Reporting top cpu and memory consumers via rappor on chromeos

chrome/browser/chromeos/resource_reporter/resource_reporter.cc

Index: chrome/browser/chromeos/resource_reporter/resource_reporter.cc
diff --git a/chrome/browser/chromeos/resource_reporter/resource_reporter.cc b/chrome/browser/chromeos/resource_reporter/resource_reporter.cc
new file mode 100644
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+++ b/chrome/browser/chromeos/resource_reporter/resource_reporter.cc
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+// Copyright 2015 The Chromium Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style license that can be
+// found in the LICENSE file.
+
+#include "chrome/browser/chromeos/resource_reporter/resource_reporter.h"
+
+#include <stdint.h>
+
+#include <queue>
+
+#include "base/bind.h"
+#include "base/memory/singleton.h"
+#include "base/rand_util.h"
+#include "base/strings/utf_string_conversions.h"
+#include "base/sys_info.h"
+#include "chrome/browser/browser_process.h"
+#include "chrome/browser/task_management/task_manager_interface.h"
+#include "components/rappor/rappor_service.h"
+#include "content/public/browser/browser_thread.h"
+
+namespace chromeos {
+
+namespace {
+
+// The task manager refresh interval, currently at 1 minute.
+const int64_t kRefreshIntervalSeconds = 60;
+
+// 1 GB in bytes.
+const int64_t kMemory1GB = 1024 * 1024 * 1024;
+
+// 800 MB in bytes.
+const int64_t kMemory800MB = 800 * 1024 * 1024;
+
+// 600 MB in bytes.
+const int64_t kMemory600MB = 600 * 1024 * 1024;
+
+// 400 MB in bytes.
+const int64_t kMemory400MB = 400 * 1024 * 1024;
+
+// 200 MB in bytes.
+const int64_t kMemory200MB = 200 * 1024 * 1024;
+
+// The name of the Rappor metric to report the CPU usage.
+const char kCpuRapporMetric[] = "ResourceReporter.Cpu";
+
+// The name of the Rappor metric to report the memory usage.
+const char kMemoryRapporMetric[] = "ResourceReporter.Memory";
+
+// The name of the string field of the Rappor metrics in which we'll record the
+// task's Rappor sample name.
+const char kRapporTaskStringField[] = "task";
+
+// The name of the flags field of the Rappor metrics in which we'll store the
+// priority of the process on which the task is running.
+const char kRapporPriorityFlagsField[] = "priority";
+
+// The name of the flags field of the CPU usage Rappor metrics in which we'll
+// record the number of cores in the current system.
+const char kRapporNumCoresRangeFlagsField[] = "num_cores_range";
+
+// The name of the flags field of the Rappor metrics in which we'll store the
+// CPU / memory usage ranges.
+const char kRapporUsageRangeFlagsField[] = "usage_range";
+
+// Currently set to be one day.
+const int kMinimumTimeBetweenReportsInMS = 1 * 24 * 60 * 60 * 1000;
+
+// A functor to sort the TaskRecords by their |cpu|.
+struct TaskRecordByCpuSorter {
+  bool operator()(ResourceReporter::TaskRecord* const& lhs,
+                  ResourceReporter::TaskRecord* const& rhs) const {
+    if (lhs->cpu == rhs->cpu)
+      return lhs->id < rhs->id;
+    return lhs->cpu < rhs->cpu;
+  }
+};
+
+// A functor to sort the TaskRecords by their |memory|.
