gristlabs_grist-core/app/server/lib/Comm.ts

282 lines
11 KiB
TypeScript
Raw Normal View History

/**
* The server's Comm object implements communication with the client.
*
* The server receives requests, to which it sends a response (or an error). The server can
* also send asynchronous messages to the client. Available methods should be provided via
* comm.registerMethods().
*
* To send async messages, you may call broadcastMessage() or sendDocMessage().
*
* See app/client/components/Comm.ts for other details of the communication protocol.
*
*
* This module relies on the concept of a "Client" (see Client.ts). A Client corresponds to a
* browser window, and should persist across brief disconnects. A Client has a 'clientId'
* property, which uniquely identifies a client within the currently running server. Method
* registered with Comm always receive a Client object as the first argument.
*
* NOTES:
*
* The communication setup involves primarily the modules app/server/lib/{Comm,Client}.ts, and
* app/client/components/{Comm,GristWSConnection}.ts. In particular, these implement reconnect
* logic, which is particularly confusing as done here because it combines two layers:
*
* - Websocket-level reconnects, where an existing browser tab may reconnect and attempt to
* restore state seamlessly by recovering any missed messages.
*
* - Application-level reconnects, where even in case of a failed websocket-level reconnect (e.g.
* a reloaded browser tab, or existing tab that can't recover missed messages), the tab may
* connect to existing state. This matters for undo/redo history (to allow a user to undo after
* reloading a browser tab), but the only thing this relies on is preserving the clientId.
*
* In other words, there is an opportunity for untangling and simplifying.
*/
import {EventEmitter} from 'events';
import * as http from 'http';
import * as https from 'https';
import {GristSocketServer} from 'app/server/lib/GristSocketServer';
import {GristServerSocket} from 'app/server/lib/GristServerSocket';
import {parseFirstUrlPart} from 'app/common/gristUrls';
import {firstDefined, safeJsonParse} from 'app/common/gutil';
import {UserProfile} from 'app/common/LoginSessionAPI';
import * as version from 'app/common/version';
import {ScopedSession} from "app/server/lib/BrowserSession";
import {Client, ClientMethod} from "app/server/lib/Client";
import {Hosts, RequestWithOrg} from 'app/server/lib/extractOrg';
import {GristLoginMiddleware} from 'app/server/lib/GristServer';
import log from 'app/server/lib/log';
import {localeFromRequest} from 'app/server/lib/ServerLocale';
import {fromCallback} from 'app/server/lib/serverUtils';
import {Sessions} from 'app/server/lib/Sessions';
import {i18n} from 'i18next';
import { trustOrigin } from './requestUtils';
export interface CommOptions {
sessions: Sessions; // A collection of all sessions for this instance of Grist
settings?: {[key: string]: unknown}; // The config object containing instance settings including features.
hosts?: Hosts; // If set, we use hosts.getOrgInfo(req) to extract an organization from a (possibly versioned) url.
loginMiddleware?: GristLoginMiddleware; // If set, use custom getProfile method if available
httpsServer?: https.Server; // An optional HTTPS server to listen on too.
i18Instance?: i18n; // The i18next instance to use for translations.
}
/**
* Constructs a Comm object.
* @param {Object} server - The HTTP server.
* @param {Object} options.sessions - A collection of sessions
* @param {Object} options.settings - The config object containing instance settings
* including features.
* @param {Object} options.instanceManager - Instance manager, giving access to InstanceStore
* and per-instance objects. If null, HubUserClient will not be created.
* @param {Object} options.hosts - Hosts object from extractOrg.ts. if set, we use
* hosts.getOrgInfo(req) to extract an organization from a (possibly versioned) url.
*/
export class Comm extends EventEmitter {
// Collection of all sessions; maps sessionIds to ScopedSession objects.
public readonly sessions: Sessions = this._options.sessions;
private _wss: GristSocketServer[]|null = null;
private _clients = new Map<string, Client>(); // Maps clientIds to Client objects.
private _methods = new Map<string, ClientMethod>(); // Maps method names to their implementation.
// For testing, we need a way to override the server version reported.
// For upgrading, we use this to set the server version for a defunct server
// to "dead" so that a client will know that it needs to periodically recheck
// for a valid server.
private _serverVersion: string|null = null;
constructor(private _server: http.Server, private _options: CommOptions) {
super();
this._wss = this._startServer();
}
/**
* Registers server methods.
* @param {Object[String:Function]} Mapping of method name to their implementations. All methods
* receive the client as the first argument, and the arguments from the request.
*/
public registerMethods(serverMethods: {[name: string]: ClientMethod}): void {
// Wrap methods to translate return values and exceptions to promises.
for (const methodName in serverMethods) {
this._methods.set(methodName, serverMethods[methodName]);
}
}
/**
* Returns the Client object associated with the given clientId, or throws an Error if not found.
*/
public getClient(clientId: string): Client {
const client = this._clients.get(clientId);
if (!client) { throw new Error('Unrecognized clientId'); }
return client;
}
/**
* Returns a ScopedSession object with the given session id from the list of sessions,
* or adds a new one and returns that.
