gecko-dev/image/ProgressTracker.h

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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* 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_image_ProgressTracker_h
#define mozilla_image_ProgressTracker_h
#include "CopyOnWrite.h"
#include "mozilla/NotNull.h"
#include "mozilla/Mutex.h"
#include "mozilla/RefPtr.h"
#include "mozilla/WeakPtr.h"
#include "nsTHashMap.h"
#include "nsCOMPtr.h"
#include "nsTObserverArray.h"
#include "nsThreadUtils.h"
#include "nsRect.h"
#include "IProgressObserver.h"
class nsIRunnable;
namespace mozilla {
namespace image {
class AsyncNotifyRunnable;
class AsyncNotifyCurrentStateRunnable;
class Image;
/**
* Image progress bitflags.
*
* See CheckProgressConsistency() for the invariants we enforce about the
* ordering dependencies between these flags.
*/
enum {
FLAG_SIZE_AVAILABLE = 1u << 0, // STATUS_SIZE_AVAILABLE
FLAG_DECODE_COMPLETE = 1u << 1, // STATUS_DECODE_COMPLETE
FLAG_FRAME_COMPLETE = 1u << 2, // STATUS_FRAME_COMPLETE
FLAG_LOAD_COMPLETE = 1u << 3, // STATUS_LOAD_COMPLETE
FLAG_IS_ANIMATED = 1u << 6, // STATUS_IS_ANIMATED
FLAG_HAS_TRANSPARENCY = 1u << 7, // STATUS_HAS_TRANSPARENCY
FLAG_LAST_PART_COMPLETE = 1u << 8,
FLAG_HAS_ERROR = 1u << 9 // STATUS_ERROR
};
typedef uint32_t Progress;
const uint32_t NoProgress = 0;
inline Progress LoadCompleteProgress(bool aLastPart, bool aError,
nsresult aStatus) {
Progress progress = FLAG_LOAD_COMPLETE;
if (aLastPart) {
progress |= FLAG_LAST_PART_COMPLETE;
}
if (NS_FAILED(aStatus) || aError) {
progress |= FLAG_HAS_ERROR;
}
return progress;
}
/**
* ProgressTracker stores its observers in an ObserverTable, which is a hash
* table mapping raw pointers to WeakPtr's to the same objects. This sounds like
* unnecessary duplication of information, but it's necessary for stable hash
* values since WeakPtr's lose the knowledge of which object they used to point
* to when that object is destroyed.
*
* ObserverTable subclasses nsTHashMap to add reference counting
* support and a copy constructor, both of which are needed for use with
* CopyOnWrite<T>.
*/
class ObserverTable : public nsTHashMap<nsPtrHashKey<IProgressObserver>,
WeakPtr<IProgressObserver>> {
public:
NS_INLINE_DECL_REFCOUNTING(ObserverTable);
ObserverTable() = default;
ObserverTable(const ObserverTable& aOther)
: nsTHashMap<nsPtrHashKey<IProgressObserver>, WeakPtr<IProgressObserver>>(
aOther.Clone()) {
NS_WARNING("Forced to copy ObserverTable due to nested notifications");
}
private:
~ObserverTable() {}
};
/**
* ProgressTracker is a class that records an Image's progress through the
* loading and decoding process, and makes it possible to send notifications to
* IProgressObservers, both synchronously and asynchronously.
*
* When a new observer needs to be notified of the current progress of an image,
* call the Notify() method on this class with the relevant observer as its
* argument, and the notifications will be replayed to the observer
* asynchronously.
*/
class ProgressTracker : public mozilla::SupportsWeakPtr {
virtual ~ProgressTracker() {}
public:
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(ProgressTracker)
ProgressTracker();
bool HasImage() const {
MutexAutoLock lock(mMutex);
return mImage;
}
already_AddRefed<Image> GetImage() const {
MutexAutoLock lock(mMutex);
RefPtr<Image> image = mImage;
return image.forget();
}
// Get the current image status (as in imgIRequest).
uint32_t GetImageStatus() const;
// Get the current Progress.
Progress GetProgress() const { return mProgress; }
// Schedule an asynchronous "replaying" of all the notifications that would
// have to happen to put us in the current state.
// We will also take note of any notifications that happen between the time
// Notify() is called and when we call SyncNotify on |aObserver|, and replay
// them as well.
// Should be called on the main thread only, since observers and GetURI are
// not threadsafe.
void Notify(IProgressObserver* aObserver);
// Schedule an asynchronous "replaying" of all the notifications that would
// have to happen to put us in the state we are in right now.
// Unlike Notify(), does *not* take into account future notifications.
