gecko-dev/dom/ipc/PContent.ipdl

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/* -*- Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil; tab-width: 8 -*- */
2009-08-18 23:05:15 +04:00
/* vim: set sw=4 ts=8 et tw=80 ft=cpp : */
2012-05-21 15:12:37 +04:00
/* 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/. */
include protocol PBackground;
include protocol PBrowser;
include protocol PCompositorManager;
include protocol PContentPermissionRequest;
include protocol PCycleCollectWithLogs;
include protocol PExternalHelperApp;
include protocol PHandlerService;
include protocol PFileDescriptorSet;
include protocol PHal;
include protocol PHeapSnapshotTempFileHelper;
include protocol PProcessHangMonitor;
include protocol PImageBridge;
include protocol PIPCBlobInputStream;
include protocol PLoginReputation;
include protocol PMedia;
include protocol PNecko;
include protocol PStreamFilter;
include protocol PGMPContent;
include protocol PGMPService;
include protocol PPluginModule;
include protocol PGMP;
include protocol PPrinting;
include protocol PChildToParentStream;
include protocol PParentToChildStream;
include protocol POfflineCacheUpdate;
#ifdef MOZ_WEBSPEECH
include protocol PSpeechSynthesis;
#endif
include protocol PTestShell;
include protocol PJavaScript;
include protocol PRemoteSpellcheckEngine;
include protocol PWebBrowserPersistDocument;
include protocol PWebrtcGlobal;
include protocol PWindowGlobal;
include protocol PPresentation;
include protocol PURLClassifier;
include protocol PURLClassifierLocal;
include protocol PVRManager;
include protocol PRemoteDecoderManager;
include protocol PProfiler;
include protocol PScriptCache;
include protocol PSessionStorageObserver;
include protocol PSHEntry;
include protocol PSHistory;
include protocol PBenchmarkStorage;
include DOMTypes;
include JavaScriptTypes;
include IPCBlob;
include IPCStream;
include PTabContext;
include URIParams;
include PluginTypes;
include ProtocolTypes;
include PBackgroundSharedTypes;
include PContentPermission;
include ServiceWorkerConfiguration;
include GraphicsMessages;
include MemoryReportTypes;
include ClientIPCTypes;
include HangTypes;
include PrefsTypes;
include NeckoChannelParams;
#if defined(MOZ_SANDBOX) && defined(MOZ_DEBUG) && defined(ENABLE_TESTS)
include protocol PSandboxTesting;
#endif
using refcounted class nsIDOMGeoPosition from "nsGeoPositionIPCSerialiser.h";
using refcounted class nsIAlertNotification from "mozilla/AlertNotificationIPCSerializer.h";
using struct ChromePackage from "mozilla/chrome/RegistryMessageUtils.h";
using struct SubstitutionMapping from "mozilla/chrome/RegistryMessageUtils.h";
using struct OverrideMapping from "mozilla/chrome/RegistryMessageUtils.h";
using base::ProcessId from "base/process.h";
using struct IPC::Permission from "mozilla/net/NeckoMessageUtils.h";
using class IPC::Principal from "mozilla/dom/PermissionMessageUtils.h";
Bug 1303060: Changes to a11y to enable the serving of a COM handler; r=tbsaunde MozReview-Commit-ID: GTQF3x1pBtX A general outline of the COM handler (a.k.a. the "smart proxy"): COM handlers are pieces of code that are loaded by the COM runtime along with a proxy and are layered above that proxy. This enables the COM handler to interpose itself between the caller and the proxy, thus providing the opportunity for the handler to manipulate an interface's method calls before those calls reach the proxy. Handlers are regular COM components that live in DLLs and are declared in the Windows registry. In order to allow for the specifying of a handler (and an optional payload to be sent with the proxy), the mscom library allows its clients to specify an implementation of the IHandlerProvider interface. IHandlerProvider consists of 5 functions: * GetHandler returns the CLSID of the component that should be loaded into the COM client's process. If GetHandler returns a failure code, then no handler is loaded. * GetHandlerPayloadSize and WriteHandlerPayload are for obtaining the payload data. These calls are made on a background thread but need to do their work on the main thread. We declare the payload struct in IDL. MIDL generates two functions, IA2Payload_Encode and IA2Payload_Decode, which are used by mscom::StructToStream to read and write that struct to and from buffers. * The a11y payload struct also includes an interface, IGeckoBackChannel, that allows the handler to communicate directly with Gecko. IGeckoBackChannel currently provides two methods: one to allow the handler to request fresh cache information, and the other to provide Gecko with its IHandlerControl interface. * MarshalAs accepts an IID that specifies the interface that is about to be proxied. We may want to send a more sophisticated proxy than the one that is requested. The desired IID is returned by this function. In the case of a11y interfaces, we should always return IAccessible2_3 if we are asked for one of its parent interfaces. This allows us to eliminate round trips to resolve more sophisticated interfaces later on. * NewInstance, which is needed to ensure that all descendent proxies are also imbued with the same handler code. The main focus of this patch is as follows: 1. Provide an implementation of the IHandlerProvider interface; 2. Populate the handler payload (ie, the cache) with data; 3. Modify CreateHolderFromAccessible to specify the HandlerPayload object; 4. Receive the IHandlerControl interface from the handler DLL and move it into the chrome process. Some more information about IHandlerControl: There is one IHandlerControl per handler DLL instance. It is the interface that we call in Gecko when we need to dispatch an event to the handler. In order to ensure that events are dispatched in the correct order, we need to dispatch those events from the chrome main thread so that they occur in sequential order with calls to NotifyWinEvent. --HG-- extra : rebase_source : acb44dead7cc5488424720e1bf58862b7b30374f
2017-04-05 00:23:55 +03:00
using mozilla::a11y::IHandlerControlHolder from "mozilla/a11y/IPCTypes.h";
using mozilla::dom::NativeThreadId from "mozilla/dom/TabMessageUtils.h";
using mozilla::hal::ProcessPriority from "mozilla/HalTypes.h";
using mozilla::gfx::IntSize from "mozilla/gfx/2D.h";
using mozilla::dom::TabId from "mozilla/dom/ipc/IdType.h";
using mozilla::dom::ContentParentId from "mozilla/dom/ipc/IdType.h";
using mozilla::LayoutDeviceIntPoint from "Units.h";
using struct LookAndFeelInt from "mozilla/widget/WidgetMessageUtils.h";
using class mozilla::dom::MessagePort from "mozilla/dom/MessagePort.h";
using class mozilla::dom::ipc::StructuredCloneData from "mozilla/dom/ipc/StructuredCloneData.h";
using mozilla::DataStorageType from "ipc/DataStorageIPCUtils.h";
using mozilla::OriginAttributes from "mozilla/ipc/BackgroundUtils.h";
using struct mozilla::layers::TextureFactoryIdentifier from "mozilla/layers/CompositorTypes.h";
using mozilla::layers::CompositorOptions from "mozilla/layers/CompositorOptions.h";
using mozilla::layers::LayersId from "mozilla/layers/LayersTypes.h";
using mozilla::Telemetry::HistogramAccumulation from "mozilla/TelemetryComms.h";
using mozilla::Telemetry::KeyedHistogramAccumulation from "mozilla/TelemetryComms.h";
using mozilla::Telemetry::ScalarAction from "mozilla/TelemetryComms.h";
using mozilla::Telemetry::KeyedScalarAction from "mozilla/TelemetryComms.h";
using mozilla::Telemetry::DynamicScalarDefinition from "mozilla/TelemetryComms.h";
using mozilla::Telemetry::ChildEventData from "mozilla/TelemetryComms.h";
using moveonly mozilla::UntrustedModulesData from "mozilla/UntrustedModulesData.h";
using moveonly mozilla::ModulePaths from "mozilla/UntrustedModulesData.h";
using moveonly mozilla::ModulesMapResult from "mozilla/UntrustedModulesData.h";
using mozilla::Telemetry::DiscardedData from "mozilla/TelemetryComms.h";
using mozilla::CrossProcessMutexHandle from "mozilla/ipc/CrossProcessMutex.h";
using mozilla::dom::MaybeDiscardedBrowsingContext from "mozilla/dom/BrowsingContext.h";
using mozilla::dom::BrowsingContextTransaction from "mozilla/dom/BrowsingContext.h";
using mozilla::dom::BrowsingContextInitializer from "mozilla/dom/BrowsingContext.h";
using mozilla::dom::MaybeDiscardedWindowContext from "mozilla/dom/WindowContext.h";
using mozilla::dom::WindowContextTransaction from "mozilla/dom/WindowContext.h";
using mozilla::dom::WindowContextInitializer from "mozilla/dom/WindowContext.h";
using base::SharedMemoryHandle from "base/shared_memory.h";
using mozilla::ipc::SharedMemoryBasic::Handle from "mozilla/ipc/SharedMemoryBasic.h";
using mozilla::fontlist::Pointer from "SharedFontList.h";
using gfxSparseBitSet from "gfxFontUtils.h";
using mozilla::dom::MediaControlKeysEvent from "ipc/MediaControlIPC.h";
using mozilla::dom::ControlledMediaState from "ipc/MediaControlIPC.h";
using mozilla::dom::MaybeMediaMetadataBase from "mozilla/dom/MediaSessionIPCUtils.h";
using mozilla::dom::MediaSessionPlaybackState from "mozilla/dom/MediaSessionBinding.h";
using refcounted class nsDocShellLoadState from "nsDocShellLoadState.h";
using mozilla::dom::ServiceWorkerShutdownState::Progress from "mozilla/dom/ServiceWorkerShutdownState.h";
using refcounted class mozilla::dom::CrossProcessSHEntry from "mozilla/dom/MaybeNewPSHEntry.h";
union ChromeRegistryItem
{
ChromePackage;
OverrideMapping;
SubstitutionMapping;
};
namespace mozilla {
namespace dom {
// SetXPCOMProcessAttributes passes an array of font data to the child,
// but each platform needs different details so we have platform-specific
// versions of the SystemFontListEntry type:
#if defined(ANDROID)
// Used on Android/B2G to pass the list of fonts on the device
// to the child process
struct SystemFontListEntry {
nsCString familyName;
nsCString faceName;
nsCString filepath;
uint32_t weightRange;
uint32_t stretchRange;
uint32_t styleRange;
uint8_t index;
};
#elif defined(XP_MACOSX)
// Used on Mac OS X to pass the list of font families (not faces)
// from chrome to content processes.
