gecko-dev/toolkit/modules/E10SUtils.jsm

285 строки
10 KiB
JavaScript

/* 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/. */
"use strict";
var EXPORTED_SYMBOLS = ["E10SUtils"];
ChromeUtils.import("resource://gre/modules/Services.jsm");
ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm");
XPCOMUtils.defineLazyPreferenceGetter(this, "useSeparateFileUriProcess",
"browser.tabs.remote.separateFileUriProcess", false);
XPCOMUtils.defineLazyPreferenceGetter(this, "allowLinkedWebInFileUriProcess",
"browser.tabs.remote.allowLinkedWebInFileUriProcess", false);
ChromeUtils.defineModuleGetter(this, "Utils",
"resource://gre/modules/sessionstore/Utils.jsm");
function getAboutModule(aURL) {
// Needs to match NS_GetAboutModuleName
let moduleName = aURL.pathQueryRef.replace(/[#?].*/, "").toLowerCase();
let contract = "@mozilla.org/network/protocol/about;1?what=" + moduleName;
try {
return Cc[contract].getService(Ci.nsIAboutModule);
} catch (e) {
// Either the about module isn't defined or it is broken. In either case
// ignore it.
return null;
}
}
const NOT_REMOTE = null;
// These must match any similar ones in ContentParent.h.
const WEB_REMOTE_TYPE = "web";
const FILE_REMOTE_TYPE = "file";
const EXTENSION_REMOTE_TYPE = "extension";
// This must start with the WEB_REMOTE_TYPE above.
const LARGE_ALLOCATION_REMOTE_TYPE = "webLargeAllocation";
const DEFAULT_REMOTE_TYPE = WEB_REMOTE_TYPE;
function validatedWebRemoteType(aPreferredRemoteType, aTargetUri, aCurrentUri) {
// If the domain is whitelisted to allow it to use file:// URIs, then we have
// to run it in a file content process, in case it uses file:// sub-resources.
const sm = Services.scriptSecurityManager;
if (sm.inFileURIWhitelist(aTargetUri)) {
return FILE_REMOTE_TYPE;
}
if (!aPreferredRemoteType) {
return WEB_REMOTE_TYPE;
}
if (aPreferredRemoteType.startsWith(WEB_REMOTE_TYPE)) {
return aPreferredRemoteType;
}
if (allowLinkedWebInFileUriProcess &&
aPreferredRemoteType == FILE_REMOTE_TYPE) {
// If aCurrentUri is passed then we should only allow FILE_REMOTE_TYPE
// when it is same origin as target.
if (aCurrentUri) {
try {
// checkSameOriginURI throws when not same origin.
sm.checkSameOriginURI(aCurrentUri, aTargetUri, false);
return FILE_REMOTE_TYPE;
} catch (e) {
return WEB_REMOTE_TYPE;
}
}
return FILE_REMOTE_TYPE;
}
return WEB_REMOTE_TYPE;
}
var E10SUtils = {
DEFAULT_REMOTE_TYPE,
NOT_REMOTE,
WEB_REMOTE_TYPE,
FILE_REMOTE_TYPE,
EXTENSION_REMOTE_TYPE,
LARGE_ALLOCATION_REMOTE_TYPE,
canLoadURIInProcess(aURL, aProcess) {
let remoteType = aProcess == Ci.nsIXULRuntime.PROCESS_TYPE_CONTENT
? DEFAULT_REMOTE_TYPE : NOT_REMOTE;
return remoteType == this.getRemoteTypeForURI(aURL, true, remoteType);
},
getRemoteTypeForURI(aURL, aMultiProcess,
aPreferredRemoteType = DEFAULT_REMOTE_TYPE,
aCurrentUri) {
if (!aMultiProcess) {
return NOT_REMOTE;
}
// loadURI in browser.xml treats null as about:blank
if (!aURL) {
aURL = "about:blank";
}
let uri;
try {
uri = Services.uriFixup.createFixupURI(aURL, Ci.nsIURIFixup.FIXUP_FLAG_NONE);
} catch (e) {
// If we have an invalid URI, it's still possible that it might get
// fixed-up into a valid URI later on. However, we don't want to return
// aPreferredRemoteType here, in case the URI gets fixed-up into
// something that wouldn't normally run in that process.
return DEFAULT_REMOTE_TYPE;
}
return this.getRemoteTypeForURIObject(uri, aMultiProcess,
aPreferredRemoteType, aCurrentUri);
},
getRemoteTypeForURIObject(aURI, aMultiProcess,
aPreferredRemoteType = DEFAULT_REMOTE_TYPE,
aCurrentUri) {
if (!aMultiProcess) {
return NOT_REMOTE;
}
switch (aURI.scheme) {
case "javascript":
// javascript URIs can load in any, they apply to the current document.
return aPreferredRemoteType;
case "data":
case "blob":
// We need data: and blob: URIs to load in any remote process, because
// they need to be able to load in whatever is the current process
// unless it is non-remote. In that case we don't want to load them in
// the parent process, so we load them in the default remote process,
// which is sandboxed and limits any risk.
