gecko/mobile/android/components/SessionStore.js

1041 lines
36 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/. */
const Cc = Components.classes;
const Ci = Components.interfaces;
const Cu = Components.utils;
const Cr = Components.results;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
Cu.import("resource://gre/modules/Services.jsm");
#ifdef MOZ_CRASHREPORTER
XPCOMUtils.defineLazyServiceGetter(this, "CrashReporter",
"@mozilla.org/xre/app-info;1", "nsICrashReporter");
#endif
XPCOMUtils.defineLazyModuleGetter(this, "NetUtil",
"resource://gre/modules/NetUtil.jsm");
function dump(a) {
Cc["@mozilla.org/consoleservice;1"].getService(Ci.nsIConsoleService).logStringMessage(a);
}
// -----------------------------------------------------------------------
// Session Store
// -----------------------------------------------------------------------
const STATE_STOPPED = 0;
const STATE_RUNNING = 1;
const STATE_QUITTING = -1;
function SessionStore() { }
SessionStore.prototype = {
classID: Components.ID("{8c1f07d6-cba3-4226-a315-8bd43d67d032}"),
QueryInterface: XPCOMUtils.generateQI([Ci.nsISessionStore,
Ci.nsIDOMEventListener,
Ci.nsIObserver,
Ci.nsISupportsWeakReference]),
_windows: {},
_lastSaveTime: 0,
_interval: 10000,
_maxTabsUndo: 1,
_shouldRestore: false,
init: function ss_init() {
// Get file references
this._sessionFile = Services.dirsvc.get("ProfD", Ci.nsILocalFile);
this._sessionFileBackup = this._sessionFile.clone();
this._sessionFile.append("sessionstore.js");
this._sessionFileBackup.append("sessionstore.bak");
this._loadState = STATE_STOPPED;
this._interval = Services.prefs.getIntPref("browser.sessionstore.interval");
this._maxTabsUndo = Services.prefs.getIntPref("browser.sessionstore.max_tabs_undo");
// Do we need to restore session just this once, in case of a restart?
if (this._sessionFileBackup.exists() && Services.prefs.getBoolPref("browser.sessionstore.resume_session_once")) {
Services.prefs.setBoolPref("browser.sessionstore.resume_session_once", false);
this._shouldRestore = true;
}
},
_clearDisk: function ss_clearDisk() {
if (this._sessionFile.exists()) {
try {
this._sessionFile.remove(false);
} catch (ex) { dump(ex + '\n'); } // couldn't remove the file - what now?
}
if (this._sessionFileBackup.exists()) {
try {
this._sessionFileBackup.remove(false);
} catch (ex) { dump(ex + '\n'); } // couldn't remove the file - what now?
}
},
_sendMessageToJava: function (aMsg) {
let data = Services.androidBridge.handleGeckoMessage(JSON.stringify(aMsg));
return JSON.parse(data);
},
observe: function ss_observe(aSubject, aTopic, aData) {
let self = this;
let observerService = Services.obs;
switch (aTopic) {
case "app-startup":
observerService.addObserver(this, "final-ui-startup", true);
observerService.addObserver(this, "domwindowopened", true);
observerService.addObserver(this, "domwindowclosed", true);
observerService.addObserver(this, "browser-lastwindow-close-granted", true);
observerService.addObserver(this, "browser:purge-session-history", true);
observerService.addObserver(this, "quit-application-requested", true);
observerService.addObserver(this, "quit-application-granted", true);
observerService.addObserver(this, "quit-application", true);
observerService.addObserver(this, "Session:Restore", true);
break;
case "final-ui-startup":
observerService.removeObserver(this, "final-ui-startup");
this.init();
break;
case "domwindowopened": {
let window = aSubject;
window.addEventListener("load", function() {
self.onWindowOpen(window);
window.removeEventListener("load", arguments.callee, false);
}, false);
break;
}
case "domwindowclosed": // catch closed windows
this.onWindowClose(aSubject);
break;
case "browser-lastwindow-close-granted":
// If a save has been queued, kill the timer and save state now
if (this._saveTimer) {
this._saveTimer.cancel();
this._saveTimer = null;
this.saveState();
}
// Freeze the data at what we've got (ignoring closing windows)
this._loadState = STATE_QUITTING;
break;
case "quit-application-requested":
// Get a current snapshot of all windows
this._forEachBrowserWindow(function(aWindow) {
self._collectWindowData(aWindow);
});
break;
case "quit-application-granted":
// Get a current snapshot of all windows
this._forEachBrowserWindow(function(aWindow) {
self._collectWindowData(aWindow);
});
// Freeze the data at what we've got (ignoring closing windows)
this._loadState = STATE_QUITTING;
break;
case "quit-application":
// If we are restarting, lets restore the tabs
if (aData == "restart") {
Services.prefs.setBoolPref("browser.sessionstore.resume_session_once", true);
// Ignore purges when restarting. The notification is fired after "quit-application".
