gecko-dev/toolkit/modules/E10SUtils.jsm

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/* 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"];
Bug 1514594: Part 3 - Change ChromeUtils.import API. *** Bug 1514594: Part 3a - Change ChromeUtils.import to return an exports object; not pollute global. r=mccr8 This changes the behavior of ChromeUtils.import() to return an exports object, rather than a module global, in all cases except when `null` is passed as a second argument, and changes the default behavior not to pollute the global scope with the module's exports. Thus, the following code written for the old model: ChromeUtils.import("resource://gre/modules/Services.jsm"); is approximately the same as the following, in the new model: var {Services} = ChromeUtils.import("resource://gre/modules/Services.jsm"); Since the two behaviors are mutually incompatible, this patch will land with a scripted rewrite to update all existing callers to use the new model rather than the old. *** Bug 1514594: Part 3b - Mass rewrite all JS code to use the new ChromeUtils.import API. rs=Gijs This was done using the followng script: https://bitbucket.org/kmaglione/m-c-rewrites/src/tip/processors/cu-import-exports.jsm *** Bug 1514594: Part 3c - Update ESLint plugin for ChromeUtils.import API changes. r=Standard8 Differential Revision: https://phabricator.services.mozilla.com/D16747 *** Bug 1514594: Part 3d - Remove/fix hundreds of duplicate imports from sync tests. r=Gijs Differential Revision: https://phabricator.services.mozilla.com/D16748 *** Bug 1514594: Part 3e - Remove no-op ChromeUtils.import() calls. r=Gijs Differential Revision: https://phabricator.services.mozilla.com/D16749 *** Bug 1514594: Part 3f.1 - Cleanup various test corner cases after mass rewrite. r=Gijs *** Bug 1514594: Part 3f.2 - Cleanup various non-test corner cases after mass rewrite. r=Gijs Differential Revision: https://phabricator.services.mozilla.com/D16750 --HG-- extra : rebase_source : 359574ee3064c90f33bf36c2ebe3159a24cc8895 extra : histedit_source : b93c8f42808b1599f9122d7842d2c0b3e656a594%2C64a3a4e3359dc889e2ab2b49461bab9e27fc10a7
2019-01-17 21:18:31 +03:00
const { Services } = ChromeUtils.import("resource://gre/modules/Services.jsm");
const { XPCOMUtils } = ChromeUtils.import(
"resource://gre/modules/XPCOMUtils.jsm"
);
ChromeUtils.defineModuleGetter(
this,
"PrivateBrowsingUtils",
"resource://gre/modules/PrivateBrowsingUtils.jsm"
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"useSeparateFileUriProcess",
"browser.tabs.remote.separateFileUriProcess",
false
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"allowLinkedWebInFileUriProcess",
"browser.tabs.remote.allowLinkedWebInFileUriProcess",
false
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"useSeparatePrivilegedAboutContentProcess",
"browser.tabs.remote.separatePrivilegedContentProcess",
false
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"separatePrivilegedMozillaWebContentProcess",
"browser.tabs.remote.separatePrivilegedMozillaWebContentProcess",
false
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"separatedMozillaDomains",
"browser.tabs.remote.separatedMozillaDomains",
false,
false,
val => val.split(",")
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"useHttpResponseProcessSelection",
"browser.tabs.remote.useHTTPResponseProcessSelection",
false
);
XPCOMUtils.defineLazyPreferenceGetter(
this,
"useCrossOriginOpenerPolicy",
"browser.tabs.remote.useCrossOriginOpenerPolicy",
false
);
XPCOMUtils.defineLazyServiceGetter(
this,
"serializationHelper",
"@mozilla.org/network/serialization-helper;1",
"nsISerializationHelper"
);
XPCOMUtils.defineLazyServiceGetter(
this,
"extProtService",
"@mozilla.org/uriloader/external-protocol-service;1",
"nsIExternalProtocolService"
);
function debug(msg) {
Cu.reportError(new Error("E10SUtils: " + msg));
}
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 and ProcInfo.h
const WEB_REMOTE_TYPE = "web";
const FISSION_WEB_REMOTE_TYPE_PREFIX = "webIsolated=";
const WEB_REMOTE_COOP_COEP_TYPE_PREFIX = "webCOOP+COEP=";
const FILE_REMOTE_TYPE = "file";
const EXTENSION_REMOTE_TYPE = "extension";
const PRIVILEGEDABOUT_REMOTE_TYPE = "privilegedabout";
const PRIVILEGEDMOZILLA_REMOTE_TYPE = "privilegedmozilla";
// This must start with the WEB_REMOTE_TYPE above.
