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1c2d604abe
* Split the read-receipt tests into logical units * Move read-receipt docs into a readme file * Provide doc comments for exported functions in read-receipt tests
888 lines
36 KiB
TypeScript
888 lines
36 KiB
TypeScript
/*
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Copyright 2023 The Matrix.org Foundation C.I.C.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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/* See readme.md for tips on writing these tests. */
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/// <reference types="cypress" />
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import type { MatrixClient } from "matrix-js-sdk/src/matrix";
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import { HomeserverInstance } from "../../plugins/utils/homeserver";
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import {
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assertRead,
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assertReadThread,
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assertStillRead,
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assertUnread,
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assertUnreadLessThan,
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assertUnreadThread,
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BotActionSpec,
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closeThreadsPanel,
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goTo,
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markAsRead,
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Message,
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MessageContentSpec,
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MessageFinder,
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openThread,
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saveAndReload,
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sendMessageAsClient,
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} from "./read-receipts-utils";
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describe("Read receipts", () => {
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const userName = "Mae";
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const botName = "Other User";
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const roomAlpha = "Room Alpha";
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const roomBeta = "Room Beta";
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let homeserver: HomeserverInstance;
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let betaRoomId: string;
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let alphaRoomId: string;
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let bot: MatrixClient | undefined;
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let messageFinder: MessageFinder;
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function editOf(originalMessage: string, newMessage: string): MessageContentSpec {
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return messageFinder.editOf(originalMessage, newMessage);
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}
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function replyTo(targetMessage: string, newMessage: string): MessageContentSpec {
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return messageFinder.replyTo(targetMessage, newMessage);
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}
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function threadedOff(rootMessage: string, newMessage: string): MessageContentSpec {
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return messageFinder.threadedOff(rootMessage, newMessage);
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}
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function reactionTo(targetMessage: string, reaction: string): BotActionSpec {
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return messageFinder.reactionTo(targetMessage, reaction);
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}
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function redactionOf(targetMessage: string): BotActionSpec {
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return messageFinder.redactionOf(targetMessage);
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}
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before(() => {
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// Note: unusually for the Cypress tests in this repo, we share a single
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// Synapse between all the tests in this file.
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//
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// Stopping and starting Synapse costs about 0.25 seconds per test, so
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// for most suites this is worth the cost for the extra assurance that
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// each test is independent.
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//
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// Because there are so many tests in this file, and because sharing a
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// Synapse should have no effect (because we create new rooms and users
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// for each test), we share it here, saving ~30 seconds per run at time
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// of writing.
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cy.startHomeserver("default").then((data) => {
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homeserver = data;
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});
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});
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beforeEach(() => {
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messageFinder = new MessageFinder();
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// Create 2 rooms: Alpha & Beta. We join the bot to both of them
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cy.initTestUser(homeserver, userName)
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.then(() => {
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cy.createRoom({ name: roomAlpha }).then((createdRoomId) => {
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alphaRoomId = createdRoomId;
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});
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})
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.then(() => {
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cy.createRoom({ name: roomBeta }).then((createdRoomId) => {
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betaRoomId = createdRoomId;
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});
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})
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.then(() => {
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cy.getBot(homeserver, { displayName: botName }).then((botClient) => {
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bot = botClient;
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});
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})
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.then(() => {
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// Invite the bot to both rooms
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cy.inviteUser(alphaRoomId, bot.getUserId());