// The entryType field distinguishes several types of font family
// record; see gfxMacPlatformFontList.h for values and meaning.
struct SystemFontListEntry {
nsCString familyName;
uint8_t entryType;
};
#else
// Used on Linux to pass list of font patterns from chrome to content.
// (Unused on Windows, but there needs to be a definition of the type.)
struct SystemFontListEntry {
nsCString pattern;
bool appFontFamily;
};
#endif
struct DataStorageItem {
nsCString key;
nsCString value;
DataStorageType type;
};
struct DataStorageEntry {
DataStorageItem[] items;
nsString filename;
};
struct ClipboardCapabilities {
bool supportsSelectionClipboard;
bool supportsFindClipboard;
};
union FileDescOrError {
FileDescriptor;
nsresult;
};
struct DomainPolicyClone
{
bool active;
URIParams[] blocklist;
URIParams[] allowlist;
URIParams[] superBlocklist;
URIParams[] superAllowlist;
};
struct AndroidSystemInfo
{
nsString device;
nsString manufacturer;
nsString release_version;
nsString hardware;
uint32_t sdk_version;
bool isTablet;
};
struct GetFilesResponseSuccess
{
IPCBlob[] blobs;
};
struct GetFilesResponseFailure
{
nsresult errorCode;
};
union GetFilesResponseResult
{
GetFilesResponseSuccess;
GetFilesResponseFailure;
};
struct BlobURLRegistrationData
{
nsCString url;
IPCBlob blob;
nsIPrincipal principal;
bool revoked;
};
struct JSWindowActorEventDecl
{
nsString name;
bool capture;
bool systemGroup;
bool allowUntrusted;
bool? passive;
};
struct JSWindowActorInfo
{
nsString name;
bool allFrames;
nsCString? url;
JSWindowActorEventDecl[] events;
nsCString[] observers;
nsString[] matches;
nsString[] remoteTypes;
};
struct GMPAPITags
{
nsCString api;
nsCString[] tags;
};
struct GMPCapabilityData
{
nsCString name;
nsCString version;
GMPAPITags[] capabilities;
};
struct GfxInfoFeatureStatus
{
int32_t feature;
int32_t status;
nsCString failureId;
};
struct XPCOMInitData
{
bool isOffline;
bool isConnected;
int32_t captivePortalState;
bool isLangRTL;
bool haveBidiKeyboards;
nsString[] dictionaries;
ClipboardCapabilities clipboardCaps;
DomainPolicyClone domainPolicy;
URIParams? userContentSheetURL;
GfxVarUpdate[] gfxNonDefaultVarUpdates;
ContentDeviceData contentDeviceData;
GfxInfoFeatureStatus[] gfxFeatureStatus;
DataStorageEntry[] dataStorage;
Bug 1348042 - Refactor LocaleService to operate in server-client mode. r=Ehsan,qdot LocaleService serves two main functions. It is a central place for all code in the engine to learn about locales, but it also does the language negotiation and selection. The former is relevant in all processes, but the latter should only be performed by the "main" process. In case of current Desktop Firefox, the parent process is the one performing all the language negotiation, and content processes should operate in the "client" mode. In Fennec, there's a Java app on top of Gecko which should work as a "server" and then all processes, including parent process of Gecko is merely a "client" for that. This refactor finalizes this duality making it easily configurable to define in which mode a given LocaleService operates. The server-client model allows all clients to stay in sync with the server, but operate transparently for all callers just returning the right values. In order to initialize LocaleService in the client mode in child process with the right locales I'm adding the list of app locales to the XPCOMInitData, and then fire LocaleService::SetAppLocales in the child process initialization. In order to keep the list up to date, I'm adding intl:app-locales-changed to the list of observed topics, and when triggered, I send the updated list to the child process, which updates LocaleService::SetAppLocales with the new list. MozReview-Commit-ID: K9X6berF3IO --HG-- extra : rebase_source : ca5e502d064023fddfd63fe6fe5eccefce8dee52
2017-03-26 08:09:45 +03:00
nsCString[] appLocales;
nsCString[] requestedLocales;
DynamicScalarDefinition[] dynamicScalarDefs;
};
struct VisitedQueryResult
{
URIParams uri;
bool visited;
};
struct StringBundleDescriptor
{
nsCString bundleURL;
FileDescriptor mapFile;
uint32_t mapSize;
};
struct IPCURLClassifierFeature
{
nsCString featureName;
nsCString[] tables;
nsCString skipHostList;
};
// Transport structure for Notifications API notifications
// (https://developer.mozilla.org/en-US/docs/Web/API/notification) instances
// used exclusively by the NotificationEvent PContent method.
struct NotificationEventData
{
nsCString originSuffix;
nsCString scope;
nsString ID;
nsString title;
nsString dir;
nsString lang;
nsString body;
nsString tag;
nsString icon;
nsString data;
nsString behavior;
};
struct PostMessageData
{
MaybeDiscardedBrowsingContext source;
nsString origin;
nsString targetOrigin;
nsIURI targetOriginURI;
nsIPrincipal callerPrincipal;
nsIPrincipal subjectPrincipal;
nsIURI callerURI;
bool isFromPrivateWindow;
nsCString scriptLocation;
uint64_t innerWindowId;
};
struct KeyValuePair
{
nsString key;
nsString value;
};
/**
* The PContent protocol is a top-level protocol between the UI process
* and a content process. There is exactly one PContentParent/PContentChild pair
* for each content process.
*/
nested(upto inside_cpow) sync protocol PContent
{
manages PBrowser;
manages PContentPermissionRequest;
manages PCycleCollectWithLogs;
manages PExternalHelperApp;
manages PFileDescriptorSet;
manages PHal;
manages PHandlerService;
manages PHeapSnapshotTempFileHelper;
manages PIPCBlobInputStream;
manages PMedia;
manages PNecko;
manages POfflineCacheUpdate;
manages PPrinting;
manages PChildToParentStream;
manages PParentToChildStream;
#ifdef MOZ_WEBSPEECH
manages PSpeechSynthesis;
#endif
manages PTestShell;
manages PJavaScript;
manages PRemoteSpellcheckEngine;
manages PWebBrowserPersistDocument;
manages PWebrtcGlobal;
manages PPresentation;
manages PURLClassifier;
manages PURLClassifierLocal;
manages PScriptCache;
manages PLoginReputation;
manages PSessionStorageObserver;
manages PSHEntry;
manages PSHistory;
manages PBenchmarkStorage;
// Depending on exactly how the new browser is being created, it might be
// created from either the child or parent process!
