gecko-dev/docshell/base/CanonicalBrowsingContext.h

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/* -*- 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_dom_CanonicalBrowsingContext_h
#define mozilla_dom_CanonicalBrowsingContext_h
#include "mozilla/dom/BrowsingContext.h"
#include "mozilla/dom/MediaControlKeySource.h"
#include "mozilla/dom/BrowsingContextWebProgress.h"
#include "mozilla/dom/ProcessIsolation.h"
#include "mozilla/dom/Promise.h"
#include "mozilla/dom/SessionHistoryEntry.h"
#include "mozilla/dom/SessionStoreRestoreData.h"
#include "mozilla/dom/SessionStoreUtils.h"
#include "mozilla/dom/ipc/IdType.h"
#include "mozilla/RefPtr.h"
#include "mozilla/MozPromise.h"
#include "nsCycleCollectionParticipant.h"
#include "nsWrapperCache.h"
#include "nsTArray.h"
#include "nsTHashtable.h"
#include "nsHashKeys.h"
#include "nsISecureBrowserUI.h"
class nsIBrowserDOMWindow;
class nsISHistory;
class nsIWidget;
class nsIPrintSettings;
class nsSHistory;
class nsBrowserStatusFilter;
class nsSecureBrowserUI;
class CallerWillNotifyHistoryIndexAndLengthChanges;
class nsITimer;
namespace mozilla {
enum class CallState;
class BounceTrackingState;
namespace embedding {
class PrintData;
}
namespace net {
class DocumentLoadListener;
}
namespace dom {
class BrowserParent;
class BrowserBridgeParent;
class FeaturePolicy;
struct LoadURIOptions;
class MediaController;
struct LoadingSessionHistoryInfo;
class SSCacheCopy;
class WindowGlobalParent;
class SessionStoreFormData;
class SessionStoreScrollData;
// CanonicalBrowsingContext is a BrowsingContext living in the parent
// process, with whatever extra data that a BrowsingContext in the
// parent needs.
class CanonicalBrowsingContext final : public BrowsingContext {
public:
NS_DECL_ISUPPORTS_INHERITED
NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS_INHERITED(
CanonicalBrowsingContext, BrowsingContext)
static already_AddRefed<CanonicalBrowsingContext> Get(uint64_t aId);
static CanonicalBrowsingContext* Cast(BrowsingContext* aContext);
static const CanonicalBrowsingContext* Cast(const BrowsingContext* aContext);
static already_AddRefed<CanonicalBrowsingContext> Cast(
already_AddRefed<BrowsingContext>&& aContext);
bool IsOwnedByProcess(uint64_t aProcessId) const {
return mProcessId == aProcessId;
}
bool IsEmbeddedInProcess(uint64_t aProcessId) const {
return mEmbedderProcessId == aProcessId;
}
uint64_t OwnerProcessId() const { return mProcessId; }
uint64_t EmbedderProcessId() const { return mEmbedderProcessId; }
ContentParent* GetContentParent() const;
void GetCurrentRemoteType(nsACString& aRemoteType, ErrorResult& aRv) const;
void SetOwnerProcessId(uint64_t aProcessId);
// The ID of the BrowsingContext which caused this BrowsingContext to be
// opened, or `0` if this is unknown.
// Only set for toplevel content BrowsingContexts, and may be from a different
// BrowsingContextGroup.
uint64_t GetCrossGroupOpenerId() const { return mCrossGroupOpenerId; }
void SetCrossGroupOpenerId(uint64_t aOpenerId);
void SetCrossGroupOpener(CanonicalBrowsingContext& aCrossGroupOpener,
ErrorResult& aRv);
void GetWindowGlobals(nsTArray<RefPtr<WindowGlobalParent>>& aWindows);
// The current active WindowGlobal.
WindowGlobalParent* GetCurrentWindowGlobal() const;
// Same as the methods on `BrowsingContext`, but with the types already cast
// to the parent process type.
