gnome-shell/js/gdm/util.js
Florian Müllner 0846238f69 js: Use implicit animations for animatable properties
We now have everything in place to replace Tweener for all animatable
properties with implicit animations, which has the following benefits:

 - they run entirely in C, while Tweener requires context switches
   to JS each frame

 - they are more reliable, as Tweener only detects when an animation
   is overwritten with another Tween, while Clutter considers any
   property change

https://gitlab.gnome.org/GNOME/gnome-shell/merge_requests/22
2019-08-06 23:54:29 +02:00

580 lines
19 KiB
JavaScript

// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
/* exported BANNER_MESSAGE_KEY, BANNER_MESSAGE_TEXT_KEY, LOGO_KEY,
DISABLE_USER_LIST_KEY, fadeInActor, fadeOutActor, cloneAndFadeOutActor */
const { Clutter, Gio, GLib } = imports.gi;
const Signals = imports.signals;
const Batch = imports.gdm.batch;
const Fprint = imports.gdm.fingerprint;
const OVirt = imports.gdm.oVirt;
const Main = imports.ui.main;
const Params = imports.misc.params;
const SmartcardManager = imports.misc.smartcardManager;
var PASSWORD_SERVICE_NAME = 'gdm-password';
var FINGERPRINT_SERVICE_NAME = 'gdm-fingerprint';
var SMARTCARD_SERVICE_NAME = 'gdm-smartcard';
var OVIRT_SERVICE_NAME = 'gdm-ovirtcred';
var FADE_ANIMATION_TIME = 160;
var CLONE_FADE_ANIMATION_TIME = 250;
var LOGIN_SCREEN_SCHEMA = 'org.gnome.login-screen';
var PASSWORD_AUTHENTICATION_KEY = 'enable-password-authentication';
var FINGERPRINT_AUTHENTICATION_KEY = 'enable-fingerprint-authentication';
var SMARTCARD_AUTHENTICATION_KEY = 'enable-smartcard-authentication';
var BANNER_MESSAGE_KEY = 'banner-message-enable';
var BANNER_MESSAGE_TEXT_KEY = 'banner-message-text';
var ALLOWED_FAILURES_KEY = 'allowed-failures';
var LOGO_KEY = 'logo';
var DISABLE_USER_LIST_KEY = 'disable-user-list';
// Give user 48ms to read each character of a PAM message
var USER_READ_TIME = 48;
var MessageType = {
NONE: 0,
ERROR: 1,
INFO: 2,
HINT: 3
};
function fadeInActor(actor) {
if (actor.opacity == 255 && actor.visible)
return null;
let hold = new Batch.Hold();
actor.show();
let [, naturalHeight] = actor.get_preferred_height(-1);
actor.opacity = 0;
actor.set_height(0);
actor.ease({
opacity: 255,
height: naturalHeight,
duration: FADE_ANIMATION_TIME,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
onComplete: () => {
this.set_height(-1);
hold.release();
}
});
return hold;
}
function fadeOutActor(actor) {
if (!actor.visible || actor.opacity == 0) {
actor.opacity = 0;
actor.hide();
return null;
}
let hold = new Batch.Hold();
actor.ease({
opacity: 0,
height: 0,
duration: FADE_ANIMATION_TIME,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
onComplete: () => {
this.hide();
this.set_height(-1);
hold.release();
}
});
return hold;
}
function cloneAndFadeOutActor(actor) {
// Immediately hide actor so its sibling can have its space
// and position, but leave a non-reactive clone on-screen,
// so from the user's point of view it smoothly fades away
// and reveals its sibling.
actor.hide();
let clone = new Clutter.Clone({ source: actor,
reactive: false });
Main.uiGroup.add_child(clone);
let [x, y] = actor.get_transformed_position();
clone.set_position(x, y);
let hold = new Batch.Hold();
clone.ease({
opacity: 0,
duration: CLONE_FADE_ANIMATION_TIME,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
onComplete: () => {
clone.destroy();
hold.release();
}
});
return hold;
}
var ShellUserVerifier = class {
constructor(client, params) {
params = Params.parse(params, { reauthenticationOnly: false });
this._reauthOnly = params.reauthenticationOnly;
this._client = client;
this._defaultService = null;
this._preemptingService = null;
this._settings = new Gio.Settings({ schema_id: LOGIN_SCREEN_SCHEMA });
this._settings.connect('changed',
this._updateDefaultService.bind(this));
this._updateDefaultService();
this._fprintManager = Fprint.FprintManager();
this._smartcardManager = SmartcardManager.getSmartcardManager();
// We check for smartcards right away, since an inserted smartcard
// at startup should result in immediately initiating authentication.
