import {
DeviceKeyAlgorithm,
extractRequestError,
IAppserviceCryptoStorageProvider,
IAppserviceStorageProvider,
ICryptoStorageProvider,
LogService,
MatrixClient,
Metrics,
} from "..";
import { Appservice, IAppserviceOptions } from "./Appservice";
// noinspection TypeScriptPreferShortImport
import { timedIntentFunctionCall } from "../metrics/decorators";
import { UnstableAppserviceApis } from "./UnstableAppserviceApis";
import { MatrixError } from "../models/MatrixError";
/**
* An Intent is an intelligent client that tracks things like the user's membership
* in rooms to ensure the action being performed is possible. This is very similar
* to how Intents work in the matrix-js-sdk in that the Intent will ensure that the
* user is joined to the room before posting a message, for example.
* @category Application services
*/
export class Intent {
/**
* The metrics instance for this intent. Note that this will not raise metrics
* for the underlying client - those will be available through this instance's
* parent (the appservice).
*/
public readonly metrics: Metrics;
private readonly storage: IAppserviceStorageProvider;
private readonly cryptoStorage: IAppserviceCryptoStorageProvider;
private client: MatrixClient;
private unstableApisInstance: UnstableAppserviceApis;
private knownJoinedRooms: string[] = [];
private cryptoSetupPromise: Promise<void>;
/**
* Creates a new intent. Intended to be created by application services.
* @param {IAppserviceOptions} options The options for the application service.
* @param {string} impersonateUserId The user ID to impersonate.
* @param {Appservice} appservice The application service itself.
*/
constructor(private options: IAppserviceOptions, private impersonateUserId: string, private appservice: Appservice) {
this.metrics = new Metrics(appservice.metrics);
this.storage = options.storage;
this.cryptoStorage = options.cryptoStorage;
this.makeClient(false);
}
private makeClient(withCrypto: boolean, accessToken?: string) {
let cryptoStore: ICryptoStorageProvider;
const storage = this.storage?.storageForUser?.(this.userId);
if (withCrypto) {
cryptoStore = this.cryptoStorage?.storageForUser(this.userId);
if (!cryptoStore) {
throw new Error("Tried to set up client with crypto when not available");
}
if (!storage) {
throw new Error("Tried to set up client with crypto, but no persistent storage");
}
}
this.client = new MatrixClient(this.options.homeserverUrl, accessToken ?? this.options.registration.as_token, storage, cryptoStore);
this.client.metrics = new Metrics(this.appservice.metrics); // Metrics only go up by one parent
this.unstableApisInstance = new UnstableAppserviceApis(this.client);
if (this.impersonateUserId !== this.appservice.botUserId) {
this.client.impersonateUserId(this.impersonateUserId);
}
if (this.options.joinStrategy) {
this.client.setJoinStrategy(this.options.joinStrategy);
}
}
/**
* Gets the user ID this intent is for.
*/
public get userId(): string {
return this.impersonateUserId;
}
/**
* Gets the underlying MatrixClient that powers this Intent.
*/
public get underlyingClient(): MatrixClient {
return this.client;
}
/**
* Gets the unstable API access class. This is generally not recommended to be
* used by appservices.
* @return {UnstableAppserviceApis} The unstable API access class.
*/
public get unstableApis(): UnstableAppserviceApis {
return this.unstableApisInstance;
}
/**
* Sets up crypto on the client if it hasn't already been set up.
* @returns {Promise<void>} Resolves when complete.
