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461 lines
19 KiB
461 lines
19 KiB
/*
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* Copyright 2021 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#define LOG_TAG "powerhal-libperfmgr"
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#define ATRACE_TAG (ATRACE_TAG_POWER | ATRACE_TAG_HAL)
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#include <android-base/logging.h>
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#include <android-base/parsedouble.h>
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#include <android-base/properties.h>
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#include <android-base/stringprintf.h>
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#include <sys/syscall.h>
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#include <time.h>
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#include <utils/Trace.h>
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#include <atomic>
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#include "PowerHintSession.h"
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#include "PowerSessionManager.h"
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namespace aidl {
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namespace google {
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namespace hardware {
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namespace power {
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namespace impl {
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namespace pixel {
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using ::android::base::StringPrintf;
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using std::chrono::duration_cast;
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using std::chrono::nanoseconds;
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using std::literals::chrono_literals::operator""s;
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constexpr char kPowerHalAdpfPidPOver[] = "vendor.powerhal.adpf.pid_p.over";
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constexpr char kPowerHalAdpfPidPUnder[] = "vendor.powerhal.adpf.pid_p.under";
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constexpr char kPowerHalAdpfPidI[] = "vendor.powerhal.adpf.pid_i";
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constexpr char kPowerHalAdpfPidDOver[] = "vendor.powerhal.adpf.pid_d.over";
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constexpr char kPowerHalAdpfPidDUnder[] = "vendor.powerhal.adpf.pid_d.under";
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constexpr char kPowerHalAdpfPidIInit[] = "vendor.powerhal.adpf.pid_i.init";
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constexpr char kPowerHalAdpfPidIHighLimit[] = "vendor.powerhal.adpf.pid_i.high_limit";
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constexpr char kPowerHalAdpfPidILowLimit[] = "vendor.powerhal.adpf.pid_i.low_limit";
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constexpr char kPowerHalAdpfUclampEnable[] = "vendor.powerhal.adpf.uclamp";
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constexpr char kPowerHalAdpfUclampMinGranularity[] = "vendor.powerhal.adpf.uclamp_min.granularity";
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constexpr char kPowerHalAdpfUclampMinHighLimit[] = "vendor.powerhal.adpf.uclamp_min.high_limit";
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constexpr char kPowerHalAdpfUclampMinLowLimit[] = "vendor.powerhal.adpf.uclamp_min.low_limit";
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constexpr char kPowerHalAdpfStaleTimeFactor[] = "vendor.powerhal.adpf.stale_timeout_factor";
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constexpr char kPowerHalAdpfPSamplingWindow[] = "vendor.powerhal.adpf.p.window";
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constexpr char kPowerHalAdpfISamplingWindow[] = "vendor.powerhal.adpf.i.window";
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constexpr char kPowerHalAdpfDSamplingWindow[] = "vendor.powerhal.adpf.d.window";
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namespace {
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/* there is no glibc or bionic wrapper */
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struct sched_attr {
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__u32 size;
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__u32 sched_policy;
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__u64 sched_flags;
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__s32 sched_nice;
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__u32 sched_priority;
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__u64 sched_runtime;
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__u64 sched_deadline;
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__u64 sched_period;
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__u32 sched_util_min;
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__u32 sched_util_max;
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};
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static int sched_setattr(int pid, struct sched_attr *attr, unsigned int flags) {
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static const bool kPowerHalAdpfUclamp =
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::android::base::GetBoolProperty(kPowerHalAdpfUclampEnable, true);
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if (!kPowerHalAdpfUclamp) {
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ALOGV("PowerHintSession:%s: skip", __func__);
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return 0;
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}
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return syscall(__NR_sched_setattr, pid, attr, flags);
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}
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static inline int64_t ns_to_100us(int64_t ns) {
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return ns / 100000;
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}
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static double getDoubleProperty(const char *prop, double value) {
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std::string result = ::android::base::GetProperty(prop, std::to_string(value).c_str());
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if (!::android::base::ParseDouble(result.c_str(), &value)) {
