("Bluetooth", {{0, "Idle"}, {1, "Active"}, {2, "Tx"}, {3, "Rx"}});
pixelSdp->start();
p->addStateResidencyDataProvider(std::move(pixelSdp));
}
void addZumaCommonDataProviders(std::shared_ptr<PowerStats> p) {
setEnergyMeter(p);
addAoC(p);
addPixelStateResidencyDataProvider(p);
addCPUclusters(p);
addSoC(p);
addGNSS(p);
addMobileRadio(p);
addNFC(p);
addPCIe(p);
addWifi(p);
addTPU(p);
addUfs(p);
addPowerDomains(p);
addDvfsStats(p);
addDevfreq(p);
addGPU(p);
}
void addNFC(std::shared_ptr<PowerStats> p) {
const GenericStateResidencyDataProvider::StateResidencyConfig nfcStateConfig = {
.entryCountSupported = true,
.entryCountPrefix = "Cumulative count:",
.totalTimeSupported = true,
.totalTimePrefix = "Cumulative duration msec:",
.lastEntrySupported = true,
.lastEntryPrefix = "Last entry timestamp msec:",
};
const std::vector<std::pair<std::string, std::string>> nfcStateHeaders = {
std::make_pair("IDLE", "Idle mode:"),
std::make_pair("ACTIVE", "Active mode:"),
std::make_pair("ACTIVE-RW", "Active Reader/Writer mode:"),
};
std::vector<GenericStateResidencyDataProvider::PowerEntityConfig> cfgs;
cfgs.emplace_back(generateGenericStateResidencyConfigs(nfcStateConfig, nfcStateHeaders),
"NFC", "NFC subsystem");
std::string path;
struct stat buffer;
for (int i = 0; i < 10; i++) {
std::string idx = std::to_string(i);
path = "/sys/devices/platform/10c80000.hsi2c/i2c-" + idx + "/" + idx + "-0008/power_stats";
if (!stat(path.c_str(), &buffer))
break;
}
p->addStateResidencyDataProvider(std::make_unique<GenericStateResidencyDataProvider>(
path, cfgs));
}