*/
@timedIntentFunctionCall()
public async enableEncryption(): Promise<void> {
if (!this.cryptoSetupPromise) {
// eslint-disable-next-line no-async-promise-executor
this.cryptoSetupPromise = new Promise(async (resolve, reject) => {
try {
// Prepare a client first
await this.ensureRegistered();
const storage = this.storage?.storageForUser?.(this.userId);
this.client.impersonateUserId(this.userId); // make sure the devices call works
const cryptoStore = this.cryptoStorage?.storageForUser(this.userId);
if (!cryptoStore) {
// noinspection ExceptionCaughtLocallyJS
throw new Error("Failed to create crypto store");
}
// Try to impersonate a device ID
const ownDevices = await this.client.getOwnDevices();
let deviceId = await cryptoStore.getDeviceId();
if (!deviceId || !ownDevices.some(d => d.device_id === deviceId)) {
const deviceKeys = await this.client.getUserDevices([this.userId]);
const userDeviceKeys = deviceKeys.device_keys[this.userId];
if (userDeviceKeys) {
// We really should be validating signatures here, but we're actively looking
// for devices without keys to impersonate, so it should be fine. In theory,
// those devices won't even be present but we're cautious.
const devicesWithKeys = Array.from(Object.entries(userDeviceKeys))
.filter(d => d[0] === d[1].device_id && !!d[1].keys?.[`${DeviceKeyAlgorithm.Curve25519}:${d[1].device_id}`])
.map(t => t[0]); // grab device ID from tuple
deviceId = ownDevices.find(d => !devicesWithKeys.includes(d.device_id))?.device_id;
}
}
let prepared = false;
if (deviceId) {
this.makeClient(true);
this.client.impersonateUserId(this.userId, deviceId);
// verify that the server supports impersonating the device
const respDeviceId = (await this.client.getWhoAmI()).device_id;
prepared = (respDeviceId === deviceId);
}
if (!prepared) {
// XXX: We work around servers that don't support device_id impersonation
const accessToken = await Promise.resolve(storage?.readValue("accessToken"));
if (!accessToken) {
const loginBody = {
type: "m.login.application_service",
identifier: {
type: "m.id.user",
user: this.userId,
},
};
const res = await this.client.doRequest("POST", "/_matrix/client/v3/login", {}, loginBody);
this.makeClient(true, res['access_token']);
storage.storeValue("accessToken", this.client.accessToken);
prepared = true;
} else {
this.makeClient(true, accessToken);
prepared = true;
}
}
if (!prepared) {// noinspection ExceptionCaughtLocallyJS
throw new Error("Unable to establish a device ID");
}
// Now set up crypto
await this.client.crypto.prepare(await this.refreshJoinedRooms());
this.appservice.on("room.event", (roomId, event) => {
if (!this.knownJoinedRooms.includes(roomId)) return;
this.client.crypto.onRoomEvent(roomId, event);
});
resolve();
} catch (e) {
reject(e);
}
});
}
return this.cryptoSetupPromise;
}
/**
* Gets the joined rooms for the intent. Note that by working around
* the intent to join rooms may yield inaccurate results.
* @returns {Promise<string[]>} Resolves to an array of room IDs where
* the intent is joined.
*/
@timedIntentFunctionCall()
public async getJoinedRooms(): Promise<string[]> {
await this.ensureRegistered();
if (this.knownJoinedRooms.length === 0) await this.refreshJoinedRooms();
return this.knownJoinedRooms.map(r => r); // clone
}
/**
* Leaves the given room.
* @param {string} roomId The room ID to leave
* @param {string=} reason Optional reason to be included as the reason for leaving the room.
* @returns {Promise<any>} Resolves when the room has been left.
*/
@timedIntentFunctionCall()
public async leaveRoom(roomId: string, reason?: string): Promise<any> {
await this.ensureRegistered();
return this.client.leaveRoom(roomId, reason).then(async () => {
// Recalculate joined rooms now that we've left a room
await this.refreshJoinedRooms();
});
}
/**
* Joins the given room
* @param {string} roomIdOrAlias the room ID or alias to join
* @returns {Promise<string>} resolves to the joined room ID
*/
@timedIntentFunctionCall()
public async joinRoom(roomIdOrAlias: string): Promise<string> {
await this.ensureRegistered();
return this.client.joinRoom(roomIdOrAlias).then(async roomId => {
// Recalculate joined rooms now that we've joined a room
await this.refreshJoinedRooms();
return roomId;
});
}
/**
* Sends a text message to a room.
