element-web/playwright/e2e/crypto/utils.ts
Michael Telatynski 5104d53ddf
Migrate remaining crypto tests from Cypress to Playwright (#12021)
* Fix bot MatrixClient being set up multiple times

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

* Migrate verification.spec.ts from Cypress to Playwright

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

* Migrate crypto.spec.ts from Cypress to Playwright

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

* delint

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

* Add screenshot

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

* Record trace on-first-retry

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

* Iterate

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

* Don't start client when not needed

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

* Add bot log prefixing

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

* Turns out we need these

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

* Fix crypto tests in rust crypto

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

---------

Signed-off-by: Michael Telatynski <7t3chguy@gmail.com>
2023-12-12 08:55:29 +00:00

239 lines
9.4 KiB
TypeScript

/*
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.
*/
import { type Page, expect, JSHandle } from "@playwright/test";
import type { CryptoEvent, ICreateRoomOpts, MatrixClient } from "matrix-js-sdk/src/matrix";
import type {
VerificationRequest,
Verifier,
EmojiMapping,
VerifierEvent,
} from "matrix-js-sdk/src/crypto-api/verification";
import type { ISasEvent } from "matrix-js-sdk/src/crypto/verification/SAS";
import { Credentials, HomeserverInstance } from "../../plugins/homeserver";
import { Client } from "../../pages/client";
import { ElementAppPage } from "../../pages/ElementAppPage";
/**
* wait for the given client to receive an incoming verification request, and automatically accept it
*
* @param client - matrix client handle we expect to receive a request
*/
export async function waitForVerificationRequest(client: Client): Promise<JSHandle<VerificationRequest>> {
return client.evaluateHandle((cli) => {
return new Promise<VerificationRequest>((resolve) => {
console.log("~~");
const onVerificationRequestEvent = async (request: VerificationRequest) => {
console.log("@@", request);
await request.accept();
resolve(request);
};
cli.once(
"crypto.verificationRequestReceived" as CryptoEvent.VerificationRequestReceived,
onVerificationRequestEvent,
);
});
});
}
/**
* Automatically handle a SAS verification
*
* Given a verifier which has already been started, wait for the emojis to be received, blindly confirm they
* match, and return them
*
* @param verifier - verifier
* @returns A promise that resolves, with the emoji list, once we confirm the emojis
*/
export function handleSasVerification(verifier: JSHandle<Verifier>): Promise<EmojiMapping[]> {
return verifier.evaluate((verifier) => {
const event = verifier.getShowSasCallbacks();
if (event) return event.sas.emoji;
return new Promise<EmojiMapping[]>((resolve) => {
const onShowSas = (event: ISasEvent) => {
verifier.off("show_sas" as VerifierEvent, onShowSas);
event.confirm();
resolve(event.sas.emoji);
};
verifier.on("show_sas" as VerifierEvent, onShowSas);
});
});
}
/**
* Check that the user has published cross-signing keys, and that the user's device has been cross-signed.
*/
export async function checkDeviceIsCrossSigned(app: ElementAppPage): Promise<void> {
const { userId, deviceId, keys } = await app.client.evaluate(async (cli: MatrixClient) => {
const deviceId = cli.getDeviceId();
const userId = cli.getUserId();
const keys = await cli.downloadKeysForUsers([userId]);
return { userId, deviceId, keys };
});
// there should be three cross-signing keys
expect(keys.master_keys[userId]).toHaveProperty("keys");
expect(keys.self_signing_keys[userId]).toHaveProperty("keys");
expect(keys.user_signing_keys[userId]).toHaveProperty("keys");
// and the device should be signed by the self-signing key
const selfSigningKeyId = Object.keys(keys.self_signing_keys[userId].keys)[0];
expect(keys.device_keys[userId][deviceId]).toBeDefined();
const myDeviceSignatures = keys.device_keys[userId][deviceId].signatures[userId];
expect(myDeviceSignatures[selfSigningKeyId]).toBeDefined();
}
/**
* Check that the current device is connected to the key backup.
*/
export async function checkDeviceIsConnectedKeyBackup(page: Page) {
await page.getByRole("button", { name: "User menu" }).click();
await page.locator(".mx_UserMenu_contextMenu").getByRole("menuitem", { name: "Security & Privacy" }).click();
await expect(page.locator(".mx_Dialog").getByRole("button", { name: "Restore from Backup" })).toBeVisible();
}
/**
* Fill in the login form in element with the given creds.
