signal-desktop/ts/services/calling.ts
Jamie Kyle 9a9f9495f1
Support delete for call links
Co-authored-by: Fedor Indutny <79877362+indutny-signal@users.noreply.github.com>
2024-08-06 12:29:13 -07:00

3442 lines
103 KiB
TypeScript

// Copyright 2020 Signal Messenger, LLC
// SPDX-License-Identifier: AGPL-3.0-only
import type { DesktopCapturerSource } from 'electron';
import { ipcRenderer } from 'electron';
import type {
AudioDevice,
CallId,
DeviceId,
GroupCallObserver,
PeekInfo,
UserId,
VideoFrameSource,
VideoRequest,
} from '@signalapp/ringrtc';
import {
AnswerMessage,
BusyMessage,
Call,
CallingMessage,
CallMessageUrgency,
CallLinkRootKey,
CallLogLevel,
CallState,
CanvasVideoRenderer,
ConnectionState,
DataMode,
JoinState,
HttpMethod,
GroupCall,
GroupMemberInfo,
GumVideoCapturer,
HangupMessage,
HangupType,
IceCandidateMessage,
OfferMessage,
OpaqueMessage,
RingCancelReason,
RingRTC,
RingUpdate,
GroupCallKind,
} from '@signalapp/ringrtc';
import { uniqBy, noop, compact } from 'lodash';
import Long from 'long';
import type { CallLinkAuthCredentialPresentation } from '@signalapp/libsignal-client/zkgroup';
import {
CallLinkSecretParams,
CreateCallLinkCredentialRequestContext,
CreateCallLinkCredentialResponse,
GenericServerPublicParams,
} from '@signalapp/libsignal-client/zkgroup';
import { Aci } from '@signalapp/libsignal-client';
import type { GumVideoCaptureOptions } from '@signalapp/ringrtc/dist/ringrtc/VideoSupport';
import type {
ActionsType as CallingReduxActionsType,
GroupCallParticipantInfoType,
GroupCallPeekInfoType,
} from '../state/ducks/calling';
import type { ConversationType } from '../state/ducks/conversations';
import { getConversationCallMode } from '../state/ducks/conversations';
import { isMe } from '../util/whatTypeOfConversation';
import type {
AvailableIODevicesType,
CallEndedReason,
MediaDeviceSettings,
PresentableSource,
PresentedSource,
} from '../types/Calling';
import {
GroupCallConnectionState,
GroupCallJoinState,
ScreenShareStatus,
} from '../types/Calling';
import { CallMode, LocalCallEvent } from '../types/CallDisposition';
import {
findBestMatchingAudioDeviceIndex,
findBestMatchingCameraId,
} from '../calling/findBestMatchingDevice';
import type { LocalizerType } from '../types/Util';
import { normalizeAci } from '../util/normalizeAci';
import { isAciString } from '../util/isAciString';
import * as Errors from '../types/errors';
import type { ConversationModel } from '../models/conversations';
import * as Bytes from '../Bytes';
import { uuidToBytes, bytesToUuid } from '../util/uuidToBytes';
import { drop } from '../util/drop';
import { dropNull } from '../util/dropNull';
import { getOwn } from '../util/getOwn';
import * as durations from '../util/durations';
import { clearTimeoutIfNecessary } from '../util/clearTimeoutIfNecessary';
import { fetchMembershipProof, getMembershipList } from '../groups';
import type { ProcessedEnvelope } from '../textsecure/Types.d';
import type { GetIceServersResultType } from '../textsecure/WebAPI';
import { missingCaseError } from '../util/missingCaseError';
import { normalizeGroupCallTimestamp } from '../util/ringrtc/normalizeGroupCallTimestamp';
import {
AUDIO_LEVEL_INTERVAL_MS,
REQUESTED_VIDEO_WIDTH,
REQUESTED_VIDEO_HEIGHT,
REQUESTED_VIDEO_FRAMERATE,
} from '../calling/constants';
import { callingMessageToProto } from '../util/callingMessageToProto';
import { requestMicrophonePermissions } from '../util/requestMicrophonePermissions';
import OS from '../util/os/osMain';
import { SignalService as Proto } from '../protobuf';
import { DataReader, DataWriter } from '../sql/Client';
import {
notificationService,
NotificationSetting,
FALLBACK_NOTIFICATION_TITLE,
NotificationType,
shouldSaveNotificationAvatarToDisk,
} from './notifications';
import * as log from '../logging/log';
import { assertDev, strictAssert } from '../util/assert';
import {
formatLocalDeviceState,
formatPeekInfo,
getPeerIdFromConversation,
getLocalCallEventFromCallEndedReason,
getCallDetailsFromEndedDirectCall,
getCallEventDetails,
getLocalCallEventFromJoinState,
getLocalCallEventFromDirectCall,
getCallDetailsFromDirectCall,
getCallDetailsFromGroupCallMeta,
updateCallHistoryFromLocalEvent,
getGroupCallMeta,
getCallIdFromRing,
getLocalCallEventFromRingUpdate,
convertJoinState,
updateAdhocCallHistory,
getCallIdFromEra,
getCallDetailsForAdhocCall,
} from '../util/callDisposition';
import { isNormalNumber } from '../util/isNormalNumber';
import type { AciString, ServiceIdString } from '../types/ServiceId';
import { isServiceIdString } from '../types/ServiceId';
import { isInSystemContacts } from '../util/isInSystemContacts';
import { toAdminKeyBytes } from '../util/callLinks';
import {
getCallLinkAuthCredentialPresentation,
getRoomIdFromRootKey,
callLinkRestrictionsToRingRTC,
callLinkStateFromRingRTC,
} from '../util/callLinksRingrtc';
import { isAdhocCallingEnabled } from '../util/isAdhocCallingEnabled';
import {
conversationJobQueue,
conversationQueueJobEnum,
} from '../jobs/conversationJobQueue';
import type { CallLinkType, CallLinkStateType } from '../types/CallLink';
import { CallLinkRestrictions } from '../types/CallLink';
import { getConversationIdForLogging } from '../util/idForLogging';
import {
sendCallLinkDeleteSync,
sendCallLinkUpdateSync,
} from '../util/sendCallLinkUpdateSync';
import { createIdenticon } from '../util/createIdenticon';
import { getColorForCallLink } from '../util/getColorForCallLink';
const { wasGroupCallRingPreviouslyCanceled } = DataReader;
const {
processGroupCallRingCancellation,
cleanExpiredGroupCallRingCancellations,
} = DataWriter;
const RINGRTC_HTTP_METHOD_TO_OUR_HTTP_METHOD: Map<
HttpMethod,
'GET' | 'PUT' | 'POST' | 'DELETE'
> = new Map([
[HttpMethod.Get, 'GET'],
[HttpMethod.Put, 'PUT'],
[HttpMethod.Post, 'POST'],
[HttpMethod.Delete, 'DELETE'],
]);
const CLEAN_EXPIRED_GROUP_CALL_RINGS_INTERVAL = 10 * durations.MINUTE;
const ICE_SERVER_IS_IP_LIKE = /(turn|turns|stun):[.\d]+/;
const MAX_CALL_DEBUG_STATS_TABS = 5;
// We send group call update messages to tell other clients to peek, which triggers
// notifications, timeline messages, big green "Join" buttons, and so on. This enum
// represents the three possible states we can be in. This helps ensure that we don't
// send an update on disconnect if we never sent one when we joined.