CanonicalBrowsingContext* GetParent() {
return Cast(BrowsingContext::GetParent());
}
CanonicalBrowsingContext* Top() { return Cast(BrowsingContext::Top()); }
WindowGlobalParent* GetParentWindowContext();
WindowGlobalParent* GetTopWindowContext();
already_AddRefed<nsIWidget> GetParentProcessWidgetContaining();
already_AddRefed<nsIBrowserDOMWindow> GetBrowserDOMWindow();
// Same as `GetParentWindowContext`, but will also cross <browser> and
// content/chrome boundaries.
already_AddRefed<WindowGlobalParent> GetEmbedderWindowGlobal() const;
CanonicalBrowsingContext* GetParentCrossChromeBoundary();
CanonicalBrowsingContext* TopCrossChromeBoundary();
Nullable<WindowProxyHolder> GetTopChromeWindow();
nsISHistory* GetSessionHistory();
SessionHistoryEntry* GetActiveSessionHistoryEntry();
void SetActiveSessionHistoryEntry(SessionHistoryEntry* aEntry);
bool ManuallyManagesActiveness() const;
UniquePtr<LoadingSessionHistoryInfo> CreateLoadingSessionHistoryEntryForLoad(
nsDocShellLoadState* aLoadState, SessionHistoryEntry* aExistingEntry,
nsIChannel* aChannel);
UniquePtr<LoadingSessionHistoryInfo> ReplaceLoadingSessionHistoryEntryForLoad(
LoadingSessionHistoryInfo* aInfo, nsIChannel* aNewChannel);
using PrintPromise =
MozPromise<MaybeDiscardedBrowsingContext, nsresult, false>;
MOZ_CAN_RUN_SCRIPT RefPtr<PrintPromise> Print(nsIPrintSettings*);
MOZ_CAN_RUN_SCRIPT already_AddRefed<Promise> PrintJS(nsIPrintSettings*,
ErrorResult&);
MOZ_CAN_RUN_SCRIPT RefPtr<PrintPromise> PrintWithNoContentAnalysis(
nsIPrintSettings* aPrintSettings, bool aForceStaticDocument,
const MaybeDiscardedBrowsingContext& aClonedStaticBrowsingContext);
MOZ_CAN_RUN_SCRIPT void ReleaseClonedPrint(
const MaybeDiscardedBrowsingContext& aClonedStaticBrowsingContext);
// Call the given callback on all top-level descendant BrowsingContexts.
// Return Callstate::Stop from the callback to stop calling further children.
//
// If aIncludeNestedBrowsers is true, then all top descendants are included,
// even those inside a nested top browser.
void CallOnAllTopDescendants(
const FunctionRef<CallState(CanonicalBrowsingContext*)>& aCallback,
bool aIncludeNestedBrowsers);
void SessionHistoryCommit(uint64_t aLoadId, const nsID& aChangeID,
uint32_t aLoadType, bool aPersist,
bool aCloneEntryChildren, bool aChannelExpired,
uint32_t aCacheKey);
// Calls the session history listeners' OnHistoryReload, storing the result in
// aCanReload. If aCanReload is set to true and we have an active or a loading
// entry then aLoadState will be initialized from that entry, and
// aReloadActiveEntry will be true if we have an active entry. If aCanReload
// is true and aLoadState and aReloadActiveEntry are not set then we should
// attempt to reload based on the current document in the docshell.
void NotifyOnHistoryReload(
bool aForceReload, bool& aCanReload,
Maybe<NotNull<RefPtr<nsDocShellLoadState>>>& aLoadState,
Maybe<bool>& aReloadActiveEntry);
// See BrowsingContext::SetActiveSessionHistoryEntry.
void SetActiveSessionHistoryEntry(const Maybe<nsPoint>& aPreviousScrollPos,
SessionHistoryInfo* aInfo,
uint32_t aLoadType,
uint32_t aUpdatedCacheKey,
const nsID& aChangeID);
void ReplaceActiveSessionHistoryEntry(SessionHistoryInfo* aInfo);
void RemoveDynEntriesFromActiveSessionHistoryEntry();
void RemoveFromSessionHistory(const nsID& aChangeID);
Maybe<int32_t> HistoryGo(int32_t aOffset, uint64_t aHistoryEpoch,
bool aRequireUserInteraction, bool aUserActivation,
Maybe<ContentParentId> aContentId);
JSObject* WrapObject(JSContext* aCx,
JS::Handle<JSObject*> aGivenProto) override;
// Dispatches a wheel zoom change to the embedder element.