const LARGE_ALLOCATION_REMOTE_TYPE = "webLargeAllocation";
const DEFAULT_REMOTE_TYPE = WEB_REMOTE_TYPE;
// This list is duplicated between Navigator.cpp and here because navigator
// is not accessible in this context. Please update both if the list changes.
const kSafeSchemes = [
"bitcoin",
"geo",
"im",
"irc",
"ircs",
"magnet",
"mailto",
"mms",
"news",
"nntp",
"openpgp4fpr",
"sip",
"sms",
"smsto",
"ssh",
"tel",
"urn",
"webcal",
"wtai",
"xmpp",
];
// Note that even if the scheme fits the criteria for a web-handled scheme
// (ie it is compatible with the checks registerProtocolHandler uses), it may
// not be web-handled - it could still be handled via the OS by another app.
function hasPotentiallyWebHandledScheme({ scheme }) {
// Note that `scheme` comes from a URI object so is already lowercase.
if (kSafeSchemes.includes(scheme)) {
return true;
}
if (!scheme.startsWith("web+") || scheme.length < 5) {
return false;
}
// Check the rest of the scheme only consists of ascii a-z chars
return /^[a-z]+$/.test(scheme.substr("web+".length));
}
function validatedWebRemoteType(
aPreferredRemoteType,
aTargetUri,
aCurrentUri,
aRemoteSubframes
) {
// To load into the Privileged Mozilla Content Process you must be https,
// and be an exact match or a subdomain of an allowlisted domain.
if (
separatePrivilegedMozillaWebContentProcess &&
aTargetUri.asciiHost &&
aTargetUri.scheme == "https" &&
separatedMozillaDomains.some(function(val) {
return (
aTargetUri.asciiHost == val || aTargetUri.asciiHost.endsWith("." + val)
);
})
) {
return PRIVILEGEDMOZILLA_REMOTE_TYPE;
}
// If we're in the parent and we were passed a web-handled scheme,
// transform it now to avoid trying to load it in the wrong process.
if (aRemoteSubframes && hasPotentiallyWebHandledScheme(aTargetUri)) {
if (
Services.appinfo.processType != Services.appinfo.PROCESS_TYPE_DEFAULT &&
Services.appinfo.remoteType.startsWith(FISSION_WEB_REMOTE_TYPE_PREFIX)
) {
// If we're in a child process, assume we're OK to load this non-web
// URL for now. We'll either load it externally or re-evaluate once
// we know the "real" URL to which we'll redirect.
return Services.appinfo.remoteType;
}
// This doesn't work (throws) in the child - see
// https://bugzilla.mozilla.org/show_bug.cgi?id=1589082
// Even if it did, it'd cause sync IPC
// ( https://bugzilla.mozilla.org/show_bug.cgi?id=1589085 ), and this code
// can get called several times per page load so that seems like something
// we'd want to avoid.
let handlerInfo = extProtService.getProtocolHandlerInfo(aTargetUri.scheme);
try {
if (!handlerInfo.alwaysAskBeforeHandling) {
let app = handlerInfo.preferredApplicationHandler;
app.QueryInterface(Ci.nsIWebHandlerApp);
// If we get here, the default handler is a web app.
// Target to the origin of that web app:
let uriStr = app.uriTemplate.replace(/%s/, aTargetUri.spec);
aTargetUri = Services.io.newURI(uriStr);
}
} catch (ex) {
// It's not strange for this to throw, we just ignore it and fall through.
}
}
// 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.inFileURIAllowlist(aTargetUri)) {
return FILE_REMOTE_TYPE;
}
// If we're within a fission window, extract site information from the URI in
// question, and use it to generate an isolated origin.
if (aRemoteSubframes) {
let targetPrincipal = sm.createContentPrincipal(aTargetUri, {});
// If this is a special webCOOP+COEP= remote type that matches the
// principal's siteOrigin, we don't want to override it with webIsolated=
// as it's already isolated.
if (
aPreferredRemoteType &&
aPreferredRemoteType ==
`${WEB_REMOTE_COOP_COEP_TYPE_PREFIX}${targetPrincipal.siteOrigin}`
) {
return aPreferredRemoteType;
}
return FISSION_WEB_REMOTE_TYPE_PREFIX + targetPrincipal.siteOrigin;
}
if (!aPreferredRemoteType) {
return WEB_REMOTE_TYPE;
}
if (aPreferredRemoteType.startsWith(WEB_REMOTE_TYPE)) {
return aPreferredRemoteType;
}
if (
allowLinkedWebInFileUriProcess &&
aPreferredRemoteType == FILE_REMOTE_TYPE
) {
// If aCurrentUri is passed then we should only allow FILE_REMOTE_TYPE
// when it is same origin as target.
if (aCurrentUri) {
try {
// checkSameOriginURI throws when not same origin.