enum GroupCallUpdateMessageState {
SentNothing,
SentJoin,
SentLeft,
}
type CallingReduxInterface = Pick<
CallingReduxActionsType,
| 'callStateChange'
| 'cancelIncomingGroupCallRing'
| 'groupCallAudioLevelsChange'
| 'groupCallEnded'
| 'groupCallRaisedHandsChange'
| 'groupCallStateChange'
| 'joinedAdhocCall'
| 'outgoingCall'
| 'receiveGroupCallReactions'
| 'receiveIncomingDirectCall'
| 'receiveIncomingGroupCall'
| 'refreshIODevices'
| 'remoteSharingScreenChange'
| 'remoteVideoChange'
| 'setPresenting'
| 'startCallingLobby'
| 'startCallLinkLobby'
| 'startCallLinkLobbyByRoomId'
| 'peekNotConnectedGroupCall'
> & {
areAnyCallsActiveOrRinging(): boolean;
};
function isScreenSource(source: PresentedSource): boolean {
return source.id.startsWith('screen');
}
function truncateForLogging(name: string | undefined): string | undefined {
if (!name || name.length <= 4) {
return name;
}
return `${name.slice(0, 2)}...${name.slice(-2)}`;
}
function cleanForLogging(settings?: MediaDeviceSettings): unknown {
if (!settings) {
return settings;
}
return {
availableCameras: settings.availableCameras.map(camera => {
const { deviceId, kind, label, groupId } = camera;
return {
deviceId,
kind,
label: truncateForLogging(label),
groupId,
};
}),
availableMicrophones: settings.availableMicrophones.map(device => {
return truncateForLogging(device.name);
}),
availableSpeakers: settings.availableSpeakers.map(device => {
return truncateForLogging(device.name);
}),
selectedMicrophone: truncateForLogging(settings.selectedMicrophone?.name),
selectedSpeaker: truncateForLogging(settings.selectedSpeaker?.name),
selectedCamera: settings.selectedCamera,
};
}
function translateSourceName(
i18n: LocalizerType,
source: PresentedSource
): string {
const { name } = source;
if (!isScreenSource(source)) {
return name;
}
if (name === 'Entire Screen') {
return i18n('icu:calling__SelectPresentingSourcesModal--entireScreen');
}
const match = name.match(/^Screen (\d+)$/);
if (match) {
return i18n('icu:calling__SelectPresentingSourcesModal--screen', {
id: match[1],
});
}
return name;
}
function protoToCallingMessage({
offer,
answer,
iceCandidates,
busy,
hangup,
destinationDeviceId,
opaque,
}: Proto.ICallingMessage): CallingMessage {
const newIceCandidates: Array<IceCandidateMessage> = [];
if (iceCandidates) {
iceCandidates.forEach(candidate => {
if (candidate.callId && candidate.opaque) {
newIceCandidates.push(
new IceCandidateMessage(
candidate.callId,
Buffer.from(candidate.opaque)
)
);
}
});
}
return {
offer:
offer && offer.callId && offer.opaque
? new OfferMessage(
offer.callId,
dropNull(offer.type) as number,
Buffer.from(offer.opaque)
)
: undefined,
answer:
answer && answer.callId && answer.opaque
? new AnswerMessage(answer.callId, Buffer.from(answer.opaque))
: undefined,
iceCandidates: newIceCandidates.length > 0 ? newIceCandidates : undefined,
busy: busy && busy.callId ? new BusyMessage(busy.callId) : undefined,
hangup:
hangup && hangup.callId
? new HangupMessage(
hangup.callId,
dropNull(hangup.type) as number,
hangup.deviceId || 0
)
: undefined,
destinationDeviceId: dropNull(destinationDeviceId),
opaque: opaque
? {
data: opaque.data ? Buffer.from(opaque.data) : undefined,
}
: undefined,
};
}
export type NotifyScreenShareStatusOptionsType = Readonly<
{
conversationId?: string;
isPresenting: boolean;
} & (
| {
callMode: CallMode.Direct;
callState: CallState;
}
| {
callMode: CallMode.Group | CallMode.Adhoc;
connectionState: GroupCallConnectionState;
}
)
>;
export class CallingClass {
readonly videoCapturer: GumVideoCapturer;
readonly videoRenderer: CanvasVideoRenderer;
private reduxInterface?: CallingReduxInterface;
public _sfuUrl?: string;
public _iceServerOverride?: GetIceServersResultType | string;
private lastMediaDeviceSettings?: MediaDeviceSettings;
private deviceReselectionTimer?: NodeJS.Timeout;
private callsLookup: { [key: string]: Call | GroupCall };
private hadLocalVideoBeforePresenting?: boolean;
private currentRtcStatsInterval: number | null = null;
private callDebugNumber: number = 0;
// Send our profile key to other participants in call link calls to ensure they
// can see our profile info. Only send once per aci until the next app start.
private sendProfileKeysForAdhocCallCache: Set<AciString>;
constructor() {
this.videoCapturer = new GumVideoCapturer({
maxWidth: REQUESTED_VIDEO_WIDTH,
maxHeight: REQUESTED_VIDEO_HEIGHT,
maxFramerate: REQUESTED_VIDEO_FRAMERATE,
});
this.videoRenderer = new CanvasVideoRenderer();
this.callsLookup = {};
this.sendProfileKeysForAdhocCallCache = new Set();
}
initialize(reduxInterface: CallingReduxInterface, sfuUrl: string): void {
this.reduxInterface = reduxInterface;
if (!reduxInterface) {
throw new Error('CallingClass.initialize: Invalid uxActions.');
}
this._sfuUrl = sfuUrl;
RingRTC.setConfig({
field_trials: undefined,
});
RingRTC.handleOutgoingSignaling = this.handleOutgoingSignaling.bind(this);
RingRTC.handleIncomingCall = this.handleIncomingCall.bind(this);
RingRTC.handleStartCall = this.handleStartCall.bind(this);
RingRTC.handleAutoEndedIncomingCallRequest =
this.handleAutoEndedIncomingCallRequest.bind(this);
RingRTC.handleLogMessage = this.handleLogMessage.bind(this);
RingRTC.handleSendHttpRequest = this.handleSendHttpRequest.bind(this);
RingRTC.handleSendCallMessage = this.handleSendCallMessage.bind(this);
RingRTC.handleSendCallMessageToGroup =
this.handleSendCallMessageToGroup.bind(this);
RingRTC.handleGroupCallRingUpdate =
this.handleGroupCallRingUpdate.bind(this);
RingRTC.handleRtcStatsReport = this.handleRtcStatsReport.bind(this);
this.attemptToGiveOurServiceIdToRingRtc();
window.Whisper.events.on('userChanged', () => {
this.attemptToGiveOurServiceIdToRingRtc();
});
ipcRenderer.on('stop-screen-share', () => {
reduxInterface.setPresenting();
});
ipcRenderer.on(
'calling:set-rtc-stats-interval',
(_, intervalMillis: number | null) => {
this.setAllRtcStatsInterval(intervalMillis);
}
);
drop(this.cleanExpiredGroupCallRingsAndLoop());
drop(this.cleanupStaleRingingCalls());
if (process.platform === 'darwin') {
drop(this.enumerateMediaDevices());
}
}
private maybeUpdateRtcLogging(groupCall: GroupCall): void {
if (!this.currentRtcStatsInterval) {
return;
}
groupCall.setRtcStatsInterval(this.currentRtcStatsInterval);
this.callDebugNumber =
(this.callDebugNumber + 1) % MAX_CALL_DEBUG_STATS_TABS;
}
private attemptToGiveOurServiceIdToRingRtc(): void {
const ourAci = window.textsecure.storage.user.getAci();
if (!ourAci) {
// This can happen if we're not linked. It's okay if we hit this case.
return;
}
RingRTC.setSelfUuid(Buffer.from(uuidToBytes(ourAci)));
}
async startCallingLobby({
conversation,
hasLocalAudio,
hasLocalVideo,
}: Readonly<{
conversation: Readonly<ConversationType>;
hasLocalAudio: boolean;
hasLocalVideo: boolean;
}>): Promise<
| undefined
| ({ hasLocalAudio: boolean; hasLocalVideo: boolean } & (
| { callMode: CallMode.Direct }
| {
callMode: CallMode.Group;
connectionState: GroupCallConnectionState;
joinState: GroupCallJoinState;
peekInfo?: GroupCallPeekInfoType;
remoteParticipants: Array<GroupCallParticipantInfoType>;
}
))
> {
log.info('CallingClass.startCallingLobby()');
const callMode = getConversationCallMode(conversation);
switch (callMode) {
case null:
log.error('Conversation does not support calls, new call not allowed.');
return;
case CallMode.Direct: {
const conversationModel = window.ConversationController.get(
conversation.id
);
if (
!conversationModel ||
!this.getRemoteUserIdFromConversation(conversationModel)
) {
log.error('Missing remote user identifier, new call not allowed.');
return;
}
break;
}
case CallMode.Group:
break;
case CallMode.Adhoc:
log.error(
'startCallingLobby() not implemented for adhoc calls. Did you mean: startCallLinkLobby()?'
);
return;
default:
throw missingCaseError(callMode);
}
if (!this.reduxInterface) {
log.error('Missing uxActions, new call not allowed.');
return;
}
if (!this.localDeviceId) {
log.error('Missing local device identifier, new call not allowed.');
return;
}
const haveMediaPermissions = await this.requestPermissions(hasLocalVideo);
if (!haveMediaPermissions) {
log.info('Permissions were denied, new call not allowed.');
return;
}
log.info('CallingClass.startCallingLobby(): Starting lobby');
// It's important that this function comes before any calls to
// `videoCapturer.enableCapture` or `videoCapturer.enableCaptureAndSend` because of
// a small RingRTC bug.
//
// If we tell RingRTC to start capturing video (with those methods or with
// `RingRTC.setPreferredDevice`, which also captures video) multiple times in quick
// succession, it will call the asynchronous `getUserMedia` twice. It'll save the
// results in the same variable, which means the first call can be overridden.
// Later, when we try to turn the camera off, we'll only disable the *second* result
// of `getUserMedia` and the camera will stay on.
//
// We get around this by `await`ing, making sure we're all done with `getUserMedia`,
// and then continuing.
