chrome/browser/task_manager/sampling/task_manager_impl_unittest.cc - chromium/src - Git at Google

 // Copyright 2016 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 <string>
 #include <utility>
 #include <vector>

 #include "base/macros.h"
 #include "base/strings/utf_string_conversions.h"
 #include "chrome/browser/task_manager/providers/task.h"
 #include "chrome/browser/task_manager/sampling/task_manager_impl.h"
 #include "chrome/browser/task_manager/task_manager_observer.h"
 #include "content/public/test/test_browser_thread_bundle.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace task_manager {

 namespace {

 // A Task for unittests, not backed by a real process, that can report any given
 // value.
 class FakeTask : public Task {
  public:
   FakeTask(base::ProcessId process_id,
            Type type,
            const std::string& title,
            int tab_id)
       : Task(base::ASCIIToUTF16(title),
              "FakeTask",
              nullptr,
              base::kNullProcessHandle,
              process_id),
         type_(type),
         parent_(nullptr),
         tab_id_(tab_id) {
     TaskManagerImpl::GetInstance()->TaskAdded(this);
   }

   ~FakeTask() override { TaskManagerImpl::GetInstance()->TaskRemoved(this); }

   Type GetType() const override { return type_; }

   int GetChildProcessUniqueID() const override { return 0; }

   const Task* GetParentTask() const override { return parent_; }

   int GetTabId() const override { return tab_id_; }

   void SetParent(Task* parent) { parent_ = parent; }

  private:
   Type type_;
   Task* parent_;
   int tab_id_;

   DISALLOW_COPY_AND_ASSIGN(FakeTask);
 };

 }  // namespace

 class TaskManagerImplTest : public testing::Test, public TaskManagerObserver {
  public:
   TaskManagerImplTest()
       : TaskManagerObserver(base::TimeDelta::FromSeconds(1),
                             REFRESH_TYPE_NONE) {
     TaskManagerImpl::GetInstance()->AddObserver(this);
   }
   ~TaskManagerImplTest() override {
     tasks_.clear();
     observed_task_manager()->RemoveObserver(this);
   }

   FakeTask* AddTask(int pid_offset,
                     Task::Type type,
                     const std::string& title,
                     int tab_id) {
     // Offset based on the current process id, to avoid collisions with the
     // browser process task.
     base::ProcessId process_id = base::GetCurrentProcId() + pid_offset;
     tasks_.emplace_back(new FakeTask(process_id, type, title, tab_id));
     return tasks_.back().get();
   }

   std::string DumpSortedTasks() {
     std::string result;
     for (TaskId task_id : observed_task_manager()->GetTaskIdsList()) {
       result += base::UTF16ToUTF8(observed_task_manager()->GetTitle(task_id));
       result += "\n";
     }
     return result;
   }

  private:
   content::TestBrowserThreadBundle thread_bundle_;
   std::vector<std::unique_ptr<FakeTask>> tasks_;
   DISALLOW_COPY_AND_ASSIGN(TaskManagerImplTest);
 };

 TEST_F(TaskManagerImplTest, SortingTypes) {
   AddTask(100, Task::GPU, "Gpu Process", -1);

   Task* tab1 = AddTask(200, Task::RENDERER, "Tab One", 10);
   AddTask(400, Task::EXTENSION, "Extension Subframe: Tab One", 10)
       ->SetParent(tab1);
   AddTask(300, Task::RENDERER, "Subframe: Tab One", 10)->SetParent(tab1);

   Task* tab2 =
       AddTask(200, Task::RENDERER, "Tab Two: sharing process with Tab One", 20);

   AddTask(301, Task::RENDERER, "Subframe: Tab Two", 20)->SetParent(tab2);
   AddTask(400, Task::EXTENSION, "Extension Subframe: Tab Two", 20)
       ->SetParent(tab2);

   AddTask(600, Task::ARC, "ARC", -1);
   AddTask(800, Task::UTILITY, "Utility One", -1);
   AddTask(700, Task::UTILITY, "Utility Two", -1);
   AddTask(1000, Task::GUEST, "Guest", 20);
   AddTask(900, Task::WORKER, "Worker", -1);
   AddTask(500, Task::ZYGOTE, "Zygote", -1);