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cy.viewRoomById(alphaRoomId);
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cy.findByText(botName + " joined the room").should("exist");
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cy.inviteUser(betaRoomId, bot.getUserId());
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cy.viewRoomById(betaRoomId);
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cy.findByText(botName + " joined the room").should("exist");
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});
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});
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after(() => {
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cy.stopHomeserver(homeserver);
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});
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/**
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* Sends messages into given room as a bot
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* @param room - the name of the room to send messages into
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* @param messages - the list of messages to send, these can be strings or implementations of MessageSpec like `editOf`
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*/
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function receiveMessages(room: string, messages: Message[]) {
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sendMessageAsClient(bot, room, messages);
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}
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const room1 = roomAlpha;
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const room2 = roomBeta;
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describe("redactions", () => {
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describe("in the main timeline", () => {
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it("Redacting the message pointed to by my receipt leaves the room read", () => {
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// Given I have read the messages in a room
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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goTo(room2);
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assertRead(room2);
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goTo(room1);
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// When the latest message is redacted
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receiveMessages(room2, [redactionOf("Msg2")]);
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// Then the room remains read
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assertStillRead(room2);
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});
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it("Reading an unread room after a redaction of the latest message makes it read", () => {
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// Given an unread room
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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// And the latest message has been redacted
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receiveMessages(room2, [redactionOf("Msg2")]);
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// When I read the room
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goTo(room2);
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assertRead(room2);
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goTo(room1);
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// Then it becomes read
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assertStillRead(room2);
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});
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it("Reading an unread room after a redaction of an older message makes it read", () => {
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// Given an unread room with an earlier redaction
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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receiveMessages(room2, [redactionOf("Msg1")]);
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// When I read the room
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goTo(room2);
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assertRead(room2);
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goTo(room1);
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// Then it becomes read
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assertStillRead(room2);
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});
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it("Marking an unread room as read after a redaction makes it read", () => {
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// Given an unread room where latest message is redacted
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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receiveMessages(room2, [redactionOf("Msg2")]);
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assertUnread(room2, 1);
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// When I mark it as read
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markAsRead(room2);
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// Then it becomes read
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assertRead(room2);
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});
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it("Sending and redacting a message after marking the room as read makes it read", () => {
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// Given a room that is marked as read
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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markAsRead(room2);
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assertRead(room2);
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// When a message is sent and then redacted
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receiveMessages(room2, ["Msg3"]);
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assertUnread(room2, 1);
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receiveMessages(room2, [redactionOf("Msg3")]);
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// Then the room is read
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assertRead(room2);
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});
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it("Redacting a message after marking the room as read leaves it read", () => {
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// Given a room that is marked as read
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2", "Msg3"]);
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assertUnread(room2, 3);
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markAsRead(room2);
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assertRead(room2);
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// When we redact some messages
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receiveMessages(room2, [redactionOf("Msg3")]);
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receiveMessages(room2, [redactionOf("Msg1")]);
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// Then it is still read
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assertStillRead(room2);
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});
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it("Redacting one of the unread messages reduces the unread count", () => {