//
// We should be able to move this below `this.connectGroupCall` once that RingRTC bug
// is fixed. See DESKTOP-1032.
await this.startDeviceReselectionTimer();
const enableLocalCameraIfNecessary = hasLocalVideo
? () => this.enableLocalCamera()
: noop;
switch (callMode) {
case CallMode.Direct:
// We could easily support this in the future if we need to.
assertDev(
hasLocalAudio,
'Expected local audio to be enabled for direct call lobbies'
);
enableLocalCameraIfNecessary();
return {
callMode: CallMode.Direct,
hasLocalAudio,
hasLocalVideo,
};
case CallMode.Group: {
if (
!conversation.groupId ||
!conversation.publicParams ||
!conversation.secretParams
) {
log.error(
'Conversation is missing required parameters. Cannot connect group call'
);
return;
}
const groupCall = this.connectGroupCall(conversation.id, {
groupId: conversation.groupId,
publicParams: conversation.publicParams,
secretParams: conversation.secretParams,
});
groupCall.setOutgoingAudioMuted(!hasLocalAudio);
groupCall.setOutgoingVideoMuted(!hasLocalVideo);
enableLocalCameraIfNecessary();
return {
callMode: CallMode.Group,
...this.formatGroupCallForRedux(groupCall),
};
}
default:
throw missingCaseError(callMode);
}
}
stopCallingLobby(conversationId?: string): void {
this.disableLocalVideo();
this.stopDeviceReselectionTimer();
this.lastMediaDeviceSettings = undefined;
if (conversationId) {
this.getGroupCall(conversationId)?.disconnect();
}
}
async createCallLink(): Promise<CallLinkType> {
strictAssert(
this._sfuUrl,
'createCallLink() missing SFU URL; not creating call link'
);
const sfuUrl = this._sfuUrl;
const userId = Aci.parseFromServiceIdString(
window.textsecure.storage.user.getCheckedAci()
);
const rootKey = CallLinkRootKey.generate();
const roomId = rootKey.deriveRoomId();
const roomIdHex = roomId.toString('hex');
const logId = `createCallLink(${roomIdHex})`;
log.info(`${logId}: Creating call link`);
const adminKey = CallLinkRootKey.generateAdminPassKey();
const context = CreateCallLinkCredentialRequestContext.forRoomId(roomId);
const requestBase64 = Bytes.toBase64(context.getRequest().serialize());
strictAssert(
window.textsecure.messaging,
'createCallLink(): We are offline'
);
const { credential: credentialBase64 } =
await window.textsecure.messaging.server.callLinkCreateAuth(
requestBase64
);
const response = new CreateCallLinkCredentialResponse(
Buffer.from(credentialBase64, 'base64')
);
const genericServerPublicParams = new GenericServerPublicParams(
Buffer.from(window.getGenericServerPublicParams(), 'base64')
);
const credential = context.receive(
response,
userId,
genericServerPublicParams
);
const secretParams = CallLinkSecretParams.deriveFromRootKey(rootKey.bytes);
const credentialPresentation = credential
.present(roomId, userId, genericServerPublicParams, secretParams)
.serialize();
const serializedPublicParams = secretParams.getPublicParams().serialize();
const result = await RingRTC.createCallLink(
sfuUrl,
credentialPresentation,
rootKey,
adminKey,
serializedPublicParams,
CallLinkRestrictions.AdminApproval
);
if (!result.success) {
const message = `Failed to create call link: ${result.errorStatusCode}`;
log.error(`${logId}: ${message}`);
throw new Error(message);
}
log.info(`${logId}: success`);
const state = callLinkStateFromRingRTC(result.value);
const callLink: CallLinkType = {
roomId: roomIdHex,
rootKey: rootKey.toString(),
adminKey: adminKey.toString('base64'),
...state,
};
drop(sendCallLinkUpdateSync(callLink));
return callLink;
}
async deleteCallLink(callLink: CallLinkType): Promise<void> {
strictAssert(
this._sfuUrl,
'createCallLink() missing SFU URL; not deleting call link'
);
const sfuUrl = this._sfuUrl;
const logId = `deleteCallLink(${callLink.roomId})`;
const callLinkRootKey = CallLinkRootKey.parse(callLink.rootKey);
strictAssert(callLink.adminKey, 'Missing admin key');
const callLinkAdminKey = toAdminKeyBytes(callLink.adminKey);
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const result = await RingRTC.deleteCallLink(
sfuUrl,
authCredentialPresentation.serialize(),
callLinkRootKey,
callLinkAdminKey
);
if (!result.success) {
if (result.errorStatusCode === 404) {
log.info(`${logId}: Call link not found, already deleted`);
return;
}
const message = `Failed to delete call link: ${result.errorStatusCode}`;
log.error(`${logId}: ${message}`);
throw new Error(message);
}
drop(sendCallLinkDeleteSync(callLink));
}
async updateCallLinkName(
callLink: CallLinkType,
name: string
): Promise<CallLinkStateType> {
strictAssert(
this._sfuUrl,
'updateCallLinkName() missing SFU URL; not update call link name'
);
const sfuUrl = this._sfuUrl;
const logId = `updateCallLinkName(${callLink.roomId})`;
log.info(`${logId}: Updating call link name`);
const callLinkRootKey = CallLinkRootKey.parse(callLink.rootKey);
strictAssert(callLink.adminKey, 'Missing admin key');
const callLinkAdminKey = toAdminKeyBytes(callLink.adminKey);
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const result = await RingRTC.updateCallLinkName(
sfuUrl,
authCredentialPresentation.serialize(),
callLinkRootKey,
callLinkAdminKey,
name
);
if (!result.success) {
const message = `Failed to update call link name: ${result.errorStatusCode}`;
log.error(`${logId}: ${message}`);
throw new Error(message);
}
drop(sendCallLinkUpdateSync(callLink));
log.info(`${logId}: success`);
return callLinkStateFromRingRTC(result.value);
}
async updateCallLinkRestrictions(
callLink: CallLinkType,
restrictions: CallLinkRestrictions
): Promise<CallLinkStateType> {
strictAssert(
this._sfuUrl,
'updateCallLinkRestrictions() missing SFU URL; not update call link restrictions'
);
const sfuUrl = this._sfuUrl;
const logId = `updateCallLinkRestrictions(${callLink.roomId})`;
log.info(`${logId}: Updating call link restrictions`);
const callLinkRootKey = CallLinkRootKey.parse(callLink.rootKey);
strictAssert(callLink.adminKey, 'Missing admin key');
const callLinkAdminKey = toAdminKeyBytes(callLink.adminKey);
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const newRestrictions = callLinkRestrictionsToRingRTC(restrictions);
strictAssert(
newRestrictions !== CallLinkRestrictions.Unknown,
'Invalid call link restrictions value'
);
const result = await RingRTC.updateCallLinkRestrictions(
sfuUrl,
authCredentialPresentation.serialize(),
callLinkRootKey,
callLinkAdminKey,
newRestrictions
);
if (!result.success) {
const message = `Failed to update call link restrictions: ${result.errorStatusCode}`;
log.error(`${logId}: ${message}`);
throw new Error(message);
}
drop(sendCallLinkUpdateSync(callLink));
log.info(`${logId}: success`);
return callLinkStateFromRingRTC(result.value);
}
async readCallLink(
callLinkRootKey: CallLinkRootKey
): Promise<CallLinkStateType | null> {
if (!this._sfuUrl) {
throw new Error('readCallLink() missing SFU URL; not handling call link');
}
const roomId = getRoomIdFromRootKey(callLinkRootKey);
const logId = `readCallLink(${roomId})`;
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const result = await RingRTC.readCallLink(
this._sfuUrl,
authCredentialPresentation.serialize(),
callLinkRootKey
);
if (!result.success) {
log.warn(`${logId}: failed with status ${result.errorStatusCode}`);
if (result.errorStatusCode === 404) {
return null;
}
throw new Error(`Failed to read call link: ${result.errorStatusCode}`);
}
log.info(`${logId}: success`);
return callLinkStateFromRingRTC(result.value);
}
async startCallLinkLobby({
callLinkRootKey,
adminPasskey,
hasLocalAudio,
hasLocalVideo = true,
}: Readonly<{
callLinkRootKey: CallLinkRootKey;
adminPasskey: Buffer | undefined;
hasLocalAudio: boolean;
hasLocalVideo?: boolean;
}>): Promise<
| undefined
| {
callMode: CallMode.Adhoc;
connectionState: GroupCallConnectionState;
hasLocalAudio: boolean;
hasLocalVideo: boolean;
joinState: GroupCallJoinState;
peekInfo?: GroupCallPeekInfoType;
remoteParticipants: Array<GroupCallParticipantInfoType>;
}
> {
const roomId = getRoomIdFromRootKey(callLinkRootKey);
log.info('startCallLinkLobby() for roomId', roomId);
await this.startDeviceReselectionTimer();
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const groupCall = this.connectCallLinkCall({
roomId,
authCredentialPresentation,
callLinkRootKey,
adminPasskey,
});
groupCall.setOutgoingAudioMuted(!hasLocalAudio);
groupCall.setOutgoingVideoMuted(!hasLocalVideo);
this.enableLocalCamera();
return {
callMode: CallMode.Adhoc,
...this.formatGroupCallForRedux(groupCall),
};
}
async startOutgoingDirectCall(
conversationId: string,
hasLocalAudio: boolean,
hasLocalVideo: boolean
): Promise<void> {
log.info('CallingClass.startOutgoingDirectCall()');
if (!this.reduxInterface) {
throw new Error('Redux actions not available');
}
const conversation = window.ConversationController.get(conversationId);
if (!conversation) {
log.error('Could not find conversation, cannot start call');
this.stopCallingLobby();
return;
}
const remoteUserId = this.getRemoteUserIdFromConversation(conversation);
if (!remoteUserId || !this.localDeviceId) {
log.error('Missing identifier, new call not allowed.');
this.stopCallingLobby();
return;
}
const haveMediaPermissions = await this.requestPermissions(hasLocalVideo);
if (!haveMediaPermissions) {
log.info('Permissions were denied, new call not allowed.');
this.stopCallingLobby();
return;
}
log.info('CallingClass.startOutgoingDirectCall(): Getting call settings');
// Check state after awaiting to debounce call button.
