base/threading/scoped_blocking_call.h - chromium/src - Git at Google

 // Copyright 2017 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.

 #ifndef BASE_THREADING_SCOPED_BLOCKING_CALL_H
 #define BASE_THREADING_SCOPED_BLOCKING_CALL_H

 #include "base/base_export.h"
 #include "base/location.h"
 #include "base/logging.h"

 namespace base {

 // A "blocking call" refers to any call that causes the calling thread to wait
 // off-CPU. It includes but is not limited to calls that wait on synchronous
 // file I/O operations: read or write a file from disk, interact with a pipe or
 // a socket, rename or delete a file, enumerate files in a directory, etc.
 // Acquiring a low contention lock is not considered a blocking call.

 // BlockingType indicates the likelihood that a blocking call will actually
 // block.
 enum class BlockingType {
   // The call might block (e.g. file I/O that might hit in memory cache).
   MAY_BLOCK,
   // The call will definitely block (e.g. cache already checked and now pinging
   // server synchronously).
   WILL_BLOCK
 };

 namespace internal {

 class BlockingObserver;

 // Common implementation class for both ScopedBlockingCall and
 // ScopedBlockingCallWithBaseSyncPrimitives without assertions.
 class BASE_EXPORT UncheckedScopedBlockingCall {
  public:
   explicit UncheckedScopedBlockingCall(BlockingType blocking_type);
   ~UncheckedScopedBlockingCall();

  private:
   internal::BlockingObserver* const blocking_observer_;

   // Previous ScopedBlockingCall instantiated on this thread.
   UncheckedScopedBlockingCall* const previous_scoped_blocking_call_;

   // Whether the BlockingType of the current thread was WILL_BLOCK after this
   // ScopedBlockingCall was instantiated.
   const bool is_will_block_;

   DISALLOW_COPY_AND_ASSIGN(UncheckedScopedBlockingCall);
 };

 }  // namespace internal

 // This class must be instantiated in every scope where a blocking call is made
 // and serves as a precise annotation of the scope that may/will block for the
 // scheduler. When a ScopedBlockingCall is instantiated, it asserts that
 // blocking calls are allowed in its scope with a call to
 // base::AssertBlockingAllowed(). CPU usage should be minimal within that scope.
 // //base APIs that block instantiate their own ScopedBlockingCall; it is not
 // necessary to instantiate another ScopedBlockingCall in the scope where these
 // APIs are used. Nested ScopedBlockingCalls are supported (mostly a no-op
 // except for WILL_BLOCK nested within MAY_BLOCK which will result in immediate
 // WILL_BLOCK semantics).
 //
 // Good:
 //   Data data;
 //   {
 //     ScopedBlockingCall scoped_blocking_call(
 //         FROM_HERE, BlockingType::WILL_BLOCK);
 //     data = GetDataFromNetwork();
 //   }
 //   CPUIntensiveProcessing(data);
 //
 // Bad:
 //   ScopedBlockingCall scoped_blocking_call(FROM_HERE,
 //       BlockingType::WILL_BLOCK);
 //   Data data = GetDataFromNetwork();
 //   CPUIntensiveProcessing(data);  // CPU usage within a ScopedBlockingCall.
 //
 // Good:
 //   Data a;
 //   Data b;
 //   {
 //     ScopedBlockingCall scoped_blocking_call(
 //         FROM_HERE, BlockingType::MAY_BLOCK);
 //     a = GetDataFromMemoryCacheOrNetwork();
 //     b = GetDataFromMemoryCacheOrNetwork();
 //   }
 //   CPUIntensiveProcessing(a);
 //   CPUIntensiveProcessing(b);
 //
 // Bad:
 //   ScopedBlockingCall scoped_blocking_call(
 //       FROM_HERE, BlockingType::MAY_BLOCK);
 //   Data a = GetDataFromMemoryCacheOrNetwork();
 //   Data b = GetDataFromMemoryCacheOrNetwork();
 //   CPUIntensiveProcessing(a);  // CPU usage within a ScopedBlockingCall.
 //   CPUIntensiveProcessing(b);  // CPU usage within a ScopedBlockingCall.
 //
 // Good:
 //   base::WaitableEvent waitable_event(...);
 //   waitable_event.Wait();
 //
 // Bad:
 //  base::WaitableEvent waitable_event(...);
 //  ScopedBlockingCall scoped_blocking_call(
 //      FROM_HERE, BlockingType::WILL_BLOCK);
 //  waitable_event.Wait();  // Wait() instantiates its own ScopedBlockingCall.
 //
 // When a ScopedBlockingCall is instantiated from a ThreadPool parallel or
 // sequenced task, the thread pool size is incremented to compensate for the
 // blocked thread (more or less aggressively depending on BlockingType).
 class BASE_EXPORT ScopedBlockingCall
     : public internal::UncheckedScopedBlockingCall {
  public:
   ScopedBlockingCall(const Location& from_here, BlockingType blocking_type);
   ~ScopedBlockingCall();
 };