Services.obs.removeObserver(this, "browser:purge-session-history");
}
// Freeze the data at what we've got (ignoring closing windows)
this._loadState = STATE_QUITTING;
// Move this session to sessionstore.bak so that:
// 1) we can get "tabs from last time" from sessionstore.bak
// 2) if sessionstore.js exists on next start, we know we crashed
if (this._sessionFile.exists())
this._sessionFile.moveTo(null, this._sessionFileBackup.leafName);
observerService.removeObserver(this, "domwindowopened");
observerService.removeObserver(this, "domwindowclosed");
observerService.removeObserver(this, "browser-lastwindow-close-granted");
observerService.removeObserver(this, "quit-application-requested");
observerService.removeObserver(this, "quit-application-granted");
observerService.removeObserver(this, "quit-application");
observerService.removeObserver(this, "Session:Restore");
// If a save has been queued, kill the timer and save state now
if (this._saveTimer) {
this._saveTimer.cancel();
this._saveTimer = null;
this.saveState();
}
break;
case "browser:purge-session-history": // catch sanitization
this._clearDisk();
// If the browser is shutting down, simply return after clearing the
// session data on disk as this notification fires after the
// quit-application notification so the browser is about to exit.
if (this._loadState == STATE_QUITTING)
return;
// Clear all data about closed tabs
for (let [ssid, win] in Iterator(this._windows))
win.closedTabs = [];
if (this._loadState == STATE_RUNNING) {
// Save the purged state immediately
this.saveStateNow();
}
Services.obs.notifyObservers(null, "sessionstore-state-purge-complete", "");
break;
case "timer-callback":
// Timer call back for delayed saving
this._saveTimer = null;
this.saveState();
break;
case "Session:Restore": {
if (aData) {
// Be ready to handle any restore failures by making sure we have a valid tab opened
let window = Services.wm.getMostRecentWindow("navigator:browser");
let restoreCleanup = {
observe: function (aSubject, aTopic, aData) {
Services.obs.removeObserver(restoreCleanup, "sessionstore-windows-restored");
if (window.BrowserApp.tabs.length == 0) {
window.BrowserApp.addTab("about:home", {
showProgress: false,
selected: true
});
}
// Let Java know we're done restoring tabs so tabs added after this can be animated
this._sendMessageToJava({
type: "Session:RestoreEnd"
});
}.bind(this)
};
Services.obs.addObserver(restoreCleanup, "sessionstore-windows-restored", false);
// Do a restore, triggered by Java
let data = JSON.parse(aData);
this.restoreLastSession(data.normalRestore, data.sessionString);
} else if (this._shouldRestore) {
// Do a restore triggered by Gecko (e.g., if
// browser.sessionstore.resume_session_once is true). In these cases,
// our Java front-end doesn't know we're doing a restore, so it has
// already opened an about:home tab.