//
// The child creates the PBrowser as part of
// BrowserChild::BrowserFrameProvideWindow (which happens when the child's
// content calls window.open()), and the parent creates the PBrowser as part
// of ContentParent::CreateBrowser.
//
// When the parent constructs a PBrowser, the child trusts the attributes it
// receives from the parent. In that case, the context should be
// FrameIPCTabContext.
//
// When the child constructs a PBrowser, the parent doesn't trust the
// attributes it receives from the child. In this case, context must have
// type PopupIPCTabContext. The parent checks that if the opener is a
// browser element, the context is also for a browser element.
//
// If |sameTabGroupAs| is non-zero, the new tab should go in the same
// TabGroup as |sameTabGroupAs|. This parameter should always be zero
// for PBrowser messages sent from the child to the parent.
//
// Separate messages are used for the parent and child side constructors due
// to the differences in data and actor setup required.
//
// Keep the last 3 attributes in sync with GetProcessAttributes!
parent:
async ConstructPopupBrowser(ManagedEndpoint<PBrowserParent> browserEp,
ManagedEndpoint<PWindowGlobalParent> windowEp,
TabId tabId, IPCTabContext context,
WindowGlobalInit windowInit,
uint32_t chromeFlags);
child:
async ConstructBrowser(ManagedEndpoint<PBrowserChild> browserEp,
ManagedEndpoint<PWindowGlobalChild> windowEp,
TabId tabId, TabId sameTabGroupAs,
IPCTabContext context,
WindowGlobalInit windowInit,
uint32_t chromeFlags, ContentParentId cpId,
bool isForBrowser, bool isTopLevel);
both:
async PFileDescriptorSet(FileDescriptor fd);
// For parent->child, aBrowser must be non-null; aOuterWindowID can
// be 0 to indicate the browser's current root document, or nonzero
// to persist a subdocument. For child->parent, arguments are
// ignored and should be null/zero.
async PWebBrowserPersistDocument(nullable PBrowser aBrowser,
uint64_t aOuterWindowID);
child:
async InitGMPService(Endpoint<PGMPServiceChild> service);
async InitProcessHangMonitor(Endpoint<PProcessHangMonitorChild> hangMonitor);
async InitProfiler(Endpoint<PProfilerChild> aEndpoint);
// Give the content process its endpoints to the compositor.
async InitRendering(
Endpoint<PCompositorManagerChild> compositor,
Endpoint<PImageBridgeChild> imageBridge,
Endpoint<PVRManagerChild> vr,
Endpoint<PRemoteDecoderManagerChild> video,
uint32_t[] namespaces);
// Re-create the rendering stack using the given endpoints. This is sent
// after the compositor process has crashed. The new endpoints may be to a
// newly launched GPU process, or the compositor thread of the UI process.
async ReinitRendering(
Endpoint<PCompositorManagerChild> compositor,
Endpoint<PImageBridgeChild> bridge,
Endpoint<PVRManagerChild> vr,
Endpoint<PRemoteDecoderManagerChild> video,
uint32_t[] namespaces);
async AudioDefaultDeviceChange();
async NetworkLinkTypeChange(uint32_t type);
// Re-create the rendering stack for a device reset.
async ReinitRenderingForDeviceReset();
/**
* Enable system-level sandboxing features, if available. Can
* usually only be performed zero or one times. The child may
* abnormally exit if this fails; the details are OS-specific.
*/
async SetProcessSandbox(FileDescriptor? aBroker);
async RequestMemoryReport(uint32_t generation,
bool anonymize,
bool minimizeMemoryUsage,
FileDescriptor? DMDFile);
async RequestPerformanceMetrics(nsID aID);
/**
* Used by third-party modules telemetry (aka "untrusted modules" telemetry)
* to pull data from content processes.
*/
async GetUntrustedModulesData() returns (UntrustedModulesData? data);
/**
* Communication between the PuppetBidiKeyboard and the actual
* BidiKeyboard hosted by the parent
*/
async BidiKeyboardNotify(bool isLangRTL, bool haveBidiKeyboards);
/**
* Dump this process's GC and CC logs to the provided files.
*
* For documentation on the other args, see dumpGCAndCCLogsToFile in
* nsIMemoryInfoDumper.idl
*/
async PCycleCollectWithLogs(bool dumpAllTraces,
FileDescriptor gcLog,
FileDescriptor ccLog);
async PTestShell();
async PScriptCache(FileDescOrError cacheFile, bool wantCacheData);
async RegisterChrome(ChromePackage[] packages, SubstitutionMapping[] substitutions,
OverrideMapping[] overrides, nsCString locale, bool reset);
async RegisterChromeItem(ChromeRegistryItem item);
async ClearImageCache(bool privateLoader, bool chrome);
async SetOffline(bool offline);
async SetConnectivity(bool connectivity);
async SetCaptivePortalState(int32_t aState);
async NotifyVisited(VisitedQueryResult[] uri);
async PreferenceUpdate(Pref pref);
async VarUpdate(GfxVarUpdate var);
async UpdatePerfStatsCollectionMask(uint64_t aMask);
async CollectPerfStatsJSON() returns (nsCString aStats);
async DataStoragePut(nsString aFilename, DataStorageItem aItem);
async DataStorageRemove(nsString aFilename, nsCString aKey, DataStorageType aType);
async DataStorageClear(nsString aFilename);
async NotifyAlertsObserver(nsCString topic, nsString data);
async GeolocationUpdate(nsIDOMGeoPosition aPosition);
async GeolocationError(uint16_t errorCode);
async UpdateDictionaryList(nsString[] dictionaries);
async UpdateFontList(SystemFontListEntry[] fontList);
/**
* The shared font list has been reinitialized by the parent;
* child processes must discard and recreate their mappings to it.
*/
async RebuildFontList();
/**
* The shared font list has been modified, potentially adding matches
* for src:local() names that were previously not known, so content
* may need to be reflowed.
*/
async FontListChanged();
Bug 1348042 - Refactor LocaleService to operate in server-client mode. r=Ehsan,qdot LocaleService serves two main functions. It is a central place for all code in the engine to learn about locales, but it also does the language negotiation and selection. The former is relevant in all processes, but the latter should only be performed by the "main" process. In case of current Desktop Firefox, the parent process is the one performing all the language negotiation, and content processes should operate in the "client" mode. In Fennec, there's a Java app on top of Gecko which should work as a "server" and then all processes, including parent process of Gecko is merely a "client" for that. This refactor finalizes this duality making it easily configurable to define in which mode a given LocaleService operates. The server-client model allows all clients to stay in sync with the server, but operate transparently for all callers just returning the right values. In order to initialize LocaleService in the client mode in child process with the right locales I'm adding the list of app locales to the XPCOMInitData, and then fire LocaleService::SetAppLocales in the child process initialization. In order to keep the list up to date, I'm adding intl:app-locales-changed to the list of observed topics, and when triggered, I send the updated list to the child process, which updates LocaleService::SetAppLocales with the new list. MozReview-Commit-ID: K9X6berF3IO --HG-- extra : rebase_source : ca5e502d064023fddfd63fe6fe5eccefce8dee52
2017-03-26 08:09:45 +03:00
async UpdateAppLocales(nsCString[] appLocales);
async UpdateRequestedLocales(nsCString[] requestedLocales);
async RegisterStringBundles(StringBundleDescriptor[] stringBundles);
async UpdateSharedData(FileDescriptor mapFile, uint32_t aSize,
IPCBlob[] blobs,
nsCString[] changedKeys);
// nsIPermissionManager messages
async AddPermission(Permission permission);
async RemoveAllPermissions();
async FlushMemory(nsString reason);
async GarbageCollect();
async CycleCollect();
async UnlinkGhosts();
/**
* Start accessibility engine in content process.