 namespace internal {

 // This class must be instantiated in every scope where a sync primitive is
 // used. When a ScopedBlockingCallWithBaseSyncPrimitives is instantiated, it
 // asserts that sync primitives are allowed in its scope with a call to
 // internal::AssertBaseSyncPrimitivesAllowed(). The same guidelines as for
 // ScopedBlockingCall should be followed.
 class BASE_EXPORT ScopedBlockingCallWithBaseSyncPrimitives
     : public UncheckedScopedBlockingCall {
  public:
   explicit ScopedBlockingCallWithBaseSyncPrimitives(BlockingType blocking_type);
   ScopedBlockingCallWithBaseSyncPrimitives(const Location& from_here,
                                            BlockingType blocking_type);
   ~ScopedBlockingCallWithBaseSyncPrimitives();
 };

 // Interface for an observer to be informed when a thread enters or exits
 // the scope of ScopedBlockingCall objects.
 class BASE_EXPORT BlockingObserver {
  public:
   virtual ~BlockingObserver() = default;

   // Invoked when a ScopedBlockingCall is instantiated on the observed thread
   // where there wasn't an existing ScopedBlockingCall.
   virtual void BlockingStarted(BlockingType blocking_type) = 0;

   // Invoked when a WILL_BLOCK ScopedBlockingCall is instantiated on the
   // observed thread where there was a MAY_BLOCK ScopedBlockingCall but not a
   // WILL_BLOCK ScopedBlockingCall.
   virtual void BlockingTypeUpgraded() = 0;

   // Invoked when the last ScopedBlockingCall on the observed thread is
   // destroyed.
   virtual void BlockingEnded() = 0;
 };

 // Registers |blocking_observer| on the current thread. It is invalid to call
 // this on a thread where there is an active ScopedBlockingCall.
 BASE_EXPORT void SetBlockingObserverForCurrentThread(
     BlockingObserver* blocking_observer);

 BASE_EXPORT void ClearBlockingObserverForCurrentThread();

 // Unregisters the |blocking_observer| on the current thread within its scope.
 // Used in ThreadPool tests to prevent calls to //base sync primitives from
 // affecting the thread pool capacity.
 class BASE_EXPORT ScopedClearBlockingObserverForTesting {
  public:
   ScopedClearBlockingObserverForTesting();
   ~ScopedClearBlockingObserverForTesting();

  private:
   BlockingObserver* const blocking_observer_;

   DISALLOW_COPY_AND_ASSIGN(ScopedClearBlockingObserverForTesting);
 };

 }  // namespace internal

 }  // namespace base

 #endif  // BASE_THREADING_SCOPED_BLOCKING_CALL_H
	// Copyright 2017 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.

	#ifndef BASE_THREADING_SCOPED_BLOCKING_CALL_H
	#define BASE_THREADING_SCOPED_BLOCKING_CALL_H

	#include "base/base_export.h"
	#include "base/location.h"
	#include "base/logging.h"

	namespace base {

	// A "blocking call" refers to any call that causes the calling thread to wait
	// off-CPU. It includes but is not limited to calls that wait on synchronous
	// file I/O operations: read or write a file from disk, interact with a pipe or
	// a socket, rename or delete a file, enumerate files in a directory, etc.
	// Acquiring a low contention lock is not considered a blocking call.

	// BlockingType indicates the likelihood that a blocking call will actually
	// block.
	enum class BlockingType {
	// The call might block (e.g. file I/O that might hit in memory cache).
	MAY_BLOCK,
	// The call will definitely block (e.g. cache already checked and now pinging
	// server synchronously).
	WILL_BLOCK
	};

	namespace internal {

	class BlockingObserver;

	// Common implementation class for both ScopedBlockingCall and
	// ScopedBlockingCallWithBaseSyncPrimitives without assertions.
	class BASE_EXPORT UncheckedScopedBlockingCall {
	public:
	explicit UncheckedScopedBlockingCall(BlockingType blocking_type);
	~UncheckedScopedBlockingCall();

	private:
	internal::BlockingObserver* const blocking_observer_;

	// Previous ScopedBlockingCall instantiated on this thread.
	UncheckedScopedBlockingCall* const previous_scoped_blocking_call_;

	// Whether the BlockingType of the current thread was WILL_BLOCK after this
	// ScopedBlockingCall was instantiated.
	const bool is_will_block_;

	DISALLOW_COPY_AND_ASSIGN(UncheckedScopedBlockingCall);
	};