if (RingRTC.call && RingRTC.call.state !== CallState.Ended) {
log.info('Call already in progress, new call not allowed.');
this.stopCallingLobby();
return;
}
log.info('CallingClass.startOutgoingDirectCall(): Starting in RingRTC');
const call = RingRTC.startOutgoingCall(
remoteUserId,
hasLocalVideo,
this.localDeviceId
);
RingRTC.setOutgoingAudio(call.callId, hasLocalAudio);
RingRTC.setVideoCapturer(call.callId, this.videoCapturer);
RingRTC.setVideoRenderer(call.callId, this.videoRenderer);
this.attachToCall(conversation, call);
this.reduxInterface.outgoingCall({
conversationId: conversation.id,
hasLocalAudio,
hasLocalVideo,
});
await this.startDeviceReselectionTimer();
}
private getDirectCall(conversationId: string): undefined | Call {
const call = getOwn(this.callsLookup, conversationId);
return call instanceof Call ? call : undefined;
}
private getGroupCall(conversationId: string): undefined | GroupCall {
const call = getOwn(this.callsLookup, conversationId);
return call instanceof GroupCall ? call : undefined;
}
private getGroupCallMembers(conversationId: string) {
return getMembershipList(conversationId).map(
member =>
new GroupMemberInfo(
Buffer.from(uuidToBytes(member.aci)),
Buffer.from(member.uuidCiphertext)
)
);
}
public async cleanupStaleRingingCalls(): Promise<void> {
const calls = await DataWriter.getRecentStaleRingsAndMarkOlderMissed();
const results = await Promise.all(
calls.map(async call => {
const peekInfo = await this.peekGroupCall(call.peerId);
return { callId: call.callId, peekInfo };
})
);
const staleCallIds = results
.filter(result => {
return result.peekInfo == null;
})
.map(result => {
return result.callId;
});
await DataWriter.markCallHistoryMissed(staleCallIds);
}
public async peekGroupCall(conversationId: string): Promise<PeekInfo> {
// This can be undefined in two cases:
//
// 1. There is no group call instance. This is "stateless peeking", and is expected
// when we want to peek on a call that we've never connected to.
// 2. There is a group call instance but RingRTC doesn't have the peek info yet. This
// should only happen for a brief period as you connect to the call. (You probably
// don't want to call this function while a group call is connected—you should
// instead be grabbing the peek info off of the instance—but we handle it here
// to avoid possible race conditions.)
const statefulPeekInfo = this.getGroupCall(conversationId)?.getPeekInfo();
if (statefulPeekInfo) {
return statefulPeekInfo;
}
if (!this._sfuUrl) {
throw new Error('Missing SFU URL; not peeking group call');
}
const conversation = window.ConversationController.get(conversationId);
if (!conversation) {
throw new Error('Missing conversation; not peeking group call');
}
const publicParams = conversation.get('publicParams');
const secretParams = conversation.get('secretParams');
if (!publicParams || !secretParams) {
throw new Error(
'Conversation is missing required parameters. Cannot peek group call'
);
}
const proof = await fetchMembershipProof({ publicParams, secretParams });
if (!proof) {
throw new Error('No membership proof. Cannot peek group call');
}
const membershipProof = Bytes.fromString(proof);
return RingRTC.peekGroupCall(
this._sfuUrl,
Buffer.from(membershipProof),
this.getGroupCallMembers(conversationId)
);
}
public async peekCallLinkCall(
roomId: string,
rootKey: string | undefined
): Promise<PeekInfo> {
log.info(`peekCallLinkCall: For roomId ${roomId}`);
const statefulPeekInfo = this.getGroupCall(roomId)?.getPeekInfo();
if (statefulPeekInfo) {
return statefulPeekInfo;
}
if (!rootKey) {
throw new Error(
'Missing call link root key, cannot do stateless peeking'
);
}
if (!this._sfuUrl) {
throw new Error('Missing SFU URL; not peeking call link call');
}
const callLinkRootKey = CallLinkRootKey.parse(rootKey);
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const result = await RingRTC.peekCallLinkCall(
this._sfuUrl,
authCredentialPresentation.serialize(),
callLinkRootKey
);
if (!result.success) {
throw new Error(
`Failed to peek call link, error ${result.errorStatusCode}, roomId ${roomId}.`
);
}
return result.value;
}
/**
* Connect to a conversation's group call and connect it to Redux.
*
* Should only be called with group call-compatible conversations.
*
* Idempotent.
*/
connectGroupCall(
conversationId: string,
{
groupId,
publicParams,
secretParams,
}: {
groupId: string;
publicParams: string;
secretParams: string;
}
): GroupCall {
const existing = this.getGroupCall(conversationId);
if (existing) {
const isExistingCallNotConnected =
existing.getLocalDeviceState().connectionState ===
ConnectionState.NotConnected;
if (isExistingCallNotConnected) {
existing.connect();
}
return existing;
}
if (!this._sfuUrl) {
throw new Error('Missing SFU URL; not connecting group call');
}
const groupIdBuffer = Buffer.from(Bytes.fromBase64(groupId));
let isRequestingMembershipProof = false;
const outerGroupCall = RingRTC.getGroupCall(
groupIdBuffer,
this._sfuUrl,
Buffer.alloc(0),
AUDIO_LEVEL_INTERVAL_MS,
{
...this.getGroupCallObserver(conversationId, CallMode.Group),
async requestMembershipProof(groupCall) {
if (isRequestingMembershipProof) {
return;
}
isRequestingMembershipProof = true;
try {
const proof = await fetchMembershipProof({
publicParams,
secretParams,
});
if (proof) {
groupCall.setMembershipProof(
Buffer.from(Bytes.fromString(proof))
);
}
} catch (err) {
log.error('Failed to fetch membership proof', err);
} finally {
isRequestingMembershipProof = false;
}
},
}
);
if (!outerGroupCall) {
// This should be very rare, likely due to RingRTC not being able to get a lock
// or memory or something like that.
throw new Error('Failed to get a group call instance; cannot start call');
}
outerGroupCall.connect();
this.maybeUpdateRtcLogging(outerGroupCall);
this.syncGroupCallToRedux(conversationId, outerGroupCall, CallMode.Group);
return outerGroupCall;
}
connectCallLinkCall({
roomId,
authCredentialPresentation,
callLinkRootKey,
adminPasskey,
}: {
roomId: string;
authCredentialPresentation: CallLinkAuthCredentialPresentation;
callLinkRootKey: CallLinkRootKey;
adminPasskey: Buffer | undefined;
}): GroupCall {
if (!isAdhocCallingEnabled()) {
throw new Error(
'Adhoc calling is not enabled; not connecting call link call'
);
}
const existing = this.getGroupCall(roomId);
if (existing) {
const isExistingCallNotConnected =
existing.getLocalDeviceState().connectionState ===
ConnectionState.NotConnected;
if (isExistingCallNotConnected) {
existing.connect();
}
return existing;
}
if (!this._sfuUrl) {
throw new Error('Missing SFU URL; not connecting group call link call');
}
const outerGroupCall = RingRTC.getCallLinkCall(
this._sfuUrl,
authCredentialPresentation.serialize(),
callLinkRootKey,
adminPasskey,
Buffer.alloc(0),
AUDIO_LEVEL_INTERVAL_MS,
this.getGroupCallObserver(roomId, CallMode.Adhoc)
);
if (!outerGroupCall) {
// This should be very rare, likely due to RingRTC not being able to get a lock
// or memory or something like that.
throw new Error('Failed to get a group call instance; cannot start call');
}
outerGroupCall.connect();
this.maybeUpdateRtcLogging(outerGroupCall);
this.syncGroupCallToRedux(roomId, outerGroupCall, CallMode.Adhoc);
return outerGroupCall;
}
public async joinGroupCall(
conversationId: string,
hasLocalAudio: boolean,
hasLocalVideo: boolean,
shouldRing: boolean
): Promise<void> {
const conversation =
window.ConversationController.get(conversationId)?.format();
if (!conversation) {
log.error('Missing conversation; not joining group call');
return;
}
if (
!conversation.groupId ||
!conversation.publicParams ||
!conversation.secretParams
) {
log.error(
'Conversation is missing required parameters. Cannot join group call'
);
return;
}
const logId = `joinGroupCall(${getConversationIdForLogging(conversation)})`;
const haveMediaPermissions = await this.requestPermissions(hasLocalVideo);
if (!haveMediaPermissions) {
log.info('Permissions were denied, but allow joining group call');
}
await this.startDeviceReselectionTimer();
const groupCall = this.connectGroupCall(conversationId, {
groupId: conversation.groupId,
publicParams: conversation.publicParams,
secretParams: conversation.secretParams,
});
groupCall.setOutgoingAudioMuted(!hasLocalAudio);
groupCall.setOutgoingVideoMuted(!hasLocalVideo);
drop(this.enableCaptureAndSend(groupCall, null, logId));
if (shouldRing) {
groupCall.ringAll();
}
groupCall.join();
}
private getGroupCallObserver(
conversationId: string,
callMode: CallMode.Group | CallMode.Adhoc
): GroupCallObserver {
let updateMessageState = GroupCallUpdateMessageState.SentNothing;
const updateCallHistoryOnLocalChanged =
callMode === CallMode.Group
? this.updateCallHistoryForGroupCallOnLocalChanged.bind(this)
: this.updateCallHistoryForAdhocCall.bind(this);
const updateCallHistoryOnPeek =
callMode === CallMode.Group
? this.updateCallHistoryForGroupCallOnPeek.bind(this)
: this.updateCallHistoryForAdhocCall.bind(this);
const logId =
callMode === CallMode.Group
? `groupv2(${conversationId})`
: `adhoc(${conversationId})`;
return {
onLocalDeviceStateChanged: groupCall => {
const localDeviceState = groupCall.getLocalDeviceState();
const peekInfo = groupCall.getPeekInfo() ?? null;
const { eraId } = peekInfo ?? {};
log.info(
'GroupCall#onLocalDeviceStateChanged',
formatLocalDeviceState(localDeviceState),
peekInfo != null ? formatPeekInfo(peekInfo) : '(No PeekInfo)'
);
// For adhoc calls, conversationId will be a roomId
drop(
updateCallHistoryOnLocalChanged(
conversationId,
convertJoinState(localDeviceState.joinState),
peekInfo
)
);
if (localDeviceState.connectionState === ConnectionState.NotConnected) {
// NOTE: This assumes that only one call is active at a time. For example, if
// there are two calls using the camera, this will disable both of them.