return aPreferredRemoteType == NOT_REMOTE ? DEFAULT_REMOTE_TYPE
: aPreferredRemoteType;
case "file":
return useSeparateFileUriProcess ? FILE_REMOTE_TYPE
: DEFAULT_REMOTE_TYPE;
case "about":
let module = getAboutModule(aURI);
// If the module doesn't exist then an error page will be loading, that
// should be ok to load in any process
if (!module) {
return aPreferredRemoteType;
}
let flags = module.getURIFlags(aURI);
if (flags & Ci.nsIAboutModule.URI_MUST_LOAD_IN_CHILD) {
return DEFAULT_REMOTE_TYPE;
}
// If the about page can load in parent or child, it should be safe to
// load in any remote type.
if (flags & Ci.nsIAboutModule.URI_CAN_LOAD_IN_CHILD) {
return aPreferredRemoteType;
}
return NOT_REMOTE;
case "chrome":
let chromeReg = Cc["@mozilla.org/chrome/chrome-registry;1"].
getService(Ci.nsIXULChromeRegistry);
if (chromeReg.mustLoadURLRemotely(aURI)) {
return DEFAULT_REMOTE_TYPE;
}
if (chromeReg.canLoadURLRemotely(aURI) &&
aPreferredRemoteType != NOT_REMOTE) {
return DEFAULT_REMOTE_TYPE;
}
return NOT_REMOTE;
case "moz-extension":
return WebExtensionPolicy.useRemoteWebExtensions ? EXTENSION_REMOTE_TYPE : NOT_REMOTE;
default:
// For any other nested URIs, we use the innerURI to determine the
// remote type. In theory we should use the innermost URI, but some URIs
// have fake inner URIs (e.g. about URIs with inner moz-safe-about) and
// if such URIs are wrapped in other nested schemes like view-source:,
// we don't want to "skip" past "about:" by going straight to the
// innermost URI. Any URIs like this will need to be handled in the
// cases above, so we don't still end up using the fake inner URI here.
if (aURI instanceof Ci.nsINestedURI) {
let innerURI = aURI.QueryInterface(Ci.nsINestedURI).innerURI;
return this.getRemoteTypeForURIObject(innerURI, aMultiProcess,
aPreferredRemoteType,
aCurrentUri);
}
return validatedWebRemoteType(aPreferredRemoteType, aURI, aCurrentUri);
}
},
shouldLoadURIInThisProcess(aURI) {
let remoteType = Services.appinfo.remoteType;
return remoteType == this.getRemoteTypeForURIObject(aURI, true, remoteType);
},
shouldLoadURI(aDocShell, aURI, aReferrer, aHasPostData) {
// Inner frames should always load in the current process
if (aDocShell.QueryInterface(Ci.nsIDocShellTreeItem).sameTypeParent)
return true;
// If we are in a Large-Allocation process, and it wouldn't be content visible
// to change processes, we want to load into a new process so that we can throw
// this one out. We don't want to move into a new process if we have post data,
// because we would accidentally throw out that data.
if (!aHasPostData &&
Services.appinfo.remoteType == LARGE_ALLOCATION_REMOTE_TYPE &&
!aDocShell.awaitingLargeAlloc &&
aDocShell.isOnlyToplevelInTabGroup) {
return false;
}
// Allow history load if loaded in this process before.
let webNav = aDocShell.QueryInterface(Ci.nsIWebNavigation);
let sessionHistory = webNav.sessionHistory;
let requestedIndex = sessionHistory.requestedIndex;
if (requestedIndex >= 0) {
if (sessionHistory.getEntryAtIndex(requestedIndex, false).loadedInThisProcess) {
return true;
}
// If not originally loaded in this process allow it if the URI would
// normally be allowed to load in this process by default.
let remoteType = Services.appinfo.remoteType;
return remoteType ==
this.getRemoteTypeForURIObject(aURI, true, remoteType, webNav.currentURI);
}
if (sessionHistory.count == 1 && webNav.currentURI.spec == "about:newtab") {
// This is possibly a preloaded browser and we're about to navigate away for
// the first time. On the child side there is no way to tell for sure if that
// is the case, so let's redirect this request to the parent to decide if a new
// process is needed.
return false;
}
// If the URI can be loaded in the current process then continue
return this.shouldLoadURIInThisProcess(aURI);
},
redirectLoad(aDocShell, aURI, aReferrer, aTriggeringPrincipal, aFreshProcess, aFlags) {
// Retarget the load to the correct process
let messageManager = aDocShell.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIContentFrameMessageManager);
let sessionHistory = aDocShell.getInterface(Ci.nsIWebNavigation).sessionHistory;
messageManager.sendAsyncMessage("Browser:LoadURI", {
loadOptions: {
uri: aURI.spec,
flags: aFlags || Ci.nsIWebNavigation.LOAD_FLAGS_NONE,
referrer: aReferrer ? aReferrer.spec : null,
triggeringPrincipal: aTriggeringPrincipal
? Utils.serializePrincipal(aTriggeringPrincipal)
: null,
reloadInFreshProcess: !!aFreshProcess,
},
historyIndex: sessionHistory.requestedIndex,
});
return false;
},
wrapHandlingUserInput(aWindow, aIsHandling, aCallback) {
var handlingUserInput;
try {
handlingUserInput = aWindow.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils)
.setHandlingUserInput(aIsHandling);
aCallback();
} finally {
handlingUserInput.destruct();
}
},
};