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// Given an unread room
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2", "Msg3"]);
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assertUnread(room2, 3);
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// When I redact a non-latest message
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receiveMessages(room2, [redactionOf("Msg2")]);
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// Then the unread count goes down
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assertUnread(room2, 2);
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// And when I redact the latest message
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receiveMessages(room2, [redactionOf("Msg3")]);
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// Then the unread count goes down again
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assertUnread(room2, 1);
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});
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it("Redacting one of the unread messages reduces the unread count after restart", () => {
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// Given unread count was reduced by redacting messages
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2", "Msg3"]);
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assertUnread(room2, 3);
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receiveMessages(room2, [redactionOf("Msg2")]);
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assertUnread(room2, 2);
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receiveMessages(room2, [redactionOf("Msg3")]);
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assertUnread(room2, 1);
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// When I restart
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saveAndReload();
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// Then the unread count is still reduced
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assertUnread(room2, 1);
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});
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it("Redacting all unread messages makes the room read", () => {
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// Given an unread room
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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// When I redact all the unread messages
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receiveMessages(room2, [redactionOf("Msg2")]);
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receiveMessages(room2, [redactionOf("Msg1")]);
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// Then the room is back to being read
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assertRead(room2);
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});
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it("Redacting all unread messages makes the room read after restart", () => {
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// Given all unread messages were redacted
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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assertUnread(room2, 2);
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receiveMessages(room2, [redactionOf("Msg2")]);
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receiveMessages(room2, [redactionOf("Msg1")]);
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assertRead(room2);
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// When I restart
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saveAndReload();
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// Then the room is still read
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assertRead(room2);
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});
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it("Reacting to a redacted message leaves the room read", () => {
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// Given a redacted message exists
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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receiveMessages(room2, [redactionOf("Msg2")]);
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assertUnread(room2, 1);
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// And the room is read
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goTo(room2);
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assertRead(room2);
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cy.wait(200);
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goTo(room1);
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// When I react to the redacted message
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receiveMessages(room2, [reactionTo("Msg2", "🪿")]);
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// Then the room is still read
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assertStillRead(room2);
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});
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it("Editing a redacted message leaves the room read", () => {
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// Given a redacted message exists
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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receiveMessages(room2, [redactionOf("Msg2")]);
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assertUnread(room2, 1);
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// And the room is read
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goTo(room2);
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assertRead(room2);
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goTo(room1);
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// When I attempt to edit the redacted message
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receiveMessages(room2, [editOf("Msg2", "Msg2 is BACK")]);
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// Then the room is still read
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assertStillRead(room2);
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});
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it("A reply to a redacted message makes the room unread", () => {
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// Given a message was redacted
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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receiveMessages(room2, [redactionOf("Msg2")]);
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assertUnread(room2, 1);
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// And the room is read
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goTo(room2);
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assertRead(room2);
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goTo(room1);
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// When I receive a reply to the redacted message
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receiveMessages(room2, [replyTo("Msg2", "Reply to Msg2")]);
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// Then the room is unread
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assertUnread(room2, 1);
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});
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it("Reading a reply to a redacted message marks the room as read", () => {
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// Given someone replied to a redacted message
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goTo(room1);