// That's fine for now, but this will break if that assumption changes.
this.disableLocalVideo();
delete this.callsLookup[conversationId];
if (
updateMessageState === GroupCallUpdateMessageState.SentJoin &&
eraId
) {
updateMessageState = GroupCallUpdateMessageState.SentLeft;
if (callMode === CallMode.Group) {
drop(this.sendGroupCallUpdateMessage(conversationId, eraId));
}
}
} else {
this.callsLookup[conversationId] = groupCall;
// NOTE: This assumes only one active call at a time. See comment above.
if (localDeviceState.videoMuted) {
this.disableLocalVideo();
} else {
drop(this.enableCaptureAndSend(groupCall, null, logId));
}
// Call enters the Joined state, once per call.
// This can also happen in onPeekChanged.
if (
updateMessageState === GroupCallUpdateMessageState.SentNothing &&
localDeviceState.joinState === JoinState.Joined &&
eraId
) {
updateMessageState = GroupCallUpdateMessageState.SentJoin;
drop(
this.onGroupCallJoined({
peerId: conversationId,
eraId,
callMode,
peekInfo,
})
);
}
}
this.syncGroupCallToRedux(conversationId, groupCall, callMode);
},
onRemoteDeviceStatesChanged: groupCall => {
const localDeviceState = groupCall.getLocalDeviceState();
const peekInfo = groupCall.getPeekInfo();
log.info(
'GroupCall#onRemoteDeviceStatesChanged',
formatLocalDeviceState(localDeviceState),
peekInfo ? formatPeekInfo(peekInfo) : '(No PeekInfo)'
);
this.syncGroupCallToRedux(conversationId, groupCall, callMode);
if (callMode === CallMode.Adhoc) {
drop(
this.sendProfileKeysForAdhocCall({
roomId: conversationId,
peekInfo,
})
);
}
},
onAudioLevels: groupCall => {
const remoteDeviceStates = groupCall.getRemoteDeviceStates();
if (!remoteDeviceStates) {
return;
}
const localAudioLevel = groupCall.getLocalDeviceState().audioLevel;
this.reduxInterface?.groupCallAudioLevelsChange({
callMode,
conversationId,
localAudioLevel,
remoteDeviceStates,
});
},
onLowBandwidthForVideo: (_groupCall, _recovered) => {
// TODO: Implement handling of "low outgoing bandwidth for video" notification.
},
/**
* @param reactions A list of reactions received by the client ordered
* from oldest to newest.
*/
onReactions: (_groupCall, reactions) => {
this.reduxInterface?.receiveGroupCallReactions({
callMode,
conversationId,
reactions,
});
},
onRaisedHands: (_groupCall, raisedHands) => {
this.reduxInterface?.groupCallRaisedHandsChange({
callMode,
conversationId,
raisedHands,
});
},
onPeekChanged: groupCall => {
const localDeviceState = groupCall.getLocalDeviceState();
const peekInfo = groupCall.getPeekInfo() ?? null;
const { eraId } = peekInfo ?? {};
log.info(
'GroupCall#onPeekChanged',
formatLocalDeviceState(localDeviceState),
peekInfo ? formatPeekInfo(peekInfo) : '(No PeekInfo)'
);
// Call enters the Joined state, once per call.
// This can also happen in onLocalDeviceStateChanged.
if (
updateMessageState === GroupCallUpdateMessageState.SentNothing &&
localDeviceState.connectionState !== ConnectionState.NotConnected &&
localDeviceState.joinState === JoinState.Joined &&
eraId
) {
updateMessageState = GroupCallUpdateMessageState.SentJoin;
drop(
this.onGroupCallJoined({
peerId: conversationId,
eraId,
callMode,
peekInfo,
})
);
}
// For adhoc calls, conversationId will be a roomId
drop(
updateCallHistoryOnPeek(
conversationId,
convertJoinState(localDeviceState.joinState),
peekInfo
)
);
this.syncGroupCallToRedux(conversationId, groupCall, callMode);
},
async requestMembershipProof(_groupCall) {
log.error('GroupCall#requestMembershipProof not implemented.');
},
requestGroupMembers: groupCall => {
groupCall.setGroupMembers(this.getGroupCallMembers(conversationId));
},
onEnded: (groupCall, endedReason) => {
const localDeviceState = groupCall.getLocalDeviceState();
const peekInfo = groupCall.getPeekInfo();
log.info(
'GroupCall#onEnded',
endedReason,
formatLocalDeviceState(localDeviceState),
peekInfo ? formatPeekInfo(peekInfo) : '(No PeekInfo)'
);
this.reduxInterface?.groupCallEnded({
conversationId,
endedReason,
});
},
};
}
private async onGroupCallJoined({
callMode,
peerId,
eraId,
peekInfo,
}: {
callMode: CallMode.Group | CallMode.Adhoc;
peerId: string;
eraId: string;
peekInfo: PeekInfo | null;
}): Promise<void> {
if (callMode === CallMode.Group) {
drop(this.sendGroupCallUpdateMessage(peerId, eraId));
} else if (callMode === CallMode.Adhoc) {
this.reduxInterface?.joinedAdhocCall(peerId);
drop(this.sendProfileKeysForAdhocCall({ roomId: peerId, peekInfo }));
}
}
private async sendProfileKeysForAdhocCall({
roomId,
peekInfo,
}: {
roomId: string;
peekInfo: PeekInfo | null | undefined;
}): Promise<void> {
if (!peekInfo) {
return;
}
const ourAci = window.textsecure.storage.user.getCheckedAci();
const reason = `sendProfileKeysForAdhocCall(${roomId})`;
peekInfo.devices.forEach(async device => {
const aci = device.userId ? this.formatUserId(device.userId) : null;
if (
!aci ||
aci === ourAci ||
this.sendProfileKeysForAdhocCallCache.has(aci)
) {
return;
}
const logId = `sendProfileKeysForAdhocCall aci=${aci}`;
const conversation = window.ConversationController.lookupOrCreate({
serviceId: aci,
reason,
});
if (!conversation) {
log.warn(`${logId}: Could not lookup or create conversation for aci`);
return;
}
if (conversation.isBlocked()) {
log.info(`${logId}: Skipping blocked aci`);
return;
}
log.info(`${logId}: Sending profile key`);
drop(
conversationJobQueue.add({
type: conversationQueueJobEnum.enum.ProfileKey,
conversationId: conversation.id,
isOneTimeSend: true,
})
);
this.sendProfileKeysForAdhocCallCache.add(aci);
});
}
public async joinCallLinkCall({
roomId,
rootKey,
adminKey,
hasLocalAudio,
hasLocalVideo,
}: {
roomId: string;
rootKey: string;
adminKey: string | undefined;
hasLocalAudio: boolean;
hasLocalVideo: boolean;
}): Promise<void> {
const haveMediaPermissions = await this.requestPermissions(hasLocalVideo);
if (!haveMediaPermissions) {
log.info('Permissions were denied, but allow joining call link call');
}
await this.startDeviceReselectionTimer();
const callLinkRootKey = CallLinkRootKey.parse(rootKey);
const authCredentialPresentation =
await getCallLinkAuthCredentialPresentation(callLinkRootKey);
const adminPasskey = adminKey ? toAdminKeyBytes(adminKey) : undefined;
// RingRTC reuses the same type GroupCall between Adhoc and Group calls.
const groupCall = this.connectCallLinkCall({
roomId,
authCredentialPresentation,
callLinkRootKey,
adminPasskey,
});
groupCall.setOutgoingAudioMuted(!hasLocalAudio);
groupCall.setOutgoingVideoMuted(!hasLocalVideo);
drop(this.enableCaptureAndSend(groupCall));
groupCall.join();
}
private getCallIdForConversation(conversationId: string): undefined | CallId {
return this.getDirectCall(conversationId)?.callId;
}
public setGroupCallVideoRequest(
conversationId: string,
resolutions: Array<VideoRequest>,
speakerHeight: number
): void {
this.getGroupCall(conversationId)?.requestVideo(resolutions, speakerHeight);
}
public groupMembersChanged(conversationId: string): void {
// This will be called for any conversation change, so it's likely that there won't
// be a group call available; that's fine.
