Jitsi Meet - Secure, Simple and Scalable Video Conferences that you use as a standalone app or embed in your web application.
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 
jitsi-meet/react/features/base/util/uri.js

553 lines
16 KiB

// @flow
import { normalizeNFKC } from './strings';
/**
* The app linking scheme.
* TODO: This should be read from the manifest files later.
*/
export const APP_LINK_SCHEME = 'org.jitsi.meet:';
/**
* A list of characters to be excluded/removed from the room component/segment
* of a conference/meeting URI/URL. The list is based on RFC 3986 and the jxmpp
* library utilized by jicofo.
*/
const _ROOM_EXCLUDE_PATTERN = '[\\:\\?#\\[\\]@!$&\'()*+,;=></"]';
/**
* The {@link RegExp} pattern of the authority of a URI.
*
* @private
* @type {string}
*/
const _URI_AUTHORITY_PATTERN = '(//[^/?#]+)';
/**
* The {@link RegExp} pattern of the path of a URI.
*
* @private
* @type {string}
*/
const _URI_PATH_PATTERN = '([^?#]*)';
/**
* The {@link RegExp} pattern of the protocol of a URI.
*
* FIXME: The URL class exposed by JavaScript will not include the colon in
* the protocol field. Also in other places (at the time of this writing:
* the DeepLinkingMobilePage.js) the APP_LINK_SCHEME does not include
* the double dots, so things are inconsistent.
*
* @type {string}
*/
export const URI_PROTOCOL_PATTERN = '^([a-z][a-z0-9\\.\\+-]*:)';
/**
* Excludes/removes certain characters from a specific room (name) which are
* incompatible with Jitsi Meet on the client and/or server sides.
*
* @param {?string} room - The room (name) to fix.
* @private
* @returns {?string}
*/
function _fixRoom(room: ?string) {
return room
? room.replace(new RegExp(_ROOM_EXCLUDE_PATTERN, 'g'), '')
: room;
}
/**
* Fixes the scheme part of a specific URI (string) so that it contains a
* well-known scheme such as HTTP(S). For example, the mobile app implements an
* app-specific URI scheme in addition to Universal Links. The app-specific
* scheme may precede or replace the well-known scheme. In such a case, dealing
* with the app-specific scheme only complicates the logic and it is simpler to
* get rid of it (by translating the app-specific scheme into a well-known
* scheme).
*
* @param {string} uri - The URI (string) to fix the scheme of.
* @private
* @returns {string}
*/
function _fixURIStringScheme(uri: string) {
const regex = new RegExp(`${URI_PROTOCOL_PATTERN}+`, 'gi');
const match: Array<string> | null = regex.exec(uri);
if (match) {
// As an implementation convenience, pick up the last scheme and make
// sure that it is a well-known one.
let protocol = match[match.length - 1].toLowerCase();
if (protocol !== 'http:' && protocol !== 'https:') {
protocol = 'https:';
}
/* eslint-disable no-param-reassign */
uri = uri.substring(regex.lastIndex);
if (uri.startsWith('//')) {
// The specified URL was not a room name only, it contained an
// authority.
uri = protocol + uri;
}
/* eslint-enable no-param-reassign */
}
return uri;
}
/**
* Converts a room name to a backend-safe format. Properly lowercased and url encoded.
*
* @param {string?} room - The room name to convert.
* @returns {string?}
*/
export function getBackendSafeRoomName(room: ?string): ?string {
if (!room) {
return room;
}
/* eslint-disable no-param-reassign */
try {
// We do not know if we get an already encoded string at this point
// as different platforms do it differently, but we need a decoded one
// for sure. However since decoding a non-encoded string is a noop, we're safe
// doing it here.
room = decodeURIComponent(room);
} catch (e) {
// This can happen though if we get an unencoded string and it contains
// some characters that look like an encoded entity, but it's not.
// But in this case we're fine goin on...
}
// Normalize the character set.
room = normalizeNFKC(room);
// Only decoded and normalized strings can be lowercased properly.
room = room.toLowerCase();
// But we still need to (re)encode it.
room = encodeURIComponent(room);
/* eslint-enable no-param-reassign */
// Unfortunately we still need to lowercase it, because encoding a string will
// add some uppercase characters, but some backend services
// expect it to be full lowercase. However lowercasing an encoded string
// doesn't change the string value.
return room.toLowerCase();
}
/**
* Gets the (Web application) context root defined by a specific location (URI).
*
* @param {Object} location - The location (URI) which defines the (Web
* application) context root.
* @public
* @returns {string} - The (Web application) context root defined by the
* specified {@code location} (URI).
*/
export function getLocationContextRoot({ pathname }: { pathname: string }) {
const contextRootEndIndex = pathname.lastIndexOf('/');
return (
contextRootEndIndex === -1
? '/'
: pathname.substring(0, contextRootEndIndex + 1));
}
/**
* Constructs a new {@code Array} with URL parameter {@code String}s out of a
* specific {@code Object}.