*
* If a `securityKey` is given, verifies the new device using the key.
*/
export async function logIntoElement(
page: Page,
homeserver: HomeserverInstance,
credentials: Credentials,
securityKey?: string,
) {
await page.goto("/#/login");
// select homeserver
await page.getByRole("button", { name: "Edit" }).click();
await page.getByRole("textbox", { name: "Other homeserver" }).fill(homeserver.config.baseUrl);
await page.getByRole("button", { name: "Continue" }).click();
// wait for the dialog to go away
await expect(page.locator(".mx_ServerPickerDialog")).not.toBeVisible();
await page.getByRole("textbox", { name: "Username" }).fill(credentials.userId);
await page.getByPlaceholder("Password").fill(credentials.password);
await page.getByRole("button", { name: "Sign in" }).click();
// if a securityKey was given, verify the new device
if (securityKey !== undefined) {
await page.locator(".mx_AuthPage").getByRole("button", { name: "Verify with Security Key" }).click();
// Fill in the security key
await page.locator(".mx_Dialog").locator('input[type="password"]').fill(securityKey);
await page.locator(".mx_Dialog_primary:not([disabled])", { hasText: "Continue" }).click();
await page.getByRole("button", { name: "Done" }).click();
}
}
export async function logOutOfElement(page: Page) {
await page.getByRole("button", { name: "User menu" }).click();
await page.locator(".mx_UserMenu_contextMenu").getByRole("menuitem", { name: "Sign out" }).click();
await page.locator(".mx_Dialog .mx_QuestionDialog").getByRole("button", { name: "Sign out" }).click();
// Wait for the login page to load
await page.getByRole("heading", { name: "Sign in" }).click();
}
/**
* Given a SAS verifier for a bot client:
* - wait for the bot to receive the emojis
* - check that the bot sees the same emoji as the application
*
* @param verifier - a verifier in a bot client
*/
export async function doTwoWaySasVerification(page: Page, verifier: JSHandle<Verifier>): Promise<void> {
// on the bot side, wait for the emojis, confirm they match, and return them
const emojis = await handleSasVerification(verifier);
const emojiBlocks = page.locator(".mx_VerificationShowSas_emojiSas_block");
await expect(emojiBlocks).toHaveCount(emojis.length);
// then, check that our application shows an emoji panel with the same emojis.
for (let i = 0; i < emojis.length; i++) {
const emoji = emojis[i];
const emojiBlock = emojiBlocks.nth(i);
const textContent = await emojiBlock.textContent();
// VerificationShowSas munges the case of the emoji descriptions returned by the js-sdk before
// displaying them. Once we drop support for legacy crypto, that code can go away, and so can the
// case-munging here.
expect(textContent.toLowerCase()).toEqual(emoji[0] + emoji[1].toLowerCase());
}
}
/**
* Open the security settings and enable secure key backup.
*
* Assumes that the current device has been cross-signed (which means that we skip a step where we set it up).
*
* Returns the security key
*/
export async function enableKeyBackup(app: ElementAppPage): Promise<string> {
await app.settings.openUserSettings("Security & Privacy");
await app.page.getByRole("button", { name: "Set up Secure Backup" }).click();
const dialog = app.page.locator(".mx_Dialog");
// Recovery key is selected by default
await dialog.getByRole("button", { name: "Continue" }).click({ timeout: 60000 });
// copy the text ourselves
const securityKey = await dialog.locator(".mx_CreateSecretStorageDialog_recoveryKey code").textContent();
await copyAndContinue(app.page);
await expect(dialog.getByText("Secure Backup successful")).toBeVisible();
await dialog.getByRole("button", { name: "Done" }).click();
await expect(dialog.getByText("Secure Backup successful")).not.toBeVisible();
return securityKey;
}
/**
* Click on copy and continue buttons to dismiss the security key dialog
*/
export async function copyAndContinue(page: Page) {
await page.getByRole("button", { name: "Copy" }).click();
await page.getByRole("button", { name: "Continue" }).click();
}
/**
* Create a shared, unencrypted room with the given user, and wait for them to join
*
* @param other - UserID of the other user
* @param opts - other options for the createRoom call
*
* @returns a promise which resolves to the room ID
*/
export async function createSharedRoomWithUser(
app: ElementAppPage,
other: string,
opts: Omit<ICreateRoomOpts, "invite"> = { name: "TestRoom" },
): Promise<string> {
const roomId = await app.client.createRoom({ ...opts, invite: [other] });
await app.viewRoomById(roomId);
// wait for the other user to join the room, otherwise our attempt to open his user details may race
// with his join.
await expect(app.page.getByText(" joined the room", { exact: false })).toBeVisible();
return roomId;
}