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
return;
}
groupCall.setGroupMembers(this.getGroupCallMembers(conversationId));
}
public approveUser(conversationId: string, aci: AciString): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.approveUser(Buffer.from(uuidToBytes(aci)));
}
public denyUser(conversationId: string, aci: AciString): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.denyUser(Buffer.from(uuidToBytes(aci)));
}
public removeClient(conversationId: string, demuxId: number): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.removeClient(demuxId);
}
public blockClient(conversationId: string, demuxId: number): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.blockClient(demuxId);
}
// See the comment in types/Calling.ts to explain why we have to do this conversion.
private convertRingRtcConnectionState(
connectionState: ConnectionState
): GroupCallConnectionState {
switch (connectionState) {
case ConnectionState.NotConnected:
return GroupCallConnectionState.NotConnected;
case ConnectionState.Connecting:
return GroupCallConnectionState.Connecting;
case ConnectionState.Connected:
return GroupCallConnectionState.Connected;
case ConnectionState.Reconnecting:
return GroupCallConnectionState.Reconnecting;
default:
throw missingCaseError(connectionState);
}
}
// See the comment in types/Calling.ts to explain why we have to do this conversion.
private convertRingRtcJoinState(joinState: JoinState): GroupCallJoinState {
switch (joinState) {
case JoinState.NotJoined:
return GroupCallJoinState.NotJoined;
case JoinState.Joining:
return GroupCallJoinState.Joining;
case JoinState.Pending:
return GroupCallJoinState.Pending;
case JoinState.Joined:
return GroupCallJoinState.Joined;
default:
throw missingCaseError(joinState);
}
}
private formatUserId(userId: Buffer): AciString | null {
const uuid = bytesToUuid(userId);
if (uuid && isAciString(uuid)) {
return uuid;
}
log.error(
'Calling.formatUserId: could not convert participant UUID Uint8Array to string'
);
return null;
}
public formatGroupCallPeekInfoForRedux(
peekInfo: PeekInfo
): GroupCallPeekInfoType {
const creatorAci = peekInfo.creator && bytesToUuid(peekInfo.creator);
return {
acis: peekInfo.devices.map(peekDeviceInfo => {
if (peekDeviceInfo.userId) {
const uuid = this.formatUserId(peekDeviceInfo.userId);
if (uuid) {
return uuid;
}
} else {
log.error(
'Calling.formatGroupCallPeekInfoForRedux: device had no user ID; using fallback UUID'
);
}
return normalizeAci(
'00000000-0000-4000-8000-000000000000',
'formatGrouPCallPeekInfoForRedux'
);
}),
pendingAcis: compact(
peekInfo.pendingUsers.map(userId => this.formatUserId(userId))
),
creatorAci:
creatorAci !== undefined
? normalizeAci(
creatorAci,
'formatGroupCallPeekInfoForRedux.creatorAci'
)
: undefined,
eraId: peekInfo.eraId,
maxDevices: peekInfo.maxDevices ?? Infinity,
deviceCount: peekInfo.deviceCount,
};
}
private formatGroupCallForRedux(groupCall: GroupCall) {
const localDeviceState = groupCall.getLocalDeviceState();
const peekInfo = groupCall.getPeekInfo();
// RingRTC doesn't ensure that the demux ID is unique. This can happen if someone
// leaves the call and quickly rejoins; RingRTC will tell us that there are two
// participants with the same demux ID in the call. This should be rare.
const remoteDeviceStates = uniqBy(
groupCall.getRemoteDeviceStates() || [],
remoteDeviceState => remoteDeviceState.demuxId
);
// It should be impossible to be disconnected and Joining or Joined. Just in case, we
// try to handle that case.
const joinState: GroupCallJoinState =
localDeviceState.connectionState === ConnectionState.NotConnected
? GroupCallJoinState.NotJoined
: this.convertRingRtcJoinState(localDeviceState.joinState);
return {
connectionState: this.convertRingRtcConnectionState(
localDeviceState.connectionState
),
joinState,
hasLocalAudio: !localDeviceState.audioMuted,
hasLocalVideo: !localDeviceState.videoMuted,
localDemuxId: localDeviceState.demuxId,
peekInfo: peekInfo
? this.formatGroupCallPeekInfoForRedux(peekInfo)
: undefined,
remoteParticipants: remoteDeviceStates.map(remoteDeviceState => {
let aci = bytesToUuid(remoteDeviceState.userId);
if (!aci) {
log.error(
'Calling.formatGroupCallForRedux: could not convert remote participant UUID Uint8Array to string; using fallback UUID'
);
aci = '00000000-0000-4000-8000-000000000000';
}
assertDev(isAciString(aci), 'remote participant aci must be a aci');
return {
aci,
addedTime: normalizeGroupCallTimestamp(remoteDeviceState.addedTime),
demuxId: remoteDeviceState.demuxId,
hasRemoteAudio: !remoteDeviceState.audioMuted,
hasRemoteVideo: !remoteDeviceState.videoMuted,
mediaKeysReceived: remoteDeviceState.mediaKeysReceived,
presenting: Boolean(remoteDeviceState.presenting),
sharingScreen: Boolean(remoteDeviceState.sharingScreen),
speakerTime: normalizeGroupCallTimestamp(
remoteDeviceState.speakerTime
),
// If RingRTC doesn't send us an aspect ratio, we make a guess.
videoAspectRatio:
remoteDeviceState.videoAspectRatio ||
(remoteDeviceState.videoMuted ? 1 : 4 / 3),
};
}),
};
}
public getGroupCallVideoFrameSource(
conversationId: string,
demuxId: number
): VideoFrameSource {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
return groupCall.getVideoSource(demuxId);
}
public resendGroupCallMediaKeys(conversationId: string): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.resendMediaKeys();
}
public sendGroupCallRaiseHand(conversationId: string, raise: boolean): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.raiseHand(raise);
}
public sendGroupCallReaction(conversationId: string, value: string): void {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
throw new Error('Could not find matching call');
}
groupCall.react(value);
}
// configures how often call stats are computed
public setAllRtcStatsInterval(intervalMillis: number | null): void {
if (this.currentRtcStatsInterval === intervalMillis) {
return;
}
this.currentRtcStatsInterval = intervalMillis;
// GroupCall.setRtcStatsInterval resets to the default when interval == 0
// so set it to 0 when intervalMillis is undefined
const statsInterval = intervalMillis ?? 0;
for (const conversationId of Object.keys(this.callsLookup)) {
const groupCall = this.getGroupCall(conversationId);
if (!groupCall) {
continue;
}
log.info('Setting rtc stats interval:', conversationId, statsInterval);
groupCall.setRtcStatsInterval(statsInterval);
}
}
private syncGroupCallToRedux(
conversationId: string,
groupCall: GroupCall,
callMode: CallMode.Group | CallMode.Adhoc
): void {
this.reduxInterface?.groupCallStateChange({
conversationId,
callMode,
...this.formatGroupCallForRedux(groupCall),
});
}
// Used specifically to send updates about in-progress group calls, nothing else
private async sendGroupCallUpdateMessage(
conversationId: string,
eraId: string
): Promise<boolean> {
const conversation = window.ConversationController.get(conversationId);
if (!conversation) {
log.error('sendGroupCallUpdateMessage: Conversation not found!');
return false;
}
const logId = `sendGroupCallUpdateMessage/${conversation.idForLogging()}`;
const groupV2 = conversation.getGroupV2Info();
if (!groupV2) {
log.error(`${logId}: Conversation lacks groupV2 info!`);
return false;
}
try {
await conversationJobQueue.add({
type: 'GroupCallUpdate',
conversationId: conversation.id,
eraId,
urgent: true,
});
return true;
} catch (err) {
log.error(
`${logId}: Failed to queue call update:`,
Errors.toLogFormat(err)
);
return false;
}
}
async acceptDirectCall(
conversationId: string,
asVideoCall: boolean
): Promise<void> {
log.info('CallingClass.acceptDirectCall()');
const callId = this.getCallIdForConversation(conversationId);
if (!callId) {
log.warn('Trying to accept a non-existent call');
return;
}
const haveMediaPermissions = await this.requestPermissions(asVideoCall);
if (haveMediaPermissions) {
await this.startDeviceReselectionTimer();
RingRTC.setVideoCapturer(callId, this.videoCapturer);
RingRTC.setVideoRenderer(callId, this.videoRenderer);
RingRTC.accept(callId, asVideoCall);
} else {
log.info('Permissions were denied, call not allowed, hanging up.');
RingRTC.hangup(callId);
}
}
declineDirectCall(conversationId: string): void {
log.info('CallingClass.declineDirectCall()');
const callId = this.getCallIdForConversation(conversationId);
if (!callId) {
log.warn('declineDirectCall: Trying to decline a non-existent call');
return;
}
RingRTC.decline(callId);
}
declineGroupCall(conversationId: string, ringId: bigint): void {
log.info('CallingClass.declineGroupCall()');
const groupId =
window.ConversationController.get(conversationId)?.get('groupId');
if (!groupId) {
log.error(
'declineGroupCall: could not find the group ID for that conversation'
);
return;
}
const groupIdBuffer = Buffer.from(Bytes.fromBase64(groupId));
RingRTC.cancelGroupRing(
groupIdBuffer,
ringId,
RingCancelReason.DeclinedByUser
);
}
hangup(conversationId: string, reason: string): void {
log.info(`CallingClass.hangup(${conversationId}): ${reason}`);
const specificCall = getOwn(this.callsLookup, conversationId);
if (!specificCall) {
log.error(
`hangup: Trying to hang up a non-existent call for conversation ${conversationId}`
);
}
ipcRenderer.send(
'screen-share:status-change',
ScreenShareStatus.Disconnected
);
const entries = Object.entries(this.callsLookup);
log.info(`hangup: ${entries.length} call(s) to hang up...`);
entries.forEach(([callConversationId, call]) => {
log.info(`hangup: Hanging up conversation ${callConversationId}`);
if (call instanceof Call) {
RingRTC.hangup(call.callId);
} else if (call instanceof GroupCall) {
// This ensures that we turn off our devices.