* @param aTid is the thread ID of the chrome process main thread. Only used
* on Windows; pass 0 on other platforms.
* @param aMsaaID is an a11y-specific unique id for the content process
* that is generated by the chrome process. Only used on
* Windows; pass 0 on other platforms.
*/
async ActivateA11y(uint32_t aMainChromeTid, uint32_t aMsaaID);
/**
* Shutdown accessibility engine in content process (if not in use).
*/
async ShutdownA11y();
async AppInfo(nsCString version, nsCString buildID, nsCString name, nsCString UAName,
nsCString ID, nsCString vendor, nsCString sourceURL);
/**
* Send the remote type associated with the content process.
*/
async RemoteType(nsString aRemoteType);
/**
* Send ServiceWorkerRegistrationData to child process.
*/
async InitServiceWorkers(ServiceWorkerConfiguration aConfig);
/**
* Send BlobURLRegistrationData to child process.
*/
async InitBlobURLs(BlobURLRegistrationData[] registrations);
/**
* Send JSWindowActorInfos to child process.
*/
async InitJSWindowActorInfos(JSWindowActorInfo[] aInfos);
/**
* Unregister a previously registered JSWindowActor in the child process.
*/
async UnregisterJSWindowActor(nsString name);
async SetXPCOMProcessAttributes(XPCOMInitData xpcomInit,
StructuredCloneData initialData,
LookAndFeelInt[] lookAndFeelIntCache,
/* used on MacOSX/Linux/Android only: */
SystemFontListEntry[] systemFontList,
SharedMemoryHandle? sharedUASheetHandle,
uintptr_t sharedUASheetAddress);
// Notify child that last-pb-context-exited notification was observed
async LastPrivateDocShellDestroyed();
async NotifyProcessPriorityChanged(ProcessPriority priority);
async MinimizeMemoryUsage();
/**
* Used to manage nsIStyleSheetService across processes.
*/
async LoadAndRegisterSheet(URIParams uri, uint32_t type);
async UnregisterSheet(URIParams uri, uint32_t type);
/**
* Notify idle observers in the child
*/
async NotifyIdleObserver(uint64_t observerId, nsCString topic, nsString str);
async InvokeDragSession(IPCDataTransfer[] transfers, uint32_t action);
async EndDragSession(bool aDoneDrag, bool aUserCancelled,
LayoutDeviceIntPoint aDragEndPoint,
uint32_t aKeyModifiers);
async DomainSetChanged(uint32_t aSetType, uint32_t aChangeType, URIParams? aDomain);
/**
* Notify the child to shutdown. The child will in turn call FinishShutdown
* and let the parent close the channel.
*/
async Shutdown();
async LoadProcessScript(nsString url);
/**
* Requests a full native update of a native plugin child window. This is
* a Windows specific call.
*/
async UpdateWindow(uintptr_t aChildId);
/**
* Notify the child that presentation receiver has been launched with the
* correspondent iframe.
*/
async NotifyPresentationReceiverLaunched(PBrowser aIframe, nsString aSessionId);
/**
* Notify the child that the info about a presentation receiver needs to be
* cleaned up.
*/
async NotifyPresentationReceiverCleanUp(nsString aSessionId);
/**
* Notify the child that cache is emptied.
*/
async NotifyEmptyHTTPCache();
/**
* Send a `push` event without data to a service worker in the child.
*/
async Push(nsCString scope, Principal principal, nsString messageId);
/**
* Send a `push` event with data to a service worker in the child.
*/
async PushWithData(nsCString scope, Principal principal,
nsString messageId, uint8_t[] data);
/**
* Send a `pushsubscriptionchange` event to a service worker in the child.
*/
async PushSubscriptionChange(nsCString scope, Principal principal);
async GetFilesResponse(nsID aID, GetFilesResponseResult aResult);
async BlobURLRegistration(nsCString aURI, IPCBlob aBlob,
Principal aPrincipal);
async BlobURLUnregistration(nsCString aURI);
async GMPsChanged(GMPCapabilityData[] capabilities);
/**
* Sending an activate message moves focus to the child.
*/
async Activate(PBrowser aTab);
async Deactivate(PBrowser aTab);
async PParentToChildStream();
async ProvideAnonymousTemporaryFile(uint64_t aID, FileDescOrError aFD);
async SetPermissionsWithKey(nsCString aPermissionKey, Permission[] aPermissions);
async RefreshScreens(ScreenDetails[] aScreens);
async PIPCBlobInputStream(nsID aID, uint64_t aSize);
/**
* This call takes the set of plugins loaded in the chrome process, and
* sends them to the content process. However, in many cases this set will
* not have changed since the last SetPluginList message. To keep track of
* this, the chrome process increments an epoch number every time the set of
* plugins changes. The chrome process sends up the last epoch it observed.
* If the epoch last seen by the content process is the same, the content
* process ignores the update. Otherwise the content process updates its
* list and reloads its plugins.
**/
async SetPluginList(uint32_t pluginEpoch, PluginTag[] plugins, FakePluginTag[] fakePlugins);
async ShareCodeCoverageMutex(CrossProcessMutexHandle handle);
async FlushCodeCoverageCounters() returns (bool unused);
async GetMemoryUniqueSetSize() returns (int64_t uss);
/*
* IPC message to enable the input event queue on the main thread of the
* content process.
*/
async SetInputEventQueueEnabled();
/*
* IPC message to flush the input event queue on the main thread of the
* content process.
*
* When the ContentParent stops sending the input event with input priority,
* there may be some pending events in the input event queue and normal
* event queue. Here is a possible scenario.
* R: Runnables.
* D: Enable the input priority event.
* E: Disable the input priority evnet.
*
* D E
* Normal Queue: R1 R2 R3
* Input Queue: II I2 I3
*
* To avoid the newly added normal events (e.g. R2, which may be an input
* event) preempt the pending input events (e.g. I1), or the newly added
* input events (e.g. I3) preempt the pending normal events (e.g. R2), we
* have to flush all pending events before enabling and disabling the input
* priority event.
*
* To flush the normal event queue and the input event queue, we use three
* IPC messages as the followings.
* FI: Flush the input queue.
* SI: Suspend the input queue.
* RI: Resume the input queue.
*
* Normal Queue: R1 FI RI R2 FI RI R3
* Input Queue: II SI I2 SI I3
*
* When the flush input request is processed before the other two requests,
* we consume all input events until the suspend request. After handling the
* suspend request, we stop consuming the input events until the resume
* request to make sure we consume all pending normal events.
*
* If we process the suspend request before the other two requests, we
* ignore the flush request and consume all pending normal events until the
* resume request.
*/
async FlushInputEventQueue();
/*
* IPC message to resume consuming the pending events in the input event
* queue.
*/
async ResumeInputEventQueue();
/*
* IPC message to suspend consuming the pending events in the input event
* queue.
*/
prio(input) async SuspendInputEventQueue();
/*
* IPC message to propagate dynamic scalar definitions, added after the
* content process is spawned, from the parent to the child.
* Dynamic scalar definitions added at the process startup are handled
* using the |TelemetryIPC::AddDynamicScalarDefinitions| functions.
*/
async AddDynamicScalars(DynamicScalarDefinition[] definitions);
// This message is sent to content processes, and triggers the creation of a
// new HttpChannelChild that will be connected to the parent channel
// represented by registrarId.
// This is on PContent not PNecko, as PNecko may not be initialized yet.
// The returned loadInfo needs to be set on the channel - since the channel
// moved to a new process it now has different properties.
async CrossProcessRedirect(RedirectToRealChannelArgs args)
returns (nsresult rv);
/**
* This method is used to notifty content process to start delayed autoplay
* media via browsing context.
*/
async StartDelayedAutoplayMediaComponents(MaybeDiscardedBrowsingContext aContext);
/**
* This method is used to dispatch MediaControlKeysEvent to content process
* in order to control media within a specific browsing context tree.