this.restoreLastSession(false, null);
} else {
// Not doing a restore; just send restore message
Services.obs.notifyObservers(null, "sessionstore-windows-restored", "");
}
break;
}
}
},
handleEvent: function ss_handleEvent(aEvent) {
let window = aEvent.currentTarget.ownerDocument.defaultView;
switch (aEvent.type) {
case "TabOpen": {
let browser = aEvent.target;
this.onTabAdd(window, browser);
break;
}
case "TabClose": {
let browser = aEvent.target;
this.onTabClose(window, browser);
this.onTabRemove(window, browser);
break;
}
case "TabSelect": {
let browser = aEvent.target;
this.onTabSelect(window, browser);
break;
}
case "pageshow": {
let browser = aEvent.currentTarget;
this.onTabLoad(window, browser, aEvent.persisted);
break;
}
}
},
onWindowOpen: function ss_onWindowOpen(aWindow) {
// Return if window has already been initialized
if (aWindow && aWindow.__SSID && this._windows[aWindow.__SSID])
return;
// Ignore non-browser windows and windows opened while shutting down
if (aWindow.document.documentElement.getAttribute("windowtype") != "navigator:browser" || this._loadState == STATE_QUITTING)
return;
// Assign it a unique identifier (timestamp) and create its data object
aWindow.__SSID = "window" + Date.now();
this._windows[aWindow.__SSID] = { tabs: [], selected: 0, closedTabs: [] };
// Perform additional initialization when the first window is loading
if (this._loadState == STATE_STOPPED) {
this._loadState = STATE_RUNNING;
this._lastSaveTime = Date.now();
}
// Add tab change listeners to all already existing tabs
let tabs = aWindow.BrowserApp.tabs;
for (let i = 0; i < tabs.length; i++)
this.onTabAdd(aWindow, tabs[i].browser, true);
// Notification of tab add/remove/selection
let browsers = aWindow.document.getElementById("browsers");
browsers.addEventListener("TabOpen", this, true);
browsers.addEventListener("TabClose", this, true);
browsers.addEventListener("TabSelect", this, true);
},
onWindowClose: function ss_onWindowClose(aWindow) {
// Ignore windows not tracked by SessionStore
if (!aWindow.__SSID || !this._windows[aWindow.__SSID])
return;
let browsers = aWindow.document.getElementById("browsers");
browsers.removeEventListener("TabOpen", this, true);
browsers.removeEventListener("TabClose", this, true);
browsers.removeEventListener("TabSelect", this, true);
if (this._loadState == STATE_RUNNING) {
// Update all window data for a last time
this._collectWindowData(aWindow);
// Clear this window from the list
delete this._windows[aWindow.__SSID];
// Save the state without this window to disk
this.saveStateDelayed();
}
let tabs = aWindow.BrowserApp.tabs;
for (let i = 0; i < tabs.length; i++)
this.onTabRemove(aWindow, tabs[i].browser, true);
delete aWindow.__SSID;
},
onTabAdd: function ss_onTabAdd(aWindow, aBrowser, aNoNotification) {
aBrowser.addEventListener("pageshow", this, true);
if (!aNoNotification)
this.saveStateDelayed();
this._updateCrashReportURL(aWindow);
},
onTabRemove: function ss_onTabRemove(aWindow, aBrowser, aNoNotification) {
aBrowser.removeEventListener("pageshow", this, true);
// If this browser is being restored, skip any session save activity
if (aBrowser.__SS_restore)
return;
delete aBrowser.__SS_data;
if (!aNoNotification)
this.saveStateDelayed();
},
onTabClose: function ss_onTabClose(aWindow, aBrowser) {
if (this._maxTabsUndo == 0)
return;
if (aWindow.BrowserApp.tabs.length > 0) {
// Bundle this browser's data and extra data and save in the closedTabs
// window property
let data = aBrowser.__SS_data;
data.extData = aBrowser.__SS_extdata;
this._windows[aWindow.__SSID].closedTabs.unshift(data);
let length = this._windows[aWindow.__SSID].closedTabs.length;
if (length > this._maxTabsUndo)
this._windows[aWindow.__SSID].closedTabs.splice(this._maxTabsUndo, length - this._maxTabsUndo);
}
},
onTabLoad: function ss_onTabLoad(aWindow, aBrowser, aPersisted) {
// If this browser is being restored, skip any session save activity
if (aBrowser.__SS_restore)
return;
// Ignore a transient "about:blank"
if (!aBrowser.canGoBack && aBrowser.currentURI.spec == "about:blank")
return;
let history = aBrowser.sessionHistory;
if (aPersisted && aBrowser.__SS_data) {
// Loading from the cache; just update the index
aBrowser.__SS_data.index = history.index + 1;
this.saveStateDelayed();
} else {
// Serialize the tab data
let entries = [];
let index = history.index + 1;
for (let i = 0; i < history.count; i++) {
let historyEntry = history.getEntryAtIndex(i, false);
// Don't try to restore wyciwyg URLs
if (historyEntry.URI.schemeIs("wyciwyg")) {
// Adjust the index to account for skipped history entries
if (i <= history.index)
index--;
continue;
}
let entry = this._serializeHistoryEntry(historyEntry);
entries.push(entry);
}
let data = { entries: entries, index: index };
delete aBrowser.__SS_data;
this._collectTabData(aWindow, aBrowser, data);