*/
public getOrCreateSession(sessionId: string, req: {org?: string}, userSelector: string = ''): ScopedSession {
// ScopedSessions are specific to a session id / org combination.
const org = req.org || "";
return this.sessions.getOrCreateSession(sessionId, org, userSelector);
}
/**
* Returns the sessionId from the signed grist cookie.
*/
public getSessionIdFromCookie(gristCookie: string): string|null {
return this.sessions.getSessionIdFromCookie(gristCookie) || null;
}
/**
* Broadcasts an app-level message to all clients. Only suitable for non-doc-specific messages.
*/
public broadcastMessage(type: 'docListAction', data: unknown) {
for (const client of this._clients.values()) {
client.sendMessage({type, data}).catch(() => {});
}
}
public removeClient(client: Client) {
this._clients.delete(client.clientId);
}
public async testServerShutdown() {
if (this._wss) {
for (const wssi of this._wss) {
await fromCallback((cb) => wssi.close(cb));
}
this._wss = null;
}
}
public async testServerRestart() {
await this.testServerShutdown();
this._wss = this._startServer();
}
/**
* Destroy all clients, forcing reconnections.
*/
public destroyAllClients() {
// Iterate over all clients. Take a copy of the list of clients since it will be changing
// during the loop as we remove them one by one.
for (const client of Array.from(this._clients.values())) {
client.interruptConnection();
client.destroy();
}
}
/**
* Override the version string Comm will report to clients.
* Call with null to reset the override.
*
*/
public setServerVersion(serverVersion: string|null) {
this._serverVersion = serverVersion;
}
/**
* Mark the server as active or inactive. If inactive, any client that manages to
* connect to it will read a server version of "dead".
*/
public setServerActivation(active: boolean) {
this._serverVersion = active ? null : 'dead';
}
/**
* Returns a profile based on the request or session.
*/
private async _getSessionProfile(scopedSession: ScopedSession, req: http.IncomingMessage): Promise<UserProfile|null> {
return await firstDefined(
async () => this._options.loginMiddleware?.overrideProfile?.(req),
async () => scopedSession.getSessionProfile(),
) || null;
}
/**
* Processes a new websocket connection, and associates the websocket and a Client object.
*/
private async _onWebSocketConnection(websocket: GristServerSocket, req: http.IncomingMessage) {
// Parse the cookie in the request to get the sessionId.
const sessionId = this.sessions.getSessionIdFromRequest(req);
const params = new URL(req.url!, `ws://${req.headers.host}`).searchParams;
const existingClientId = params.get('clientId');
const browserSettings = safeJsonParse(params.get('browserSettings') || '', {});
const newClient = (params.get('newClient') !== '0'); // Treat omitted as new, for the sake of tests.
const lastSeqIdStr = params.get('lastSeqId');
const lastSeqId = lastSeqIdStr ? parseInt(lastSeqIdStr) : null;
const counter = params.get('counter');
const userSelector = params.get('user') || '';
const scopedSession = this.getOrCreateSession(sessionId!, req as RequestWithOrg, userSelector);
const profile = await this._getSessionProfile(scopedSession, req);
// Associate an ID with each websocket, reusing the supplied one if it's valid.
let client: Client|undefined = this._clients.get(existingClientId!);
let reuseClient = true;
if (!client?.canAcceptConnection()) {
reuseClient = false;
client = new Client(this, this._methods, localeFromRequest(req), this._options.i18Instance);
this._clients.set(client.clientId, client);
}
log.rawInfo('Comm: Got Websocket connection', {...client.getLogMeta(), urlPath: req.url, reuseClient});
client.setSession(scopedSession); // Add a Session object to the client.
client.setOrg((req as RequestWithOrg).org || "");
client.setProfile(profile);
client.setConnection(websocket, counter, browserSettings);
await client.sendConnectMessage(newClient, reuseClient, lastSeqId, {
serverVersion: this._serverVersion || version.gitcommit,
settings: this._options.settings,
});
}
private _startServer() {
const servers = [this._server];
if (this._options.httpsServer) { servers.push(this._options.httpsServer); }
const wss = [];
for (const server of servers) {
const wssi = new GristSocketServer(server, {
verifyClient: async (req: http.IncomingMessage) => {
try {
if (this._options.hosts) {
// DocWorker ID (/dw/) and version tag (/v/) may be present in this request but are not
// needed. addOrgInfo assumes req.url starts with /o/ if present.
req.url = parseFirstUrlPart('dw', req.url!).path;
req.url = parseFirstUrlPart('v', req.url).path;
await this._options.hosts.addOrgInfo(req);
}
return trustOrigin(req);
} catch (err) {
// Consider exceptions (e.g. in parsing unexpected hostname) as failures to verify.
// In practice, we only see this happening for spammy/illegitimate traffic; there is
// no particular reason to log these.
return false;
}
}
});
wssi.onconnection = async (websocket: GristServerSocket, req) => {
try {
await this._onWebSocketConnection(websocket, req);
} catch (e) {
log.error("Comm connection for %s threw exception: %s", req.url, e.message);
websocket.terminate(); // close() is inadequate when ws routed via loadbalancer
}
};
wss.push(wssi);
}
return wss;
}
}