// This is different than fingerprint readers, where we only check them
// after a user has been picked.
this.smartcardDetected = false;
this._checkForSmartcard();
this._smartcardInsertedId = this._smartcardManager.connect('smartcard-inserted',
this._checkForSmartcard.bind(this));
this._smartcardRemovedId = this._smartcardManager.connect('smartcard-removed',
this._checkForSmartcard.bind(this));
this._messageQueue = [];
this._messageQueueTimeoutId = 0;
this.hasPendingMessages = false;
this.reauthenticating = false;
this._failCounter = 0;
this._oVirtCredentialsManager = OVirt.getOVirtCredentialsManager();
if (this._oVirtCredentialsManager.hasToken())
this._oVirtUserAuthenticated(this._oVirtCredentialsManager.getToken());
this._oVirtUserAuthenticatedId = this._oVirtCredentialsManager.connect('user-authenticated',
this._oVirtUserAuthenticated.bind(this));
}
begin(userName, hold) {
this._cancellable = new Gio.Cancellable();
this._hold = hold;
this._userName = userName;
this.reauthenticating = false;
this._checkForFingerprintReader();
if (userName) {
// If possible, reauthenticate an already running session,
// so any session specific credentials get updated appropriately
this._client.open_reauthentication_channel(userName, this._cancellable,
this._reauthenticationChannelOpened.bind(this));
} else {
this._client.get_user_verifier(this._cancellable, this._userVerifierGot.bind(this));
}
}
cancel() {
if (this._cancellable)
this._cancellable.cancel();
if (this._userVerifier) {
this._userVerifier.call_cancel_sync(null);
this.clear();
}
}
_clearUserVerifier() {
if (this._userVerifier) {
this._userVerifier.run_dispose();
this._userVerifier = null;
}
}
clear() {
if (this._cancellable) {
this._cancellable.cancel();
this._cancellable = null;
}
this._clearUserVerifier();
this._clearMessageQueue();
}
destroy() {
this.clear();
this._settings.run_dispose();
this._settings = null;
this._smartcardManager.disconnect(this._smartcardInsertedId);
this._smartcardManager.disconnect(this._smartcardRemovedId);
this._smartcardManager = null;
this._oVirtCredentialsManager.disconnect(this._oVirtUserAuthenticatedId);
this._oVirtCredentialsManager = null;
}
answerQuery(serviceName, answer) {
if (!this.hasPendingMessages) {
this._userVerifier.call_answer_query(serviceName, answer, this._cancellable, null);
} else {
let signalId = this.connect('no-more-messages', () => {
this.disconnect(signalId);
this._userVerifier.call_answer_query(serviceName, answer, this._cancellable, null);
});
}
}
_getIntervalForMessage(message) {
// We probably could be smarter here
return message.length * USER_READ_TIME;
}
finishMessageQueue() {
if (!this.hasPendingMessages)
return;
this._messageQueue = [];
this.hasPendingMessages = false;
this.emit('no-more-messages');
}
_queueMessageTimeout() {
if (this._messageQueue.length == 0) {
this.finishMessageQueue();
return;
}
if (this._messageQueueTimeoutId != 0)
return;
let message = this._messageQueue.shift();
this.emit('show-message', message.text, message.type);
this._messageQueueTimeoutId = GLib.timeout_add(GLib.PRIORITY_DEFAULT,
message.interval,
() => {
this._messageQueueTimeoutId = 0;
this._queueMessageTimeout();
return GLib.SOURCE_REMOVE;
});
GLib.Source.set_name_by_id(this._messageQueueTimeoutId, '[gnome-shell] this._queueMessageTimeout');
}
_queueMessage(message, messageType) {
let interval = this._getIntervalForMessage(message);
this.hasPendingMessages = true;
this._messageQueue.push({ text: message, type: messageType, interval: interval });
this._queueMessageTimeout();
}
_clearMessageQueue() {
this.finishMessageQueue();
if (this._messageQueueTimeoutId != 0) {
GLib.source_remove(this._messageQueueTimeoutId);
this._messageQueueTimeoutId = 0;
}
this.emit('show-message', null, MessageType.NONE);
}
_checkForFingerprintReader() {
this._haveFingerprintReader = false;