this.saveStateNow();
}
this._updateCrashReportURL(aWindow);
},
onTabSelect: function ss_onTabSelect(aWindow, aBrowser) {
if (this._loadState != STATE_RUNNING)
return;
let browsers = aWindow.document.getElementById("browsers");
let index = browsers.selectedIndex;
this._windows[aWindow.__SSID].selected = parseInt(index) + 1; // 1-based
// Restore the resurrected browser
if (aBrowser.__SS_restore) {
let data = aBrowser.__SS_data;
if (data.entries.length > 0)
this._restoreHistory(data, aBrowser.sessionHistory);
delete aBrowser.__SS_restore;
aBrowser.removeAttribute("pending");
}
this.saveStateDelayed();
this._updateCrashReportURL(aWindow);
},
saveStateDelayed: function ss_saveStateDelayed() {
if (!this._saveTimer) {
// Interval until the next disk operation is allowed
let minimalDelay = this._lastSaveTime + this._interval - Date.now();
// If we have to wait, set a timer, otherwise saveState directly
let delay = Math.max(minimalDelay, 2000);
if (delay > 0) {
this._saveTimer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
this._saveTimer.init(this, delay, Ci.nsITimer.TYPE_ONE_SHOT);
} else {
this.saveState();
}
}
},
saveStateNow: function ss_saveStateNow() {
// Kill any queued timer and save immediately
if (this._saveTimer) {
this._saveTimer.cancel();
this._saveTimer = null;
}
this.saveState();
},
saveState: function ss_saveState() {
let data = this._getCurrentState();
let normalData = { windows: [] };
let privateData = { windows: [] };
for (let winIndex = 0; winIndex < data.windows.length; ++winIndex) {
let win = data.windows[winIndex];
let normalWin = {};
for (let prop in win) {
normalWin[prop] = data[prop];
}
normalWin.tabs = [];
normalData.windows.push(normalWin);
privateData.windows.push({ tabs: [] });
// Split the session data into private and non-private data objects.
// Non-private session data will be saved to disk, and private session
// data will be sent to Java for Android to hold it in memory.
for (let i = 0; i < win.tabs.length; ++i) {
let tab = win.tabs[i];
let savedWin = tab.isPrivate ? privateData.windows[winIndex] : normalData.windows[winIndex];
savedWin.tabs.push(tab);
if (win.selected == i + 1) {
savedWin.selected = savedWin.tabs.length;
}
}
}
// Write only non-private data to disk
this._writeFile(this._sessionFile, JSON.stringify(normalData));
// If we have private data, send it to Java; otherwise, send null to
// indicate that there is no private data
this._sendMessageToJava({
type: "PrivateBrowsing:Data",
session: (privateData.windows[0].tabs.length > 0) ? JSON.stringify(privateData) : null
});
this._lastSaveTime = Date.now();
},
_getCurrentState: function ss_getCurrentState() {
let self = this;
this._forEachBrowserWindow(function(aWindow) {
self._collectWindowData(aWindow);
});
let data = { windows: [] };
for (let index in this._windows) {
data.windows.push(this._windows[index]);
}
return data;
},
_collectTabData: function ss__collectTabData(aWindow, aBrowser, aHistory) {
// If this browser is being restored, skip any session save activity
if (aBrowser.__SS_restore)
return;
aHistory = aHistory || { entries: [{ url: aBrowser.currentURI.spec, title: aBrowser.contentTitle }], index: 1 };
let tabData = {};
tabData.entries = aHistory.entries;
tabData.index = aHistory.index;
tabData.attributes = { image: aBrowser.mIconURL };
tabData.desktopMode = aWindow.BrowserApp.getTabForBrowser(aBrowser).desktopMode;
tabData.isPrivate = aBrowser.docShell.QueryInterface(Ci.nsILoadContext).usePrivateBrowsing;
aBrowser.__SS_data = tabData;
},
_collectWindowData: function ss__collectWindowData(aWindow) {
// Ignore windows not tracked by SessionStore
if (!aWindow.__SSID || !this._windows[aWindow.__SSID])
return;
let winData = this._windows[aWindow.__SSID];
winData.tabs = [];
let browsers = aWindow.document.getElementById("browsers");
let index = browsers.selectedIndex;
winData.selected = parseInt(index) + 1; // 1-based
let tabs = aWindow.BrowserApp.tabs;
for (let i = 0; i < tabs.length; i++) {
let browser = tabs[i].browser;
if (browser.__SS_data) {
let tabData = browser.__SS_data;
if (browser.__SS_extdata)
tabData.extData = browser.__SS_extdata;
winData.tabs.push(tabData);
}
}
},
_forEachBrowserWindow: function ss_forEachBrowserWindow(aFunc) {
let windowsEnum = Services.wm.getEnumerator("navigator:browser");
while (windowsEnum.hasMoreElements()) {
let window = windowsEnum.getNext();
if (window.__SSID && !window.closed)
aFunc.call(this, window);
}
},
_writeFile: function ss_writeFile(aFile, aData) {
let stateString = Cc["@mozilla.org/supports-string;1"].createInstance(Ci.nsISupportsString);
stateString.data = aData;
Services.obs.notifyObservers(stateString, "sessionstore-state-write", "");
// Don't touch the file if an observer has deleted all state data
if (!stateString.data)
return;
// Initialize the file output stream.
