/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set sw=2 ts=8 et tw=80 ft=cpp : */ /* 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 PContent; include protocol PHttpChannel; include protocol PCookieService; include protocol PBrowser; #ifdef MOZ_WIDGET_GTK include protocol PGIOChannel; #endif include protocol PWebSocket; include protocol PWebSocketEventListener; include protocol PTCPSocket; include protocol PTCPServerSocket; include protocol PUDPSocket; include protocol PDNSRequest; include protocol PDataChannel; include protocol PSimpleChannel; include protocol PTransportProvider; include protocol PStunAddrsRequest; include protocol PFileChannel; include protocol PWebrtcTCPSocket; include protocol PSocketProcessBridge; include protocol PDocumentChannel; include IPCStream; include NeckoChannelParams; include protocol PAltDataOutputStream; include "mozilla/dom/PermissionMessageUtils.h"; using mozilla::dom::MaybeDiscardedBrowsingContext from "mozilla/dom/BrowsingContext.h"; using class IPC::SerializedLoadContext from "SerializedLoadContext.h"; using mozilla::dom::TabId from "mozilla/dom/ipc/IdType.h"; using nsIDNSService::DNSFlags from "nsIDNSService.h"; [RefCounted] using class nsIInputStream from "mozilla/ipc/IPCStreamUtils.h"; [RefCounted] using class nsIURI from "mozilla/ipc/URIUtils.h"; [RefCounted] using class nsIPrincipal from "nsIPrincipal.h"; namespace mozilla { namespace net { //------------------------------------------------------------------- [NestedUpTo=inside_cpow] sync protocol PNecko { manager PContent; manages PHttpChannel; manages PCookieService; manages PWebSocket; manages PWebSocketEventListener; manages PTCPSocket; manages PTCPServerSocket; manages PUDPSocket; manages PDNSRequest; manages PDataChannel; #ifdef MOZ_WIDGET_GTK manages PGIOChannel; #endif manages PSimpleChannel; manages PFileChannel; manages PTransportProvider; manages PAltDataOutputStream; manages PStunAddrsRequest; manages PWebrtcTCPSocket; manages PDocumentChannel; parent: async __delete__(); [Nested=inside_cpow] async PCookieService(); async PHttpChannel(nullable PBrowser browser, SerializedLoadContext loadContext, HttpChannelCreationArgs args); async PWebSocket(nullable PBrowser browser, SerializedLoadContext loadContext, uint32_t aSerialID); async PTCPServerSocket(uint16_t localPort, uint16_t backlog, bool useArrayBuffers); async PUDPSocket(nsIPrincipal principal, nsCString filter); async PDNSRequest(nsCString hostName, nsCString trrServer, int32_t port, uint16_t type, OriginAttributes originAttributes, DNSFlags flags); async PDocumentChannel(MaybeDiscardedBrowsingContext browsingContext, DocumentChannelCreationArgs args); async PWebSocketEventListener(uint64_t aInnerWindowID); /* Predictor Methods */ async PredPredict(nsIURI targetURI, nsIURI sourceURI, uint32_t reason, OriginAttributes originAttributes, bool hasVerifier); async PredLearn(nsIURI targetURI, nsIURI sourceURI, uint32_t reason, OriginAttributes originAttributes); async PredReset(); async SpeculativeConnect(nsIURI uri, nsIPrincipal principal, bool anonymous); async HTMLDNSPrefetch(nsString hostname, bool isHttps, OriginAttributes originAttributes, DNSFlags flags); async CancelHTMLDNSPrefetch(nsString hostname, bool isHttps, OriginAttributes originAttributes, DNSFlags flags, nsresult reason); /** * channelId is used to establish a connection between redirect channels in * the parent and the child when we're redirecting to a data: URI. */ async PDataChannel(uint32_t channelId); #ifdef MOZ_WIDGET_GTK async PGIOChannel(nullable PBrowser browser, SerializedLoadContext loadContext, GIOChannelCreationArgs args); #endif async PSimpleChannel(uint32_t channelId); async PFileChannel(uint32_t channelId); async RequestContextLoadBegin(uint64_t rcid); async RequestContextAfterDOMContentLoaded(uint64_t rcid); async RemoveRequestContext(uint64_t rcid); async PAltDataOutputStream(nsCString type, int64_t predictedSize, PHttpChannel channel); async PStunAddrsRequest(); /* tabId is only required for web-proxy support, which isn't always needed */ async PWebrtcTCPSocket(TabId? tabId); /** * WebExtension-specific remote resource loading */ async GetExtensionStream(nsIURI uri) returns (nsIInputStream stream); async GetExtensionFD(nsIURI uri) returns (FileDescriptor fd); async InitSocketProcessBridge() returns (Endpoint endpoint); async ResetSocketProcessBridge(); async EnsureHSTSData() returns (bool result); /** * Page thumbnails remote resource loading */ async GetPageThumbStream(nsIURI uri, LoadInfoArgs? loadInfo) returns (RemoteStreamInfo? info); async GetPageIconStream(nsIURI uri, LoadInfoArgs? loadInfo) returns (RemoteStreamInfo? info); child: /* Predictor Methods */ async PredOnPredictPrefetch(nsIURI uri, uint32_t httpStatus); async PredOnPredictPreconnect(nsIURI uri); async PredOnPredictDNS(nsIURI uri); async SpeculativeConnectRequest(); // Using medium high priority to deliver this notification possibly sooner than we // enter poll() on the child process with infinite timeout. [Priority=mediumhigh] async NetworkChangeNotification(nsCString type); async PTransportProvider(); async SetTRRDomain(nsCString domain); both: // Actually we need PTCPSocket() for parent. But ipdl disallows us having different // signatures on parent and child. So when constructing the parent side object, we just // leave host/port unused. async PTCPSocket(nsString host, uint16_t port); }; } // namespace net } // namespace mozilla