mirror of
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232 lines
7.3 KiB
C++
232 lines
7.3 KiB
C++
// Copyright 2018 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/trace_event/cpufreq_monitor_android.h"
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#include <fcntl.h>
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#include "base/atomicops.h"
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#include "base/bind.h"
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#include "base/files/file_util.h"
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#include "base/files/scoped_file.h"
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#include "base/memory/scoped_refptr.h"
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#include "base/no_destructor.h"
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#include "base/strings/string_number_conversions.h"
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#include "base/strings/string_split.h"
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#include "base/strings/stringprintf.h"
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#include "base/task/post_task.h"
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#include "base/task/task_traits.h"
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#include "base/trace_event/trace_event.h"
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namespace base {
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namespace trace_event {
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namespace {
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const size_t kNumBytesToReadForSampling = 32;
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const char kTraceCategory[] = TRACE_DISABLED_BY_DEFAULT("power");
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const char kEventTitle[] = "CPU Frequency";
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} // namespace
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CPUFreqMonitorDelegate::CPUFreqMonitorDelegate() {}
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std::string CPUFreqMonitorDelegate::GetScalingCurFreqPathString(
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unsigned int cpu_id) const {
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return base::StringPrintf(
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"/sys/devices/system/cpu/cpu%d/cpufreq/scaling_cur_freq", cpu_id);
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}
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bool CPUFreqMonitorDelegate::IsTraceCategoryEnabled() const {
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bool enabled;
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TRACE_EVENT_CATEGORY_GROUP_ENABLED(kTraceCategory, &enabled);
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return enabled;
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}
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unsigned int CPUFreqMonitorDelegate::GetKernelMaxCPUs() const {
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std::string str;
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if (!base::ReadFileToString(
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base::FilePath("/sys/devices/system/cpu/kernel_max"), &str)) {
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// If we fail to read the kernel_max file, we just assume that CPU0 exists.
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return 0;
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}
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unsigned int kernel_max_cpu = 0;
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base::StringToUint(str, &kernel_max_cpu);
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return kernel_max_cpu;
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}
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std::string CPUFreqMonitorDelegate::GetRelatedCPUsPathString(
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unsigned int cpu_id) const {
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return base::StringPrintf(
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"/sys/devices/system/cpu/cpu%d/cpufreq/related_cpus", cpu_id);
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}
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void CPUFreqMonitorDelegate::GetCPUIds(std::vector<unsigned int>* ids) const {
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ids->clear();
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unsigned int kernel_max_cpu = GetKernelMaxCPUs();
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// CPUs related to one that's already marked for monitoring get set to "false"
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// so we don't needlessly monitor CPUs with redundant frequency information.
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char cpus_to_monitor[kernel_max_cpu + 1];
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std::memset(cpus_to_monitor, 1, kernel_max_cpu + 1);
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// Rule out the related CPUs for each one so we only end up with the CPUs
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// that are representative of the cluster.
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for (unsigned int i = 0; i <= kernel_max_cpu; i++) {
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if (!cpus_to_monitor[i])
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continue;
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std::string filename = GetRelatedCPUsPathString(i);
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std::string line;
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if (!base::ReadFileToString(base::FilePath(filename), &line))
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continue;
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// When reading the related_cpus file, we expected the format to be
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// something like "0 1 2 3" for CPU0-3 if they're all in one cluster.
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for (auto& str_piece :
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base::SplitString(line, " ", base::WhitespaceHandling::TRIM_WHITESPACE,
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base::SplitResult::SPLIT_WANT_NONEMPTY)) {
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unsigned int cpu_id;
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if (base::StringToUint(str_piece, &cpu_id)) {
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if (cpu_id != i && cpu_id >= 0 && cpu_id <= kernel_max_cpu)
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cpus_to_monitor[cpu_id] = 0;
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}
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}
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ids->push_back(i);
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}
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// If none of the files were readable, we assume CPU0 exists and fall back to
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// using that.