let ostream = Cc["@mozilla.org/network/safe-file-output-stream;1"].createInstance(Ci.nsIFileOutputStream);
ostream.init(aFile, 0x02 | 0x08 | 0x20, 0600, ostream.DEFER_OPEN);
// Obtain a converter to convert our data to a UTF-8 encoded input stream.
let converter = Cc["@mozilla.org/intl/scriptableunicodeconverter"].createInstance(Ci.nsIScriptableUnicodeConverter);
converter.charset = "UTF-8";
// Asynchronously copy the data to the file.
let istream = converter.convertToInputStream(aData);
NetUtil.asyncCopy(istream, ostream, function(rc) {
if (Components.isSuccessCode(rc)) {
Services.obs.notifyObservers(null, "sessionstore-state-write-complete", "");
}
});
},
_updateCrashReportURL: function ss_updateCrashReportURL(aWindow) {
#ifdef MOZ_CRASHREPORTER
if (!aWindow.BrowserApp.selectedBrowser)
return;
try {
let currentURI = aWindow.BrowserApp.selectedBrowser.currentURI.clone();
// if the current URI contains a username/password, remove it
try {
currentURI.userPass = "";
}
catch (ex) { } // ignore failures on about: URIs
CrashReporter.annotateCrashReport("URL", currentURI.spec);
}
catch (ex) {
// don't make noise when crashreporter is built but not enabled
if (ex.result != Components.results.NS_ERROR_NOT_INITIALIZED)
Components.utils.reportError("SessionStore:" + ex);
}
#endif
},
_serializeHistoryEntry: function _serializeHistoryEntry(aEntry) {
let entry = { url: aEntry.URI.spec };
if (aEntry.title && aEntry.title != entry.url)
entry.title = aEntry.title;
if (!(aEntry instanceof Ci.nsISHEntry))
return entry;
let cacheKey = aEntry.cacheKey;
if (cacheKey && cacheKey instanceof Ci.nsISupportsPRUint32 && cacheKey.data != 0)
entry.cacheKey = cacheKey.data;
entry.ID = aEntry.ID;
entry.docshellID = aEntry.docshellID;
if (aEntry.referrerURI)
entry.referrer = aEntry.referrerURI.spec;
if (aEntry.contentType)
entry.contentType = aEntry.contentType;
let x = {}, y = {};
aEntry.getScrollPosition(x, y);
if (x.value != 0 || y.value != 0)
entry.scroll = x.value + "," + y.value;
if (aEntry.owner) {
try {
let binaryStream = Cc["@mozilla.org/binaryoutputstream;1"].createInstance(Ci.nsIObjectOutputStream);
let pipe = Cc["@mozilla.org/pipe;1"].createInstance(Ci.nsIPipe);
pipe.init(false, false, 0, 0xffffffff, null);
binaryStream.setOutputStream(pipe.outputStream);
binaryStream.writeCompoundObject(aEntry.owner, Ci.nsISupports, true);
binaryStream.close();
// Now we want to read the data from the pipe's input end and encode it.
let scriptableStream = Cc["@mozilla.org/binaryinputstream;1"].createInstance(Ci.nsIBinaryInputStream);
scriptableStream.setInputStream(pipe.inputStream);
let ownerBytes = scriptableStream.readByteArray(scriptableStream.available());
// We can stop doing base64 encoding once our serialization into JSON
// is guaranteed to handle all chars in strings, including embedded
// nulls.