+struct TaskRecordByMemorySorter {
+  bool operator()(ResourceReporter::TaskRecord* const& lhs,
+                  ResourceReporter::TaskRecord* const& rhs) const {
+    if (lhs->memory == rhs->memory)
+      return lhs->id < rhs->id;
+    return lhs->memory < rhs->memory;
+  }
+};
+
+}  // namespace
+
+ResourceReporter::TaskRecord::TaskRecord(task_management::TaskId the_id)
+    : id(the_id), cpu(0.0), memory(0), is_background(false) {
+}
+
+ResourceReporter::TaskRecord::TaskRecord(task_management::TaskId the_id,
+                                         const std::string& task_name,
+                                         double the_cpu,
+                                         int64_t the_memory,
+                                         bool background)
+    : id(the_id),
+      task_name_for_rappor(task_name),
+      cpu(the_cpu),
+      memory(the_memory),
+      is_background(background) {
+}
+
+ResourceReporter::~ResourceReporter() {
+}
+
+// static
+ResourceReporter* ResourceReporter::GetInstance() {
+  return base::Singleton<ResourceReporter>::get();
+}
+
+void ResourceReporter::StartMonitoring() {
+  DCHECK_CURRENTLY_ON(content::BrowserThread::UI);
+
+  if (is_monitoring_)
+    return;
+
+  is_monitoring_ = true;
+  task_management::TaskManagerInterface::GetTaskManager()->AddObserver(this);
+  memory_pressure_listener_.reset(new base::MemoryPressureListener(
+      base::Bind(&ResourceReporter::OnMemoryPressure, base::Unretained(this))));
+}
+
+void ResourceReporter::StopMonitoring() {
+  DCHECK_CURRENTLY_ON(content::BrowserThread::UI);
+
+  if (!is_monitoring_)
+    return;
+
+  is_monitoring_ = false;
+  memory_pressure_listener_.reset();
+  task_management::TaskManagerInterface::GetTaskManager()->RemoveObserver(this);
+}
+
+void ResourceReporter::OnTaskAdded(task_management::TaskId id) {
+  // Ignore this event.
+}
+
+void ResourceReporter::OnTaskToBeRemoved(task_management::TaskId id) {
+  auto itr = task_records_.find(id);
+  if (itr == task_records_.end())
+    return;
+
+  // Must be erased from the sorted set first.
+  // Note: this could mean that the sorted records are now less than
+  // |kTopConsumerCount| with other records in |task_records_| that can be
+  // added now. That's ok, we ignore this case.
+  auto cpu_itr = std::find(task_records_by_cpu_.begin(),
+                           task_records_by_cpu_.end(),
+                           itr->second.get());
+  if (cpu_itr != task_records_by_cpu_.end())
+    task_records_by_cpu_.erase(cpu_itr);
+
+  auto memory_itr = std::find(task_records_by_memory_.begin(),
+                              task_records_by_memory_.end(),
+                              itr->second.get());
+  if (memory_itr != task_records_by_memory_.end())
+    task_records_by_memory_.erase(memory_itr);
+
+  task_records_.erase(itr);
+}
+
+void ResourceReporter::OnTasksRefreshed(
+    const task_management::TaskIdList& task_ids) {
+  // A priority queue to sort the task records by their |cpu|. Greatest |cpu|
+  // first.
+  std::priority_queue<TaskRecord*,
+                      std::vector<TaskRecord*>,
+                      TaskRecordByCpuSorter> records_by_cpu_queue;
+  // A priority queue to sort the task records by their |memory|. Greatest
+  // |memory| first.
+  std::priority_queue<TaskRecord*,
+                      std::vector<TaskRecord*>,
+                      TaskRecordByMemorySorter> records_by_memory_queue;
+  task_records_by_cpu_.clear();
+  task_records_by_cpu_.reserve(kTopConsumersCount);
+  task_records_by_memory_.clear();
+  task_records_by_memory_.reserve(kTopConsumersCount);
+
+  for (const auto& id : task_ids) {
+    const double cpu_usage = observed_task_manager()->GetCpuUsage(id);
+    const int64_t memory_usage =
+        observed_task_manager()->GetPhysicalMemoryUsage(id);
+
+    // Browser and GPU processes are reported later using UMA histograms as they
+    // don't have any privacy issues.
+    const auto task_type = observed_task_manager()->GetType(id);
+    switch (task_type) {
+      case task_management::Task::UNKNOWN:
+      case task_management::Task::ZYGOTE:
+        break;
+
+      case task_management::Task::BROWSER:
+        last_browser_process_cpu_ = cpu_usage;
+        last_browser_process_memory_ = memory_usage != -1 ? memory_usage : 0;
+        break;
+
+      case task_management::Task::GPU:
+        last_gpu_process_cpu_ = cpu_usage;
+        last_gpu_process_memory_ = memory_usage != -1 ? memory_usage : 0;
+        break;
+
+      default:
+        // Other tasks types will be reported using Rappor.
+        TaskRecord* task_data = nullptr;
+        auto itr = task_records_.find(id);
+        if (itr == task_records_.end()) {
+          task_data = new TaskRecord(id);
+          task_records_[id] = make_scoped_ptr(task_data);
+        } else {
+          task_data = itr->second.get();
+        }
+
+        DCHECK_EQ(task_data->id, id);
+        task_data->task_name_for_rappor =
+            observed_task_manager()->GetTaskNameForRappor(id);
+        task_data->cpu = cpu_usage;
+        task_data->memory = memory_usage;
+        task_data->is_background =
+            observed_task_manager()->IsTaskOnBackgroundedProcess(id);
+
+        // Push only valid or useful data to both priority queues. They might
+        // end up having more records than |kTopConsumerCount|, that's fine.
