// Copyright (c) 2012 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_THREAD_RESTRICTIONS_H_ #define BASE_THREADING_THREAD_RESTRICTIONS_H_ #include "base/base_export.h" #include "base/basictypes.h" // See comment at top of thread_checker.h #if (!defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)) #define ENABLE_THREAD_RESTRICTIONS 1 #else #define ENABLE_THREAD_RESTRICTIONS 0 #endif class AcceleratedPresenter; class BrowserProcessImpl; class HistogramSynchronizer; class MetricsService; class NativeBackendKWallet; class ScopedAllowWaitForLegacyWebViewApi; class TestingAutomationProvider; namespace browser_sync { class NonFrontendDataTypeController; class UIModelWorker; } namespace cc { class CompletionEvent; } namespace chromeos { class AudioMixerAlsa; class BlockingMethodCaller; namespace system { class StatisticsProviderImpl; } } namespace chrome_browser_net { class Predictor; } namespace content { class BrowserGpuChannelHostFactory; class GLHelper; class GpuChannelHost; class RenderWidgetHelper; class TextInputClientMac; } namespace dbus { class Bus; } namespace disk_cache { class BackendImpl; class InFlightIO; } namespace media { class AudioOutputController; } namespace net { class FileStreamPosix; class FileStreamWin; namespace internal { class AddressTrackerLinux; } } namespace remoting { class AutoThread; } namespace base { class SequencedWorkerPool; class SimpleThread; class Thread; class ThreadTestHelper; // Certain behavior is disallowed on certain threads. ThreadRestrictions helps // enforce these rules. Examples of such rules: // // * Do not do blocking IO (makes the thread janky) // * Do not access Singleton/LazyInstance (may lead to shutdown crashes) // // Here's more about how the protection works: // // 1) If a thread should not be allowed to make IO calls, mark it: // base::ThreadRestrictions::SetIOAllowed(false); // By default, threads *are* allowed to make IO calls. // In Chrome browser code, IO calls should be proxied to the File thread. // // 2) If a function makes a call that will go out to disk, check whether the // current thread is allowed: // base::ThreadRestrictions::AssertIOAllowed(); // // // Style tip: where should you put AssertIOAllowed checks? It's best // if you put them as close to the disk access as possible, at the // lowest level. This rule is simple to follow and helps catch all // callers. For example, if your function GoDoSomeBlockingDiskCall() // only calls other functions in Chrome and not fopen(), you should go // add the AssertIOAllowed checks in the helper functions. class BASE_EXPORT ThreadRestrictions { public: // Constructing a ScopedAllowIO temporarily allows IO for the current // thread. Doing this is almost certainly always incorrect. class BASE_EXPORT ScopedAllowIO { public: ScopedAllowIO() { previous_value_ = SetIOAllowed(true); } ~ScopedAllowIO() { SetIOAllowed(previous_value_); } private: // Whether IO is allowed when the ScopedAllowIO was constructed. bool previous_value_; DISALLOW_COPY_AND_ASSIGN(ScopedAllowIO); }; // Constructing a ScopedAllowSingleton temporarily allows accessing for the // current thread. Doing this is almost always incorrect. class BASE_EXPORT ScopedAllowSingleton { public: ScopedAllowSingleton() { previous_value_ = SetSingletonAllowed(true); } ~ScopedAllowSingleton() { SetSingletonAllowed(previous_value_); } private: // Whether singleton use is allowed when the ScopedAllowSingleton was // constructed. bool previous_value_; DISALLOW_COPY_AND_ASSIGN(ScopedAllowSingleton); }; #if ENABLE_THREAD_RESTRICTIONS // Set whether the current thread to make IO calls. // Threads start out in the *allowed* state. // Returns the previous value. static bool SetIOAllowed(bool allowed); // Check whether the current thread is allowed to make IO calls, // and DCHECK if not. See the block comment above the