void DispatchWheelZoomChange(bool aIncrease);
// This function is used to start the autoplay media which are delayed to
// start. If needed, it would also notify the content browsing context which
// are related with the canonical browsing content tree to start delayed
// autoplay media.
void NotifyStartDelayedAutoplayMedia();
// This function is used to mute or unmute all media within a tab. It would
// set the media mute property for the top level window and propagate it to
// other top level windows in other processes.
void NotifyMediaMutedChanged(bool aMuted, ErrorResult& aRv);
// Return the number of unique site origins by iterating all given BCs,
// including their subtrees.
static uint32_t CountSiteOrigins(
GlobalObject& aGlobal,
const Sequence<mozilla::OwningNonNull<BrowsingContext>>& aRoots);
// Return true if a private browsing session is active.
static bool IsPrivateBrowsingActive();
// This function would propogate the action to its all child browsing contexts
// in content processes.
void UpdateMediaControlAction(const MediaControlAction& aAction);
// Triggers a load in the process
using BrowsingContext::LoadURI;
void FixupAndLoadURIString(const nsAString& aURI,
const LoadURIOptions& aOptions,
ErrorResult& aError);
void LoadURI(nsIURI* aURI, const LoadURIOptions& aOptions,
ErrorResult& aError);
void GoBack(const Optional<int32_t>& aCancelContentJSEpoch,
bool aRequireUserInteraction, bool aUserActivation);
void GoForward(const Optional<int32_t>& aCancelContentJSEpoch,
bool aRequireUserInteraction, bool aUserActivation);
void GoToIndex(int32_t aIndex, const Optional<int32_t>& aCancelContentJSEpoch,
bool aUserActivation);
void Reload(uint32_t aReloadFlags);
void Stop(uint32_t aStopFlags);
// Get the publicly exposed current URI loaded in this BrowsingContext.
already_AddRefed<nsIURI> GetCurrentURI() const;
void SetCurrentRemoteURI(nsIURI* aCurrentRemoteURI);
BrowserParent* GetBrowserParent() const;
void SetCurrentBrowserParent(BrowserParent* aBrowserParent);
// Internal method to change which process a BrowsingContext is being loaded
// in. The returned promise will resolve when the process switch is completed.
//
// A NOT_REMOTE_TYPE aRemoteType argument will perform a process switch into
// the parent process, and the method will resolve with a null BrowserParent.
using RemotenessPromise = MozPromise<RefPtr<BrowserParent>, nsresult, false>;
RefPtr<RemotenessPromise> ChangeRemoteness(
const NavigationIsolationOptions& aOptions, uint64_t aPendingSwitchId);
// Return a media controller from the top-level browsing context that can
// control all media belonging to this browsing context tree. Return nullptr
// if the top-level browsing context has been discarded.
MediaController* GetMediaController();
bool HasCreatedMediaController() const;
// Attempts to start loading the given load state in this BrowsingContext,
// without requiring any communication from a docshell. This will handle
// computing the right process to load in, and organising handoff to
// the right docshell when we get a response.
bool LoadInParent(nsDocShellLoadState* aLoadState, bool aSetNavigating);
// Attempts to start loading the given load state in this BrowsingContext,
// in parallel with a DocumentChannelChild being created in the docshell.
// Requires the DocumentChannel to connect with this load for it to
// complete successfully.
bool AttemptSpeculativeLoadInParent(nsDocShellLoadState* aLoadState);
// Get or create a secure browser UI for this BrowsingContext
nsISecureBrowserUI* GetSecureBrowserUI();
BrowsingContextWebProgress* GetWebProgress() { return mWebProgress; }
// Called when the current URI changes (from an
// nsIWebProgressListener::OnLocationChange event, so that we
// can update our security UI for the new location, or when the
// mixed content/https-only state for our current window is changed.
void UpdateSecurityState();
void MaybeAddAsProgressListener(nsIWebProgress* aWebProgress);
// Called when a navigation forces us to recreate our browsing
// context (for example, when switching in or out of the parent
// process).