entry.owner_b64 = btoa(String.fromCharCode.apply(null, ownerBytes));
} catch (e) { dump(e); }
}
entry.docIdentifier = aEntry.BFCacheEntry.ID;
if (aEntry.stateData != null) {
entry.structuredCloneState = aEntry.stateData.getDataAsBase64();
entry.structuredCloneVersion = aEntry.stateData.formatVersion;
}
if (!(aEntry instanceof Ci.nsISHContainer))
return entry;
if (aEntry.childCount > 0) {
let children = [];
for (let i = 0; i < aEntry.childCount; i++) {
let child = aEntry.GetChildAt(i);
if (child) {
// don't try to restore framesets containing wyciwyg URLs (cf. bug 424689 and bug 450595)
if (child.URI.schemeIs("wyciwyg")) {
children = [];
break;
}
children.push(this._serializeHistoryEntry(child));
}
if (children.length)
entry.children = children;
}
}
return entry;
},
_deserializeHistoryEntry: function _deserializeHistoryEntry(aEntry, aIdMap, aDocIdentMap) {
let shEntry = Cc["@mozilla.org/browser/session-history-entry;1"].createInstance(Ci.nsISHEntry);
shEntry.setURI(Services.io.newURI(aEntry.url, null, null));
shEntry.setTitle(aEntry.title || aEntry.url);
if (aEntry.subframe)
shEntry.setIsSubFrame(aEntry.subframe || false);
shEntry.loadType = Ci.nsIDocShellLoadInfo.loadHistory;
if (aEntry.contentType)
shEntry.contentType = aEntry.contentType;
if (aEntry.referrer)
shEntry.referrerURI = Services.io.newURI(aEntry.referrer, null, null);
if (aEntry.cacheKey) {
let cacheKey = Cc["@mozilla.org/supports-PRUint32;1"].createInstance(Ci.nsISupportsPRUint32);
cacheKey.data = aEntry.cacheKey;
shEntry.cacheKey = cacheKey;
}
if (aEntry.ID) {
// get a new unique ID for this frame (since the one from the last
// start might already be in use)
let id = aIdMap[aEntry.ID] || 0;
if (!id) {
for (id = Date.now(); id in aIdMap.used; id++);
aIdMap[aEntry.ID] = id;
aIdMap.used[id] = true;
}
shEntry.ID = id;
}
if (aEntry.docshellID)
shEntry.docshellID = aEntry.docshellID;
if (aEntry.structuredCloneState && aEntry.structuredCloneVersion) {
shEntry.stateData =
Cc["@mozilla.org/docshell/structured-clone-container;1"].
createInstance(Ci.nsIStructuredCloneContainer);
shEntry.stateData.initFromBase64(aEntry.structuredCloneState, aEntry.structuredCloneVersion);
}
if (aEntry.scroll) {
let scrollPos = aEntry.scroll.split(",");
scrollPos = [parseInt(scrollPos[0]) || 0, parseInt(scrollPos[1]) || 0];
shEntry.setScrollPosition(scrollPos[0], scrollPos[1]);
}
let childDocIdents = {};
if (aEntry.docIdentifier) {
// If we have a serialized document identifier, try to find an SHEntry
// which matches that doc identifier and adopt that SHEntry's
// BFCacheEntry. If we don't find a match, insert shEntry as the match
// for the document identifier.
let matchingEntry = aDocIdentMap[aEntry.docIdentifier];
if (!matchingEntry) {
matchingEntry = {shEntry: shEntry, childDocIdents: childDocIdents};
aDocIdentMap[aEntry.docIdentifier] = matchingEntry;
} else {
shEntry.adoptBFCacheEntry(matchingEntry.shEntry);
childDocIdents = matchingEntry.childDocIdents;
}
}
if (aEntry.owner_b64) {
let ownerInput = Cc["@mozilla.org/io/string-input-stream;1"].createInstance(Ci.nsIStringInputStream);
let binaryData = atob(aEntry.owner_b64);
ownerInput.setData(binaryData, binaryData.length);
let binaryStream = Cc["@mozilla.org/binaryinputstream;1"].createInstance(Ci.nsIObjectInputStream);
binaryStream.setInputStream(ownerInput);
try { // Catch possible deserialization exceptions
shEntry.owner = binaryStream.readObject(true);
} catch (ex) { dump(ex); }
}
if (aEntry.children && shEntry instanceof Ci.nsISHContainer) {
for (let i = 0; i < aEntry.children.length; i++) {
if (!aEntry.children[i].url)
continue;
// We're getting sessionrestore.js files with a cycle in the
// doc-identifier graph, likely due to bug 698656. (That is, we have
// an entry where doc identifier A is an ancestor of doc identifier B,
// and another entry where doc identifier B is an ancestor of A.)