*/
async UpdateMediaControlKeysEvent(MaybeDiscardedBrowsingContext aContext,
MediaControlKeysEvent aEvent);
// Begin subscribing to a new BrowsingContextGroup, sending down the current
// value for every individual BrowsingContext.
async RegisterBrowsingContextGroup(BrowsingContextInitializer[] aInits,
WindowContextInitializer[] aWindowInits);
#if defined(MOZ_SANDBOX) && defined(MOZ_DEBUG) && defined(ENABLE_TESTS)
// Initialize top-level actor for testing content process sandbox.
async InitSandboxTesting(Endpoint<PSandboxTestingChild> aEndpoint);
#endif
async DestroySHEntrySharedState(uint64_t aID);
async EvictContentViewers(uint64_t[] aToEvictSharedStateIDs);
async LoadURI(MaybeDiscardedBrowsingContext aContext, nsDocShellLoadState aLoadState, bool aSetNavigating);
async InternalLoad(MaybeDiscardedBrowsingContext aContext, nsDocShellLoadState aLoadState, bool aTakeFocus);
async DisplayLoadError(MaybeDiscardedBrowsingContext aContext, nsString aURI);
// Tell aContext's docshell to update its mOSHE and mLSHE entries
async UpdateSHEntriesInDocShell(CrossProcessSHEntry aOldEntry,
CrossProcessSHEntry aNewEntry,
MaybeDiscardedBrowsingContext aContext);
2009-08-18 23:05:15 +04:00
parent:
async InitBackground(Endpoint<PBackgroundParent> aEndpoint);
async CreateGMPService();
async InitStreamFilter(uint64_t channelId, nsString addonId)
returns (Endpoint<PStreamFilterChild> aEndpoint);
/**
* This call connects the content process to a plugin process. This call
* returns an endpoint for a new PluginModuleParent. The corresponding
* PluginModuleChild will be started up in the plugin process.
*/
sync LoadPlugin(uint32_t aPluginId)
returns (nsresult aResult, uint32_t aRunID, Endpoint<PPluginModuleParent> aEndpoint);
/**
* This call is used by asynchronous plugin instantiation to notify the
* content parent that it is now safe to initiate the plugin bridge for
* the specified plugin id. The endpoint for the content process part of the
* bridge is returned.
*/
sync ConnectPluginBridge(uint32_t aPluginId)
returns (nsresult rv, Endpoint<PPluginModuleParent> aEndpoint);
// See Bug 1518344 - Investigate using async for PContent::LaunchRDDProcess
sync LaunchRDDProcess()
returns (nsresult rv, Endpoint<PRemoteDecoderManagerChild> aEndpoint);
async PJavaScript();
async PRemoteSpellcheckEngine();
async InitCrashReporter(Shmem shmem, NativeThreadId tid);
sync IsSecureURI(uint32_t aType, URIParams aURI, uint32_t aFlags,
OriginAttributes aOriginAttributes)
returns (bool isSecureURI);
async AccumulateMixedContentHSTS(URIParams aURI, bool aActive,
OriginAttributes aOriginAttributes);
nested(inside_cpow) async PHal();
async PHeapSnapshotTempFileHelper();
async PNecko();
async PPrinting();
async PChildToParentStream();
#ifdef MOZ_WEBSPEECH
async PSpeechSynthesis();
#endif
async PMedia();
async PWebrtcGlobal();
async PPresentation();
async CreateAudioIPCConnection() returns (FileDescOrError fd);
sync PURLClassifier(Principal principal)
returns (bool success);
async PURLClassifierLocal(URIParams uri, IPCURLClassifierFeature[] features);
async PLoginReputation(URIParams formURI);
async PSessionStorageObserver();
async PSHistory(MaybeDiscardedBrowsingContext aContext);
// Clone using shared id.
sync PSHEntry(nullable PSHistory shistory, uint64_t sharedID);
async PBenchmarkStorage();
// Services remoting
async StartVisitedQueries(URIParams[] uri);
async SetURITitle(URIParams uri, nsString title);
async LoadURIExternal(URIParams uri, PBrowser windowContext);
async ExtProtocolChannelConnectParent(uint32_t registrarId);
// PrefService message
sync GetGfxVars() returns (GfxVarUpdate[] vars);
sync SyncMessage(nsString aMessage, ClonedMessageData aData,
CpowEntry[] aCpows, Principal aPrincipal)
returns (StructuredCloneData[] retval);
nested(inside_sync) sync RpcMessage(nsString aMessage, ClonedMessageData aData,
CpowEntry[] aCpows, Principal aPrincipal)
returns (StructuredCloneData[] retval);
async ShowAlert(nsIAlertNotification alert);
async CloseAlert(nsString name, Principal principal);
async DisableNotifications(Principal principal);
async OpenNotificationSettings(Principal principal);
// Request that the ServiceWorkerManager in the parent process create a
// notification "click" or "close" event and dispatch it on the relevant
// ServiceWorker. This needs to happen because when a notification is
// created it is tied to a specific content process and when the user clicks
// on the notification, it will be that content process that is notified.
// However, even if the ServiceWorker lives in that process (it may no
// longer be in that process, or may have never lived there), the right/only
// way to talk through the ServiceWorker is through the parent.
//
// This happens on PContent because the ServiceWorkerManager lives on the
// main thread and bouncing this off of PBackground would be silly and
// complex. In the long run, the notification implementation will be
// overhauled to directly process the notification click/close and directly
// translate that to a ServiceWorker event.
async NotificationEvent(nsString type, NotificationEventData data);
// Creates a helper for forwarding data from an nsExternalAppHandler
// running in the content process, to one running in the parent
// process.
// Bug 1574372 aims to run nsExternalAppHandler entirely in the
// parent so that we can remove this.
//
// Serializes the uri, loadInfo, contentType, referrer, contentDisposition
// headers and contentLength of the channel so that we can make them
// available to the parent instance via a nsIChannel helper. Also
// passes whether the original channel was an instance of nsIFileChannel.
//
// aContext is the BrowsingContext that initiated the load, and created the
// channel.
//
// Pass true for aForceSave to always save this content to disk, regardless of
// nsIMIMEInfo and other such influences.
// Pass true for aShouldCloseWindow to specify that aContext was opened specifically
// for this load, and should be closed once we've handled it.
async PExternalHelperApp(URIParams? uri,
LoadInfoArgs? loadInfoArgs,
nsCString aMimeContentType,
nsCString aContentDisposition,
uint32_t aContentDispositionHint,
nsString aContentDispositionFilename,
bool aForceSave,
int64_t aContentLength,
bool aWasFileChannel,
URIParams? aReferrer,
MaybeDiscardedBrowsingContext aContext,
bool aShouldCloseWindow);
async PHandlerService();
async AddGeolocationListener(Principal principal, bool highAccuracy);
async RemoveGeolocationListener();
async SetGeolocationHigherAccuracy(bool enable);
async ConsoleMessage(nsString message);
async ScriptErrorWithStack(nsString message, nsString sourceName, nsString sourceLine,
uint32_t lineNumber, uint32_t colNumber, uint32_t flags,
nsCString category, bool privateWindow,
bool fromChromeContext, ClonedMessageData stack);
// Places the items within dataTransfer on the clipboard.
async SetClipboard(IPCDataTransfer aDataTransfer,
bool aIsPrivateData,
Principal aRequestingPrincipal,
uint32_t aContentPolicyType,
int32_t aWhichClipboard);
// Given a list of supported types, returns the clipboard data for the
// first type that matches.
sync GetClipboard(nsCString[] aTypes, int32_t aWhichClipboard)
returns (IPCDataTransfer dataTransfer);
// Returns a list of formats supported by the clipboard
sync GetExternalClipboardFormats(int32_t aWhichClipboard, bool aPlainTextOnly) returns (nsCString[] aTypes);
// Clears the clipboard.
async EmptyClipboard(int32_t aWhichClipboard);
// Returns true if data of one of the specified types is on the clipboard.
sync ClipboardHasType(nsCString[] aTypes, int32_t aWhichClipboard)
returns (bool hasType);
// 'Play', 'Beep' and 'PlayEventSound' are the only nsISound methods used in
// the content process.
async PlaySound(URIParams aURL) compress;
async Beep() compress;
async PlayEventSound(uint32_t aEventId) compress;
sync GetIconForExtension(nsCString aFileExt, uint32_t aIconSize)
returns (uint8_t[] bits);
sync GetShowPasswordSetting()
returns (bool showPassword);
// Notify the parent of the presence or absence of private docshells
async PrivateDocShellsExist(bool aExist);
// Tell the parent that the child has gone idle for the first time.
async FirstIdle();
async DeviceReset();
sync KeywordToURI(nsCString keyword, bool isPrivateContext)
returns (nsString providerName, nsIInputStream postData, URIParams? uri);
sync NotifyKeywordSearchLoading(nsString providerName, nsString keyword);
async CopyFavicon(URIParams oldURI, URIParams newURI, Principal aLoadingPrincipal, bool isPrivate);
/**
* Notifies the parent about a recording device is starting or shutdown.