// todo: if you intend to update CheckSameOriginURI to log the error to the
// console you also need to update the 'aFromPrivateWindow' argument.
sm.checkSameOriginURI(aCurrentUri, aTargetUri, false, false);
return FILE_REMOTE_TYPE;
} catch (e) {
return WEB_REMOTE_TYPE;
}
}
return FILE_REMOTE_TYPE;
}
return WEB_REMOTE_TYPE;
}
var E10SUtils = {
DEFAULT_REMOTE_TYPE,
NOT_REMOTE,
WEB_REMOTE_TYPE,
WEB_REMOTE_COOP_COEP_TYPE_PREFIX,
FILE_REMOTE_TYPE,
EXTENSION_REMOTE_TYPE,
PRIVILEGEDABOUT_REMOTE_TYPE,
PRIVILEGEDMOZILLA_REMOTE_TYPE,
LARGE_ALLOCATION_REMOTE_TYPE,
useHttpResponseProcessSelection() {
return useHttpResponseProcessSelection;
},
useCrossOriginOpenerPolicy() {
return useCrossOriginOpenerPolicy;
},
/**
* Serialize csp data.
*
* @param {nsIContentSecurity} csp. The csp to serialize.
* @return {String} The base64 encoded csp data.
*/
serializeCSP(csp) {
let serializedCSP = null;
try {
if (csp) {
serializedCSP = serializationHelper.serializeToString(csp);
}
} catch (e) {
debug(`Failed to serialize csp '${csp}' ${e}`);
}
return serializedCSP;
},
/**
* Deserialize a base64 encoded csp (serialized with
* Utils::serializeCSP).
*
* @param {String} csp_b64 A base64 encoded serialized csp.
* @return {nsIContentSecurityPolicy} A deserialized csp.
*/
deserializeCSP(csp_b64) {
if (!csp_b64) {
return null;
}
try {
let csp = serializationHelper.deserializeObject(csp_b64);
csp.QueryInterface(Ci.nsIContentSecurityPolicy);
return csp;
} catch (e) {
debug(`Failed to deserialize csp_b64 '${csp_b64}' ${e}`);
}
return null;
},
canLoadURIInRemoteType(
aURL,
aRemoteSubframes,
aRemoteType = DEFAULT_REMOTE_TYPE
) {
// aRemoteType cannot be undefined, as that would cause it to default to
// `DEFAULT_REMOTE_TYPE`. This means any falsy remote types are
// intentionally `NOT_REMOTE`.
return (
aRemoteType ==
this.getRemoteTypeForURI(aURL, true, aRemoteSubframes, aRemoteType)
);
},
getRemoteTypeForURI(
aURL,
aMultiProcess,
aRemoteSubframes,
aPreferredRemoteType = DEFAULT_REMOTE_TYPE,
aCurrentUri
) {
if (!aMultiProcess) {
return NOT_REMOTE;
}
// loadURI in browser.js 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,
aRemoteSubframes,
aPreferredRemoteType,
aCurrentUri
);
},
getRemoteTypeForURIObject(
aURI,
aMultiProcess,
aRemoteSubframes,
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_EXTENSION_PROCESS) {
return WebExtensionPolicy.useRemoteWebExtensions
? EXTENSION_REMOTE_TYPE
: NOT_REMOTE;
}
if (flags & Ci.nsIAboutModule.URI_MUST_LOAD_IN_CHILD) {
if (
flags & Ci.nsIAboutModule.URI_CAN_LOAD_IN_PRIVILEGEDABOUT_PROCESS &&
(useSeparatePrivilegedAboutContentProcess ||
aURI.filePath == "logins")
) {
return PRIVILEGEDABOUT_REMOTE_TYPE;
}
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:
// WebExtensions may set up protocol handlers for protocol names
// beginning with ext+. These may redirect to http(s) pages or to
// moz-extension pages. We can't actually tell here where one of
// these pages will end up loading but Talos tests use protocol
// handlers that redirect to extension pages that rely on this
// behavior so a pageloader frame script is injected correctly.