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receiveMessages(room2, ["Msg1", "Msg2"]);
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receiveMessages(room2, [redactionOf("Msg2")]);
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assertUnread(room2, 1);
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goTo(room2);
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assertRead(room2);
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goTo(room1);
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receiveMessages(room2, [replyTo("Msg2", "Reply to Msg2")]);
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assertUnread(room2, 1);
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// When I read the reply
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goTo(room2);
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assertRead(room2);
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// Then the room is unread
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goTo(room1);
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assertStillRead(room2);
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});
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});
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describe("in threads", () => {
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it("Redacting the threaded message pointed to by my receipt leaves the room read", () => {
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// Given I have some threads
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goTo(room1);
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receiveMessages(room2, [
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"Root",
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threadedOff("Root", "ThreadMsg1"),
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threadedOff("Root", "ThreadMsg2"),
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"Root2",
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threadedOff("Root2", "Root2->A"),
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]);
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assertUnread(room2, 5);
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// And I have read them
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goTo(room2);
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assertUnreadThread("Root");
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openThread("Root");
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assertUnreadLessThan(room2, 4);
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openThread("Root2");
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assertRead(room2);
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closeThreadsPanel();
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goTo(room1);
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assertRead(room2);
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// When the latest message in a thread is redacted
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receiveMessages(room2, [redactionOf("ThreadMsg2")]);
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// Then the room and thread are still read
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assertStillRead(room2);
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goTo(room2);
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assertReadThread("Root");
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});
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// XXX: fails because the unread count is still 1 when it should be 0 (this is a genuine stuck unread case)
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it.skip("Reading an unread thread after a redaction of the latest message makes it read", () => {
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// Given an unread thread where the latest message was redacted
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goTo(room1);
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receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
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assertUnread(room2, 3);
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receiveMessages(room2, [redactionOf("ThreadMsg2")]);
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assertUnread(room2, 2);
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goTo(room2);
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assertUnreadThread("Root");
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// When I read the thread
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openThread("Root");
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assertRead(room2);
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closeThreadsPanel();
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goTo(room1);
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// Then the thread is read
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assertRead(room2);
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goTo(room2);
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assertReadThread("Root");
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});
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// XXX: fails because the unread count is still 1 when it should be 0
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it.skip("Reading an unread thread after a redaction of the latest message makes it read after restart", () => {
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// Given a redacted message is not counted in the unread count
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goTo(room1);
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receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
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assertUnread(room2, 3);
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receiveMessages(room2, [redactionOf("ThreadMsg2")]);
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assertUnread(room2, 2);
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goTo(room2);
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assertUnreadThread("Root");
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openThread("Root");
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assertRead(room2);
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closeThreadsPanel();
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goTo(room1);
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assertRead(room2);
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goTo(room2);
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assertReadThread("Root");
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// When I restart
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saveAndReload();
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// Then the room is still read
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assertRead(room2);
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});
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// XXX: fails because the unread count is still 1 when it should be 0
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it.skip("Reading an unread thread after a redaction of an older message makes it read", () => {
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// Given an unread thread where an older message was redacted
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goTo(room1);