   AddTask(300, Task::RENDERER, "Subframe: Tab One (2)", 10)->SetParent(tab1);
   AddTask(300, Task::RENDERER, "Subframe: Tab One (third)", 10)
       ->SetParent(tab1);
   AddTask(300, Task::RENDERER, "Subframe: Tab One (4)", 10)->SetParent(tab1);

   EXPECT_EQ(
       "Browser\n"
       "Gpu Process\n"
       "ARC\n"
       "Zygote\n"
       "Utility One\n"
       "Utility Two\n"
       "Tab One\n"
       "Tab Two: sharing process with Tab One\n"
       "Subframe: Tab One\n"
       "Subframe: Tab One (2)\n"
       "Subframe: Tab One (third)\n"
       "Subframe: Tab One (4)\n"
       "Extension Subframe: Tab One\n"
       "Extension Subframe: Tab Two\n"
       "Subframe: Tab Two\n"
       "Guest\n"
       "Worker\n",
       DumpSortedTasks());
 }

 TEST_F(TaskManagerImplTest, SortingCycles) {
   // Two tabs, with subframes in the other's process. This induces a cycle in
   // the TaskGroup dependencies, without being a cycle in the Tasks. This can
   // happen in practice.
   Task* tab1 = AddTask(200, Task::RENDERER, "Tab 1: Process 200", 10);
   AddTask(300, Task::RENDERER, "Subframe in Tab 1: Process 300", 10)
       ->SetParent(tab1);
   Task* tab2 = AddTask(300, Task::RENDERER, "Tab 2: Process 300", 20);
   AddTask(200, Task::RENDERER, "Subframe in Tab 2: Process 200", 20)
       ->SetParent(tab2);

   // Simulated GPU process.
   AddTask(100, Task::GPU, "Gpu Process", -1);

   // Two subframes that list each other as a parent (a true cycle). This
   // shouldn't happen in practice, but we want the sorting code to handle it
   // gracefully.
   FakeTask* cycle1 = AddTask(501, Task::SANDBOX_HELPER, "Cycle 1", -1);
   FakeTask* cycle2 = AddTask(500, Task::ARC, "Cycle 2", -1);
   cycle1->SetParent(cycle2);
   cycle2->SetParent(cycle1);

   // A cycle where both elements are in the same group.
   FakeTask* cycle3 = AddTask(600, Task::SANDBOX_HELPER, "Cycle 3", -1);
   FakeTask* cycle4 = AddTask(600, Task::ARC, "Cycle 4", -1);
   cycle3->SetParent(cycle4);
   cycle4->SetParent(cycle3);

   // Tasks listing a cycle as their parent.
   FakeTask* lollipop5 = AddTask(701, Task::EXTENSION, "Child of Cycle 3", -1);
   lollipop5->SetParent(cycle3);
   FakeTask* lollipop6 = AddTask(700, Task::PLUGIN, "Child of Cycle 4", -1);
   lollipop6->SetParent(cycle4);

   // A task listing itself as parent.
   FakeTask* self_cycle = AddTask(800, Task::RENDERER, "Self Cycle", 5);
   self_cycle->SetParent(self_cycle);

   // Add a plugin child to tab1 and tab2.
   AddTask(900, Task::PLUGIN, "Plugin: Tab 2", 20)->SetParent(tab1);
   AddTask(901, Task::PLUGIN, "Plugin: Tab 1", 10)->SetParent(tab1);

   // Finish with a normal renderer task.
   AddTask(903, Task::RENDERER, "Tab: Normal Renderer", 30);

   // Cycles should wind up on the bottom of the list.
   EXPECT_EQ(
       "Browser\n"
       "Gpu Process\n"
       "Tab 1: Process 200\n"
       "Subframe in Tab 2: Process 200\n"
       "Tab 2: Process 300\n"
       "Subframe in Tab 1: Process 300\n"
       "Plugin: Tab 1\n"
       "Plugin: Tab 2\n"
       "Tab: Normal Renderer\n"
       "Cycle 2\n"           // ARC
       "Cycle 1\n"           // Child of 2
       "Cycle 4\n"           // ARC; task_id > Cycle 2's
       "Cycle 3\n"           // Same-process child of 4 (SANDBOX_HELPER > ARC)
       "Child of Cycle 4\n"  // Child of 4
       "Child of Cycle 3\n"  // Child of 3
       "Self Cycle\n",       // RENDERER (> ARC)
       DumpSortedTasks());
 }