// Protocols that redirect to http(s) will just flip back to a
// regular content process after the redirect.
if (aURI.scheme.startsWith("ext+")) {
return WebExtensionPolicy.useRemoteWebExtensions
? EXTENSION_REMOTE_TYPE
: NOT_REMOTE;
}
// 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,
aRemoteSubframes,
aPreferredRemoteType,
aCurrentUri
);
}
return validatedWebRemoteType(
aPreferredRemoteType,
aURI,
aCurrentUri,
aRemoteSubframes
);
}
},
getRemoteTypeForPrincipal(
aPrincipal,
aMultiProcess,
aRemoteSubframes,
aPreferredRemoteType = DEFAULT_REMOTE_TYPE,
aCurrentPrincipal
) {
if (!aMultiProcess) {
return NOT_REMOTE;
}
// We can't pick a process based on a system principal or expanded
// principal. In fact, we should never end up with one here!
if (aPrincipal.isSystemPrincipal || aPrincipal.isExpandedPrincipal) {
throw Cr.NS_ERROR_UNEXPECTED;
}
// Null principals can be loaded in any remote process.
if (aPrincipal.isNullPrincipal) {
return aPreferredRemoteType == NOT_REMOTE
? DEFAULT_REMOTE_TYPE
: aPreferredRemoteType;
}
// We might care about the currently loaded URI. Pull it out of our current
// principal. We never care about the current URI when working with a
// non-content principal.
let currentURI =
aCurrentPrincipal && aCurrentPrincipal.isContentPrincipal
? aCurrentPrincipal.URI
: null;
return E10SUtils.getRemoteTypeForURIObject(
aPrincipal.URI,
aMultiProcess,
aRemoteSubframes,
aPreferredRemoteType,
currentURI
);
},
makeInputStream(data) {
if (typeof data == "string") {
let stream = Cc["@mozilla.org/io/string-input-stream;1"].createInstance(
Ci.nsISupportsCString
);
stream.data = data;
return stream; // XPConnect will QI this to nsIInputStream for us.
}
let stream = Cc["@mozilla.org/io/string-input-stream;1"].createInstance(
Ci.nsISupportsCString
);
stream.data = data.content;
if (data.headers) {
let mimeStream = Cc[
"@mozilla.org/network/mime-input-stream;1"
].createInstance(Ci.nsIMIMEInputStream);
mimeStream.setData(stream);
for (let [name, value] of data.headers) {
mimeStream.addHeader(name, value);
}
return mimeStream;
}
return stream; // XPConnect will QI this to nsIInputStream for us.
},
/**
* Serialize principal data.
*
* @param {nsIPrincipal} principal The principal to serialize.
* @return {String} The base64 encoded principal data.
*/
serializePrincipal(principal) {
let serializedPrincipal = null;
try {
if (principal) {
serializedPrincipal = btoa(
Services.scriptSecurityManager.principalToJSON(principal)
);
}
} catch (e) {
debug(`Failed to serialize principal '${principal}' ${e}`);
}
return serializedPrincipal;
},
/**
* Deserialize a base64 encoded principal (serialized with
* serializePrincipal).
*
* @param {String} principal_b64 A base64 encoded serialized principal.
* @return {nsIPrincipal} A deserialized principal.
*/
deserializePrincipal(principal_b64, fallbackPrincipalCallback = null) {
if (!principal_b64) {
if (!fallbackPrincipalCallback) {
debug(
"No principal passed to deserializePrincipal and no fallbackPrincipalCallback"
);
return null;
}
return fallbackPrincipalCallback();
}
try {
let principal;
let tmpa = atob(principal_b64);
// Both the legacy and new JSON representation of principals are stored as base64
// The new kind are the only ones that will start with "{" when decoded.
// We check here for the new JSON serialized, if it doesn't start with that continue using nsISerializable.