if (!this._settings.get_boolean(FINGERPRINT_AUTHENTICATION_KEY) ||
this._fprintManager == null) {
this._updateDefaultService();
return;
}
this._fprintManager.GetDefaultDeviceRemote(Gio.DBusCallFlags.NONE, this._cancellable,
(device, error) => {
if (!error && device) {
this._haveFingerprintReader = true;
this._updateDefaultService();
}
});
}
_oVirtUserAuthenticated(_token) {
this._preemptingService = OVIRT_SERVICE_NAME;
this.emit('ovirt-user-authenticated');
}
_checkForSmartcard() {
let smartcardDetected;
if (!this._settings.get_boolean(SMARTCARD_AUTHENTICATION_KEY))
smartcardDetected = false;
else if (this._reauthOnly)
smartcardDetected = this._smartcardManager.hasInsertedLoginToken();
else
smartcardDetected = this._smartcardManager.hasInsertedTokens();
if (smartcardDetected != this.smartcardDetected) {
this.smartcardDetected = smartcardDetected;
if (this.smartcardDetected)
this._preemptingService = SMARTCARD_SERVICE_NAME;
else if (this._preemptingService == SMARTCARD_SERVICE_NAME)
this._preemptingService = null;
this.emit('smartcard-status-changed');
}
}
_reportInitError(where, error) {
logError(error, where);
this._hold.release();
this._queueMessage(_("Authentication error"), MessageType.ERROR);
this._verificationFailed(false);
}
_reauthenticationChannelOpened(client, result) {
try {
this._clearUserVerifier();
this._userVerifier = client.open_reauthentication_channel_finish(result);
} catch (e) {
if (e.matches(Gio.IOErrorEnum, Gio.IOErrorEnum.CANCELLED))
return;
if (e.matches(Gio.DBusError, Gio.DBusError.ACCESS_DENIED) &&
!this._reauthOnly) {
// Gdm emits org.freedesktop.DBus.Error.AccessDenied when there
// is no session to reauthenticate. Fall back to performing
// verification from this login session
client.get_user_verifier(this._cancellable,
this._userVerifierGot.bind(this));
return;
}
this._reportInitError('Failed to open reauthentication channel', e);
return;
}
this.reauthenticating = true;
this._connectSignals();
this._beginVerification();
this._hold.release();
}
_userVerifierGot(client, result) {
try {
this._clearUserVerifier();
this._userVerifier = client.get_user_verifier_finish(result);
} catch (e) {
if (e.matches(Gio.IOErrorEnum, Gio.IOErrorEnum.CANCELLED))
return;
this._reportInitError('Failed to obtain user verifier', e);
return;
}
this._connectSignals();
this._beginVerification();
this._hold.release();
}
_connectSignals() {
this._userVerifier.connect('info', this._onInfo.bind(this));
this._userVerifier.connect('problem', this._onProblem.bind(this));
this._userVerifier.connect('info-query', this._onInfoQuery.bind(this));
this._userVerifier.connect('secret-info-query', this._onSecretInfoQuery.bind(this));
this._userVerifier.connect('conversation-stopped', this._onConversationStopped.bind(this));
this._userVerifier.connect('reset', this._onReset.bind(this));
this._userVerifier.connect('verification-complete', this._onVerificationComplete.bind(this));
}
_getForegroundService() {
if (this._preemptingService)
return this._preemptingService;
return this._defaultService;
}
serviceIsForeground(serviceName) {
return serviceName == this._getForegroundService();
}
serviceIsDefault(serviceName) {
return serviceName == this._defaultService;
}
_updateDefaultService() {
if (this._settings.get_boolean(PASSWORD_AUTHENTICATION_KEY))
this._defaultService = PASSWORD_SERVICE_NAME;
else if (this._settings.get_boolean(SMARTCARD_AUTHENTICATION_KEY))
this._defaultService = SMARTCARD_SERVICE_NAME;
else if (this._haveFingerprintReader)
this._defaultService = FINGERPRINT_SERVICE_NAME;
if (!this._defaultService) {
log("no authentication service is enabled, using password authentication");
this._defaultService = PASSWORD_SERVICE_NAME;
}
}
_startService(serviceName) {
this._hold.acquire();
if (this._userName) {
this._userVerifier.call_begin_verification_for_user(serviceName, this._userName, this._cancellable, (obj, result) => {
