/* * 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_TAG "pixelstats-uevent: BatteryCapacityFG" #include #include #include #include #include #include #include #include namespace android { namespace hardware { namespace google { namespace pixel { using aidl::android::frameworks::stats::IStats; using aidl::android::frameworks::stats::VendorAtom; using aidl::android::frameworks::stats::VendorAtomValue; using android::base::ReadFileToString; using android::hardware::google::pixel::PixelAtoms::BatteryCapacityFG; #define ONE_HOUR_SECS (60 * 60) BatteryCapacityReporter::BatteryCapacityReporter() { // Remove the need for a translation function/table, while removing the dependency on the // generated in BatteryCapacityReporter.h. static_assert(static_cast(BatteryCapacityReporter::LOG_REASON_UNKNOWN) == static_cast(BatteryCapacityFG::LOG_REASON_UNKNOWN)); static_assert(static_cast(BatteryCapacityReporter::LOG_REASON_CONNECTED) == static_cast(BatteryCapacityFG::LOG_REASON_CONNECTED)); static_assert(static_cast(BatteryCapacityReporter::LOG_REASON_DISCONNECTED) == static_cast(BatteryCapacityFG::LOG_REASON_DISCONNECTED)); static_assert(static_cast(BatteryCapacityReporter::LOG_REASON_FULL_CHARGE) == static_cast(BatteryCapacityFG::LOG_REASON_FULL_CHARGE)); static_assert(static_cast(BatteryCapacityReporter::LOG_REASON_PERCENT_SKIP) == static_cast(BatteryCapacityFG::LOG_REASON_PERCENT_SKIP)); static_assert(static_cast(BatteryCapacityReporter::LOG_REASON_DIVERGING_FG) == static_cast(BatteryCapacityFG::LOG_REASON_DIVERGING_FG)); } void BatteryCapacityReporter::checkAndReport(const std::shared_ptr &stats_client, const std::string &path) { if (parse(path)) { if (checkLogEvent()) { reportEvent(stats_client); } } } int64_t BatteryCapacityReporter::getTimeSecs(void) { return nanoseconds_to_seconds(systemTime(SYSTEM_TIME_BOOTTIME)); } bool BatteryCapacityReporter::parse(const std::string &path) { std::string batterySSOCContents; if (!ReadFileToString(path, &batterySSOCContents)) { ALOGE("Unable to read ssoc_details path: %s - %s", path.c_str(), strerror(errno)); return false; } // Parse file. Example format: // soc: l=97% gdf=97.72 uic=97.72 rl=97.72 // curve:[15.00 15.00][97.87 97.87][100.00 100.00] // status: ct=1 rl=0 s=1 if (sscanf(batterySSOCContents.c_str(), "soc: %*s gdf=%f %*s rl=%f\n" "curve:[%*f %*f][%f %f][%*f %*f]\n" "status: %*s %*s s=%d", &gdf_, &ssoc_, &gdf_curve_, &ssoc_curve_, &status_) != 5) { ALOGE("Unable to parse ssoc_details [%s] from file %s to int.", batterySSOCContents.c_str(), path.c_str()); return false; } return true; } bool BatteryCapacityReporter::shouldReportEvent(void) { const int64_t current_time = getTimeSecs(); if (current_time == 0) { ALOGE("Current boot time is zero!"); return false; } /* Perform cleanup of events that are older than 1 hour */ for (int i = 0; i < MAX_LOG_EVENTS_PER_HOUR; i++) { if (log_event_time_secs_[i] != 0 && /* Non-empty */ log_event_time_secs_[i] + ONE_HOUR_SECS < current_time) { log_event_time_secs_[i] = 0; num_events_in_last_hour_--; } } /* Log event if there hasn't been many events in the past hour */ if (num_events_in_last_hour_ < MAX_LOG_EVENTS_PER_HOUR) { for (int i = 0; i < MAX_LOG_EVENTS_PER_HOUR; i++) { if (log_event_time_secs_[i] == 0) { /* Empty */ log_event_time_secs_[i] = current_time; num_events_in_last_hour_++; return true; } } } else { ALOGD("Too many log events in past hour; event ignored."); } return false; } /** * @return true if a log should be reported, else false */ bool BatteryCapacityReporter::checkLogEvent(void) { LogReason log_reason = LOG_REASON_UNKNOWN; if (status_previous_ != status_) { // Handle nominal events if (status_ == SOC_STATUS_CONNECTED) { log_reason = LOG_REASON_CONNECTED; } else if (status_ == SOC_STATUS_DISCONNECTED) { log_reason = LOG_REASON_DISCONNECTED; } else if (status_ == SOC_STATUS_FULL) { log_reason = LOG_REASON_FULL_CHARGE; } status_previous_ = status_; } else { // Handle abnormal events const float diff = fabsf(ssoc_ - gdf_); if (fabsf(ssoc_ - ssoc_previous_) >= 2.0f) { log_reason = LOG_REASON_PERCENT_SKIP; // Every +- 1% when above a 4% SOC difference (w/ timer) } else if (static_cast(round(ssoc_gdf_diff_previous_)) != static_cast(round(diff)) && diff >= 4.0f) { log_reason = LOG_REASON_DIVERGING_FG; ssoc_gdf_diff_previous_ = diff; } } ssoc_previous_ = ssoc_; log_reason_ = log_reason; if (log_reason != LOG_REASON_UNKNOWN) { /* Found new log event! */ /* Check if we should actually report the event */ return shouldReportEvent(); } return false; } void BatteryCapacityReporter::reportEvent(const std::shared_ptr &stats_client) { // Load values array std::vector values(5); VendorAtomValue tmp; tmp.set(log_reason_); values[BatteryCapacityFG::kCapacityLogReasonFieldNumber - kVendorAtomOffset] = tmp; tmp.set(gdf_); values[BatteryCapacityFG::kCapacityGdfFieldNumber - kVendorAtomOffset] = tmp; tmp.set(ssoc_); values[BatteryCapacityFG::kCapacitySsocFieldNumber - kVendorAtomOffset] = tmp; tmp.set(gdf_curve_); values[BatteryCapacityFG::kCapacityGdfCurveFieldNumber - kVendorAtomOffset] = tmp; tmp.set(ssoc_curve_); values[BatteryCapacityFG::kCapacitySsocCurveFieldNumber - kVendorAtomOffset] = tmp; // Send vendor atom to IStats HAL VendorAtom event = {.reverseDomainName = "", .atomId = PixelAtoms::Atom::kFgCapacity, .values = std::move(values)}; const ndk::ScopedAStatus ret = stats_client->reportVendorAtom(event); if (!ret.isOk()) ALOGE("Unable to report to IStats service"); } } // namespace pixel } // namespace google } // namespace hardware } // namespace android