base/ios/scoped_critical_action.h - platform/external/cronet - Git at Google

 // Copyright 2012 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_IOS_SCOPED_CRITICAL_ACTION_H_
 #define BASE_IOS_SCOPED_CRITICAL_ACTION_H_

 #include <map>
 #include <string>
 #include <utility>

 #include "base/memory/ref_counted.h"
 #include "base/strings/string_piece.h"
 #include "base/synchronization/lock.h"
 #include "base/time/time.h"

 namespace base {
 namespace ios {

 // This class attempts to allow the application to continue to run for a period
 // of time after it transitions to the background. The construction of an
 // instance of this class marks the beginning of a task that needs background
 // running time when the application is moved to the background and the
 // destruction marks the end of such a task.
 //
 // Note there is no guarantee that the task will continue to finish when the
 // application is moved to the background.
 //
 // This class should be used at times where leaving a task unfinished might be
 // detrimental to user experience. For example, it should be used to ensure that
 // the application has enough time to save important data or at least attempt to
 // save such data.
 class ScopedCriticalAction {
  public:
   ScopedCriticalAction(StringPiece task_name);

   ScopedCriticalAction(const ScopedCriticalAction&) = delete;
   ScopedCriticalAction& operator=(const ScopedCriticalAction&) = delete;

   ~ScopedCriticalAction();

   // Exposed for unit-testing.
   static void ClearNumActiveBackgroundTasksForTest();
   static int GetNumActiveBackgroundTasksForTest();

  private:
   // Core logic; ScopedCriticalAction should not be reference counted so
   // that it follows the normal pattern of stack-allocating ScopedFoo objects,
   // but the expiration handler needs to have a reference counted object to
   // refer to. All functions are thread safe.
   class Core : public base::RefCountedThreadSafe<Core> {
    public:
     Core();

     Core(const Core&) = delete;
     Core& operator=(const Core&) = delete;

     // Informs the OS that the background task has started. This is a
     // static method to ensure that the instance has a non-zero refcount.
     // |task_name| is used by the OS to log any leaked background tasks.
     // Invoking this function more than once is allowed: all except the
     // first successful call will be a no-op.
     static void StartBackgroundTask(scoped_refptr<Core> core,
                                     StringPiece task_name);
     // Informs the OS that the background task has completed. This is a
     // static method to ensure that the instance has a non-zero refcount.
     // Invoking this function more than once is allowed: all except the
     // first call will be a no-op.
     static void EndBackgroundTask(scoped_refptr<Core> core);

    private:
     friend base::RefCountedThreadSafe<Core>;
     ~Core();

     // |UIBackgroundTaskIdentifier| returned by
     // |beginBackgroundTaskWithName:expirationHandler:| when marking the
     // beginning of a long-running background task. It is defined as a uint64_t
     // instead of a |UIBackgroundTaskIdentifier| so this class can be used in
     // .cc files.
     uint64_t background_task_id_ GUARDED_BY(background_task_id_lock_);
     Lock background_task_id_lock_;
   };

   // This class is thread safe.
   class ActiveBackgroundTaskCache {
    public:
     // This struct should be considered internal to this class and opaque to
     // callers.
     struct InternalEntry {
       InternalEntry();
       InternalEntry(const InternalEntry&) = delete;
       InternalEntry(InternalEntry&&);
       ~InternalEntry();

       InternalEntry& operator=(const InternalEntry&) = delete;
       InternalEntry& operator=(InternalEntry&&);

       // The instance of the core that drives the background task.
       scoped_refptr<Core> core;
       // Refcounting for the number of ScopedCriticalAction instances that
       // require the existence of this background task.
       int num_active_handles = 0;
     };

     using NameAndTime = std::pair<std::string, base::TimeTicks>;
     using InternalEntriesMap = std::map<NameAndTime, InternalEntry>;
     // A handle should be treated as an opaque token by the caller.
     using Handle = InternalEntriesMap::iterator;

     // Returns a leaky singleton instance.
     static ActiveBackgroundTaskCache* GetInstance();

     ActiveBackgroundTaskCache();
     ~ActiveBackgroundTaskCache();

     // Starts a new background task if none existed with the same name. If a
     // task already exists with the same name, its lifetime is effectively
     // extended. Callers must invoke ReleaseHandle() once they no longer need to
     // prevent background suspension.
     Handle EnsureBackgroundTaskExistsWithName(StringPiece task_name);

     // Indicates that a previous caller to EnsureBackgroundTaskExistsWithName()
     // no longer needs to prevent background suspension.
     void ReleaseHandle(Handle handle);

    private:
     InternalEntriesMap entries_map_ GUARDED_BY(entries_map_lock_);
     Lock entries_map_lock_;
   };

   const ActiveBackgroundTaskCache::Handle task_handle_;
 };