	} // namespace internal

	// This class must be instantiated in every scope where a blocking call is made
	// and serves as a precise annotation of the scope that may/will block for the
	// scheduler. When a ScopedBlockingCall is instantiated, it asserts that
	// blocking calls are allowed in its scope with a call to
	// base::AssertBlockingAllowed(). CPU usage should be minimal within that scope.
	// //base APIs that block instantiate their own ScopedBlockingCall; it is not
	// necessary to instantiate another ScopedBlockingCall in the scope where these
	// APIs are used. Nested ScopedBlockingCalls are supported (mostly a no-op
	// except for WILL_BLOCK nested within MAY_BLOCK which will result in immediate
	// WILL_BLOCK semantics).
	//
	// Good:
	// Data data;
	// {
	// ScopedBlockingCall scoped_blocking_call(
	// FROM_HERE, BlockingType::WILL_BLOCK);
	// data = GetDataFromNetwork();
	// }
	// CPUIntensiveProcessing(data);
	//
	// Bad:
	// ScopedBlockingCall scoped_blocking_call(FROM_HERE,
	// BlockingType::WILL_BLOCK);
	// Data data = GetDataFromNetwork();
	// CPUIntensiveProcessing(data); // CPU usage within a ScopedBlockingCall.
	//
	// Good:
	// Data a;
	// Data b;
	// {
	// ScopedBlockingCall scoped_blocking_call(
	// FROM_HERE, BlockingType::MAY_BLOCK);
	// a = GetDataFromMemoryCacheOrNetwork();
	// b = GetDataFromMemoryCacheOrNetwork();
	// }
	// CPUIntensiveProcessing(a);
	// CPUIntensiveProcessing(b);
	//
	// Bad:
	// ScopedBlockingCall scoped_blocking_call(
	// FROM_HERE, BlockingType::MAY_BLOCK);
	// Data a = GetDataFromMemoryCacheOrNetwork();
	// Data b = GetDataFromMemoryCacheOrNetwork();
	// CPUIntensiveProcessing(a); // CPU usage within a ScopedBlockingCall.
	// CPUIntensiveProcessing(b); // CPU usage within a ScopedBlockingCall.
	//
	// Good:
	// base::WaitableEvent waitable_event(...);
	// waitable_event.Wait();
	//
	// Bad:
	// base::WaitableEvent waitable_event(...);
	// ScopedBlockingCall scoped_blocking_call(
	// FROM_HERE, BlockingType::WILL_BLOCK);
	// waitable_event.Wait(); // Wait() instantiates its own ScopedBlockingCall.
	//
	// When a ScopedBlockingCall is instantiated from a ThreadPool parallel or
	// sequenced task, the thread pool size is incremented to compensate for the
	// blocked thread (more or less aggressively depending on BlockingType).
	class BASE_EXPORT ScopedBlockingCall
	: public internal::UncheckedScopedBlockingCall {
	public:
	ScopedBlockingCall(const Location& from_here, BlockingType blocking_type);
	~ScopedBlockingCall();
	};

	namespace internal {

	// This class must be instantiated in every scope where a sync primitive is
	// used. When a ScopedBlockingCallWithBaseSyncPrimitives is instantiated, it
	// asserts that sync primitives are allowed in its scope with a call to
	// internal::AssertBaseSyncPrimitivesAllowed(). The same guidelines as for
	// ScopedBlockingCall should be followed.
	class BASE_EXPORT ScopedBlockingCallWithBaseSyncPrimitives
	: public UncheckedScopedBlockingCall {
	public:
	explicit ScopedBlockingCallWithBaseSyncPrimitives(BlockingType blocking_type);
	ScopedBlockingCallWithBaseSyncPrimitives(const Location& from_here,
	BlockingType blocking_type);
	~ScopedBlockingCallWithBaseSyncPrimitives();
	};

	// Interface for an observer to be informed when a thread enters or exits
	// the scope of ScopedBlockingCall objects.
	class BASE_EXPORT BlockingObserver {
	public:
	virtual ~BlockingObserver() = default;

	// Invoked when a ScopedBlockingCall is instantiated on the observed thread
	// where there wasn't an existing ScopedBlockingCall.
	virtual void BlockingStarted(BlockingType blocking_type) = 0;

	// Invoked when a WILL_BLOCK ScopedBlockingCall is instantiated on the
	// observed thread where there was a MAY_BLOCK ScopedBlockingCall but not a
	// WILL_BLOCK ScopedBlockingCall.
	virtual void BlockingTypeUpgraded() = 0;

	// Invoked when the last ScopedBlockingCall on the observed thread is
	// destroyed.
	virtual void BlockingEnded() = 0;
	};

	// Registers \|blocking_observer\| on the current thread. It is invalid to call
	// this on a thread where there is an active ScopedBlockingCall.
	BASE_EXPORT void SetBlockingObserverForCurrentThread(
	BlockingObserver* blocking_observer);

	BASE_EXPORT void ClearBlockingObserverForCurrentThread();

	// Unregisters the \|blocking_observer\| on the current thread within its scope.
	// Used in ThreadPool tests to prevent calls to //base sync primitives from
	// affecting the thread pool capacity.
	class BASE_EXPORT ScopedClearBlockingObserverForTesting {
	public:
	ScopedClearBlockingObserverForTesting();
	~ScopedClearBlockingObserverForTesting();

	private:
	BlockingObserver* const blocking_observer_;

	DISALLOW_COPY_AND_ASSIGN(ScopedClearBlockingObserverForTesting);
	};

	} // namespace internal

	} // namespace base

	#endif // BASE_THREADING_SCOPED_BLOCKING_CALL_H