forked from treehouse/mastodon
Fix handling of duplicate and out-of-order notifications in WebUI (#19693)
* Fix handling of duplicate notifications from streaming server * Fix handling of duplicate and out-of-order notifications when polling/expanding Fixes #19615rebase/4.0.0rc2^2
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053dac2afa
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7c8e2b9859
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@ -58,6 +58,11 @@ const notificationToMap = notification => ImmutableMap({
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const normalizeNotification = (state, notification, usePendingItems) => {
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const normalizeNotification = (state, notification, usePendingItems) => {
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const top = state.get('top');
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const top = state.get('top');
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// Under currently unknown conditions, the client may receive duplicates from the server
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if (state.get('pendingItems').some((item) => item?.get('id') === notification.id) || state.get('items').some((item) => item?.get('id') === notification.id)) {
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return state;
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}
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if (usePendingItems || !state.get('pendingItems').isEmpty()) {
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if (usePendingItems || !state.get('pendingItems').isEmpty()) {
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return state.update('pendingItems', list => list.unshift(notificationToMap(notification))).update('unread', unread => unread + 1);
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return state.update('pendingItems', list => list.unshift(notificationToMap(notification))).update('unread', unread => unread + 1);
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}
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}
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@ -77,28 +82,74 @@ const normalizeNotification = (state, notification, usePendingItems) => {
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});
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});
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};
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};
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const expandNormalizedNotifications = (state, notifications, next, isLoadingRecent, usePendingItems) => {
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const expandNormalizedNotifications = (state, notifications, next, isLoadingMore, isLoadingRecent, usePendingItems) => {
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const lastReadId = state.get('lastReadId');
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// This method is pretty tricky because:
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let items = ImmutableList();
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// - existing notifications might be out of order
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// - the existing notifications may have gaps, most often explicitly noted with a `null` item
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// - ideally, we don't want it to reorder existing items
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// - `notifications` may include items that are already included
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// - this function can be called either to fill in a gap, or load newer items
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notifications.forEach((n, i) => {
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const lastReadId = state.get('lastReadId');
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items = items.set(i, notificationToMap(n));
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const newItems = ImmutableList(notifications.map(notificationToMap));
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});
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return state.withMutations(mutable => {
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return state.withMutations(mutable => {
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if (!items.isEmpty()) {
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if (!newItems.isEmpty()) {
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usePendingItems = isLoadingRecent && (usePendingItems || !mutable.get('pendingItems').isEmpty());
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usePendingItems = isLoadingRecent && (usePendingItems || !mutable.get('pendingItems').isEmpty());
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mutable.update(usePendingItems ? 'pendingItems' : 'items', list => {
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mutable.update(usePendingItems ? 'pendingItems' : 'items', oldItems => {
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const lastIndex = 1 + list.findLastIndex(
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// If called to poll *new* notifications, we just need to add them on top without duplicates
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item => item !== null && (compareId(item.get('id'), items.last().get('id')) > 0 || item.get('id') === items.last().get('id')),
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if (isLoadingRecent) {
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);
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const idsToCheck = oldItems.map(item => item?.get('id')).toSet();
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const insertedItems = newItems.filterNot(item => idsToCheck.includes(item.get('id')));
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return insertedItems.concat(oldItems);
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}
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const firstIndex = 1 + list.take(lastIndex).findLastIndex(
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// If called to expand more (presumably older than any known to the WebUI), we just have to
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item => item !== null && compareId(item.get('id'), items.first().get('id')) > 0,
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// add them to the bottom without duplicates
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);
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if (isLoadingMore) {
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const idsToCheck = oldItems.map(item => item?.get('id')).toSet();
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const insertedItems = newItems.filterNot(item => idsToCheck.includes(item.get('id')));
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return oldItems.concat(insertedItems);
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}
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return list.take(firstIndex).concat(items, list.skip(lastIndex));
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// Now this gets tricky, as we don't necessarily know for sure where the gap to fill is,
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// and some items in the timeline may not be properly ordered.