 }  // namespace ios
 }  // namespace base

 #endif  // BASE_IOS_SCOPED_CRITICAL_ACTION_H_
	// Copyright 2012 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_IOS_SCOPED_CRITICAL_ACTION_H_
	#define BASE_IOS_SCOPED_CRITICAL_ACTION_H_

	#include <map>
	#include <string>
	#include <utility>

	#include "base/memory/ref_counted.h"
	#include "base/strings/string_piece.h"
	#include "base/synchronization/lock.h"
	#include "base/time/time.h"

	namespace base {
	namespace ios {

	// This class attempts to allow the application to continue to run for a period
	// of time after it transitions to the background. The construction of an
	// instance of this class marks the beginning of a task that needs background
	// running time when the application is moved to the background and the
	// destruction marks the end of such a task.
	//
	// Note there is no guarantee that the task will continue to finish when the
	// application is moved to the background.
	//
	// This class should be used at times where leaving a task unfinished might be
	// detrimental to user experience. For example, it should be used to ensure that
	// the application has enough time to save important data or at least attempt to
	// save such data.
	class ScopedCriticalAction {
	public:
	ScopedCriticalAction(StringPiece task_name);

	ScopedCriticalAction(const ScopedCriticalAction&) = delete;
	ScopedCriticalAction& operator=(const ScopedCriticalAction&) = delete;

	~ScopedCriticalAction();

	// Exposed for unit-testing.
	static void ClearNumActiveBackgroundTasksForTest();
	static int GetNumActiveBackgroundTasksForTest();

	private:
	// Core logic; ScopedCriticalAction should not be reference counted so
	// that it follows the normal pattern of stack-allocating ScopedFoo objects,
	// but the expiration handler needs to have a reference counted object to
	// refer to. All functions are thread safe.
	class Core : public base::RefCountedThreadSafe<Core> {
	public:
	Core();

	Core(const Core&) = delete;
	Core& operator=(const Core&) = delete;

	// Informs the OS that the background task has started. This is a
	// static method to ensure that the instance has a non-zero refcount.
	// \|task_name\| is used by the OS to log any leaked background tasks.
	// Invoking this function more than once is allowed: all except the
	// first successful call will be a no-op.
	static void StartBackgroundTask(scoped_refptr<Core> core,
	StringPiece task_name);
	// Informs the OS that the background task has completed. This is a
	// static method to ensure that the instance has a non-zero refcount.
	// Invoking this function more than once is allowed: all except the
	// first call will be a no-op.
	static void EndBackgroundTask(scoped_refptr<Core> core);

	private:
	friend base::RefCountedThreadSafe<Core>;
	~Core();

	// \|UIBackgroundTaskIdentifier\| returned by
	// \|beginBackgroundTaskWithName:expirationHandler:\| when marking the
	// beginning of a long-running background task. It is defined as a uint64_t
	// instead of a \|UIBackgroundTaskIdentifier\| so this class can be used in
	// .cc files.
	uint64_t background_task_id_ GUARDED_BY(background_task_id_lock_);
	Lock background_task_id_lock_;
	};

	// This class is thread safe.
	class ActiveBackgroundTaskCache {
	public:
	// This struct should be considered internal to this class and opaque to
	// callers.
	struct InternalEntry {
	InternalEntry();
	InternalEntry(const InternalEntry&) = delete;
	InternalEntry(InternalEntry&&);
	~InternalEntry();

	InternalEntry& operator=(const InternalEntry&) = delete;
	InternalEntry& operator=(InternalEntry&&);

	// The instance of the core that drives the background task.
	scoped_refptr<Core> core;
	// Refcounting for the number of ScopedCriticalAction instances that
	// require the existence of this background task.
	int num_active_handles = 0;
	};

	using NameAndTime = std::pair<std::string, base::TimeTicks>;
	using InternalEntriesMap = std::map<NameAndTime, InternalEntry>;
	// A handle should be treated as an opaque token by the caller.
	using Handle = InternalEntriesMap::iterator;

	// Returns a leaky singleton instance.
	static ActiveBackgroundTaskCache* GetInstance();

	ActiveBackgroundTaskCache();
	~ActiveBackgroundTaskCache();

	// Starts a new background task if none existed with the same name. If a
	// task already exists with the same name, its lifetime is effectively
	// extended. Callers must invoke ReleaseHandle() once they no longer need to
	// prevent background suspension.
	Handle EnsureBackgroundTaskExistsWithName(StringPiece task_name);

	// Indicates that a previous caller to EnsureBackgroundTaskExistsWithName()
	// no longer needs to prevent background suspension.
	void ReleaseHandle(Handle handle);

	private:
	InternalEntriesMap entries_map_ GUARDED_BY(entries_map_lock_);
	Lock entries_map_lock_;
	};

	const ActiveBackgroundTaskCache::Handle task_handle_;
	};

	} // namespace ios
	} // namespace base

	#endif // BASE_IOS_SCOPED_CRITICAL_ACTION_H_