*
* @param {Object} obj - The {@code Object} to turn into URL parameter
* {@code String}s.
* @returns {Array<string>} The {@code Array} with URL parameter {@code String}s
* constructed out of the specified {@code obj}.
*/
function _objectToURLParamsArray(obj = {}) {
const params = [];
for (const key in obj) { // eslint-disable-line guard-for-in
try {
params.push(
`${key}=${encodeURIComponent(JSON.stringify(obj[key]))}`);
} catch (e) {
console.warn(`Error encoding ${key}: ${e}`);
}
}
return params;
}
/**
* Parses a specific URI string into an object with the well-known properties of
* the {@link Location} and/or {@link URL} interfaces implemented by Web
* browsers. The parsing attempts to be in accord with IETF's RFC 3986.
*
* @param {string} str - The URI string to parse.
* @public
* @returns {{
* hash: string,
* host: (string|undefined),
* hostname: (string|undefined),
* pathname: string,
* port: (string|undefined),
* protocol: (string|undefined),
* search: string
* }}
*/
export function parseStandardURIString(str: string) {
/* eslint-disable no-param-reassign */
const obj: Object = {
toString: _standardURIToString
};
let regex;
let match: Array<string> | null;
// XXX A URI string as defined by RFC 3986 does not contain any whitespace.
// Usually, a browser will have already encoded any whitespace. In order to
// avoid potential later problems related to whitespace in URI, strip any
// whitespace. Anyway, the Jitsi Meet app is not known to utilize unencoded
// whitespace so the stripping is deemed safe.
str = str.replace(/\s/g, '');
// protocol
regex = new RegExp(URI_PROTOCOL_PATTERN, 'gi');
match = regex.exec(str);
if (match) {
obj.protocol = match[1].toLowerCase();
str = str.substring(regex.lastIndex);
}
// authority
regex = new RegExp(`^${_URI_AUTHORITY_PATTERN}`, 'gi');
match = regex.exec(str);
if (match) {
let authority: string = match[1].substring(/* // */ 2);
str = str.substring(regex.lastIndex);
// userinfo
const userinfoEndIndex = authority.indexOf('@');
if (userinfoEndIndex !== -1) {
authority = authority.substring(userinfoEndIndex + 1);
}
obj.host = authority;
// port
const portBeginIndex = authority.lastIndexOf(':');
if (portBeginIndex !== -1) {
obj.port = authority.substring(portBeginIndex + 1);
authority = authority.substring(0, portBeginIndex);
}
// hostname
obj.hostname = authority;
}
// pathname
regex = new RegExp(`^${_URI_PATH_PATTERN}`, 'gi');
match = regex.exec(str);
let pathname: ?string;
if (match) {
pathname = match[1];
str = str.substring(regex.lastIndex);
}
if (pathname) {
pathname.startsWith('/') || (pathname = `/${pathname}`);
} else {
pathname = '/';
}
obj.pathname = pathname;
// query
if (str.startsWith('?')) {
let hashBeginIndex = str.indexOf('#', 1);
if (hashBeginIndex === -1) {
hashBeginIndex = str.length;
}
obj.search = str.substring(0, hashBeginIndex);
str = str.substring(hashBeginIndex);
} else {
obj.search = ''; // Google Chrome
}
// fragment
obj.hash = str.startsWith('#') ? str : '';
/* eslint-enable no-param-reassign */
return obj;
}
/**
* Parses a specific URI which (supposedly) references a Jitsi Meet resource
* (location).
*
* @param {(string|undefined)} uri - The URI to parse which (supposedly)
* references a Jitsi Meet resource (location).
* @public
* @returns {{
* contextRoot: string,
* hash: string,
* host: string,
* hostname: string,
* pathname: string,
* port: string,
* protocol: string,
* room: (string|undefined),
* search: string
* }}
*/
export function parseURIString(uri: ?string) {
if (typeof uri !== 'string') {
return undefined;
}
const obj = parseStandardURIString(_fixURIStringScheme(uri));
// Add the properties that are specific to a Jitsi Meet resource (location)
// such as contextRoot, room:
// contextRoot
obj.contextRoot = getLocationContextRoot(obj);
// The room (name) is the last component/segment of pathname.
const { pathname } = obj;
// XXX While the components/segments of pathname are URI encoded, Jitsi Meet
// on the client and/or server sides still don't support certain characters.
const contextRootEndIndex = pathname.lastIndexOf('/');
let room = pathname.substring(contextRootEndIndex + 1) || undefined;
if (room) {
const fixedRoom = _fixRoom(room);
if (fixedRoom !== room) {
room = fixedRoom;
// XXX Drive fixedRoom into pathname (because room is derived from
// pathname).
obj.pathname
= pathname.substring(0, contextRootEndIndex + 1) + (room || '');
}
}
obj.room = room;
return obj;
}
/**
* Implements {@code href} and {@code toString} for the {@code Object} returned
* by {@link #parseStandardURIString}.