//
// If we were to respect these doc identifiers, we'd create a cycle in
// the SHEntries themselves, which causes the docshell to loop forever
// when it looks for the root SHEntry.
//
// So as a hack to fix this, we restrict the scope of a doc identifier
// to be a node's siblings and cousins, and pass childDocIdents, not
// aDocIdents, to _deserializeHistoryEntry. That is, we say that two
// SHEntries with the same doc identifier have the same document iff
// they have the same parent or their parents have the same document.
shEntry.AddChild(this._deserializeHistoryEntry(aEntry.children[i], aIdMap, childDocIdents), i);
}
}
return shEntry;
},
_restoreHistory: function _restoreHistory(aTabData, aHistory) {
if (aHistory.count > 0)
aHistory.PurgeHistory(aHistory.count);
aHistory.QueryInterface(Ci.nsISHistoryInternal);
// helper hashes for ensuring unique frame IDs and unique document
// identifiers.
let idMap = { used: {} };
let docIdentMap = {};
for (let i = 0; i < aTabData.entries.length; i++) {
if (!aTabData.entries[i].url)
continue;
aHistory.addEntry(this._deserializeHistoryEntry(aTabData.entries[i], idMap, docIdentMap), true);
}
// We need to force set the active history item and cause it to reload since
// we stop the load above
let activeIndex = (aTabData.index || aTabData.entries.length) - 1;
aHistory.getEntryAtIndex(activeIndex, true);
aHistory.QueryInterface(Ci.nsISHistory).reloadCurrentEntry();
},
getBrowserState: function ss_getBrowserState() {
return this._getCurrentState();
},
_restoreWindow: function ss_restoreWindow(aData) {
let state;
try {
state = JSON.parse(aData);
} catch (e) {
Cu.reportError("SessionStore: invalid session JSON");
return false;
}
// To do a restore, we must have at least one window with one tab
if (!state || state.windows.length == 0 || !state.windows[0].tabs || state.windows[0].tabs.length == 0) {
Cu.reportError("SessionStore: no tabs to restore");
return false;
}
let window = Services.wm.getMostRecentWindow("navigator:browser");
let tabs = state.windows[0].tabs;
let selected = state.windows[0].selected;
if (selected == null || selected > tabs.length) // Clamp the selected index if it's bogus
selected = 1;
for (let i = 0; i < tabs.length; i++) {
let tabData = tabs[i];
let entry = tabData.entries[tabData.index - 1];
// Use stubbed tab if we've already created it; otherwise, make a new tab
let tab;
if (tabData.tabId == null) {
let params = {
selected: (selected == i+1),
delayLoad: true,
title: entry.title,
desktopMode: (tabData.desktopMode == true),
isPrivate: (tabData.isPrivate == true)
};
tab = window.BrowserApp.addTab(entry.url, params);
} else {
tab = window.BrowserApp.getTabForId(tabData.tabId);
delete tabData.tabId;
// Don't restore tab if user has closed it
if (tab == null) {
continue;
}
}
if (window.BrowserApp.selectedTab == tab) {
this._restoreHistory(tabData, tab.browser.sessionHistory);
delete tab.browser.__SS_restore;
tab.browser.removeAttribute("pending");
} else {
// Make sure the browser has its session data for the delay reload
tab.browser.__SS_data = tabData;
tab.browser.__SS_restore = true;
tab.browser.setAttribute("pending", "true");
}
tab.browser.__SS_extdata = tabData.extData;
}
return true;
},
getClosedTabCount: function ss_getClosedTabCount(aWindow) {
if (!aWindow || !aWindow.__SSID || !this._windows[aWindow.__SSID])
return 0; // not a browser window, or not otherwise tracked by SS.
