path: root/gfx/layers/apz/public/APZUpdater.h

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#ifndef mozilla_layers_APZUpdater_h
#define mozilla_layers_APZUpdater_h

#include <deque>
#include <unordered_map>

#include "base/platform_thread.h"  // for PlatformThreadId
#include "LayersTypes.h"
#include "mozilla/layers/APZTestData.h"
#include "mozilla/layers/WebRenderScrollData.h"
#include "mozilla/StaticMutex.h"
#include "mozilla/StaticPtr.h"
#include "mozilla/webrender/WebRenderTypes.h"
#include "nsThreadUtils.h"
#include "Units.h"

namespace mozilla {

namespace layers {

class APZCTreeManager;
class FocusTarget;
class WebRenderScrollData;

/**
 * This interface is used to send updates or otherwise mutate APZ internal
 * state. These functions is usually called from the compositor thread in
 * response to IPC messages. The method implementations internally redispatch
 * themselves to the updater thread in the case where the compositor thread
 * is not the updater thread.
 */
class APZUpdater {
  NS_INLINE_DECL_THREADSAFE_REFCOUNTING(APZUpdater)

 public:
  APZUpdater(const RefPtr<APZCTreeManager>& aApz, bool aConnectedToWebRender);

  bool HasTreeManager(const RefPtr<APZCTreeManager>& aApz);
  void SetWebRenderWindowId(const wr::WindowId& aWindowId);

  /**
   * This function is invoked from rust on the scene builder thread when it
   * is created. It effectively tells the APZUpdater "the current thread is
   * the updater thread for this window id" and allows APZUpdater to remember
   * which thread it is.
   */
  static void SetUpdaterThread(const wr::WrWindowId& aWindowId);
  static void PrepareForSceneSwap(const wr::WrWindowId& aWindowId);
  static void CompleteSceneSwap(const wr::WrWindowId& aWindowId,
                                const wr::WrPipelineInfo& aInfo);
  static void ProcessPendingTasks(const wr::WrWindowId& aWindowId);

  void ClearTree(LayersId aRootLayersId);
  void UpdateFocusState(LayersId aRootLayerTreeId,
                        LayersId aOriginatingLayersId,
                        const FocusTarget& aFocusTarget);
  /**
   * This should be called (in the WR-enabled case) when the compositor receives
   * a new WebRenderScrollData for a layers id. The |aScrollData| parameter is
   * the scroll data for |aOriginatingLayersId| and |aEpoch| is the
   * corresponding epoch for the transaction that transferred the scroll data.
   * This function will store the new scroll data and update the focus state and
   * hit-testing tree.
   */
  void UpdateScrollDataAndTreeState(LayersId aRootLayerTreeId,
                                    LayersId aOriginatingLayersId,
                                    const wr::Epoch& aEpoch,
                                    WebRenderScrollData&& aScrollData);
  /**
   * This is called in the WR-enabled case when we get an empty transaction that
   * has some scroll offset updates (from paint-skipped scrolling on the content
   * side). This function will update the stored scroll offsets and the
   * hit-testing tree.
   */
  void UpdateScrollOffsets(LayersId aRootLayerTreeId,
                           LayersId aOriginatingLayersId,
                           ScrollUpdatesMap&& aUpdates,
                           uint32_t aPaintSequenceNumber);

  void NotifyLayerTreeAdopted(LayersId aLayersId,
                              const RefPtr<APZUpdater>& aOldUpdater);
  void NotifyLayerTreeRemoved(LayersId aLayersId);

  bool GetAPZTestData(LayersId aLayersId, APZTestData* aOutData);

  void SetTestAsyncScrollOffset(LayersId aLayersId,
                                const ScrollableLayerGuid::ViewID& aScrollId,
                                const CSSPoint& aOffset);
  void SetTestAsyncZoom(LayersId aLayersId,
                        const ScrollableLayerGuid::ViewID& aScrollId,
                        const LayerToParentLayerScale& aZoom);

  // This can only be called on the updater thread.
  const WebRenderScrollData* GetScrollData(LayersId aLayersId) const;

  /**
   * This can be used to assert that the current thread is the
   * updater thread (which samples the async transform).
   * This does nothing if thread assertions are disabled.
   */
  void AssertOnUpdaterThread() const;

  /**
   * Runs the given task on the APZ "updater thread" for this APZUpdater. If
   * this function is called from the updater thread itself then the task is
   * run immediately without getting queued.
   *
   * The layers id argument should be the id of the layer tree that is
   * requesting this task to be run. Conceptually each layer tree has a separate
   * task queue, so that if one layer tree is blocked waiting for a scene build
   * then tasks for the other layer trees can still be processed.
   */
  void RunOnUpdaterThread(LayersId aLayersId, already_AddRefed<Runnable> aTask);