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ALOGE("PowerHintSession : failed to parse double in %s", prop);
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}
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return value;
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}
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static double sPidPOver = getDoubleProperty(kPowerHalAdpfPidPOver, 5.0);
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static double sPidPUnder = getDoubleProperty(kPowerHalAdpfPidPUnder, 3.0);
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static double sPidI = getDoubleProperty(kPowerHalAdpfPidI, 0.001);
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static double sPidDOver = getDoubleProperty(kPowerHalAdpfPidDOver, 500.0);
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static double sPidDUnder = getDoubleProperty(kPowerHalAdpfPidDUnder, 0.0);
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static const int64_t sPidIInit =
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(sPidI == 0) ? 0
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: static_cast<int64_t>(::android::base::GetIntProperty<int64_t>(
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kPowerHalAdpfPidIInit, 200) /
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sPidI);
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static const int64_t sPidIHighLimit =
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(sPidI == 0) ? 0
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: static_cast<int64_t>(::android::base::GetIntProperty<int64_t>(
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kPowerHalAdpfPidIHighLimit, 512) /
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sPidI);
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static const int64_t sPidILowLimit =
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(sPidI == 0) ? 0
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: static_cast<int64_t>(::android::base::GetIntProperty<int64_t>(
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kPowerHalAdpfPidILowLimit, -120) /
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sPidI);
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static const int32_t sUclampMinHighLimit =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfUclampMinHighLimit, 512);
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static const int32_t sUclampMinLowLimit =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfUclampMinLowLimit, 0);
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static const uint32_t sUclampMinGranularity =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfUclampMinGranularity, 5);
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static const int64_t sStaleTimeFactor =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfStaleTimeFactor, 20);
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static const int64_t sPSamplingWindow =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfPSamplingWindow, 1);
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static const int64_t sISamplingWindow =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfISamplingWindow, 0);
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static const int64_t sDSamplingWindow =
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::android::base::GetUintProperty<uint32_t>(kPowerHalAdpfDSamplingWindow, 1);
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} // namespace
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PowerHintSession::PowerHintSession(int32_t tgid, int32_t uid, const std::vector<int32_t> &threadIds,
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int64_t durationNanos, const nanoseconds adpfRate)
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: kAdpfRate(adpfRate) {
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mDescriptor = new AppHintDesc(tgid, uid, threadIds);
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mDescriptor->duration = std::chrono::nanoseconds(durationNanos);
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mStaleHandler = sp<StaleHandler>(new StaleHandler(this));
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mPowerManagerHandler = PowerSessionManager::getInstance();
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-target", idstr.c_str());
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ATRACE_INT(sz.c_str(), (int64_t)mDescriptor->duration.count());
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sz = StringPrintf("adpf.%s-active", idstr.c_str());
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ATRACE_INT(sz.c_str(), mDescriptor->is_active.load());
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}
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PowerSessionManager::getInstance()->addPowerSession(this);
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// init boost
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setUclamp(sUclampMinHighLimit);
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ALOGV("PowerHintSession created: %s", mDescriptor->toString().c_str());
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}
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PowerHintSession::~PowerHintSession() {
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close();
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ALOGV("PowerHintSession deleted: %s", mDescriptor->toString().c_str());
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-target", idstr.c_str());
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ATRACE_INT(sz.c_str(), 0);
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sz = StringPrintf("adpf.%s-actl_last", idstr.c_str());
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ATRACE_INT(sz.c_str(), 0);
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sz = sz = StringPrintf("adpf.%s-active", idstr.c_str());
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ATRACE_INT(sz.c_str(), 0);
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}
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delete mDescriptor;
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}
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std::string PowerHintSession::getIdString() const {
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std::string idstr = StringPrintf("%" PRId32 "-%" PRId32 "-%" PRIxPTR, mDescriptor->tgid,
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mDescriptor->uid, reinterpret_cast<uintptr_t>(this) & 0xffff);
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return idstr;