// aNewContext is the newly created BrowsingContext that is replacing
// us.
void ReplacedBy(CanonicalBrowsingContext* aNewContext,
const NavigationIsolationOptions& aRemotenessOptions);
bool HasHistoryEntry(nsISHEntry* aEntry);
bool HasLoadingHistoryEntry(nsISHEntry* aEntry) {
for (const LoadingSessionHistoryEntry& loading : mLoadingEntries) {
if (loading.mEntry == aEntry) {
return true;
}
}
return false;
}
void SwapHistoryEntries(nsISHEntry* aOldEntry, nsISHEntry* aNewEntry);
void AddLoadingSessionHistoryEntry(uint64_t aLoadId,
SessionHistoryEntry* aEntry);
void GetLoadingSessionHistoryInfoFromParent(
Maybe<LoadingSessionHistoryInfo>& aLoadingInfo);
void HistoryCommitIndexAndLength();
void SynchronizeLayoutHistoryState();
void ResetScalingZoom();
void SetContainerFeaturePolicy(FeaturePolicy* aContainerFeaturePolicy);
FeaturePolicy* GetContainerFeaturePolicy() const {
return mContainerFeaturePolicy;
}
void SetRestoreData(SessionStoreRestoreData* aData, ErrorResult& aError);
void ClearRestoreState();
MOZ_CAN_RUN_SCRIPT_BOUNDARY void RequestRestoreTabContent(
WindowGlobalParent* aWindow);
already_AddRefed<Promise> GetRestorePromise();
nsresult WriteSessionStorageToSessionStore(
const nsTArray<SSCacheCopy>& aSesssionStorage, uint32_t aEpoch);
void UpdateSessionStoreSessionStorage(const std::function<void()>& aDone);
static void UpdateSessionStoreForStorage(uint64_t aBrowsingContextId);
// Called when a BrowserParent for this BrowsingContext has been fully
// destroyed (i.e. `ActorDestroy` was called).
void BrowserParentDestroyed(BrowserParent* aBrowserParent,
bool aAbnormalShutdown);
void StartUnloadingHost(uint64_t aChildID);
void ClearUnloadingHost(uint64_t aChildID);
bool AllowedInBFCache(const Maybe<uint64_t>& aChannelId, nsIURI* aNewURI);
// Methods for getting and setting the active state for top level
// browsing contexts, for the process priority manager.
bool IsPriorityActive() const {
MOZ_RELEASE_ASSERT(IsTop());
return mPriorityActive;
}
void SetPriorityActive(bool aIsActive) {
MOZ_RELEASE_ASSERT(IsTop());
mPriorityActive = aIsActive;
}
void SetIsActive(bool aIsActive, ErrorResult& aRv) {
MOZ_ASSERT(ManuallyManagesActiveness(),
"Shouldn't be setting active status of this browsing context if "
"not manually managed");
SetIsActiveInternal(aIsActive, aRv);
}
void SetIsActiveInternal(bool aIsActive, ErrorResult& aRv) {
SetExplicitActive(aIsActive ? ExplicitActiveStatus::Active
: ExplicitActiveStatus::Inactive,
aRv);
}
void SetTouchEventsOverride(dom::TouchEventsOverride, ErrorResult& aRv);
void SetTargetTopLevelLinkClicksToBlank(bool aTargetTopLevelLinkClicksToBlank,
ErrorResult& aRv);
bool IsReplaced() const { return mIsReplaced; }
const JS::Heap<JS::Value>& PermanentKey() { return mPermanentKey; }
void ClearPermanentKey() { mPermanentKey.setNull(); }
void MaybeSetPermanentKey(Element* aEmbedder);
// When request for page awake, it would increase a count that is used to
// prevent whole browsing context tree from being suspended. The request can
// be called multiple times. When calling the revoke, it would decrease the
// count and once the count reaches to zero, the browsing context tree could
// be suspended when the tree is inactive.
void AddPageAwakeRequest();
void RemovePageAwakeRequest();
void CloneDocumentTreeInto(CanonicalBrowsingContext* aSource,
const nsACString& aRemoteType,
embedding::PrintData&& aPrintData);
// Returns a Promise which resolves when cloning documents for printing
// finished if this browsing context is cloning document tree.
