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element-web-Github/playwright/e2e/read-receipts/redactions-in-threads.spec.ts
Michael Telatynski c894bebaa0
Split up slow Playwright tests (#12741) 
* Split up slow Playwright tests

To optimise parallelism

Deals with:

```
Slow test file: read-receipts/redactions.spec.ts (5.4m)
Slow test file: read-receipts/new-messages.spec.ts (3.9m)
Slow test file: read-receipts/high-level.spec.ts (3.6m)
Slow test file: read-receipts/editing-messages.spec.ts (3.1m)
Slow test file: read-receipts/reactions.spec.ts (2.2m)
Slow test file: crypto/crypto.spec.ts (2.4m)
Slow test file: settings/appearance-user-settings-tab/appearance-user-settings-tab.spec.ts (1.2m)
Slow test file: composer/composer.spec.ts (1.1m)
Slow test file: crypto/verification.spec.ts (1.1m)
```

Signed-off-by: Michael Telatynski <7t3chguy@gmail.com>

* Move around snapshots

Signed-off-by: Michael Telatynski <7t3chguy@gmail.com>

* Fix test

Signed-off-by: Michael Telatynski <7t3chguy@gmail.com>

---------

Signed-off-by: Michael Telatynski <7t3chguy@gmail.com>
2024-07-10 09:06:13 +00:00