* @param recordingStatus starting or shutdown
* @param pageURL URL that request that changing the recording status
* @param isAudio recording start with microphone
* @param isVideo recording start with camera
*/
async RecordingDeviceEvents(nsString recordingStatus,
nsString pageURL,
bool isAudio,
bool isVideo);
// Graphics errors
async GraphicsError(nsCString aError);
// Driver crash guards. aGuardType must be a member of CrashGuardType.
sync BeginDriverCrashGuard(uint32_t aGuardType) returns (bool crashDetected);
sync EndDriverCrashGuard(uint32_t aGuardType);
async AddIdleObserver(uint64_t observerId, uint32_t idleTimeInS);
async RemoveIdleObserver(uint64_t observerId, uint32_t idleTimeInS);
/**
* This message is only used on X11 platforms.
*
* Send a dup of the plugin process's X socket to the parent
* process. In theory, this scheme keeps the plugin's X resources
* around until after both the plugin process shuts down *and* the
* parent process closes the dup fd. This is used to prevent the
* parent process from crashing on X errors if, e.g., the plugin
* crashes *just before* a repaint and the parent process tries to
* use the newly-invalid surface.
*/
async BackUpXResources(FileDescriptor aXSocketFd);
async RequestAnonymousTemporaryFile(uint64_t aID);
/**
* Starts an offline application cache update.
* @param manifestURI
* URI of the manifest to fetch, the application cache group ID
* @param documentURI
* URI of the document that referred the manifest
* @param loadingPrincipal
* Principal of the document that referred the manifest
* @param stickDocument
* True if the update was initiated by a document load that referred
* a manifest.
* False if the update was initiated by applicationCache.update() call.
*
* Tells the update to carry the documentURI to a potential separate
* update of implicit (master) items.
*
* Why this argument? If the document was not found in an offline cache
* before load and refers a manifest and this manifest itself has not
* been changed since the last fetch, we will not do the application
* cache group update. But we must cache the document (identified by the
* documentURI). This argument will ensure that a previously uncached
* document will get cached and that we don't re-cache a document that
* has already been cached (stickDocument=false).
* @param tabId
* To identify which tab owns the app.
*/
async POfflineCacheUpdate(URIParams manifestURI, URIParams documentURI,
PrincipalInfo loadingPrincipal, bool stickDocument,
CookieJarSettingsArgs cookieJarSettings);
/**
* Sets "offline-app" permission for the principal. Called when we hit
* a web app with the manifest attribute in <html>
*/
async SetOfflinePermission(Principal principal);
/**
* Notifies the parent to continue shutting down after the child performs
* its shutdown tasks.
*/
async FinishShutdown();
async UpdateDropEffect(uint32_t aDragAction, uint32_t aDropEffect);
/**
* Initiates an asynchronous request for permission for the
* provided principal.
*
* @param aRequests
* The array of permissions to request.
* @param aPrincipal
* The principal of the request.
* @param aTopLevelPrincipal
* The principal of the top level page the request comes from.
* @param tabId
* To identify which tab issues this request.
*
* NOTE: The principal is untrusted in the parent process. Only
* principals that can live in the content process should
* provided.
*/
async PContentPermissionRequest(PermissionRequest[] aRequests,
Principal aPrincipal,
Principal aTopLevelPrincipal,
bool aIsHandlingUserInput,
bool aMaybeUnsafePermissionDelegate,
TabId tabId);
async ShutdownProfile(nsCString aProfile);
/**
* Request graphics initialization information from the parent.
*/
sync GetGraphicsDeviceInitData()
returns (ContentDeviceData aData);
/**
* A shared font list (see gfx/thebes/SharedFontList.*) contains a list
* of shared-memory blocks that are used to store all the font list data.
* The font list created in the parent process is the only one that can
* create or store objects into the shared memory; content processes font
* lists have read-only access to it.
*
* To minimize the cost of record allocations, the shared font list
* bump-allocates new objects that it adds to the shared memory blocks
* (i.e. the records stored in the shared memory blocks are only ever
* appended, and never freed except when the entire font list is
* reconstructed).
*
* When initially created by the parent process, the font list may contain
* nothing except a header, and the list of the system's installed font
* family names. Additional data about the families (styled faces available
* and character coverage) is appended to the font list during the session
* as a given font is considered for use, because loading all data for all
* installed fonts during startup is too expensive/slow.
*
* During content process launch, a content process's first step in
* gaining access to the font list is to call GetFontListShmBlock,
* passing index zero in order to get access to the first block, which
* contains the font list header and the list of font-family records
* (which may be virtually all uninitialized at this time, containing
* nothing but the family names). Once a content process determines a
* font-family name it wants to use (e.g. from a CSS font-family list, or
* from preferences), if that Family record has not yet been initialized,
* it will call InitializeFamily (below) to have the parent process
* populate Face records in the shared memory with the family's styles.
* The content process can then pick the face with best style match from
* the available faces according to the CSS font matching algorithm, load
* its character map, then send the map to the parent process using
* SetCharacterMap (so that the parent process can share the map with all
* processes to avoid duplication of work).
*
* At some point, as the parent process adds data to the font list, a new
* shared-memory block will probably be needed. At that point the parent
* will create a new block and append it to its share memory block list.
* The new Block index will start to appear in Pointer records in the
* shared memory, and the content process's can then fetch those other
* blocks using this function as needed.
*
* @param aGeneration
* The font list has a Generation ID stored in its Header, and any time
* the parent process needs to reinitialize the list (because of a change
* in the available font repertoire) a new Generation ID is assigned.
* Content processes pass the Generation of the list they're using in
* all messages, so that the parent can recognize if they're out of date
* and safely ignore such messages. (When the parent rebuilds the list,
* it will notify all content processes, but they may still send a few
* messages that relate to the obsolete list before they have processed
* this notification.)
* @param aIndex
* (Zero-based) index of the shared-memory block to be mapped.
* In a typical case, there will be a handful of blocks altogether, so
* each content process only needs to make this request a few times.
* @returns aHandle
* Handle that can be used to construct a SharedMemoryBasic that maps the
* requested block of memory.
* If aGeneration does not match the parent's font list generation ID, or
* if requesting a block that does not exist (i.e. with aIndex greater
* than or equal to the number of blocks actually in existence), returns
* a null handle.
*
* This is a sync message because the content process needs font data in
* order to perform font-matching (e.g. during reflow), and cannot continue
* until it has mapped the font-list memory.
*/
sync GetFontListShmBlock(uint32_t aGeneration, uint32_t aIndex)
returns (Handle aHandle);
/**
* Ask the parent to initialize a given font family, so that face metadata
* will be available. Content processes will only call this for families
* where the Face data has not yet been populated, so it will generally be
* called no more than once per family. (It may not be needed at all, if
* the parent process has already initialized the families that content
* wants to use.)
*
* @param aGeneration
* Font-list generation, so requests relating to an obsolete list can be
* ignored (see comments for GetFontListShmBlock).
* @param aFamilyIndex
* The 0-based index of the Family within the font-list that a content
* process needs to use.
*
* This is a sync message because the content process cannot complete its
* font-matching until the family is fully populated with Face records.
* If we make it async, content processes will reflow using fallbacks,
* and then have to reflow again once all the font information needed
* becomes available.
*/
sync InitializeFamily(uint32_t aGeneration, uint32_t aFamilyIndex);
/**
* Record the character map of a given Face in the font list.
*
* @param aGeneration
* Font-list generation, so requests relating to an obsolete list can be
* ignored (see comments for GetFontListShmBlock).
* @param aFacePtr
* Font-list shared-memory "pointer" to the Face record to be updated.
* A Pointer is a record of a shared-memory block index and an offset
* within that block, which each process that maps the block can convert
* into a real pointer in its address space.
