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225 lines
8.7 KiB
TypeScript
225 lines
8.7 KiB
TypeScript
/*
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Copyright 2024 New Vector Ltd.
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Copyright 2023 The Matrix.org Foundation C.I.C.
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SPDX-License-Identifier: AGPL-3.0-only OR GPL-3.0-only
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Please see LICENSE files in the repository root for full details.
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*/
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/* See readme.md for tips on writing these tests. */
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import { test } from ".";
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test.describe("Read receipts", () => {
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test.describe("redactions", () => {
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test.describe("thread roots", () => {
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test("Redacting a thread root after it was read leaves the room read", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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test.slow();
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// Given a thread exists and is read
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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await util.goTo(room2);
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await util.openThread("Root");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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// When someone redacts the thread root
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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// Then the room is still read
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await util.assertStillRead(room2);
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});
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/*
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* Disabled for the same reason as "A thread with a read redaction is still read after restart"
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* above
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*/
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test.skip("Redacting a thread root still allows us to read the thread", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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// Given an unread thread exists
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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// When someone redacts the thread root
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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// Then the room is still unread
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await util.assertUnread(room2, 1);
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// And I can open the thread and read it
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await util.goTo(room2);
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await util.assertRead(room2);
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// The redacted message gets collapsed into, "foo was invited, joined and removed a message"
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await util.openCollapsedMessage(1);
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await util.openThread("Message deleted");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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});
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test("Sending a threaded message onto a redacted thread root leaves the room unread", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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// Given a thread exists, is read and its root is redacted
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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await util.goTo(room2);
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await util.openThread("Root");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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// When we receive a new message on it
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await util.receiveMessages(room2, [msg.threadedOff("Root", "Msg4")]);
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// Then the room is read but the thread is unread
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await util.assertRead(room2);
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await util.goTo(room2);
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await util.assertUnreadThread("Message deleted");
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});
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test("Reacting to a redacted thread root leaves the room read", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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// Given a thread exists, is read and the root was redacted
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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await util.goTo(room2);
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await util.openThread("Root");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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// When I react to the old root
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await util.receiveMessages(room2, [msg.reactionTo("Root", "y")]);
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// Then the room is still read
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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});
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test("Editing a redacted thread root leaves the room read", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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// Given a thread exists, is read and the root was redacted
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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await util.goTo(room2);
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await util.openThread("Root");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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// When I edit the old root
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await util.receiveMessages(room2, [msg.editOf("Root", "New Root")]);
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// Then the room is still read
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await util.assertRead(room2);
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// as is the thread
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await util.assertReadThread("Root");
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});
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test("Replying to a redacted thread root makes the room unread", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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// Given a thread exists, is read and the root was redacted
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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await util.goTo(room2);
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await util.openThread("Root");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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// When I reply to the old root
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await util.receiveMessages(room2, [msg.replyTo("Root", "Reply!")]);
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// Then the room is unread
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await util.assertUnread(room2, 1);
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});
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test("Reading a reply to a redacted thread root makes the room read", async ({
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roomAlpha: room1,
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roomBeta: room2,
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util,
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msg,
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}) => {
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// Given a thread exists, is read and the root was redacted, and
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// someone replied to it
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await util.goTo(room1);
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await util.receiveMessages(room2, [
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"Root",
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msg.threadedOff("Root", "Msg2"),
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msg.threadedOff("Root", "Msg3"),
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]);
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await util.assertUnread(room2, 1);
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await util.goTo(room2);
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await util.openThread("Root");
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await util.assertRead(room2);
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await util.assertReadThread("Root");
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await util.receiveMessages(room2, [msg.redactionOf("Root")]);
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await util.assertStillRead(room2);
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await util.receiveMessages(room2, [msg.replyTo("Root", "Reply!")]);
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await util.assertUnread(room2, 1);
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// When I read the room
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await util.goTo(room2);
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// Then it becomes read
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await util.assertRead(room2);
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});
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});
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});
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});
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