class for // a discussion of where to add these checks. static void AssertIOAllowed(); // Set whether the current thread can use singletons. Returns the previous // value. static bool SetSingletonAllowed(bool allowed); // Check whether the current thread is allowed to use singletons (Singleton / // LazyInstance). DCHECKs if not. static void AssertSingletonAllowed(); // Disable waiting on the current thread. Threads start out in the *allowed* // state. Returns the previous value. static void DisallowWaiting(); // Check whether the current thread is allowed to wait, and DCHECK if not. static void AssertWaitAllowed(); #else // Inline the empty definitions of these functions so that they can be // compiled out. static bool SetIOAllowed(bool allowed) { return true; } static void AssertIOAllowed() {} static bool SetSingletonAllowed(bool allowed) { return true; } static void AssertSingletonAllowed() {} static void DisallowWaiting() {} static void AssertWaitAllowed() {} #endif private: // DO NOT ADD ANY OTHER FRIEND STATEMENTS, talk to jam or brettw first. // BEGIN ALLOWED USAGE. friend class content::RenderWidgetHelper; friend class ::HistogramSynchronizer; friend class ::ScopedAllowWaitForLegacyWebViewApi; friend class ::TestingAutomationProvider; friend class cc::CompletionEvent; friend class remoting::AutoThread; friend class MessagePumpDefault; friend class SequencedWorkerPool; friend class SimpleThread; friend class Thread; friend class ThreadTestHelper; // END ALLOWED USAGE. // BEGIN USAGE THAT NEEDS TO BE FIXED. friend class ::chromeos::AudioMixerAlsa; // http://crbug.com/125206 friend class ::chromeos::BlockingMethodCaller; // http://crbug.com/125360 friend class ::chromeos::system::StatisticsProviderImpl; // http://crbug.com/125385 friend class browser_sync::NonFrontendDataTypeController; // http://crbug.com/19757 friend class browser_sync::UIModelWorker; // http://crbug.com/19757 friend class chrome_browser_net::Predictor; // http://crbug.com/78451 friend class content::BrowserGpuChannelHostFactory; // http://crbug.com/125248 friend class content::GLHelper; // http://crbug.com/125415 friend class content::GpuChannelHost; // http://crbug.com/125264 friend class content::TextInputClientMac; // http://crbug.com/121917 friend class dbus::Bus; // http://crbug.com/125222 friend class disk_cache::BackendImpl; // http://crbug.com/74623 friend class disk_cache::InFlightIO; // http://crbug.com/74623 friend class media::AudioOutputController; // http://crbug.com/120973 friend class net::FileStreamPosix; // http://crbug.com/115067 friend class net::FileStreamWin; // http://crbug.com/115067 friend class net::internal::AddressTrackerLinux; // http://crbug.com/125097 friend class ::AcceleratedPresenter; // http://crbug.com/125391 friend class ::BrowserProcessImpl; // http://crbug.com/125207 friend class ::MetricsService; // http://crbug.com/124954 friend class ::NativeBackendKWallet; // http://crbug.com/125331 // END USAGE THAT NEEDS TO BE FIXED. #if ENABLE_THREAD_RESTRICTIONS static bool SetWaitAllowed(bool allowed); #else static bool SetWaitAllowed(bool allowed) { return true; } #endif // Constructing a ScopedAllowWait temporarily allows waiting on the current // thread. Doing this is almost always incorrect, which is why we limit who // can use this through friend. If you find yourself needing to use this, find // another way. Talk to jam or brettw. class BASE_EXPORT ScopedAllowWait { public: ScopedAllowWait() { previous_value_ = SetWaitAllowed(true); } ~ScopedAllowWait() { SetWaitAllowed(previous_value_); } private: // Whether singleton use is allowed when the ScopedAllowWait was // constructed. bool previous_value_; DISALLOW_COPY_AND_ASSIGN(ScopedAllowWait); }; DISALLOW_IMPLICIT_CONSTRUCTORS(ThreadRestrictions); }; } // namespace base #endif // BASE_THREADING_THREAD_RESTRICTIONS_H_