 }  // namespace task_manager
	// Copyright 2016 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 <string>
	#include <utility>
	#include <vector>

	#include "base/macros.h"
	#include "base/strings/utf_string_conversions.h"
	#include "chrome/browser/task_manager/providers/task.h"
	#include "chrome/browser/task_manager/sampling/task_manager_impl.h"
	#include "chrome/browser/task_manager/task_manager_observer.h"
	#include "content/public/test/test_browser_thread_bundle.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace task_manager {

	namespace {

	// A Task for unittests, not backed by a real process, that can report any given
	// value.
	class FakeTask : public Task {
	public:
	FakeTask(base::ProcessId process_id,
	Type type,
	const std::string& title,
	int tab_id)
	: Task(base::ASCIIToUTF16(title),
	"FakeTask",
	nullptr,
	base::kNullProcessHandle,
	process_id),
	type_(type),
	parent_(nullptr),
	tab_id_(tab_id) {
	TaskManagerImpl::GetInstance()->TaskAdded(this);
	}

	~FakeTask() override { TaskManagerImpl::GetInstance()->TaskRemoved(this); }

	Type GetType() const override { return type_; }

	int GetChildProcessUniqueID() const override { return 0; }

	const Task* GetParentTask() const override { return parent_; }

	int GetTabId() const override { return tab_id_; }

	void SetParent(Task* parent) { parent_ = parent; }

	private:
	Type type_;
	Task* parent_;
	int tab_id_;

	DISALLOW_COPY_AND_ASSIGN(FakeTask);
	};

	} // namespace

	class TaskManagerImplTest : public testing::Test, public TaskManagerObserver {
	public:
	TaskManagerImplTest()
	: TaskManagerObserver(base::TimeDelta::FromSeconds(1),
	REFRESH_TYPE_NONE) {
	TaskManagerImpl::GetInstance()->AddObserver(this);
	}
	~TaskManagerImplTest() override {
	tasks_.clear();
	observed_task_manager()->RemoveObserver(this);
	}

	FakeTask* AddTask(int pid_offset,
	Task::Type type,
	const std::string& title,
	int tab_id) {
	// Offset based on the current process id, to avoid collisions with the
	// browser process task.
	base::ProcessId process_id = base::GetCurrentProcId() + pid_offset;
	tasks_.emplace_back(new FakeTask(process_id, type, title, tab_id));
	return tasks_.back().get();
	}

	std::string DumpSortedTasks() {
	std::string result;
	for (TaskId task_id : observed_task_manager()->GetTaskIdsList()) {
	result += base::UTF16ToUTF8(observed_task_manager()->GetTitle(task_id));
	result += "\n";
	}
	return result;
	}

	private:
	content::TestBrowserThreadBundle thread_bundle_;
	std::vector<std::unique_ptr<FakeTask>> tasks_;
	DISALLOW_COPY_AND_ASSIGN(TaskManagerImplTest);
	};

	TEST_F(TaskManagerImplTest, SortingTypes) {
	AddTask(100, Task::GPU, "Gpu Process", -1);

	Task* tab1 = AddTask(200, Task::RENDERER, "Tab One", 10);
	AddTask(400, Task::EXTENSION, "Extension Subframe: Tab One", 10)
	->SetParent(tab1);
	AddTask(300, Task::RENDERER, "Subframe: Tab One", 10)->SetParent(tab1);

	Task* tab2 =
	AddTask(200, Task::RENDERER, "Tab Two: sharing process with Tab One", 20);

	AddTask(301, Task::RENDERER, "Subframe: Tab Two", 20)->SetParent(tab2);
	AddTask(400, Task::EXTENSION, "Extension Subframe: Tab Two", 20)
	->SetParent(tab2);

	AddTask(600, Task::ARC, "ARC", -1);
	AddTask(800, Task::UTILITY, "Utility One", -1);
	AddTask(700, Task::UTILITY, "Utility Two", -1);
	AddTask(1000, Task::GUEST, "Guest", 20);
	AddTask(900, Task::WORKER, "Worker", -1);
	AddTask(500, Task::ZYGOTE, "Zygote", -1);