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receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
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assertUnread(room2, 3);
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receiveMessages(room2, [redactionOf("ThreadMsg1")]);
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assertUnread(room2, 2);
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goTo(room2);
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assertUnreadThread("Root");
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// When I read the thread
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openThread("Root");
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assertRead(room2);
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closeThreadsPanel();
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goTo(room1);
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// Then the thread is read
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assertRead(room2);
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goTo(room2);
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assertReadThread("Root");
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});
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// XXX: fails because the room has an unread dot after I marked it as read
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it.skip("Marking an unread thread as read after a redaction makes it read", () => {
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// Given an unread thread where an older message was redacted
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goTo(room1);
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receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
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assertUnread(room2, 3);
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receiveMessages(room2, [redactionOf("ThreadMsg1")]);
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assertUnread(room2, 2);
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// When I mark the room as read
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markAsRead(room2);
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assertRead(room2);
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// Then the thread is read
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assertRead(room2);
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goTo(room2);
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assertReadThread("Root");
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});
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// XXX: fails because the room has an unread dot after I marked it as read
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it.skip("Sending and redacting a message after marking the thread as read leaves it read", () => {
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// Given a thread exists and is marked as read
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goTo(room1);
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receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
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assertUnread(room2, 3);
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markAsRead(room2);
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assertRead(room2);
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// When I send and redact a message
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receiveMessages(room2, [threadedOff("Root", "Msg3")]);
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assertUnread(room2, 1);
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receiveMessages(room2, [redactionOf("Msg3")]);
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// Then the room and thread are read
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assertRead(room2);
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goTo(room2);
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assertReadThread("Root");
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});
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// XXX: fails because the room has an unread dot after I marked it as read
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it.skip("Redacting a message after marking the thread as read leaves it read", () => {
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// Given a thread exists and is marked as read
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goTo(room1);
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receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
|
|
assertUnread(room2, 3);
|
|
markAsRead(room2);
|
|
assertRead(room2);
|
|
|
|
// When I redact a message
|
|
receiveMessages(room2, [redactionOf("ThreadMsg1")]);
|
|
|
|
// Then the room and thread are read
|
|
assertRead(room2);
|
|
goTo(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
// XXX: fails because sometimes the room is still unread after opening the thread (initially)
|
|
it.skip("Reacting to a redacted message leaves the thread read", () => {
|
|
// Given a message in a thread was redacted and everything is read
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
receiveMessages(room2, [redactionOf("Msg2")]);
|
|
assertUnread(room2, 2);
|
|
goTo(room2);
|
|
assertUnread(room2, 1);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
goTo(room1);
|
|
|
|
// When we receive a reaction to the redacted event
|
|
receiveMessages(room2, [reactionTo("Msg2", "z")]);
|
|
|
|
// Then the room is unread
|
|
assertStillRead(room2);
|
|
});
|
|
// XXX: fails because the room is still unread after opening the thread (initially)
|
|
it.skip("Editing a redacted message leaves the thread read", () => {
|
|
// Given a message in a thread was redacted and everything is read
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
receiveMessages(room2, [redactionOf("Msg2")]);
|
|
assertUnread(room2, 2);
|
|
goTo(room2);
|
|
assertUnread(room2, 1);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
goTo(room1);
|
|
|
|
// When we receive an edit of the redacted message
|
|
receiveMessages(room2, [editOf("Msg2", "New Msg2")]);
|
|
|
|
// Then the room is unread
|
|
assertStillRead(room2);
|
|
});
|
|
// XXX: fails because the room still shows "1" even though we have read the thread (stuck unread)
|
|
it.skip("Reading a reaction to a redacted message marks the thread as read", () => {
|
|
// Given a redacted message in a thread exists, but someone reacted to it before it was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, [
|
|
"Root",
|
|
threadedOff("Root", "Msg2"),
|
|
threadedOff("Root", "Msg3"),
|
|
reactionTo("Msg3", "x"),
|
|
]);
|
|
assertUnread(room2, 3);
|
|
receiveMessages(room2, [redactionOf("Msg3")]);
|
|
assertUnread(room2, 2);
|
|
|
|
// When we read the thread, creating a receipt that points at the reaction
|
|
goTo(room2);
|
|
openThread("Root");
|
|
|
|
// Then the thread (and room) are read
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
// XXX: fails because the unread count stays at 1 instead of zero
|
|
it.skip("Reading a thread containing a redacted, edited message marks the thread as read", () => {
|
|
// Given a redacted message in a thread exists, but someone edited it before it was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, [
|
|
"Root",
|
|
threadedOff("Root", "Msg2"),
|
|
threadedOff("Root", "Msg3"),
|
|
editOf("Msg3", "Msg3 Edited"),
|
|
]);
|
|
assertUnread(room2, 3);
|
|
receiveMessages(room2, [redactionOf("Msg3")]);
|
|
|
|
// When we read the thread
|
|