  /**
   * Returns true if currently on the APZUpdater's "updater thread".
   */
  bool IsUpdaterThread() const;

  /**
   * Dispatches the given task to the APZ "controller thread", but does it
   * *from* the updater thread. That is, if the thread on which this function is
   * called is not the updater thread, the task is first dispatched to the
   * updater thread. When the updater thread runs it (or if this is called
   * directly on the updater thread), that is when the task gets dispatched to
   * the controller thread. The controller thread then actually runs the task.
   *
   * See the RunOnUpdaterThread method for details on the layers id argument.
   */
  void RunOnControllerThread(LayersId aLayersId,
                             already_AddRefed<Runnable> aTask);

  void MarkAsDetached(LayersId aLayersId);

 protected:
  virtual ~APZUpdater();

  // Return true if the APZUpdater is connected to WebRender and is
  // using a WebRender scene builder thread as its updater thread.
  // This is only false during GTests, and a shutdown codepath during
  // which we create a dummy APZUpdater.
  bool IsConnectedToWebRender() const;

  static already_AddRefed<APZUpdater> GetUpdater(
      const wr::WrWindowId& aWindowId);

  void ProcessQueue();

 private:
  RefPtr<APZCTreeManager> mApz;
  bool mDestroyed;
  bool mConnectedToWebRender;

  // Map from layers id to WebRenderScrollData. This can only be touched on
  // the updater thread.
  std::unordered_map<LayersId, WebRenderScrollData, LayersId::HashFn>
      mScrollData;

  // Stores epoch state for a particular layers id. This structure is only
  // accessed on the updater thread.
  struct EpochState {
    // The epoch for the most recent scroll data sent from the content side.
    wr::Epoch mRequired;
    // The epoch for the most recent scene built and swapped in on the WR side.
    Maybe<wr::Epoch> mBuilt;
    // True if and only if the layers id is the root layers id for the
    // compositor
    bool mIsRoot;

    EpochState();

    // Whether or not the state for this layers id is such that it blocks
    // processing of tasks for the layer tree. This happens if the root layers
    // id or a "visible" layers id has scroll data for an epoch newer than what
    // has been built. A "visible" layers id is one that is attached to the full
    // layer tree (i.e. there is a chain of reflayer items from the root layer
    // tree to the relevant layer subtree). This is not always the case; for
    // instance a content process may send the compositor layers for a document
    // before the chrome has attached the remote iframe to the root document.
    // Since WR only builds pipelines for "visible" layers ids, |mBuilt| being
    // populated means that the layers id is "visible".
    bool IsBlocked() const;
  };

  // Map from layers id to epoch state.
  // This data structure can only be touched on the updater thread.
  std::unordered_map<LayersId, EpochState, LayersId::HashFn> mEpochData;

  // Used to manage the mapping from a WR window id to APZUpdater. These are
  // only used if WebRender is enabled. Both sWindowIdMap and mWindowId should
  // only be used while holding the sWindowIdLock. Note that we use a
  // StaticAutoPtr wrapper on sWindowIdMap to avoid a static initializer for the
  // unordered_map. This also avoids the initializer/memory allocation in cases
  // where we're not using WebRender.
  static StaticMutex sWindowIdLock MOZ_UNANNOTATED;
  static StaticAutoPtr<std::unordered_map<uint64_t, APZUpdater*>> sWindowIdMap;
  Maybe<wr::WrWindowId> mWindowId;

  // Lock used to protected mUpdaterThreadId;
  mutable Mutex mThreadIdLock MOZ_UNANNOTATED;
  // If WebRender and async scene building are enabled, this holds the thread id
  // of the scene builder thread (which is the updater thread) for the
  // compositor associated with this APZUpdater instance. It may be populated
  // even if async scene building is not enabled, but in that case we don't
  // care about the contents.
  Maybe<PlatformThreadId> mUpdaterThreadId;

  // Helper struct that pairs each queued runnable with the layers id that it is
  // associated with. This allows us to easily implement the conceptual
  // separation of mUpdaterQueue into independent queues per layers id.
  struct QueuedTask {
    LayersId mLayersId;
    RefPtr<Runnable> mRunnable;
  };

  // Lock used to protect mUpdaterQueue
  Mutex mQueueLock MOZ_UNANNOTATED;
  // Holds a queue of tasks to be run on the updater thread, when the updater
  // thread is a WebRender thread, since it won't have a message loop we can
  // dispatch to. Note that although this is a single queue it is conceptually
  // separated into multiple ones, one per layers id. Tasks for a given layers
  // id will always run in FIFO order, but there is no guaranteed ordering for
  // tasks with different layers ids.
  std::deque<QueuedTask> mUpdaterQueue;
};

}  // namespace layers
}  // namespace mozilla

#endif  // mozilla_layers_APZUpdater_h