// This is only useful if you do not have an imgRequest, e.g., if you are a
// static request returned from imgIRequest::GetStaticRequest().
// Should be called on the main thread only, since observers and GetURI are
// not threadsafe.
void NotifyCurrentState(IProgressObserver* aObserver);
// "Replay" all of the notifications that would have to happen to put us in
// the state we're currently in.
// Only use this if you're already servicing an asynchronous call (e.g.
// OnStartRequest).
// Should be called on the main thread only, since observers and GetURI are
// not threadsafe.
void SyncNotify(IProgressObserver* aObserver);
// Get this ProgressTracker ready for a new request. This resets all the
// state that doesn't persist between requests.
void ResetForNewRequest();
// Stateless notifications. These are dispatched and immediately forgotten
// about. All of these notifications are main thread only.
void OnDiscard();
void OnUnlockedDraw();
void OnImageAvailable();
// Compute the difference between this our progress and aProgress. This allows
// callers to predict whether SyncNotifyProgress will send any notifications.
Progress Difference(Progress aProgress) const {
return ~mProgress & aProgress;
}
// Update our state to incorporate the changes in aProgress and synchronously
// notify our observers.
//
// Because this may result in recursive notifications, no decoding locks may
// be held. Called on the main thread only.
void SyncNotifyProgress(Progress aProgress,
const nsIntRect& aInvalidRect = nsIntRect());
// We manage a set of observers that are using an image and thus concerned
// with its loading progress. Weak pointers.
void AddObserver(IProgressObserver* aObserver);
bool RemoveObserver(IProgressObserver* aObserver);
uint32_t ObserverCount() const;
// Get the event target we should currently dispatch events to.
already_AddRefed<nsIEventTarget> GetEventTarget() const;
// Resets our weak reference to our image. Image subclasses should call this
// in their destructor.
void ResetImage();
// Tell this progress tracker that it is for a multipart image.
void SetIsMultipart() { mIsMultipart = true; }
private:
friend class AsyncNotifyRunnable;
friend class AsyncNotifyCurrentStateRunnable;
friend class ImageFactory;
ProgressTracker(const ProgressTracker& aOther) = delete;
// Sets our weak reference to our image. Only ImageFactory should call this.
void SetImage(Image* aImage);
// Send some notifications that would be necessary to make |aObserver| believe
// the request is finished downloading and decoding. We only send
// FLAG_LOAD_COMPLETE and FLAG_ONLOAD_UNBLOCKED, and only if necessary.
void EmulateRequestFinished(IProgressObserver* aObserver);
// Main thread only because it deals with the observer service.
void FireFailureNotification();
// Wrapper for AsyncNotifyRunnable to make it have medium high priority like
// other imagelib runnables.
class RenderBlockingRunnable final : public PrioritizableRunnable {
explicit RenderBlockingRunnable(
already_AddRefed<AsyncNotifyRunnable>&& aEvent);
virtual ~RenderBlockingRunnable() = default;
public:
void AddObserver(IProgressObserver* aObserver);
void RemoveObserver(IProgressObserver* aObserver);
static already_AddRefed<RenderBlockingRunnable> Create(
already_AddRefed<AsyncNotifyRunnable>&& aEvent);
};
// The runnable, if any, that we've scheduled to deliver async notifications.
RefPtr<RenderBlockingRunnable> mRunnable;
// mMutex protects access to mImage and mEventTarget.
mutable Mutex mMutex MOZ_UNANNOTATED;
// mImage is a weak ref; it should be set to null when the image goes out of
// scope.
Image* mImage;
// mEventTarget is the current, best effort event target to dispatch
// notifications to from the decoder threads. It will change as observers are
// added and removed (see mObserversWithTargets).
NotNull<nsCOMPtr<nsIEventTarget>> mEventTarget;
// How many observers have been added that have an explicit event target.
// When the first observer is added with an explicit event target, we will
// default to that as long as all observers use the same target. If a new
// observer is added which has a different event target, we will switch to
// using the unlabeled main thread event target which is safe for all
// observers. If all observers with explicit event targets are removed, we
// will revert back to the initial event target (for SystemGroup). An
// observer without an explicit event target does not care what context it
// is dispatched in, and thus does not impact the state.
uint32_t mObserversWithTargets;
// Hashtable of observers attached to the image. Each observer represents a
// consumer using the image. Main thread only.
CopyOnWrite<ObserverTable> mObservers;
Progress mProgress;
// Whether this is a progress tracker for a multipart image.
bool mIsMultipart;
};
} // namespace image
} // namespace mozilla
#endif // mozilla_image_ProgressTracker_h