	AddTask(300, Task::RENDERER, "Subframe: Tab One (2)", 10)->SetParent(tab1);
	AddTask(300, Task::RENDERER, "Subframe: Tab One (third)", 10)
	->SetParent(tab1);
	AddTask(300, Task::RENDERER, "Subframe: Tab One (4)", 10)->SetParent(tab1);

	EXPECT_EQ(
	"Browser\n"
	"Gpu Process\n"
	"ARC\n"
	"Zygote\n"
	"Utility One\n"
	"Utility Two\n"
	"Tab One\n"
	"Tab Two: sharing process with Tab One\n"
	"Subframe: Tab One\n"
	"Subframe: Tab One (2)\n"
	"Subframe: Tab One (third)\n"
	"Subframe: Tab One (4)\n"
	"Extension Subframe: Tab One\n"
	"Extension Subframe: Tab Two\n"
	"Subframe: Tab Two\n"
	"Guest\n"
	"Worker\n",
	DumpSortedTasks());
	}

	TEST_F(TaskManagerImplTest, SortingCycles) {
	// Two tabs, with subframes in the other's process. This induces a cycle in
	// the TaskGroup dependencies, without being a cycle in the Tasks. This can
	// happen in practice.
	Task* tab1 = AddTask(200, Task::RENDERER, "Tab 1: Process 200", 10);
	AddTask(300, Task::RENDERER, "Subframe in Tab 1: Process 300", 10)
	->SetParent(tab1);
	Task* tab2 = AddTask(300, Task::RENDERER, "Tab 2: Process 300", 20);
	AddTask(200, Task::RENDERER, "Subframe in Tab 2: Process 200", 20)
	->SetParent(tab2);

	// Simulated GPU process.
	AddTask(100, Task::GPU, "Gpu Process", -1);

	// Two subframes that list each other as a parent (a true cycle). This
	// shouldn't happen in practice, but we want the sorting code to handle it
	// gracefully.
	FakeTask* cycle1 = AddTask(501, Task::SANDBOX_HELPER, "Cycle 1", -1);
	FakeTask* cycle2 = AddTask(500, Task::ARC, "Cycle 2", -1);
	cycle1->SetParent(cycle2);
	cycle2->SetParent(cycle1);

	// A cycle where both elements are in the same group.
	FakeTask* cycle3 = AddTask(600, Task::SANDBOX_HELPER, "Cycle 3", -1);
	FakeTask* cycle4 = AddTask(600, Task::ARC, "Cycle 4", -1);
	cycle3->SetParent(cycle4);
	cycle4->SetParent(cycle3);

	// Tasks listing a cycle as their parent.
	FakeTask* lollipop5 = AddTask(701, Task::EXTENSION, "Child of Cycle 3", -1);
	lollipop5->SetParent(cycle3);
	FakeTask* lollipop6 = AddTask(700, Task::PLUGIN, "Child of Cycle 4", -1);
	lollipop6->SetParent(cycle4);

	// A task listing itself as parent.
	FakeTask* self_cycle = AddTask(800, Task::RENDERER, "Self Cycle", 5);
	self_cycle->SetParent(self_cycle);

	// Add a plugin child to tab1 and tab2.
	AddTask(900, Task::PLUGIN, "Plugin: Tab 2", 20)->SetParent(tab1);
	AddTask(901, Task::PLUGIN, "Plugin: Tab 1", 10)->SetParent(tab1);

	// Finish with a normal renderer task.
	AddTask(903, Task::RENDERER, "Tab: Normal Renderer", 30);

	// Cycles should wind up on the bottom of the list.
	EXPECT_EQ(
	"Browser\n"
	"Gpu Process\n"
	"Tab 1: Process 200\n"
	"Subframe in Tab 2: Process 200\n"
	"Tab 2: Process 300\n"
	"Subframe in Tab 1: Process 300\n"
	"Plugin: Tab 1\n"
	"Plugin: Tab 2\n"
	"Tab: Normal Renderer\n"
	"Cycle 2\n" // ARC
	"Cycle 1\n" // Child of 2
	"Cycle 4\n" // ARC; task_id > Cycle 2's
	"Cycle 3\n" // Same-process child of 4 (SANDBOX_HELPER > ARC)
	"Child of Cycle 4\n" // Child of 4
	"Child of Cycle 3\n" // Child of 3
	"Self Cycle\n", // RENDERER (> ARC)
	DumpSortedTasks());
	}

	} // namespace task_manager