// JSONToPrincipal accepts a *non* base64 encoded string and returns a principal or a null.
if (tmpa.startsWith("{")) {
principal = Services.scriptSecurityManager.JSONToPrincipal(tmpa);
} else {
principal = serializationHelper.deserializeObject(principal_b64);
}
principal.QueryInterface(Ci.nsIPrincipal);
return principal;
} catch (e) {
debug(`Failed to deserialize principal_b64 '${principal_b64}' ${e}`);
}
if (!fallbackPrincipalCallback) {
debug(
"No principal passed to deserializePrincipal and no fallbackPrincipalCallback"
);
return null;
}
return fallbackPrincipalCallback();
},
shouldLoadURIInBrowser(
browser,
uri,
multiProcess = true,
remoteSubframes = false,
flags = Ci.nsIWebNavigation.LOAD_FLAGS_NONE
) {
let currentRemoteType = browser.remoteType;
let requiredRemoteType;
let uriObject;
try {
let fixupFlags = Ci.nsIURIFixup.FIXUP_FLAG_NONE;
if (flags & Ci.nsIWebNavigation.LOAD_FLAGS_ALLOW_THIRD_PARTY_FIXUP) {
fixupFlags |= Ci.nsIURIFixup.FIXUP_FLAG_ALLOW_KEYWORD_LOOKUP;
}
if (flags & Ci.nsIWebNavigation.LOAD_FLAGS_FIXUP_SCHEME_TYPOS) {
fixupFlags |= Ci.nsIURIFixup.FIXUP_FLAG_FIX_SCHEME_TYPOS;
}
if (PrivateBrowsingUtils.isBrowserPrivate(browser)) {
fixupFlags |= Ci.nsIURIFixup.FIXUP_FLAG_PRIVATE_CONTEXT;
}
uriObject = Services.uriFixup.createFixupURI(uri, fixupFlags);
// Note that I had thought that we could set uri = uriObject.spec here, to
// save on fixup later on, but that changes behavior and breaks tests.
requiredRemoteType = this.getRemoteTypeForURIObject(
uriObject,
multiProcess,
remoteSubframes,
currentRemoteType,
browser.currentURI
);
} catch (e) {
// createFixupURI throws if it can't create a URI. If that's the case then
// we still need to pass down the uri because docshell handles this case.
requiredRemoteType = multiProcess ? DEFAULT_REMOTE_TYPE : NOT_REMOTE;
}
let mustChangeProcess = requiredRemoteType != currentRemoteType;
let newFrameloader = false;
if (
browser.getAttribute("preloadedState") === "consumed" &&
uri != "about:newtab"
) {
// Leaving about:newtab from a used to be preloaded browser should run the process
// selecting algorithm again.
mustChangeProcess = true;
newFrameloader = true;
}
return {
uriObject,
requiredRemoteType,
mustChangeProcess,
newFrameloader,
};
},
shouldLoadURIInThisProcess(aURI, aRemoteSubframes) {
let remoteType = Services.appinfo.remoteType;
return (
remoteType ==
this.getRemoteTypeForURIObject(
aURI,
/* remote */ true,
aRemoteSubframes,
remoteType
)
);
},
shouldLoadURI(aDocShell, aURI, aHasPostData) {
let remoteSubframes = aDocShell.useRemoteSubframes;
// Inner frames should always load in the current process
// XXX(nika): Handle shouldLoadURI-triggered process switches for remote
// subframes! (bug 1548942)
if (aDocShell.sameTypeParent) {
return true;
}
let webNav = aDocShell.QueryInterface(Ci.nsIWebNavigation);
let sessionHistory = webNav.sessionHistory;
if (
!aHasPostData &&
Services.appinfo.remoteType == WEB_REMOTE_TYPE &&
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. But we don't currently properly handle POST data in
// redirects (bug 1457520), so if there is POST data, don't return false here.
return false;
}
// If we are performing HTTP response process selection, and are loading an
// HTTP URI, we can start the load in the current process, and then perform
// the switch later-on using the RedirectProcessChooser mechanism.
//
// We should never be sending a POST request from the parent process to a
// http(s) uri, so make sure we switch if we're currently in that process.
if (
useHttpResponseProcessSelection &&
(aURI.scheme == "http" || aURI.scheme == "https") &&
Services.appinfo.remoteType != NOT_REMOTE
) {
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.
let isOnlyToplevelBrowsingContext =
!aDocShell.browsingContext.parent &&
aDocShell.browsingContext.group.getToplevels().length == 1;
if (
!aHasPostData &&
Services.appinfo.remoteType == LARGE_ALLOCATION_REMOTE_TYPE &&
!aDocShell.awaitingLargeAlloc &&
isOnlyToplevelBrowsingContext
) {
return false;
}
// Allow history load if loaded in this process before.