return this._windows[aWindow.__SSID].closedTabs.length;
},
getClosedTabData: function ss_getClosedTabData(aWindow) {
if (!aWindow.__SSID)
throw (Components.returnCode = Cr.NS_ERROR_INVALID_ARG);
return JSON.stringify(this._windows[aWindow.__SSID].closedTabs);
},
undoCloseTab: function ss_undoCloseTab(aWindow, aIndex) {
if (!aWindow.__SSID)
throw (Components.returnCode = Cr.NS_ERROR_INVALID_ARG);
let closedTabs = this._windows[aWindow.__SSID].closedTabs;
if (!closedTabs)
return null;
// default to the most-recently closed tab
aIndex = aIndex || 0;
if (!(aIndex in closedTabs))
throw (Components.returnCode = Cr.NS_ERROR_INVALID_ARG);
// fetch the data of closed tab, while removing it from the array
let closedTab = closedTabs.splice(aIndex, 1).shift();
// create a new tab and bring to front
let params = { selected: true };
let tab = aWindow.BrowserApp.addTab(closedTab.entries[closedTab.index - 1].url, params);
this._restoreHistory(closedTab, tab.browser.sessionHistory);
// Put back the extra data
tab.browser.__SS_extdata = closedTab.extData;
return tab.browser;
},
forgetClosedTab: function ss_forgetClosedTab(aWindow, aIndex) {
if (!aWindow.__SSID)
throw (Components.returnCode = Cr.NS_ERROR_INVALID_ARG);
let closedTabs = this._windows[aWindow.__SSID].closedTabs;
// default to the most-recently closed tab
aIndex = aIndex || 0;
if (!(aIndex in closedTabs))
throw (Components.returnCode = Cr.NS_ERROR_INVALID_ARG);
// remove closed tab from the array
closedTabs.splice(aIndex, 1);
},
getTabValue: function ss_getTabValue(aTab, aKey) {
let browser = aTab.browser;
let data = browser.__SS_extdata || {};
return data[aKey] || "";
},
setTabValue: function ss_setTabValue(aTab, aKey, aStringValue) {
let browser = aTab.browser;
if (!browser.__SS_extdata)
browser.__SS_extdata = {};
browser.__SS_extdata[aKey] = aStringValue;
this.saveStateDelayed();
},
deleteTabValue: function ss_deleteTabValue(aTab, aKey) {
let browser = aTab.browser;
if (browser.__SS_extdata && browser.__SS_extdata[aKey])
delete browser.__SS_extdata[aKey];
else
throw (Components.returnCode = Cr.NS_ERROR_INVALID_ARG);
},
shouldRestore: function ss_shouldRestore() {
return this._shouldRestore;
},
restoreLastSession: function ss_restoreLastSession(aNormalRestore, aSessionString) {
let self = this;
function restoreWindow(data) {
if (!self._restoreWindow(data)) {
throw "Could not restore window";
}
notifyObservers();
}
function notifyObservers(aMessage) {
Services.obs.notifyObservers(null, "sessionstore-windows-restored", aMessage || "");
}
try {
if (!aNormalRestore && !this._shouldRestore) {
// If we're here, it means we're restoring from a crash. Check prefs
// and other conditions to make sure we want to continue with the
// restore.
// TODO: Since the tabs have already been created as stubs after
// crashing, it's too late to try to abort the restore here. This logic
// should be moved to Java; see bug 889722.
// Disable crash recovery if it has been turned off.
if (!Services.prefs.getBoolPref("browser.sessionstore.resume_from_crash")) {
throw "Restore is disabled via prefs";
}
// Check to see if we've exceeded the maximum number of crashes to
// avoid a crash loop
let maxCrashes = Services.prefs.getIntPref("browser.sessionstore.max_resumed_crashes");
let recentCrashes = Services.prefs.getIntPref("browser.sessionstore.recent_crashes") + 1;
Services.prefs.setIntPref("browser.sessionstore.recent_crashes", recentCrashes);
Services.prefs.savePrefFile(null);
if (recentCrashes > maxCrashes) {
throw "Exceeded maximum number of allowed restores";
}
}
// Normally, we'll receive the session string from Java, but there are
// cases where we may want to restore that Java cannot detect (e.g., if
// browser.sessionstore.resume_session_once is true). In these cases, the
// session will be read from sessionstore.bak (which is also used for
// "tabs from last time").
if (aSessionString == null) {
if (!this._sessionFileBackup.exists()) {
throw "Session file doesn't exist";
}
let channel = NetUtil.newChannel(this._sessionFileBackup);
channel.contentType = "application/json";
NetUtil.asyncFetch(channel, function(aStream, aResult) {
try {
if (!Components.isSuccessCode(aResult)) {
throw "Could not fetch session file";
}
let data = NetUtil.readInputStreamToString(aStream, aStream.available(), { charset : "UTF-8" }) || "";
aStream.close();
restoreWindow(data);
} catch (e) {
Cu.reportError("SessionStore: " + e.message);
notifyObservers("fail");
}
});
} else {
restoreWindow(aSessionString);
}
} catch (e) {
Cu.reportError("SessionStore: " + e);
notifyObservers("fail");
}
}
};
this.NSGetFactory = XPCOMUtils.generateNSGetFactory([SessionStore]);