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}
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void PowerHintSession::updateUniveralBoostMode() {
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PowerHintMonitor::getInstance()->getLooper()->sendMessage(mPowerManagerHandler, NULL);
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}
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int PowerHintSession::setUclamp(int32_t min, int32_t max) {
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std::lock_guard<std::mutex> guard(mLock);
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min = std::max(0, min);
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min = std::min(min, max);
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max = std::max(0, max);
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max = std::max(min, max);
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-min", idstr.c_str());
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ATRACE_INT(sz.c_str(), min);
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}
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for (const auto tid : mDescriptor->threadIds) {
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sched_attr attr = {};
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attr.size = sizeof(attr);
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attr.sched_flags = (SCHED_FLAG_KEEP_ALL | SCHED_FLAG_UTIL_CLAMP);
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attr.sched_util_min = min;
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attr.sched_util_max = max;
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int ret = sched_setattr(tid, &attr, 0);
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if (ret) {
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ALOGW("sched_setattr failed for thread %d, err=%d", tid, errno);
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}
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ALOGV("PowerHintSession tid: %d, uclamp(%d, %d)", tid, min, max);
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}
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mDescriptor->current_min = min;
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return 0;
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}
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ndk::ScopedAStatus PowerHintSession::pause() {
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if (!mDescriptor->is_active.load())
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE);
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// Reset to default uclamp value.
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setUclamp(0);
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mDescriptor->is_active.store(false);
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-active", idstr.c_str());
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ATRACE_INT(sz.c_str(), mDescriptor->is_active.load());
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}
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updateUniveralBoostMode();
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return ndk::ScopedAStatus::ok();
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}
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ndk::ScopedAStatus PowerHintSession::resume() {
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if (mDescriptor->is_active.load())
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE);
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mDescriptor->is_active.store(true);
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mDescriptor->integral_error = std::max(sPidIInit, mDescriptor->integral_error);
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// resume boost
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setUclamp(sUclampMinHighLimit);
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-active", idstr.c_str());
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ATRACE_INT(sz.c_str(), mDescriptor->is_active.load());
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}
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updateUniveralBoostMode();
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return ndk::ScopedAStatus::ok();
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}
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ndk::ScopedAStatus PowerHintSession::close() {
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bool sessionClosedExpectedToBe = false;
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if (!mSessionClosed.compare_exchange_strong(sessionClosedExpectedToBe, true)) {
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE);
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}
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PowerHintMonitor::getInstance()->getLooper()->removeMessages(mStaleHandler);
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setUclamp(0);
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PowerSessionManager::getInstance()->removePowerSession(this);
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updateUniveralBoostMode();
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return ndk::ScopedAStatus::ok();
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}
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ndk::ScopedAStatus PowerHintSession::updateTargetWorkDuration(int64_t targetDurationNanos) {
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if (targetDurationNanos <= 0) {
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ALOGE("Error: targetDurationNanos(%" PRId64 ") should bigger than 0", targetDurationNanos);
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT);
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}
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ALOGV("update target duration: %" PRId64 " ns", targetDurationNanos);
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double ratio =
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targetDurationNanos == 0 ? 1.0 : mDescriptor->duration.count() / targetDurationNanos;
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mDescriptor->integral_error =
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std::max(sPidIInit, static_cast<int64_t>(mDescriptor->integral_error * ratio));
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mDescriptor->duration = std::chrono::nanoseconds(targetDurationNanos);
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-target", idstr.c_str());