+        // We'll take care of that next.
+        if (task_data->cpu > 0)
+          records_by_cpu_queue.push(task_data);
+        if (task_data->memory > 0)
+          records_by_memory_queue.push(task_data);
+    }
+  }
+
+  // Sort the |kTopConsumersCount| task records by their CPU and memory usage.
+  while (!records_by_cpu_queue.empty() &&
+         task_records_by_cpu_.size() < kTopConsumersCount) {
+    task_records_by_cpu_.push_back(records_by_cpu_queue.top());
+    records_by_cpu_queue.pop();
+  }
+
+  while (!records_by_memory_queue.empty() &&
+         task_records_by_memory_.size() < kTopConsumersCount) {
+    task_records_by_memory_.push_back(records_by_memory_queue.top());
+    records_by_memory_queue.pop();
+  }
+}
+
+// static
+const size_t ResourceReporter::kTopConsumersCount = 10U;
+
+ResourceReporter::ResourceReporter()
+    : TaskManagerObserver(base::TimeDelta::FromSeconds(kRefreshIntervalSeconds),
+                          task_management::REFRESH_TYPE_CPU |
+                              task_management::REFRESH_TYPE_MEMORY |
+                                  task_management::REFRESH_TYPE_PRIORITY),
+      system_cpu_cores_range_(GetCurrentSystemCpuCoresRange()) {
+}
+
+// static
+scoped_ptr<rappor::Sample> ResourceReporter::CreateRapporSample(
+    rappor::RapporService* rappor_service,
+    const ResourceReporter::TaskRecord& task_record) {
+  scoped_ptr<rappor::Sample> sample(rappor_service->CreateSample(
+      rappor::UMA_RAPPOR_TYPE));
+  sample->SetStringField(kRapporTaskStringField,
+                         task_record.task_name_for_rappor);
+  sample->SetFlagsField(kRapporPriorityFlagsField,
+                        task_record.is_background ? BACKGROUND : FOREGROUND,
+                        PRIORITIES_NUM);
+  return sample.Pass();
+}
+
+// static
+ResourceReporter::CpuUsageRange
+ResourceReporter::GetCpuUsageRange(double cpu) {
+  if (cpu > 60.0)
+    return RANGE_ABOVE_60_PERCENT;
+  if (cpu > 30.0)
+    return RANGE_30_TO_60_PERCENT;
+  if (cpu > 10.0)
+    return RANGE_10_TO_30_PERCENT;
+
+  return RANGE_0_TO_10_PERCENT;
+}
+
+// static
+ResourceReporter::MemoryUsageRange
+ResourceReporter::GetMemoryUsageRange(int64_t memory_in_bytes) {
+  if (memory_in_bytes > kMemory1GB)
+    return RANGE_ABOVE_1_GB;
+  if (memory_in_bytes > kMemory800MB)
+    return RANGE_800_TO_1_GB;
+  if (memory_in_bytes > kMemory600MB)
+    return RANGE_600_TO_800_MB;
+  if (memory_in_bytes > kMemory400MB)
+      return RANGE_400_TO_600_MB;
+  if (memory_in_bytes > kMemory200MB)
+      return RANGE_200_TO_400_MB;
+
+  return RANGE_0_TO_200_MB;
+}
+
+// static
+ResourceReporter::CpuCoresNumberRange
+ResourceReporter::GetCurrentSystemCpuCoresRange() {
+  const int cpus = base::SysInfo::NumberOfProcessors();
+
+  if (cpus > 16)
+    return RANGE_CORES_ABOVE_16_CORES;
+  if (cpus > 8)
+    return RANGE_CORES_9_TO_16_CORES;
+  if (cpus > 4)
+    return RANGE_CORES_5_TO_8_CORES;
+  if (cpus > 2)
+    return RANGE_CORES_3_TO_4_CORES;
+  if (cpus == 2)
+    return RANGE_CORES_2_CORES;
+  if (cpus == 1)
+    return RANGE_CORES_1_CORE;
+
+  NOTREACHED();
+  return RANGE_CORES_NA;
+}
+
+bool ResourceReporter::ShouldRecordSamples() {
+  if (is_first_memory_pressure_event_) {
+    is_first_memory_pressure_event_ = false;
+    return true;
+  }
+
+  return (base::TimeTicks::Now() - last_memory_pressure_event_time_) >=
+      base::TimeDelta::FromMilliseconds(kMinimumTimeBetweenReportsInMS);
+}
+
+const ResourceReporter::TaskRecord* ResourceReporter::SampleTaskByCpu() const {