call.setOutgoingAudioMuted(true);
call.setOutgoingVideoMuted(true);
call.disconnect();
} else {
throw missingCaseError(call);
}
});
log.info('hangup: Done.');
}
hangupAllCalls(reason: string): void {
const conversationIds = Object.keys(this.callsLookup);
for (const conversationId of conversationIds) {
this.hangup(conversationId, reason);
}
}
setOutgoingAudio(conversationId: string, enabled: boolean): void {
const call = getOwn(this.callsLookup, conversationId);
if (!call) {
log.warn('Trying to set outgoing audio for a non-existent call');
return;
}
if (call instanceof Call) {
RingRTC.setOutgoingAudio(call.callId, enabled);
} else if (call instanceof GroupCall) {
call.setOutgoingAudioMuted(!enabled);
} else {
throw missingCaseError(call);
}
}
setOutgoingVideo(conversationId: string, enabled: boolean): void {
const call = getOwn(this.callsLookup, conversationId);
if (!call) {
log.warn('Trying to set outgoing video for a non-existent call');
return;
}
if (call instanceof Call) {
RingRTC.setOutgoingVideo(call.callId, enabled);
} else if (call instanceof GroupCall) {
call.setOutgoingVideoMuted(!enabled);
} else {
throw missingCaseError(call);
}
}
private setOutgoingVideoIsScreenShare(
call: Call | GroupCall,
enabled: boolean
): void {
if (call instanceof Call) {
RingRTC.setOutgoingVideoIsScreenShare(call.callId, enabled);
// Note: there is no "presenting" API for direct calls.
} else if (call instanceof GroupCall) {
call.setOutgoingVideoIsScreenShare(enabled);
call.setPresenting(enabled);
} else {
throw missingCaseError(call);
}
}
async getPresentingSources(): Promise<Array<PresentableSource>> {
// There's a Linux Wayland Electron bug where requesting desktopCapturer.
// getSources() with types as ['screen', 'window'] (the default) pops 2
// OS permissions dialogs in an unusable state (Dialog 1 for Share Window
// is the foreground and ignores input; Dialog 2 for Share Screen is background
// and requires input. As a workaround, request both sources sequentially.
// https://github.com/signalapp/Signal-Desktop/issues/5350#issuecomment-1688614149
const sources: ReadonlyArray<DesktopCapturerSource> =
OS.isLinux() && OS.isWaylandEnabled()
? (
await ipcRenderer.invoke('getScreenCaptureSources', ['screen'])
).concat(
await ipcRenderer.invoke('getScreenCaptureSources', ['window'])
)
: await ipcRenderer.invoke('getScreenCaptureSources');
const presentableSources: Array<PresentableSource> = [];
sources.forEach(source => {
// If electron can't retrieve a thumbnail then it won't be able to
// present this source so we filter these out.
if (source.thumbnail.isEmpty()) {
return;
}
presentableSources.push({
appIcon:
source.appIcon && !source.appIcon.isEmpty()
? source.appIcon.toDataURL()
: undefined,
id: source.id,
name: translateSourceName(window.i18n, source),
isScreen: isScreenSource(source),
thumbnail: source.thumbnail.toDataURL(),
});
});
return presentableSources;
}
async setPresenting(
conversationId: string,
hasLocalVideo: boolean,
source?: PresentedSource,
callLinkRootKey?: string
): Promise<void> {
const call = getOwn(this.callsLookup, conversationId);
if (!call) {
log.warn('Trying to set presenting for a non-existent call');
return;
}
this.videoCapturer.disable();
if (source) {
this.hadLocalVideoBeforePresenting = hasLocalVideo;
drop(
this.enableCaptureAndSend(call, {
// 15fps is much nicer but takes up a lot more CPU.
maxFramerate: 5,
maxHeight: 1800,
maxWidth: 2880,
screenShareSourceId: source.id,
})
);
this.setOutgoingVideo(conversationId, true);
} else {
this.setOutgoingVideo(
conversationId,
this.hadLocalVideoBeforePresenting ?? hasLocalVideo
);
this.hadLocalVideoBeforePresenting = undefined;
}
const isPresenting = Boolean(source);
this.setOutgoingVideoIsScreenShare(call, isPresenting);
if (source) {
ipcRenderer.send('show-screen-share', source.name);
let url: string;
let absolutePath: string | undefined;
if (
call instanceof GroupCall &&
call.getKind() === GroupCallKind.CallLink
) {
strictAssert(callLinkRootKey, 'If call is adhoc, we need rootKey');
const color = getColorForCallLink(callLinkRootKey);
const saveToDisk = shouldSaveNotificationAvatarToDisk();
const result = await createIdenticon(
color,
{ type: 'call-link' },
{ saveToDisk }
);
url = result.url;
absolutePath = result.path
? window.Signal.Migrations.getAbsoluteTempPath(result.path)
: undefined;
} else {
const conversation = window.ConversationController.get(conversationId);
strictAssert(conversation, 'setPresenting: conversation not found');
const result = await conversation.getAvatarOrIdenticon();
url = result.url;
absolutePath = result.absolutePath;
}
notificationService.notify({
conversationId,
iconPath: absolutePath,
iconUrl: url,
message: window.i18n('icu:calling__presenting--notification-body'),
type: NotificationType.IsPresenting,
sentAt: 0,
silent: true,
title: window.i18n('icu:calling__presenting--notification-title'),
});
} else {
ipcRenderer.send(
'screen-share:status-change',
ScreenShareStatus.Disconnected
);
}
}
async notifyScreenShareStatus(
options: NotifyScreenShareStatusOptionsType
): Promise<void> {
let newStatus: ScreenShareStatus;
if (options.callMode === CallMode.Direct) {
switch (options.callState) {
case CallState.Prering:
case CallState.Ringing:
case CallState.Accepted:
newStatus = ScreenShareStatus.Connected;
break;
case CallState.Reconnecting:
newStatus = ScreenShareStatus.Reconnecting;
break;
case CallState.Ended:
newStatus = ScreenShareStatus.Disconnected;
break;
default:
throw missingCaseError(options.callState);
}
} else {
switch (options.connectionState) {
case GroupCallConnectionState.NotConnected:
newStatus = ScreenShareStatus.Disconnected;
break;
case GroupCallConnectionState.Connecting:
case GroupCallConnectionState.Connected:
newStatus = ScreenShareStatus.Connected;
break;
case GroupCallConnectionState.Reconnecting:
newStatus = ScreenShareStatus.Reconnecting;
break;
default:
throw missingCaseError(options.connectionState);
}
}
const { conversationId, isPresenting } = options;
if (
options.callMode !== CallMode.Adhoc &&
isPresenting &&
conversationId &&
newStatus === ScreenShareStatus.Reconnecting
) {
const conversation = window.ConversationController.get(conversationId);
strictAssert(
conversation,
'showPresentingReconnectingNotification: conversation not found'
);
const { url, absolutePath } = await conversation.getAvatarOrIdenticon();
notificationService.notify({
conversationId,
iconPath: absolutePath,
iconUrl: url,
message: window.i18n(
'icu:calling__presenting--reconnecting--notification-body'
),
type: NotificationType.IsPresenting,
sentAt: 0,
silent: true,
title: window.i18n(
'icu:calling__presenting--reconnecting--notification-title'
),
});
}
ipcRenderer.send('screen-share:status-change', newStatus);
}
private async startDeviceReselectionTimer(): Promise<void> {
// Poll once
await this.pollForMediaDevices();
// Start the timer
if (!this.deviceReselectionTimer) {
this.deviceReselectionTimer = setInterval(async () => {
await this.pollForMediaDevices();
}, 3000);
}
}
private stopDeviceReselectionTimer() {
clearTimeoutIfNecessary(this.deviceReselectionTimer);
this.deviceReselectionTimer = undefined;
}
private mediaDeviceSettingsEqual(
a?: MediaDeviceSettings,
b?: MediaDeviceSettings
): boolean {
if (!a && !b) {
return true;
}
if (!a || !b) {
return false;
}
if (
a.availableCameras.length !== b.availableCameras.length ||
a.availableMicrophones.length !== b.availableMicrophones.length ||
a.availableSpeakers.length !== b.availableSpeakers.length
) {
return false;
}
for (let i = 0; i < a.availableCameras.length; i += 1) {
if (
a.availableCameras[i].deviceId !== b.availableCameras[i].deviceId ||
a.availableCameras[i].groupId !== b.availableCameras[i].groupId ||
a.availableCameras[i].label !== b.availableCameras[i].label
) {
return false;
}
}
for (let i = 0; i < a.availableMicrophones.length; i += 1) {
if (
a.availableMicrophones[i].name !== b.availableMicrophones[i].name ||
a.availableMicrophones[i].uniqueId !==
b.availableMicrophones[i].uniqueId
) {
return false;
}
}
for (let i = 0; i < a.availableSpeakers.length; i += 1) {
if (
a.availableSpeakers[i].name !== b.availableSpeakers[i].name ||
a.availableSpeakers[i].uniqueId !== b.availableSpeakers[i].uniqueId
) {
return false;
}