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ATRACE_INT(sz.c_str(), (int64_t)mDescriptor->duration.count());
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}
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return ndk::ScopedAStatus::ok();
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}
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ndk::ScopedAStatus PowerHintSession::reportActualWorkDuration(
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const std::vector<WorkDuration> &actualDurations) {
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if (mDescriptor->duration.count() == 0LL) {
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ALOGE("Expect to call updateTargetWorkDuration() first.");
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE);
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}
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if (actualDurations.size() == 0) {
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ALOGE("Error: duration.size() shouldn't be %zu.", actualDurations.size());
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT);
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}
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if (!mDescriptor->is_active.load()) {
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ALOGE("Error: shouldn't report duration during pause state.");
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return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE);
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}
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if (PowerHintMonitor::getInstance()->isRunning() && isStale()) {
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-stale", idstr.c_str());
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ATRACE_INT(sz.c_str(), 0);
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}
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mDescriptor->integral_error = std::max(sPidIInit, mDescriptor->integral_error);
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}
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int64_t targetDurationNanos = (int64_t)mDescriptor->duration.count();
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int64_t length = actualDurations.size();
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int64_t p_start =
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sPSamplingWindow == 0 || sPSamplingWindow > length ? 0 : length - sPSamplingWindow;
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int64_t i_start =
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sISamplingWindow == 0 || sISamplingWindow > length ? 0 : length - sISamplingWindow;
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int64_t d_start =
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sDSamplingWindow == 0 || sDSamplingWindow > length ? 0 : length - sDSamplingWindow;
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int64_t dt = ns_to_100us(targetDurationNanos);
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int64_t err_sum = 0;
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int64_t derivative_sum = 0;
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for (int64_t i = std::min({p_start, i_start, d_start}); i < length; i++) {
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int64_t actualDurationNanos = actualDurations[i].durationNanos;
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if (std::abs(actualDurationNanos) > targetDurationNanos * 20) {
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ALOGW("The actual duration is way far from the target (%" PRId64 " >> %" PRId64 ")",
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actualDurationNanos, targetDurationNanos);
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}
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// PID control algorithm
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int64_t error = ns_to_100us(actualDurationNanos - targetDurationNanos);
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if (i >= d_start) {
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derivative_sum += error - mDescriptor->previous_error;
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}
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if (i >= p_start) {
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err_sum += error;
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}
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if (i >= i_start) {
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mDescriptor->integral_error = mDescriptor->integral_error + error * dt;
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mDescriptor->integral_error = std::min(sPidIHighLimit, mDescriptor->integral_error);
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mDescriptor->integral_error = std::max(sPidILowLimit, mDescriptor->integral_error);
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}
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mDescriptor->previous_error = error;
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}
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int64_t pOut = static_cast<int64_t>((err_sum > 0 ? sPidPOver : sPidPUnder) * err_sum /
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(length - p_start));
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int64_t iOut = static_cast<int64_t>(sPidI * mDescriptor->integral_error);
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int64_t dOut = static_cast<int64_t>((derivative_sum > 0 ? sPidDOver : sPidDUnder) *
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derivative_sum / dt / (length - d_start));
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int64_t output = pOut + iOut + dOut;
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if (ATRACE_ENABLED()) {
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const std::string idstr = getIdString();
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std::string sz = StringPrintf("adpf.%s-actl_last", idstr.c_str());
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ATRACE_INT(sz.c_str(), actualDurations[length - 1].durationNanos);
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sz = StringPrintf("adpf.%s-target", idstr.c_str());
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ATRACE_INT(sz.c_str(), (int64_t)mDescriptor->duration.count());
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sz = StringPrintf("adpf.%s-sample_size", idstr.c_str());
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ATRACE_INT(sz.c_str(), length);