+  TaskRecord* sampled_task = nullptr;
+  double cpu_weights_sum = 0;
+  for (const auto& task_data : task_records_by_cpu_) {
+    if ((base::RandDouble() * (cpu_weights_sum + task_data->cpu)) >=
+        cpu_weights_sum) {
+      sampled_task = task_data;
+    }
+    cpu_weights_sum += task_data->cpu;
+  }
+
+  return sampled_task;
+}
+
+const ResourceReporter::TaskRecord*
+ResourceReporter::SampleTaskByMemory() const {
+  TaskRecord* sampled_task = nullptr;
+  int64_t memory_weights_sum = 0;
+  for (const auto& task_data : task_records_by_memory_) {
+    if ((base::RandDouble() *
+         (memory_weights_sum + task_data->memory)) >=
+          memory_weights_sum) {
+      sampled_task = task_data;
+    }
+    memory_weights_sum += task_data->memory;
+  }
+
+  return sampled_task;
+}
+
+void ResourceReporter::OnMemoryPressure(
+    MemoryPressureLevel memory_pressure_level) {
+  if (memory_pressure_level >=
+      MemoryPressureLevel::MEMORY_PRESSURE_LEVEL_MODERATE) {
+    // Report browser and GPU processes usage using UMA histograms.
+    UMA_HISTOGRAM_ENUMERATION("ResourceReporter.BrowserProcess.CpuUsage",
+                              GetCpuUsageRange(last_browser_process_cpu_),
+                              CPU_RANGES_NUM);
+    UMA_HISTOGRAM_ENUMERATION("ResourceReporter.BrowserProcess.MemoryUsage",
+                              GetMemoryUsageRange(last_browser_process_memory_),
+                              MEMORY_RANGES_NUM);
+    UMA_HISTOGRAM_ENUMERATION("ResourceReporter.GpuProcess.CpuUsage",
+                              GetCpuUsageRange(last_gpu_process_cpu_),
+                              CPU_RANGES_NUM);
+    UMA_HISTOGRAM_ENUMERATION("ResourceReporter.GpuProcess.MemoryUsage",
+                              GetMemoryUsageRange(last_gpu_process_memory_),
+                              MEMORY_RANGES_NUM);
+
+    // For the rest of tasks, report them using Rappor.
+    auto rappor_service = g_browser_process->rappor_service();
+    if (!rappor_service)
+      return;
+
+    if (!ShouldRecordSamples())
+      return;
+    last_memory_pressure_event_time_ = base::TimeTicks::Now();
+
+    // Use weighted random sampling to select a task to report in the CPU
+    // metric.
+    const TaskRecord* sampled_cpu_task = SampleTaskByCpu();
+    if (sampled_cpu_task) {
+      scoped_ptr<rappor::Sample> cpu_sample(
+          CreateRapporSample(rappor_service, *sampled_cpu_task));
+      cpu_sample->SetFlagsField(kRapporNumCoresRangeFlagsField,
+                                system_cpu_cores_range_,
+                                CORES_RANGES_NUM);
+      cpu_sample->SetFlagsField(kRapporUsageRangeFlagsField,
+                                GetCpuUsageRange(sampled_cpu_task->cpu),
+                                CPU_RANGES_NUM);
+      rappor_service->RecordSampleObj(kCpuRapporMetric, cpu_sample.Pass());
+    }
+
+    // Use weighted random sampling to select a task to report in the memory
+    // metric.
+    const TaskRecord* sampled_memory_task = SampleTaskByMemory();
+    if (sampled_memory_task) {
+      scoped_ptr<rappor::Sample> memory_sample(
+          CreateRapporSample(rappor_service, *sampled_memory_task));
+      memory_sample->SetFlagsField(
+          kRapporUsageRangeFlagsField,
+          GetMemoryUsageRange(sampled_memory_task->memory),
+          MEMORY_RANGES_NUM);
+      rappor_service->RecordSampleObj(kMemoryRapporMetric,
+                                      memory_sample.Pass());
+    }
+  }
+}
+
+}  // namespace chromeos