* @param aMap
* The character coverage map of the face. (This will be stored as a
* SharedBitSet record within the shared font list, and the Face record
* will be updated to reference it.)
*/
async SetCharacterMap(uint32_t aGeneration, Pointer aFacePtr, gfxSparseBitSet aMap);
/**
* Ask the parent to set up the merged charmap for a family, to accelerate
* future fallback searches.
* aFamilyPtr may refer to an element of either the Families() or AliasFamilies().
*/
async SetupFamilyCharMap(uint32_t aGeneration, Pointer aFamilyPtr);
/**
* Ask the parent to try and complete the InitOtherFamilyNames task, because
* we're trying to look up a localized font name. This is a sync method so that
* the update will be available before the child continues reflow; however, it
* is possible the task will have timed-out in the parent and not actually
* completed during this call.
*
* @param aGeneration
* Font-list generation, so requests relating to an obsolete list can be
* ignored (see comments for GetFontListShmBlock).
* @param aDefer
* Parameter aDeferOtherFamilyNamesLoading to be passed to
* gfxPlatformFontList::InitOtherFamilyNames, to determine whether name
* loading should be deferred to a background task or run immediately.
* @param aLoaded
* Returns whether the font name loading process has completed.
*
* TODO: This is currently a sync message but can probably be made async,
* at the cost of an increased chance of some testcases failing because
* they depend on lazily-loaded font names.
*/
sync InitOtherFamilyNames(uint32_t aGeneration, bool aDefer) returns (bool aLoaded);
/**
* Ask the parent for a specific hyphenation resource (identified by URI)
* as a shared memory block.
*
* This is a sync method because at the point where a content process finds
* that it requires a particular hyphenation dictionary, this is blocking
* reflow; making it async would require scheduling another reflow after
* the resource is available, and a possible layout "jump" as line-breaks
* change. Note that the content process retains a reference to each such
* resource it requests, so it will only make this call once per locale for
* which hyphenation data exists.
*
* @param aURI
* The URI (which currently must always point to an omnijar resource)
* for the required hyphenation dictionary.
* @param aHandle
* Returns the shmem handle to the resource (or an invalid shmem handle
* in case of failure).
* @param aLoaded
* Returns the size in bytes of the resource.
*/
sync GetHyphDict(URIParams aURI) returns (Handle aHandle, uint32_t aSize);
async CreateWindow(nullable PBrowser aThisTab,
PBrowser aNewTab,
uint32_t aChromeFlags,
bool aCalledFromJS,
bool aPositionSpecified,
bool aSizeSpecified,
URIParams? aURIToLoad,
nsCString aFeatures,
float aFullZoom,
Principal aTriggeringPrincipal,
nsIContentSecurityPolicy aCsp,
nsIReferrerInfo aReferrerInfo)
returns (CreatedWindowInfo window);
async CreateWindowInDifferentProcess(
PBrowser aThisTab,
uint32_t aChromeFlags,
bool aCalledFromJS,
bool aPositionSpecified,
bool aSizeSpecified,
URIParams? aURIToLoad,
nsCString aFeatures,
float aFullZoom,
nsString aName,
nsIPrincipal aTriggeringPrincipal,
nsIContentSecurityPolicy aCsp,
nsIReferrerInfo aReferrerInfo);
/**
* Tells the parent to ungrab the pointer on the default display.
*
* This is for GTK platforms where we have to ensure the pointer ungrab happens in the
* chrome process as that's the process that receives the pointer event.
*/
sync UngrabPointer(uint32_t time);
sync RemovePermission(Principal principal, nsCString permissionType) returns (nsresult rv);
/**
* Tell the parent that a decoder's' benchmark has been completed.
* The result can then be stored in permanent storage.
*/
async NotifyBenchmarkResult(nsString aCodecName, uint32_t aDecodeFPS);
/**
* Notify `push-message` observers without data in the parent.
*/
async NotifyPushObservers(nsCString scope, Principal principal,
nsString messageId);
/**
* Notify `push-message` observers with data in the parent.
*/
async NotifyPushObserversWithData(nsCString scope, Principal principal,
nsString messageId, uint8_t[] data);
/**
* Notify `push-subscription-change` observers in the parent.
*/
async NotifyPushSubscriptionChangeObservers(nsCString scope,
Principal principal);
async GetFilesRequest(nsID aID, nsString aDirectory, bool aRecursiveFlag);
async DeleteGetFilesRequest(nsID aID);
async StoreAndBroadcastBlobURLRegistration(nsCString url, IPCBlob blob,
Principal principal);
async UnstoreAndBroadcastBlobURLUnregistration(nsCString url, Principal principal);
/**
* Messages for communicating child Telemetry to the parent process
*/
async AccumulateChildHistograms(HistogramAccumulation[] accumulations);
async AccumulateChildKeyedHistograms(KeyedHistogramAccumulation[] accumulations);
async UpdateChildScalars(ScalarAction[] updates);
async UpdateChildKeyedScalars(KeyedScalarAction[] updates);
async RecordChildEvents(ChildEventData[] events);
async RecordDiscardedData(DiscardedData data);
sync GetA11yContentId() returns (uint32_t aContentId);
Bug 1303060: Changes to a11y to enable the serving of a COM handler; r=tbsaunde MozReview-Commit-ID: GTQF3x1pBtX A general outline of the COM handler (a.k.a. the "smart proxy"): COM handlers are pieces of code that are loaded by the COM runtime along with a proxy and are layered above that proxy. This enables the COM handler to interpose itself between the caller and the proxy, thus providing the opportunity for the handler to manipulate an interface's method calls before those calls reach the proxy. Handlers are regular COM components that live in DLLs and are declared in the Windows registry. In order to allow for the specifying of a handler (and an optional payload to be sent with the proxy), the mscom library allows its clients to specify an implementation of the IHandlerProvider interface. IHandlerProvider consists of 5 functions: * GetHandler returns the CLSID of the component that should be loaded into the COM client's process. If GetHandler returns a failure code, then no handler is loaded. * GetHandlerPayloadSize and WriteHandlerPayload are for obtaining the payload data. These calls are made on a background thread but need to do their work on the main thread. We declare the payload struct in IDL. MIDL generates two functions, IA2Payload_Encode and IA2Payload_Decode, which are used by mscom::StructToStream to read and write that struct to and from buffers. * The a11y payload struct also includes an interface, IGeckoBackChannel, that allows the handler to communicate directly with Gecko. IGeckoBackChannel currently provides two methods: one to allow the handler to request fresh cache information, and the other to provide Gecko with its IHandlerControl interface. * MarshalAs accepts an IID that specifies the interface that is about to be proxied. We may want to send a more sophisticated proxy than the one that is requested. The desired IID is returned by this function. In the case of a11y interfaces, we should always return IAccessible2_3 if we are asked for one of its parent interfaces. This allows us to eliminate round trips to resolve more sophisticated interfaces later on. * NewInstance, which is needed to ensure that all descendent proxies are also imbued with the same handler code. The main focus of this patch is as follows: 1. Provide an implementation of the IHandlerProvider interface; 2. Populate the handler payload (ie, the cache) with data; 3. Modify CreateHolderFromAccessible to specify the HandlerPayload object; 4. Receive the IHandlerControl interface from the handler DLL and move it into the chrome process. Some more information about IHandlerControl: There is one IHandlerControl per handler DLL instance. It is the interface that we call in Gecko when we need to dispatch an event to the handler. In order to ensure that events are dispatched in the correct order, we need to dispatch those events from the chrome main thread so that they occur in sequential order with calls to NotifyWinEvent. --HG-- extra : rebase_source : acb44dead7cc5488424720e1bf58862b7b30374f
2017-04-05 00:23:55 +03:00
async A11yHandlerControl(uint32_t aPid,
IHandlerControlHolder aHandlerControl);
async AddMemoryReport(MemoryReport aReport);
async FinishMemoryReport(uint32_t aGeneration);
async MaybeReloadPlugins();
async BHRThreadHang(HangDetails aHangDetails);
async AddPerformanceMetrics(nsID aID, PerformanceInfo[] aMetrics);
/*
* Adds a certificate exception for the given hostname and port.