RefPtr<GenericNonExclusivePromise> GetClonePromise() const {
return mClonePromise;
}
bool StartApzAutoscroll(float aAnchorX, float aAnchorY, nsViewID aScrollId,
uint32_t aPresShellId);
void StopApzAutoscroll(nsViewID aScrollId, uint32_t aPresShellId);
void AddFinalDiscardListener(std::function<void(uint64_t)>&& aListener);
bool ForceAppWindowActive() const { return mForceAppWindowActive; }
void SetForceAppWindowActive(bool, ErrorResult&);
void RecomputeAppWindowVisibility();
already_AddRefed<nsISHEntry> GetMostRecentLoadingSessionHistoryEntry();
already_AddRefed<BounceTrackingState> GetBounceTrackingState();
protected:
// Called when the browsing context is being discarded.
void CanonicalDiscard();
// Called when the browsing context is being attached.
void CanonicalAttach();
// Called when the browsing context private mode is changed after
// being attached, but before being discarded.
void AdjustPrivateBrowsingCount(bool aPrivateBrowsing);
using Type = BrowsingContext::Type;
CanonicalBrowsingContext(WindowContext* aParentWindow,
BrowsingContextGroup* aGroup,
uint64_t aBrowsingContextId,
uint64_t aOwnerProcessId,
uint64_t aEmbedderProcessId, Type aType,
FieldValues&& aInit);
private:
friend class BrowsingContext;
virtual ~CanonicalBrowsingContext();
class PendingRemotenessChange {
public:
NS_INLINE_DECL_REFCOUNTING(PendingRemotenessChange)
PendingRemotenessChange(CanonicalBrowsingContext* aTarget,
RemotenessPromise::Private* aPromise,
uint64_t aPendingSwitchId,
const NavigationIsolationOptions& aOptions);
void Cancel(nsresult aRv);
private:
friend class CanonicalBrowsingContext;
~PendingRemotenessChange();
void ProcessLaunched();
void ProcessReady();
void MaybeFinish();
void Clear();
nsresult FinishTopContent();
nsresult FinishSubframe();
RefPtr<CanonicalBrowsingContext> mTarget;
RefPtr<RemotenessPromise::Private> mPromise;
RefPtr<ContentParent> mContentParent;
RefPtr<BrowsingContextGroup> mSpecificGroup;
bool mProcessReady = false;
bool mWaitingForPrepareToChange = false;
uint64_t mPendingSwitchId;
NavigationIsolationOptions mOptions;
};
struct RestoreState {
NS_INLINE_DECL_REFCOUNTING(RestoreState)
void ClearData() { mData = nullptr; }
void Resolve();
RefPtr<SessionStoreRestoreData> mData;
RefPtr<Promise> mPromise;
uint32_t mRequests = 0;
uint32_t mResolves = 0;
private:
~RestoreState() = default;
};
friend class net::DocumentLoadListener;
// Called when a DocumentLoadListener is created to start a load for
// this browsing context. Returns false if a higher priority load is
// already in-progress and the new one has been rejected.
bool StartDocumentLoad(net::DocumentLoadListener* aLoad);
// Called once DocumentLoadListener completes handling a load, and it
// is either complete, or handed off to the final channel to deliver
// data to the destination docshell.
// If aContinueNavigating it set, the reference to the DocumentLoadListener
// will be cleared to prevent it being cancelled, however the current load ID
// will be preserved until `EndDocumentLoad` is called again.
void EndDocumentLoad(bool aContinueNavigating);
bool SupportsLoadingInParent(nsDocShellLoadState* aLoadState,
uint64_t* aOuterWindowId);
void HistoryCommitIndexAndLength(
const nsID& aChangeID,
const CallerWillNotifyHistoryIndexAndLengthChanges& aProofOfCaller);
struct UnloadingHost {
uint64_t mChildID;
nsTArray<std::function<void()>> mCallbacks;
};
nsTArray<UnloadingHost>::iterator FindUnloadingHost(uint64_t aChildID);
// Called when we want to show the subframe crashed UI as our previous browser
// has become unloaded for one reason or another.