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// However, we know that `newItems.last()` is the oldest item that was requested and that
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// there is no “hole” between `newItems.last()` and `newItems.first()`.
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// First, find the furthest (if properly sorted, oldest) item in the notifications that is
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// newer than the oldest fetched one, as it's most likely that it delimits the gap.
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// Start the gap *after* that item.
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const lastIndex = oldItems.findLastIndex(item => item !== null && compareId(item.get('id'), newItems.last().get('id')) >= 0) + 1;
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// Then, try to find the furthest (if properly sorted, oldest) item in the notifications that
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// is newer than the most recent fetched one, as it delimits a section comprised of only
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// items older or within `newItems` (or that were deleted from the server, so should be removed
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// anyway).
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// Stop the gap *after* that item.
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const firstIndex = oldItems.take(lastIndex).findLastIndex(item => item !== null && compareId(item.get('id'), newItems.first().get('id')) > 0) + 1;
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// At this point:
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// - no `oldItems` after `firstIndex` is newer than any of the `newItems`
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// - all `oldItems` after `lastIndex` are older than every of the `newItems`
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// - it is possible for items in the replaced slice to be older than every `newItems`
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// - it is possible for items before `firstIndex` to be in the `newItems` range
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// Therefore:
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// - to avoid losing items, items from the replaced slice that are older than `newItems`
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// should be added in the back.
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// - to avoid duplicates, `newItems` should be checked the first `firstIndex` items of
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// `oldItems`
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const idsToCheck = oldItems.take(firstIndex).map(item => item?.get('id')).toSet();
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const insertedItems = newItems.filterNot(item => idsToCheck.includes(item.get('id')));
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const olderItems = oldItems.slice(firstIndex, lastIndex).filter(item => item !== null && compareId(item.get('id'), newItems.last().get('id')) < 0);
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return oldItems.take(firstIndex).concat(
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insertedItems,
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olderItems,
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oldItems.skip(lastIndex),
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);
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});
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});
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}
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}
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@ -109,7 +160,7 @@ const expandNormalizedNotifications = (state, notifications, next, isLoadingRece
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if (shouldCountUnreadNotifications(state)) {
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if (shouldCountUnreadNotifications(state)) {
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mutable.set('unread', mutable.get('pendingItems').count(item => item !== null) + mutable.get('items').count(item => item && compareId(item.get('id'), lastReadId) > 0));
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mutable.set('unread', mutable.get('pendingItems').count(item => item !== null) + mutable.get('items').count(item => item && compareId(item.get('id'), lastReadId) > 0));
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} else {
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} else {
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const mostRecent = items.find(item => item !== null);
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const mostRecent = newItems.find(item => item !== null);
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if (mostRecent && compareId(lastReadId, mostRecent.get('id')) < 0) {
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if (mostRecent && compareId(lastReadId, mostRecent.get('id')) < 0) {
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mutable.set('lastReadId', mostRecent.get('id'));
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mutable.set('lastReadId', mostRecent.get('id'));
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}
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}
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@ -224,7 +275,7 @@ export default function notifications(state = initialState, action) {
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case NOTIFICATIONS_UPDATE:
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case NOTIFICATIONS_UPDATE:
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return normalizeNotification(state, action.notification, action.usePendingItems);
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return normalizeNotification(state, action.notification, action.usePendingItems);
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case NOTIFICATIONS_EXPAND_SUCCESS:
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case NOTIFICATIONS_EXPAND_SUCCESS:
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return expandNormalizedNotifications(state, action.notifications, action.next, action.isLoadingRecent, action.usePendingItems);
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return expandNormalizedNotifications(state, action.notifications, action.next, action.isLoadingMore, action.isLoadingRecent, action.usePendingItems);
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case ACCOUNT_BLOCK_SUCCESS:
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case ACCOUNT_BLOCK_SUCCESS:
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return filterNotifications(state, [action.relationship.id]);
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return filterNotifications(state, [action.relationship.id]);
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case ACCOUNT_MUTE_SUCCESS:
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case ACCOUNT_MUTE_SUCCESS:
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