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if (ids->size() == 0)
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ids->push_back(0);
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}
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void CPUFreqMonitorDelegate::RecordFrequency(unsigned int cpu_id,
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unsigned int freq) {
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TRACE_COUNTER_ID1(kTraceCategory, kEventTitle, cpu_id, freq);
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}
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scoped_refptr<SingleThreadTaskRunner>
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CPUFreqMonitorDelegate::CreateTaskRunner() {
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return base::CreateSingleThreadTaskRunnerWithTraits(
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{base::MayBlock(), base::TaskShutdownBehavior::SKIP_ON_SHUTDOWN,
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base::TaskPriority::BEST_EFFORT},
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base::SingleThreadTaskRunnerThreadMode::SHARED);
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}
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CPUFreqMonitor::CPUFreqMonitor()
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: CPUFreqMonitor(std::make_unique<CPUFreqMonitorDelegate>()) {}
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CPUFreqMonitor::CPUFreqMonitor(std::unique_ptr<CPUFreqMonitorDelegate> delegate)
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: delegate_(std::move(delegate)), weak_ptr_factory_(this) {
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TRACE_EVENT_WARMUP_CATEGORY(kTraceCategory);
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}
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CPUFreqMonitor::~CPUFreqMonitor() {
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Stop();
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}
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// static
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CPUFreqMonitor* CPUFreqMonitor::GetInstance() {
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static base::NoDestructor<CPUFreqMonitor> instance;
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return instance.get();
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}
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void CPUFreqMonitor::OnTraceLogEnabled() {
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GetOrCreateTaskRunner()->PostTask(
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FROM_HERE,
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base::BindOnce(&CPUFreqMonitor::Start, weak_ptr_factory_.GetWeakPtr()));
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}
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void CPUFreqMonitor::OnTraceLogDisabled() {
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Stop();
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}
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void CPUFreqMonitor::Start() {
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// It's the responsibility of the caller to ensure that Start/Stop are
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// synchronized. If Start/Stop are called asynchronously where this value
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// may be incorrect, we have bigger problems.
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if (base::subtle::NoBarrier_Load(&is_enabled_) == 1 ||
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!delegate_->IsTraceCategoryEnabled()) {
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return;
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}
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std::vector<unsigned int> cpu_ids;
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delegate_->GetCPUIds(&cpu_ids);
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std::vector<std::pair<unsigned int, base::ScopedFD>> fds;
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for (unsigned int id : cpu_ids) {
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std::string fstr = delegate_->GetScalingCurFreqPathString(id);
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int fd = open(fstr.c_str(), O_RDONLY);
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if (fd == -1)
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continue;
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fds.emplace_back(std::make_pair(id, base::ScopedFD(fd)));
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}
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// We failed to read any scaling_cur_freq files, no point sampling nothing.
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if (fds.size() == 0)
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return;
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base::subtle::Release_Store(&is_enabled_, 1);
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GetOrCreateTaskRunner()->PostTask(
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FROM_HERE,
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base::BindOnce(&CPUFreqMonitor::Sample, weak_ptr_factory_.GetWeakPtr(),
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std::move(fds)));
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}
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void CPUFreqMonitor::Stop() {
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base::subtle::Release_Store(&is_enabled_, 0);
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}
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void CPUFreqMonitor::Sample(
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std::vector<std::pair<unsigned int, base::ScopedFD>> fds) {
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// For the same reason as above we use NoBarrier_Load, because if this value
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// is in transition and we use Acquire_Load then we'll never shut down our
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// original Sample tasks until the next Stop, so it's still the responsibility
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// of callers to sync Start/Stop.
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if (base::subtle::NoBarrier_Load(&is_enabled_) == 0)
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return;
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for (auto& id_fd : fds) {
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int fd = id_fd.second.get();
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unsigned int freq = 0;
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// If we have trouble reading data from the file for any reason we'll end up
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// reporting the frequency as nothing.
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lseek(fd, 0L, SEEK_SET);
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char data[kNumBytesToReadForSampling];
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size_t bytes_read = read(fd, data, kNumBytesToReadForSampling);
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if (bytes_read > 0) {
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if (bytes_read < kNumBytesToReadForSampling)
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data[bytes_read] = '\0';
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int ret = sscanf(data, "%d", &freq);
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if (ret == 0 || ret == std::char_traits<char>::eof())
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freq = 0;
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}
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delegate_->RecordFrequency(id_fd.first, freq);
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}
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GetOrCreateTaskRunner()->PostDelayedTask(
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FROM_HERE,
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base::BindOnce(&CPUFreqMonitor::Sample, weak_ptr_factory_.GetWeakPtr(),
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std::move(fds)),
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base::TimeDelta::FromMilliseconds(kDefaultCPUFreqSampleIntervalMs));
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}
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bool CPUFreqMonitor::IsEnabledForTesting() {
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return base::subtle::Acquire_Load(&is_enabled_) == 1;
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}
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const scoped_refptr<SingleThreadTaskRunner>&
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CPUFreqMonitor::GetOrCreateTaskRunner() {
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if (!task_runner_)
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task_runner_ = delegate_->CreateTaskRunner();
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return task_runner_;
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}
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} // namespace trace_event
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} // namespace base
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