let requestedIndex = sessionHistory.legacySHistory.requestedIndex;
if (requestedIndex >= 0) {
if (
sessionHistory.legacySHistory.getEntryAtIndex(requestedIndex)
.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,
remoteSubframes,
remoteType,
webNav.currentURI
)
);
}
// If the URI can be loaded in the current process then continue
return this.shouldLoadURIInThisProcess(aURI, remoteSubframes);
},
redirectLoad(
aDocShell,
aURI,
aReferrerInfo,
aTriggeringPrincipal,
aFreshProcess,
aFlags,
aCsp
) {
// Retarget the load to the correct process
let messageManager = aDocShell.messageManager;
let sessionHistory = aDocShell.QueryInterface(Ci.nsIWebNavigation)
.sessionHistory;
messageManager.sendAsyncMessage("Browser:LoadURI", {
loadOptions: {
uri: aURI.spec,
flags: aFlags || Ci.nsIWebNavigation.LOAD_FLAGS_NONE,
referrerInfo: this.serializeReferrerInfo(aReferrerInfo),
triggeringPrincipal: this.serializePrincipal(
aTriggeringPrincipal ||
Services.scriptSecurityManager.createNullPrincipal({})
),
csp: aCsp ? this.serializeCSP(aCsp) : null,
reloadInFreshProcess: !!aFreshProcess,
},
historyIndex: sessionHistory.legacySHistory.requestedIndex,
});
return false;
},
wrapHandlingUserInput(aWindow, aIsHandling, aCallback) {
var handlingUserInput;
try {
handlingUserInput = aWindow.windowUtils.setHandlingUserInput(aIsHandling);
aCallback();
} finally {
handlingUserInput.destruct();
}
},
/**
* Serialize referrerInfo.
*
* @param {nsIReferrerInfo} The referrerInfo to serialize.
* @return {String} The base64 encoded referrerInfo.
*/
serializeReferrerInfo(referrerInfo) {
let serialized = null;
if (referrerInfo) {
try {
serialized = serializationHelper.serializeToString(referrerInfo);
} catch (e) {
debug(`Failed to serialize referrerInfo '${referrerInfo}' ${e}`);
}
}
return serialized;
},
/**
* Deserialize a base64 encoded referrerInfo
*
* @param {String} referrerInfo_b64 A base64 encoded serialized referrerInfo.
* @return {nsIReferrerInfo} A deserialized referrerInfo.
*/
deserializeReferrerInfo(referrerInfo_b64) {
let deserialized = null;
if (referrerInfo_b64) {
try {
deserialized = serializationHelper.deserializeObject(referrerInfo_b64);
deserialized.QueryInterface(Ci.nsIReferrerInfo);
} catch (e) {
debug(
`Failed to deserialize referrerInfo_b64 '${referrerInfo_b64}' ${e}`
);
}
}
return deserialized;
},
/**
* Returns the pids for a remote browser and its remote subframes.
*/
getBrowserPids(aBrowser, aRemoteSubframes) {
if (!aBrowser.isRemoteBrowser || !aBrowser.frameLoader) {
return [];
}
let tabPid = aBrowser.frameLoader.remoteTab.osPid;
let pids = new Set();
if (aRemoteSubframes) {
let stack = [aBrowser.browsingContext];
while (stack.length) {
let bc = stack.pop();
stack.push(...bc.getChildren());
if (bc.currentWindowGlobal) {
let pid = bc.currentWindowGlobal.osPid;
if (pid != tabPid) {
pids.add(pid);
}
}
}
}
return [tabPid, ...pids];
},
/**
* The suffix after a `=` in a remoteType is dynamic, and used to control the
* process pool to use. The C++ version of this method is mozilla::dom::RemoteTypePrefix().
*/
remoteTypePrefix(aRemoteType) {
return aRemoteType.split("=")[0];
},
/**
* There are various types of remote types that are for web content processes, but
* they all start with "web". The C++ version of this method is
* mozilla::dom::IsWebRemoteType().
*/
isWebRemoteType(aRemoteType) {
return aRemoteType.startsWith(WEB_REMOTE_TYPE);
},
};
XPCOMUtils.defineLazyGetter(
E10SUtils,
"SERIALIZED_SYSTEMPRINCIPAL",
function() {
return E10SUtils.serializePrincipal(
Services.scriptSecurityManager.getSystemPrincipal()
);
}
);
XPCOMUtils.defineLazyPreferenceGetter(
E10SUtils,
"rebuildFrameloadersOnRemotenessChange",
"fission.rebuild_frameloaders_on_remoteness_change",
false
);