563 lines
23 KiB
TypeScript
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/*
Copyright 2023 The Matrix.org Foundation C.I.C.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/* See readme.md for tips on writing these tests. */
import { test } from ".";
test.describe("Read receipts", () => {
test.describe("redactions", () => {
test.describe("in threads", () => {
test("Redacting the threaded message pointed to by my receipt leaves the room read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given I have some threads
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root1",
msg.threadedOff("Root1", "ThreadMsg1"),
msg.threadedOff("Root1", "ThreadMsg2"),
"Root2",
msg.threadedOff("Root2", "Root2->A"),
]);
await util.assertUnread(room2, 2);
await util.goTo(room2);
await util.assertUnreadThread("Root1");
await util.assertUnreadThread("Root2");
// And I have read them
await util.assertUnreadThread("Root1");
await util.openThread("Root1");
await util.assertRead(room2);
await util.backToThreadsList();
await util.assertReadThread("Root1");
await util.openThread("Root2");
await util.assertReadThread("Root2");
await util.closeThreadsPanel();
await util.goTo(room1);
// When the latest message in a thread is redacted
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg2")]);
// Then the room and thread are still read
await util.assertStillRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root1");
});
test("Reading an unread thread after a redaction of the latest message makes it read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given an unread thread where the latest message was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg2")]);
await util.assertUnread(room2, 1);
await util.goTo(room2);
await util.assertUnreadThread("Root");
// When I read the thread
await util.openThread("Root");
await util.assertRead(room2);
await util.closeThreadsPanel();
await util.goTo(room1);
// Then the thread is read
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
});
test("Reading an unread thread after a redaction of the latest message makes it read after restart", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a redacted message is not counted in the unread count
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg2")]);
await util.assertUnread(room2, 1);
await util.goTo(room2);
await util.assertUnreadThread("Root");
await util.openThread("Root");
await util.assertRead(room2);
await util.closeThreadsPanel();
await util.goTo(room1);
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
// When I restart
await util.saveAndReload();
// Then the room and thread are still read
await util.assertRead(room2);
await util.openThreadList();
await util.assertReadThread("Root");
});
test("Reading an unread thread after a redaction of an older message makes it read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given an unread thread where an older message was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg1")]);
await util.assertUnread(room2, 1);
await util.goTo(room2);
await util.assertUnreadThread("Root");
// When I read the thread
await util.openThread("Root");
await util.assertRead(room2);
await util.closeThreadsPanel();
await util.goTo(room1);
// Then the thread is read
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
});
test("Marking an unread thread as read after a redaction makes it read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given an unread thread where an older message was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg1")]);
await util.assertUnread(room2, 1);
// When I mark the room as read
await util.markAsRead(room2);
await util.assertRead(room2);
// Then the thread is read
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
});
test("Sending and redacting a message after marking the thread as read leaves it read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a thread exists and is marked as read
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.markAsRead(room2);
await util.assertRead(room2);
// When I send and redact a message
await util.receiveMessages(room2, [msg.threadedOff("Root", "Msg3")]);
await util.goTo(room2);
await util.openThreadList();
await util.assertUnreadThread("Root");
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
// Then the room and thread are read
await util.goTo(room2);
await util.assertReadThread("Root");
});
test("Redacting a message after marking the thread as read leaves it read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a thread exists and is marked as read
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.markAsRead(room2);
await util.assertRead(room2);
// When I redact a message
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg1")]);
// Then the room and thread are read
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
});
test("Reacting to a redacted message leaves the thread read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a message in a thread was redacted and everything is read
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg2")]);
await util.assertUnread(room2, 1);
await util.goTo(room2);
await util.assertRead(room2);
await util.openThread("Root");
await util.assertRead(room2);
await util.backToThreadsList();
await util.assertReadThread("Root");
await util.goTo(room1);
// When we receive a reaction to the redacted event
await util.receiveMessages(room2, [msg.reactionTo("Msg2", "z")]);
// Then the room is read
await util.assertStillRead(room2);
await util.goTo(room2);
await util.openThreadList();
await util.assertReadThread("Root");
});
test("Editing a redacted message leaves the thread read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a message in a thread was redacted and everything is read
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg2")]);
await util.assertUnread(room2, 1);
await util.goTo(room2);
await util.assertRead(room2);
await util.openThreadList();
await util.assertUnreadThread("Root");
await util.openThread("Root");
await util.assertReadThread("Root");
await util.goTo(room1);
// When we receive an edit of the redacted message
await util.receiveMessages(room2, [msg.editOf("Msg2", "New Msg2")]);
// Then the room is unread
await util.assertStillRead(room2);
// and so is the thread
await util.goTo(room2);
await util.openThreadList();
await util.assertReadThread("Root");
});
test("Reading a thread after a reaction to a redacted message marks the thread as read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a redacted message in a thread exists, but someone reacted to it before it was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
msg.reactionTo("Msg3", "x"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
await util.assertUnread(room2, 1);
// When we read the thread
await util.goTo(room2);
await util.openThread("Root");
// Then the thread (and room) are read
await util.assertRead(room2);
await util.assertReadThread("Root");
});
test("Reading a thread containing a redacted, edited message marks the thread as read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a redacted message in a thread exists, but someone edited it before it was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
msg.editOf("Msg3", "Msg3 Edited"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
// When we read the thread
await util.goTo(room2);
await util.openThread("Root");
// Then the thread (and room) are read
await util.assertRead(room2);
await util.assertReadThread("Root");
});
test("Reading a reply to a redacted message marks the thread as read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a redacted message in a thread exists, but someone replied before it was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
msg.replyTo("Msg3", "Msg3Reply"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
// When we read the thread, creating a receipt that points at the edit
await util.goTo(room2);
await util.openThread("Root");
// Then the thread (and room) are read
await util.assertRead(room2);
await util.assertReadThread("Root");
});
test("Reading a thread root when its only message has been redacted leaves the room read", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given we had a thread
await util.goTo(room1);
await util.receiveMessages(room2, ["Root", msg.threadedOff("Root", "Msg2")]);
await util.assertUnread(room2, 1);
// And then redacted the message that makes it a thread
await util.receiveMessages(room2, [msg.redactionOf("Msg2")]);
await util.assertUnread(room2, 1);
// When we read the main timeline
await util.goTo(room2);
// Then the room is read
await util.assertRead(room2);
// and that thread is read
await util.openThreadList();
await util.assertReadThread("Root");
});
test("A thread with a redacted unread is still read after restart", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given I sent and redacted a message in an otherwise-read thread
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "ThreadMsg1"),
msg.threadedOff("Root", "ThreadMsg2"),
]);
await util.assertUnread(room2, 1);
await util.goTo(room2);
await util.openThread("Root");
await util.assertRead(room2);
await util.assertReadThread("Root");
await util.receiveMessages(room2, [msg.threadedOff("Root", "Msg3")]);
await util.assertRead(room2);
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
await util.goTo(room1);
// When I restart
await util.saveAndReload();
// Then the room and thread are still read
await util.assertRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root");
});
/*
* Disabled: this doesn't seem to work as, at some point after syncing from cache, the redaction and redacted
* event get removed from the thread timeline such that we have no record of the events that the read receipt
* points to. I suspect this may have been passing by fluke before.
*/
test.skip("A thread with a read redaction is still read after restart", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given my receipt points at a redacted thread message
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root1",
msg.threadedOff("Root1", "ThreadMsg1"),
msg.threadedOff("Root1", "ThreadMsg2"),
"Root2",
msg.threadedOff("Root2", "Root2->A"),
]);
await util.assertUnread(room2, 2);
await util.goTo(room2);
await util.assertUnreadThread("Root1");
await util.openThread("Root1");
await util.assertRead(room2);
await util.openThread("Root2");
await util.assertRead(room2);
await util.closeThreadsPanel();
await util.goTo(room1);
await util.assertRead(room2);
await util.receiveMessages(room2, [msg.redactionOf("ThreadMsg2")]);
await util.assertStillRead(room2);
await util.goTo(room2);
await util.assertReadThread("Root1");
// When I restart
await util.saveAndReload();
// Then the room is still read
await util.assertRead(room2);
// and so is the thread
await util.openThreadList();
await util.assertReadThread("Root1");
await util.assertReadThread("Root2");
});
test("A thread with an unread reply to a redacted message is still unread after restart", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a redacted message in a thread exists, but someone replied before it was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
msg.replyTo("Msg3", "Msg3Reply"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
// And we have read all this
await util.goTo(room2);
await util.openThread("Root");
await util.assertRead(room2);
await util.assertReadThread("Root");
// When I restart
await util.saveAndReload();
// Then the room is still read
await util.assertRead(room2);
await util.assertReadThread("Root");
});
test("A thread with a read reply to a redacted message is still read after restart", async ({
roomAlpha: room1,
roomBeta: room2,
util,
msg,
}) => {
// Given a redacted message in a thread exists, but someone replied before it was redacted
await util.goTo(room1);
await util.receiveMessages(room2, [
"Root",
msg.threadedOff("Root", "Msg2"),
msg.threadedOff("Root", "Msg3"),
msg.replyTo("Msg3", "Msg3Reply"),
]);
await util.assertUnread(room2, 1);
await util.receiveMessages(room2, [msg.redactionOf("Msg3")]);
// And I read it, so the room is read
await util.goTo(room2);
await util.openThread("Root");
await util.assertRead(room2);
await util.assertReadThread("Root");
// When I restart
await util.saveAndReload();
// Then the room is still read
await util.assertRead(room2);
await util.assertReadThread("Root");
});
});
});
});
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