*
* @param {Object} [thiz] - An {@code Object} returned by
* {@code #parseStandardURIString} if any; otherwise, it is presumed that the
* function is invoked on such an instance.
* @returns {string}
*/
function _standardURIToString(thiz: ?Object) {
// eslint-disable-next-line no-invalid-this
const { hash, host, pathname, protocol, search } = thiz || this;
let str = '';
protocol && (str += protocol);
// TODO userinfo
host && (str += `//${host}`);
str += pathname || '/';
search && (str += search);
hash && (str += hash);
return str;
}
/**
* Sometimes we receive strings that we don't know if already percent-encoded, or not, due to the
* various sources we get URLs or room names. This function encapsulates the decoding in a safe way.
*
* @param {string} text - The text to decode.
* @returns {string}
*/
export function safeDecodeURIComponent(text: string) {
try {
return decodeURIComponent(text);
} catch (e) {
// The text wasn't encoded.
}
return text;
}
/**
* Attempts to return a {@code String} representation of a specific
* {@code Object} which is supposed to represent a URL. Obviously, if a
* {@code String} is specified, it is returned. If a {@code URL} is specified,
* its {@code URL#href} is returned. Additionally, an {@code Object} similar to
* the one accepted by the constructor of Web's ExternalAPI is supported on both
* mobile/React Native and Web/React.
*
* @param {Object|string} obj - The URL to return a {@code String}
* representation of.
* @returns {string} - A {@code String} representation of the specified
* {@code obj} which is supposed to represent a URL.
*/
export function toURLString(obj: ?(Object | string)): ?string {
let str;
switch (typeof obj) {
case 'object':
if (obj) {
if (obj instanceof URL) {
str = obj.href;
} else {
str = urlObjectToString(obj);
}
}
break;
case 'string':
str = String(obj);
break;
}
return str;
}
/**
* Attempts to return a {@code String} representation of a specific
* {@code Object} similar to the one accepted by the constructor
* of Web's ExternalAPI.
*
* @param {Object} o - The URL to return a {@code String} representation of.
* @returns {string} - A {@code String} representation of the specified
* {@code Object}.
*/
export function urlObjectToString(o: Object): ?string {
// First normalize the given url. It come as o.url or split into o.serverURL
// and o.room.
let tmp;
if (o.serverURL && o.room) {
tmp = new URL(o.room, o.serverURL).toString();
} else if (o.room) {
tmp = o.room;
} else {
tmp = o.url || '';
}
const url = parseStandardURIString(_fixURIStringScheme(tmp));
// protocol
if (!url.protocol) {
let protocol: ?string = o.protocol || o.scheme;
if (protocol) {
// Protocol is supposed to be the scheme and the final ':'. Anyway,
// do not make a fuss if the final ':' is not there.
protocol.endsWith(':') || (protocol += ':');
url.protocol = protocol;
}
}
// authority & pathname
let { pathname } = url;
if (!url.host) {
// Web's ExternalAPI domain
//
// It may be host/hostname and pathname with the latter denoting the
// tenant.
const domain: ?string = o.domain || o.host || o.hostname;
if (domain) {
const { host, hostname, pathname: contextRoot, port }
= parseStandardURIString(
// XXX The value of domain in supposed to be host/hostname
// and, optionally, pathname. Make sure it is not taken for
// a pathname only.
_fixURIStringScheme(`${APP_LINK_SCHEME}//${domain}`));
// authority
if (host) {
url.host = host;
url.hostname = hostname;
url.port = port;
}
// pathname
pathname === '/' && contextRoot !== '/' && (pathname = contextRoot);
}
}
// pathname
// Web's ExternalAPI roomName
const room = o.roomName || o.room;
if (room
&& (url.pathname.endsWith('/')
|| !url.pathname.endsWith(`/${room}`))) {
pathname.endsWith('/') || (pathname += '/');
pathname += room;
}
url.pathname = pathname;
// query/search
// Web's ExternalAPI jwt
const { jwt } = o;
if (jwt) {
let { search } = url;
if (search.indexOf('?jwt=') === -1 && search.indexOf('&jwt=') === -1) {
search.startsWith('?') || (search = `?${search}`);
search.length === 1 || (search += '&');
search += `jwt=${jwt}`;
url.search = search;
}
}
// fragment/hash
let { hash } = url;
for (const urlPrefix of [ 'config', 'interfaceConfig', 'devices', 'userInfo' ]) {
const urlParamsArray
= _objectToURLParamsArray(
o[`${urlPrefix}Overwrite`]
|| o[urlPrefix]
|| o[`${urlPrefix}Override`]);
if (urlParamsArray.length) {
let urlParamsString
= `${urlPrefix}.${urlParamsArray.join(`&${urlPrefix}.`)}`;
if (hash.length) {
urlParamsString = `&${urlParamsString}`;
} else {
hash = '#';
}
hash += urlParamsString;
}
}
url.hash = hash;
return url.toString() || undefined;
}