* @param {string} roomId The room ID to send text to.
* @param {string} body The message body to send.
* @param {"m.text" | "m.emote" | "m.notice"} msgtype The message type to send.
* @returns {Promise<string>} Resolves to the event ID of the sent message.
*/
@timedIntentFunctionCall()
public async sendText(roomId: string, body: string, msgtype: "m.text" | "m.emote" | "m.notice" = "m.text"): Promise<string> {
return this.sendEvent(roomId, { body: body, msgtype: msgtype });
}
/**
* Sends an event to a room.
* @param {string} roomId The room ID to send the event to.
* @param {any} content The content of the event.
* @returns {Promise<string>} Resolves to the event ID of the sent event.
*/
@timedIntentFunctionCall()
public async sendEvent(roomId: string, content: any): Promise<string> {
await this.ensureRegisteredAndJoined(roomId);
return this.client.sendMessage(roomId, content);
}
/**
* Ensures the user is registered and joined to the given room.
* @param {string} roomId The room ID to join
* @returns {Promise<any>} Resolves when complete
*/
@timedIntentFunctionCall()
public async ensureRegisteredAndJoined(roomId: string) {
await this.ensureRegistered();
await this.ensureJoined(roomId);
}
/**
* Ensures the user is joined to the given room
* @param {string} roomId The room ID to join
* @returns {Promise<any>} Resolves when complete
*/
@timedIntentFunctionCall()
public async ensureJoined(roomId: string) {
if (this.knownJoinedRooms.indexOf(roomId) !== -1) {
return;
}
await this.refreshJoinedRooms();
if (this.knownJoinedRooms.indexOf(roomId) !== -1) {
return;
}
const returnedRoomId = await this.client.joinRoom(roomId);
if (!this.knownJoinedRooms.includes(returnedRoomId)) {
this.knownJoinedRooms.push(returnedRoomId);
}
return returnedRoomId;
}
/**
* Refreshes which rooms the user is joined to, potentially saving time on
* calls like ensureJoined()
* @returns {Promise<string[]>} Resolves to the joined room IDs for the user.
*/
@timedIntentFunctionCall()
public async refreshJoinedRooms(): Promise<string[]> {
this.knownJoinedRooms = await this.client.getJoinedRooms();
return this.knownJoinedRooms.map(r => r); // clone
}
/**
* Ensures the user is registered
* @param deviceId An optional device ID to register with.
* @returns {Promise<any>} Resolves when complete
*/
@timedIntentFunctionCall()
public async ensureRegistered(deviceId?: string) {
if (!(await Promise.resolve(this.storage.isUserRegistered(this.userId)))) {
try {
const result = await this.client.doRequest("POST", "/_matrix/client/v3/register", null, {
type: "m.login.application_service",
username: this.userId.substring(1).split(":")[0],
device_id: deviceId,
});
// HACK: Workaround for unit tests
if (result['errcode']) {
// noinspection ExceptionCaughtLocallyJS
throw { body: result }; // eslint-disable-line no-throw-literal
}
this.client.impersonateUserId(this.userId, result["device_id"]);
} catch (err) {
if (err instanceof MatrixError && err.errcode === "M_USER_IN_USE") {
await Promise.resolve(this.storage.addRegisteredUser(this.userId));
if (this.userId === this.appservice.botUserId) {
return null;
} else {
LogService.error("Appservice", "Error registering user: User ID is in use");
return null;
}
} else {
LogService.error("Appservice", "Encountered error registering user: ");
LogService.error("Appservice", extractRequestError(err));
}
throw err;
}
await Promise.resolve(this.storage.addRegisteredUser(this.userId));
}
}
}
Source