*/
async AddCertException(nsCString aSerializedCert, uint32_t aFlags,
nsCString aHostName, int32_t aPort,
bool aIsTemporary)
returns (nsresult success);
/*
* Determines whether storage access can be granted automatically by the
* storage access API without showing a user prompt.
*/
async AutomaticStorageAccessCanBeGranted(Principal aPrincipal)
returns (bool success);
/*
* A 3rd party tracking origin (aTrackingOrigin) has received the permission
* granted to have access to aGrantedOrigin when loaded by aParentPrincipal.
*/
async FirstPartyStorageAccessGrantedForOrigin(Principal aParentPrincipal,
Principal aTrackingPrincipal,
nsCString aTrackingOrigin,
int aAllowMode)
returns (bool unused);
async StoreUserInteractionAsPermission(Principal aPrincipal);
/**
* When media element's controlled state changed in the content process, we
* have to notify the chrome process in order to update the status of the
* corresponding media controller, which is used to control all media in the
* certain tab. We would use the browsing context to find the corresponding
* controller.
*/
async NotifyMediaStateChanged(MaybeDiscardedBrowsingContext aContext,
ControlledMediaState aState);
/**
* When media became audible or inaudible in content process, we have to
* notify chrome process in order to which tab is audible.
*/
async NotifyMediaAudibleChanged(MaybeDiscardedBrowsingContext aContext,
bool aAudible);
/**
* This method is used to update media session's status when it's being
* created or destroyed.
*/
async NotifyMediaSessionUpdated(MaybeDiscardedBrowsingContext aContext, bool aIsCreated);
/**
* This method is used to update media session's media metadata whenever its
* metadata is being updated.
*/
async NotifyUpdateMediaMetadata(MaybeDiscardedBrowsingContext aContext,
MaybeMediaMetadataBase aMetadata);
/**
* This method is used to update media session's playback state whenever its
* playback state is changed.
*/
async NotifyMediaSessionPlaybackStateChanged(
MaybeDiscardedBrowsingContext aContext,
MediaSessionPlaybackState aMetadata);
/**
* Due to sandboxing, a child process's UntrustedModulesProcessor cannot
* obtain enough information about a DLL file to determine its
* trustworthiness. This API asks the chrome process to perform that
* evaluation.
*/
async GetModulesTrust(ModulePaths aModPaths, bool aRunAtNormalPriority)
returns (ModulesMapResult? modMapResult);
/**
* Used to route shutdown diagnostic info from the content process
* ServiceWorkers to the parent process' ServiceWorkerManager's
* ServiceWorkerShutdownBlocker. (The only other actor chain available
* for this would be very convoluted and create ordering problems).
*/
async ReportServiceWorkerShutdownProgress(uint32_t aShutdownStateId,
Progress aProgress);
/**
* Whenever docshell updates its SH entries, we need to update them in
* the corresponding BrowsingContext
*/
async UpdateSHEntriesInBC(nullable PSHEntry aNewLSHE, nullable
PSHEntry aNewOSHE, MaybeDiscardedBrowsingContext aContext);
both:
async ScriptError(nsString message, nsString sourceName, nsString sourceLine,
uint32_t lineNumber, uint32_t colNumber, uint32_t flags,
nsCString category, bool privateWindow, uint64_t innerWindowId,
bool fromChromeContext);
async CommitBrowsingContextTransaction(MaybeDiscardedBrowsingContext aContext,
BrowsingContextTransaction aTransaction,
uint64_t aEpoch);
async AsyncMessage(nsString aMessage, CpowEntry[] aCpows,
Principal aPrincipal, ClonedMessageData aData);
/**
* Notify `push-subscription-modified` observers in the parent and child.
*/
async NotifyPushSubscriptionModifiedObservers(nsCString scope,
Principal principal);
/**
* Send a Push error message to all service worker clients in the parent or
* child.
*/
async PushError(nsCString scope, Principal principal, nsString message,
uint32_t flags);
/**
* Sync the BrowsingContext with id 'aContextId' and name 'aName' to the
* parent, and attach it to the BrowsingContext 'aParentContext'. If
* 'aParentContext' is 'nullptr' the BrowsingContext is a root in the
* BrowsingContext tree. AttachBrowsingContext must only be called at most
* once for any child BrowsingContext, and only for BrowsingContexts where
* the parent and the child context contains their nsDocShell.
*/
async AttachBrowsingContext(BrowsingContextInitializer aInit);
/**
* Remove the synced BrowsingContext with id 'aContextId' from the parent.
* DetachBrowsingContext is only needed to be called once for any
* BrowsingContext, since detaching a node in the BrowsingContext detaches
* the entire sub-tree rooted at that node. Calling DetachBrowsingContext
* with an already detached BrowsingContext effectively does nothing. Note
* that it is not an error to call DetachBrowsingContext on a
* BrowsingContext belonging to an already detached subtree.
*
* As the passed-in context is allowed to already be detached, it is passed
* by id, rather than using BrowsingContext's serializer.
*
* Callers should keep the BrowsingContext alive until this async request is
* resolved or rejected, in order to ensure that in-flight messages still
* have valid targets.
*/
async DetachBrowsingContext(uint64_t aContextId) returns (bool unused);
/**
* Removes all of 'aContext'\'s children, and caches them in the
* BrowsingContextGroup.
*/
async CacheBrowsingContextChildren(MaybeDiscardedBrowsingContext aContext);
/**
* Re-attach all BrowsingContexts in a 'aContext'.
*/
async RestoreBrowsingContextChildren(MaybeDiscardedBrowsingContext aContext,
MaybeDiscardedBrowsingContext[] aChildren);
async WindowClose(MaybeDiscardedBrowsingContext aContext,
bool aTrustedCaller);
async WindowFocus(MaybeDiscardedBrowsingContext aContext,
CallerType aCallerType);
async WindowBlur(MaybeDiscardedBrowsingContext aContext);
async RaiseWindow(MaybeDiscardedBrowsingContext aContext, CallerType aCallerType);
async ClearFocus(MaybeDiscardedBrowsingContext aContext);
async SetFocusedBrowsingContext(MaybeDiscardedBrowsingContext aContext);
async SetActiveBrowsingContext(MaybeDiscardedBrowsingContext aContext);
async UnsetActiveBrowsingContext(MaybeDiscardedBrowsingContext aContext);
async SetFocusedElement(MaybeDiscardedBrowsingContext aContext, bool aNeedsFocus);
parent:
async BlurToParent(MaybeDiscardedBrowsingContext aFocusedBrowsingContext,
MaybeDiscardedBrowsingContext aBrowsingContextToClear,
MaybeDiscardedBrowsingContext aAncestorBrowsingContextToFocus,
bool aIsLeavingDocument, bool aAdjustWidget,
bool aBrowsingContextToClearHandled,
bool aAncestorBrowsingContextToFocusHandled);
child:
async BlurToChild(MaybeDiscardedBrowsingContext aFocusedBrowsingContext,
MaybeDiscardedBrowsingContext aBrowsingContextToClear,
MaybeDiscardedBrowsingContext aAncestorBrowsingContextToFocus,
bool aIsLeavingDocument, bool aAdjustWidget);
async SetupFocusedAndActive(MaybeDiscardedBrowsingContext aFocusedBrowsingContext,
MaybeDiscardedBrowsingContext aActiveBrowsingContext);
both:
async MaybeExitFullscreen(MaybeDiscardedBrowsingContext aContext);
async WindowPostMessage(MaybeDiscardedBrowsingContext aContext,
ClonedMessageData aMessage,
PostMessageData aData);
/**
* Move sessionStorage data between parent and content processes. See
* SessionStorageManager documentation for more details.
*/
async SessionStorageData(uint64_t aTopContextId, nsCString aOriginAttrs,
nsCString aOriginKey, KeyValuePair[] aDefaultData,
KeyValuePair[] aSessionData);
async CommitWindowContextTransaction(MaybeDiscardedWindowContext aContext,
WindowContextTransaction aTransaction,
uint64_t aEpoch);
child:
// NOTE: These methods are only needed on the child, as the parent
// WindowContext is managed using the PWindowGlobal actor's lifecycle.
async CreateWindowContext(WindowContextInitializer aInit);
async DiscardWindowContext(uint64_t aContextId) returns (bool unused);
};
}
}