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sz = StringPrintf("adpf.%s-pid.count", idstr.c_str());
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ATRACE_INT(sz.c_str(), mDescriptor->update_count);
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sz = StringPrintf("adpf.%s-pid.pOut", idstr.c_str());
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ATRACE_INT(sz.c_str(), pOut);
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sz = StringPrintf("adpf.%s-pid.iOut", idstr.c_str());
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ATRACE_INT(sz.c_str(), iOut);
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sz = StringPrintf("adpf.%s-pid.dOut", idstr.c_str());
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ATRACE_INT(sz.c_str(), dOut);
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sz = StringPrintf("adpf.%s-pid.output", idstr.c_str());
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ATRACE_INT(sz.c_str(), output);
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}
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mDescriptor->update_count++;
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mStaleHandler->updateStaleTimer();
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/* apply to all the threads in the group */
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if (output != 0) {
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int next_min =
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std::min(sUclampMinHighLimit, mDescriptor->current_min + static_cast<int>(output));
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next_min = std::max(sUclampMinLowLimit, next_min);
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if (std::abs(mDescriptor->current_min - next_min) > sUclampMinGranularity) {
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setUclamp(next_min);
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}
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}
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return ndk::ScopedAStatus::ok();
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}
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std::string AppHintDesc::toString() const {
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std::string out =
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StringPrintf("session %" PRIxPTR "\n", reinterpret_cast<uintptr_t>(this) & 0xffff);
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const int64_t durationNanos = duration.count();
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out.append(StringPrintf(" duration: %" PRId64 " ns\n", durationNanos));
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out.append(StringPrintf(" uclamp.min: %d \n", current_min));
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out.append(StringPrintf(" uid: %d, tgid: %d\n", uid, tgid));
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out.append(" threadIds: [");
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bool first = true;
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for (int tid : threadIds) {
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if (!first) {
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out.append(", ");
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}
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out.append(std::to_string(tid));
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first = false;
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}
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out.append("]\n");
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return out;
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}
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bool PowerHintSession::isActive() {
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return mDescriptor->is_active.load();
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}
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bool PowerHintSession::isStale() {
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auto now = std::chrono::steady_clock::now();
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return now >= mStaleHandler->getStaleTime();
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}
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const std::vector<int> &PowerHintSession::getTidList() const {
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return mDescriptor->threadIds;
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}
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void PowerHintSession::setStale() {
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if (ATRACE_ENABLED()) {
|
|
const std::string idstr = getIdString();
|
|
std::string sz = StringPrintf("adpf.%s-stale", idstr.c_str());
|
|
ATRACE_INT(sz.c_str(), 1);
|
|
}
|
|
// Reset to default uclamp value.
|
|
setUclamp(0);
|
|
// Deliver a task to check if all sessions are inactive.
|
|
updateUniveralBoostMode();
|
|
}
|
|
|
|
void PowerHintSession::StaleHandler::updateStaleTimer() {
|
|
std::lock_guard<std::mutex> guard(mStaleLock);
|
|
if (PowerHintMonitor::getInstance()->isRunning()) {
|
|
auto when = getStaleTime();
|
|
auto now = std::chrono::steady_clock::now();
|
|
mLastUpdatedTime.store(now);
|
|
if (now > when) {
|
|
mSession->updateUniveralBoostMode();
|
|
}
|
|
if (!mIsMonitoringStale.load()) {
|
|
auto next = getStaleTime();
|
|
PowerHintMonitor::getInstance()->getLooper()->sendMessageDelayed(
|
|
duration_cast<nanoseconds>(next - now).count(), this, NULL);
|
|
mIsMonitoringStale.store(true);
|
|
}
|
|
}
|
|
}
|
|
|
|
time_point<steady_clock> PowerHintSession::StaleHandler::getStaleTime() {
|
|
return mLastUpdatedTime.load() +
|
|
std::chrono::duration_cast<milliseconds>(mSession->kAdpfRate) * sStaleTimeFactor;
|
|
}
|
|
|
|
void PowerHintSession::StaleHandler::handleMessage(const Message &) {
|
|
std::lock_guard<std::mutex> guard(mStaleLock);
|
|
auto now = std::chrono::steady_clock::now();
|
|
auto when = getStaleTime();
|
|
// Check if the session is stale based on the last_updated_time.
|
|
if (now > when) {
|
|
mSession->setStale();
|
|
mIsMonitoringStale.store(false);
|
|
return;
|
|
}
|
|
// Schedule for the next checking time.
|
|
PowerHintMonitor::getInstance()->getLooper()->sendMessageDelayed(
|
|
duration_cast<nanoseconds>(when - now).count(), this, NULL);
|
|
}
|
|
|
|
} // namespace pixel
|
|
} // namespace impl
|
|
} // namespace power
|
|
} // namespace hardware
|
|
} // namespace google
|
|
} // namespace aidl
|