goTo(room2);
|
|
openThread("Root");
|
|
|
|
// Then the thread (and room) are read
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
// XXX: fails because the read count drops to 1 but not to zero (this is a genuine stuck unread case)
|
|
it.skip("Reading a reply to a redacted message marks the thread as read", () => {
|
|
// Given a redacted message in a thread exists, but someone replied before it was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, [
|
|
"Root",
|
|
threadedOff("Root", "Msg2"),
|
|
threadedOff("Root", "Msg3"),
|
|
replyTo("Msg3", "Msg3Reply"),
|
|
]);
|
|
assertUnread(room2, 4);
|
|
receiveMessages(room2, [redactionOf("Msg3")]);
|
|
|
|
// When we read the thread, creating a receipt that points at the edit
|
|
goTo(room2);
|
|
openThread("Root");
|
|
|
|
// Then the thread (and room) are read
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
it("Reading a thread root when its only message has been redacted leaves the room read", () => {
|
|
// Given we had a thread
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2")]);
|
|
assertUnread(room2, 2);
|
|
|
|
// And then redacted the message that makes it a thread
|
|
receiveMessages(room2, [redactionOf("Msg2")]);
|
|
assertUnread(room2, 1);
|
|
|
|
// When we read the main timeline
|
|
goTo(room2);
|
|
|
|
// Then the room is read
|
|
assertRead(room2);
|
|
});
|
|
it("A thread with a redacted unread is still read after restart", () => {
|
|
// Given I sent and redacted a message in an otherwise-read thread
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "ThreadMsg1"), threadedOff("Root", "ThreadMsg2")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
receiveMessages(room2, [threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 1);
|
|
receiveMessages(room2, [redactionOf("Msg3")]);
|
|
assertRead(room2);
|
|
goTo(room2);
|
|
assertReadThread("Root");
|
|
goTo(room1);
|
|
|
|
// When I restart
|
|
saveAndReload();
|
|
|
|
// Then the room and thread are still read
|
|
assertRead(room2);
|
|
goTo(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
it("A thread with a read redaction is still read after restart", () => {
|
|
// Given my receipt points at a redacted thread message
|
|
goTo(room1);
|
|
receiveMessages(room2, [
|
|
"Root",
|
|
threadedOff("Root", "ThreadMsg1"),
|
|
threadedOff("Root", "ThreadMsg2"),
|
|
"Root2",
|
|
threadedOff("Root2", "Root2->A"),
|
|
]);
|
|
assertUnread(room2, 5);
|
|
goTo(room2);
|
|
assertUnreadThread("Root");
|
|
openThread("Root");
|
|
assertUnreadLessThan(room2, 4);
|
|
openThread("Root2");
|
|
assertRead(room2);
|
|
closeThreadsPanel();
|
|
goTo(room1);
|
|
assertRead(room2);
|
|
receiveMessages(room2, [redactionOf("ThreadMsg2")]);
|
|
assertStillRead(room2);
|
|
goTo(room2);
|
|
assertReadThread("Root");
|
|
|
|
// When I restart
|
|
saveAndReload();
|
|
|
|
// Then the room is still read
|
|
assertRead(room2);
|
|
});
|
|
// XXX: fails for the same reason as "Reading a reply to a redacted message marks the thread as read"
|
|
it.skip("A thread with an unread reply to a redacted message is still unread after restart", () => {
|
|
// Given a redacted message in a thread exists, but someone replied before it was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, [
|
|
"Root",
|
|
threadedOff("Root", "Msg2"),
|
|
threadedOff("Root", "Msg3"),
|
|
replyTo("Msg3", "Msg3Reply"),
|
|
]);
|
|
assertUnread(room2, 4);
|
|
receiveMessages(room2, [redactionOf("Msg3")]);
|
|
|
|
// And we have read all this
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
|
|
// When I restart
|
|
saveAndReload();
|
|
|
|
// Then the room is still read
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
// XXX: fails for the same reason as "Reading a reply to a redacted message marks the thread as read
|
|
it.skip("A thread with a read reply to a redacted message is still read after restart", () => {
|
|
// Given a redacted message in a thread exists, but someone replied before it was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, [
|
|
"Root",
|
|
threadedOff("Root", "Msg2"),
|
|
threadedOff("Root", "Msg3"),
|
|
replyTo("Msg3", "Msg3Reply"),
|
|
]);
|
|
assertUnread(room2, 4);
|
|
receiveMessages(room2, [redactionOf("Msg3")]);
|
|
|
|
// And I read it, so the room is read
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
|
|
// When I restart
|
|
saveAndReload();
|
|
|
|
// Then the room is still read
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
});
|
|
|
|
describe("thread roots", () => {
|
|
it("Redacting a thread root after it was read leaves the room read", () => {
|
|
// Given a thread exists and is read
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
|
|
// When someone redacts the thread root
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
|
|
// Then the room is still read
|
|
assertStillRead(room2);
|
|
});
|
|
// TODO: Can't open a thread on a redacted thread root
|
|
it.skip("Redacting a thread root still allows us to read the thread", () => {
|
|
// Given an unread thread exists
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
|
|
// When someone redacts the thread root
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
|
|
// Then the room is still unread
|
|
assertUnread(room2, 2);
|
|
|
|
// And I can open the thread and read it
|
|
goTo(room2);
|
|
assertUnread(room2, 2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
});
|
|
// TODO: Can't open a thread on a redacted thread root
|
|
it.skip("Sending a threaded message onto a redacted thread root leaves the room unread", () => {
|
|
// Given a thread exists, is read and its root is redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
|
|
// When we receive a new message on it
|
|
receiveMessages(room2, [threadedOff("Root", "Msg4")]);
|
|
|
|
// Then the room and thread are unread
|
|
assertUnread(room2, 1);
|
|
goTo(room2);
|
|
assertUnreadThread("Root");
|
|
});
|
|
it("Reacting to a redacted thread root leaves the room read", () => {
|
|
// Given a thread exists, is read and the root was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
|
|
// When I react to the old root
|
|
receiveMessages(room2, [reactionTo("Root", "y")]);
|
|
|
|
// Then the room is still read
|
|
assertRead(room2);
|
|
});
|
|
it("Editing a redacted thread root leaves the room read", () => {
|
|
// Given a thread exists, is read and the root was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
|
|
// When I edit the old root
|
|
receiveMessages(room2, [editOf("Root", "New Root")]);
|
|
|
|
// Then the room is still read
|
|
assertRead(room2);
|
|
});
|
|
it("Replying to a redacted thread root makes the room unread", () => {
|
|
// Given a thread exists, is read and the root was redacted
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
|
|
// When I reply to the old root
|
|
receiveMessages(room2, [replyTo("Root", "Reply!")]);
|
|
|
|
// Then the room is unread
|
|
assertUnread(room2, 1);
|
|
});
|
|
it("Reading a reply to a redacted thread root makes the room read", () => {
|
|
// Given a thread exists, is read and the root was redacted, and
|
|
// someone replied to it
|
|
goTo(room1);
|
|
receiveMessages(room2, ["Root", threadedOff("Root", "Msg2"), threadedOff("Root", "Msg3")]);
|
|
assertUnread(room2, 3);
|
|
goTo(room2);
|
|
openThread("Root");
|
|
assertRead(room2);
|
|
assertReadThread("Root");
|
|
receiveMessages(room2, [redactionOf("Root")]);
|
|
receiveMessages(room2, [replyTo("Root", "Reply!")]);
|
|
assertUnread(room2, 1);
|
|
|
|
// When I read the room
|
|
goTo(room2);
|
|
|
|
// Then it becomes read
|
|
assertRead(room2);
|
|
});
|
|
});
|
|
});
|
|
});
|