void ShowSubframeCrashedUI(BrowserBridgeParent* aBridge);
void MaybeScheduleSessionStoreUpdate();
void CancelSessionStoreUpdate();
void AddPendingDiscard();
void RemovePendingDiscard();
bool ShouldAddEntryForRefresh(const SessionHistoryEntry* aEntry) {
return ShouldAddEntryForRefresh(aEntry->Info().GetURI(),
aEntry->Info().HasPostData());
}
bool ShouldAddEntryForRefresh(nsIURI* aNewURI, bool aHasPostData) {
nsCOMPtr<nsIURI> currentURI = GetCurrentURI();
return BrowsingContext::ShouldAddEntryForRefresh(currentURI, aNewURI,
aHasPostData);
}
already_AddRefed<nsDocShellLoadState> CreateLoadInfo(
SessionHistoryEntry* aEntry);
// XXX(farre): Store a ContentParent pointer here rather than mProcessId?
// Indicates which process owns the docshell.
uint64_t mProcessId;
// Indicates which process owns the embedder element.
uint64_t mEmbedderProcessId;
uint64_t mCrossGroupOpenerId = 0;
// This function will make the top window context reset its
// "SHEntryHasUserInteraction" cache that prevents documents from repeatedly
// setting user interaction on SH entries. Should be called anytime SH
// entries are added or replaced.
void ResetSHEntryHasUserInteractionCache();
RefPtr<BrowserParent> mCurrentBrowserParent;
nsTArray<UnloadingHost> mUnloadingHosts;
// The current URI loaded in this BrowsingContext. This value is only set for
// BrowsingContexts loaded in content processes.
nsCOMPtr<nsIURI> mCurrentRemoteURI;
// The current remoteness change which is in a pending state.
RefPtr<PendingRemotenessChange> mPendingRemotenessChange;
RefPtr<nsSHistory> mSessionHistory;
// Tab media controller is used to control all media existing in the same
// browsing context tree, so it would only exist in the top level browsing
// context.
RefPtr<MediaController> mTabMediaController;
RefPtr<net::DocumentLoadListener> mCurrentLoad;
struct LoadingSessionHistoryEntry {
uint64_t mLoadId = 0;
RefPtr<SessionHistoryEntry> mEntry;
};
nsTArray<LoadingSessionHistoryEntry> mLoadingEntries;
RefPtr<SessionHistoryEntry> mActiveEntry;
RefPtr<nsSecureBrowserUI> mSecureBrowserUI;
RefPtr<BrowsingContextWebProgress> mWebProgress;
nsCOMPtr<nsIWebProgressListener> mDocShellProgressBridge;
RefPtr<nsBrowserStatusFilter> mStatusFilter;
RefPtr<FeaturePolicy> mContainerFeaturePolicy;
friend class BrowserSessionStore;
WeakPtr<SessionStoreFormData>& GetSessionStoreFormDataRef() {
return mFormdata;
}
WeakPtr<SessionStoreScrollData>& GetSessionStoreScrollDataRef() {
return mScroll;
}
WeakPtr<SessionStoreFormData> mFormdata;
WeakPtr<SessionStoreScrollData> mScroll;
RefPtr<RestoreState> mRestoreState;
nsCOMPtr<nsITimer> mSessionStoreSessionStorageUpdateTimer;
// If this is a top level context, this is true if our browser ID is marked as
// active in the process priority manager.
bool mPriorityActive = false;
// See CanonicalBrowsingContext.forceAppWindowActive.
bool mForceAppWindowActive = false;
bool mIsReplaced = false;
// A Promise created when cloning documents for printing.
RefPtr<GenericNonExclusivePromise> mClonePromise;
JS::Heap<JS::Value> mPermanentKey;
uint32_t mPendingDiscards = 0;
bool mFullyDiscarded = false;
nsTArray<std::function<void(uint64_t)>> mFullyDiscardedListeners;
};
} // namespace dom
} // namespace mozilla
#endif // !defined(mozilla_dom_CanonicalBrowsingContext_h)