try {
obj.call_begin_verification_for_user_finish(result);
} catch (e) {
if (e.matches(Gio.IOErrorEnum, Gio.IOErrorEnum.CANCELLED))
return;
this._reportInitError('Failed to start verification for user', e);
return;
}
this._hold.release();
});
} else {
this._userVerifier.call_begin_verification(serviceName, this._cancellable, (obj, result) => {
try {
obj.call_begin_verification_finish(result);
} catch (e) {
if (e.matches(Gio.IOErrorEnum, Gio.IOErrorEnum.CANCELLED))
return;
this._reportInitError('Failed to start verification', e);
return;
}
this._hold.release();
});
}
}
_beginVerification() {
this._startService(this._getForegroundService());
if (this._userName && this._haveFingerprintReader && !this.serviceIsForeground(FINGERPRINT_SERVICE_NAME))
this._startService(FINGERPRINT_SERVICE_NAME);
}
_onInfo(client, serviceName, info) {
if (this.serviceIsForeground(serviceName)) {
this._queueMessage(info, MessageType.INFO);
} else if (serviceName == FINGERPRINT_SERVICE_NAME &&
this._haveFingerprintReader) {
// We don't show fingerprint messages directly since it's
// not the main auth service. Instead we use the messages
// as a cue to display our own message.
// Translators: this message is shown below the password entry field
// to indicate the user can swipe their finger instead
this._queueMessage(_("(or swipe finger)"), MessageType.HINT);
}
}
_onProblem(client, serviceName, problem) {
if (!this.serviceIsForeground(serviceName))
return;
this._queueMessage(problem, MessageType.ERROR);
}
_onInfoQuery(client, serviceName, question) {
if (!this.serviceIsForeground(serviceName))
return;
this.emit('ask-question', serviceName, question, '');
}
_onSecretInfoQuery(client, serviceName, secretQuestion) {
if (!this.serviceIsForeground(serviceName))
return;
if (serviceName == OVIRT_SERVICE_NAME) {
// The only question asked by this service is "Token?"
this.answerQuery(serviceName, this._oVirtCredentialsManager.getToken());
return;
}
this.emit('ask-question', serviceName, secretQuestion, '\u25cf');
}
_onReset() {
// Clear previous attempts to authenticate
this._failCounter = 0;
this._updateDefaultService();
this.emit('reset');
}
_onVerificationComplete() {
this.emit('verification-complete');
}
_cancelAndReset() {
this.cancel();
this._onReset();
}
_retry() {
this.begin(this._userName, new Batch.Hold());
}
_verificationFailed(retry) {
// For Not Listed / enterprise logins, immediately reset
// the dialog
// Otherwise, when in login mode we allow ALLOWED_FAILURES attempts.
// After that, we go back to the welcome screen.
this._failCounter++;
let canRetry = retry && this._userName &&
(this._reauthOnly ||
this._failCounter < this._settings.get_int(ALLOWED_FAILURES_KEY));
if (canRetry) {
if (!this.hasPendingMessages) {
this._retry();
} else {
let signalId = this.connect('no-more-messages', () => {
this.disconnect(signalId);
if (this._cancellable && !this._cancellable.is_cancelled())
this._retry();
});
}
} else {
if (!this.hasPendingMessages) {
this._cancelAndReset();
} else {
let signalId = this.connect('no-more-messages', () => {
this.disconnect(signalId);
this._cancelAndReset();
});
}
}
this.emit('verification-failed', canRetry);
}
_onConversationStopped(client, serviceName) {
// If the login failed with the preauthenticated oVirt credentials
// then discard the credentials and revert to default authentication
// mechanism.
if (this.serviceIsForeground(OVIRT_SERVICE_NAME)) {
this._oVirtCredentialsManager.resetToken();
this._preemptingService = null;
this._verificationFailed(false);
return;
}
// if the password service fails, then cancel everything.
// But if, e.g., fingerprint fails, still give
// password authentication a chance to succeed
if (this.serviceIsForeground(serviceName)) {
this._verificationFailed(true);
}
}
};
Signals.addSignalMethods(ShellUserVerifier.prototype);