}
if (
(a.selectedCamera && !b.selectedCamera) ||
(!a.selectedCamera && b.selectedCamera) ||
(a.selectedMicrophone && !b.selectedMicrophone) ||
(!a.selectedMicrophone && b.selectedMicrophone) ||
(a.selectedSpeaker && !b.selectedSpeaker) ||
(!a.selectedSpeaker && b.selectedSpeaker)
) {
return false;
}
if (
a.selectedCamera &&
b.selectedCamera &&
a.selectedCamera !== b.selectedCamera
) {
return false;
}
if (
a.selectedMicrophone &&
b.selectedMicrophone &&
a.selectedMicrophone.index !== b.selectedMicrophone.index
) {
return false;
}
if (
a.selectedSpeaker &&
b.selectedSpeaker &&
a.selectedSpeaker.index !== b.selectedSpeaker.index
) {
return false;
}
return true;
}
private async pollForMediaDevices(): Promise<void> {
const newSettings = await this.getMediaDeviceSettings();
if (
!this.mediaDeviceSettingsEqual(this.lastMediaDeviceSettings, newSettings)
) {
log.info(
'MediaDevice: available devices changed (from->to)',
cleanForLogging(this.lastMediaDeviceSettings),
cleanForLogging(newSettings)
);
await this.selectPreferredDevices(newSettings);
this.lastMediaDeviceSettings = newSettings;
this.reduxInterface?.refreshIODevices(newSettings);
}
}
async getAvailableIODevices(): Promise<AvailableIODevicesType> {
const availableCameras = await this.videoCapturer.enumerateDevices();
const availableMicrophones = RingRTC.getAudioInputs();
const availableSpeakers = RingRTC.getAudioOutputs();
return {
availableCameras,
availableMicrophones,
availableSpeakers,
};
}
async getMediaDeviceSettings(): Promise<MediaDeviceSettings> {
const { availableCameras, availableMicrophones, availableSpeakers } =
await this.getAvailableIODevices();
const preferredMicrophone = window.Events.getPreferredAudioInputDevice();
const selectedMicIndex = findBestMatchingAudioDeviceIndex({
available: availableMicrophones,
preferred: preferredMicrophone,
});
const selectedMicrophone =
selectedMicIndex !== undefined
? availableMicrophones[selectedMicIndex]
: undefined;
const preferredSpeaker = window.Events.getPreferredAudioOutputDevice();
const selectedSpeakerIndex = findBestMatchingAudioDeviceIndex({
available: availableSpeakers,
preferred: preferredSpeaker,
});
const selectedSpeaker =
selectedSpeakerIndex !== undefined
? availableSpeakers[selectedSpeakerIndex]
: undefined;
const preferredCamera = window.Events.getPreferredVideoInputDevice();
const selectedCamera = findBestMatchingCameraId(
availableCameras,
preferredCamera
);
return {
availableMicrophones,
availableSpeakers,
selectedMicrophone,
selectedSpeaker,
availableCameras,
selectedCamera,
};
}
setPreferredMicrophone(device: AudioDevice): void {
log.info(
'MediaDevice: setPreferredMicrophone',
device.index,
truncateForLogging(device.name)
);
void window.Events.setPreferredAudioInputDevice(device);
RingRTC.setAudioInput(device.index);
}
setPreferredSpeaker(device: AudioDevice): void {
log.info(
'MediaDevice: setPreferredSpeaker',
device.index,
truncateForLogging(device.name)
);
void window.Events.setPreferredAudioOutputDevice(device);
RingRTC.setAudioOutput(device.index);
}
enableLocalCamera(): void {
drop(this.videoCapturer.enableCapture());
}
async enableCaptureAndSend(
call: GroupCall | Call,
options?: GumVideoCaptureOptions | null,
logId?: string
): Promise<void> {
try {
await this.videoCapturer.enableCaptureAndSend(call, options ?? undefined);
} catch (err) {
log.error(
`${
logId ?? 'enableCaptureAndSend'
}: Failed to enable camera and start sending:`,
Errors.toLogFormat(err)
);
}
}
disableLocalVideo(): void {
this.videoCapturer.disable();
}
async setPreferredCamera(device: string): Promise<void> {
log.info('MediaDevice: setPreferredCamera', device);
void window.Events.setPreferredVideoInputDevice(device);
await this.videoCapturer.setPreferredDevice(device);
}
async handleCallingMessage(
envelope: ProcessedEnvelope,
callingMessage: Proto.ICallingMessage
): Promise<void> {
const logId = `CallingClass.handleCallingMessage(${envelope.timestamp})`;
const enableIncomingCalls = window.Events.getIncomingCallNotification();
if (callingMessage.offer && !enableIncomingCalls) {
// Drop offers silently if incoming call notifications are disabled.
log.info(`${logId}: Incoming calls are disabled, ignoring call offer.`);
return;
}
const remoteUserId = envelope.sourceServiceId;
const remoteDeviceId = this.parseDeviceId(envelope.sourceDevice);
if (!remoteUserId || !remoteDeviceId || !this.localDeviceId) {
log.error(`${logId}: Missing identifier, ignoring call message.`);
return;
}
const { storage } = window.textsecure;
const senderIdentityRecord =
await storage.protocol.getOrMigrateIdentityRecord(remoteUserId);
if (!senderIdentityRecord) {
log.error(
`${logId}: Missing sender identity record; ignoring call message.`
);
return;
}
const senderIdentityKey = senderIdentityRecord.publicKey.slice(1); // Ignore the type header, it is not used.
const ourAci = storage.user.getCheckedAci();
const receiverIdentityRecord = storage.protocol.getIdentityRecord(ourAci);
if (!receiverIdentityRecord) {
log.error(
`${logId}: Missing receiver identity record; ignoring call message.`
);
return;
}
const receiverIdentityKey = receiverIdentityRecord.publicKey.slice(1); // Ignore the type header, it is not used.
const conversation = window.ConversationController.get(remoteUserId);
if (!conversation) {
log.error(`${logId}: Missing conversation; ignoring call message.`);
return;
}
if (
callingMessage.offer &&
!conversation.getAccepted({ ignoreEmptyConvo: true })
) {
log.info(
`${logId}: Conversation was not approved by user; ` +
'rejecting call message.'
);
const { callId } = callingMessage.offer;
assertDev(callId != null, 'Call ID missing from offer');
const hangup = new HangupMessage(
callId,
HangupType.NeedPermission,
remoteDeviceId
);
const message = new CallingMessage();
message.hangup = hangup;
await this.handleOutgoingSignaling(remoteUserId, message);
const wasVideoCall =
callingMessage.offer.type ===
Proto.CallingMessage.Offer.Type.OFFER_VIDEO_CALL;
const peerId = getPeerIdFromConversation(conversation.attributes);
const callDetails = getCallDetailsFromEndedDirectCall(
callId.toString(),
peerId,
remoteUserId, // Incoming call
wasVideoCall,
envelope.timestamp
);
const localCallEvent = LocalCallEvent.Missed;
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'CallingClass.handleCallingMessage'
);
await updateCallHistoryFromLocalEvent(
callEvent,
envelope.receivedAtCounter,
envelope.receivedAtDate
);
return;
}
const sourceServiceId = envelope.sourceServiceId
? uuidToBytes(envelope.sourceServiceId)
: null;
const messageAgeSec = envelope.messageAgeSec ? envelope.messageAgeSec : 0;
log.info(`${logId}: Handling in RingRTC`);
RingRTC.handleCallingMessage(protoToCallingMessage(callingMessage), {
remoteUserId,
remoteUuid: sourceServiceId ? Buffer.from(sourceServiceId) : undefined,
remoteDeviceId,
localDeviceId: this.localDeviceId,
ageSec: messageAgeSec,
receivedAtCounter: envelope.receivedAtCounter,
receivedAtDate: envelope.receivedAtDate,
senderIdentityKey: Buffer.from(senderIdentityKey),
receiverIdentityKey: Buffer.from(receiverIdentityKey),
});
}
private async selectPreferredDevices(
settings: MediaDeviceSettings
): Promise<void> {
if (
(!this.lastMediaDeviceSettings && settings.selectedCamera) ||
(this.lastMediaDeviceSettings &&
settings.selectedCamera &&
this.lastMediaDeviceSettings.selectedCamera !== settings.selectedCamera)
) {
log.info('MediaDevice: selecting camera', settings.selectedCamera);
await this.videoCapturer.setPreferredDevice(settings.selectedCamera);
}
// Assume that the MediaDeviceSettings have been obtained very recently and
// the index is still valid (no devices have been plugged in in between).
if (settings.selectedMicrophone) {
log.info(
'MediaDevice: selecting microphone',
settings.selectedMicrophone.index,
truncateForLogging(settings.selectedMicrophone.name)
);
RingRTC.setAudioInput(settings.selectedMicrophone.index);
}
if (settings.selectedSpeaker) {
log.info(
'MediaDevice: selecting speaker',
settings.selectedSpeaker.index,
truncateForLogging(settings.selectedSpeaker.name)
);
RingRTC.setAudioOutput(settings.selectedSpeaker.index);
}
}
private async requestCameraPermissions(): Promise<boolean> {
const cameraPermission = await window.IPC.getMediaCameraPermissions();
if (!cameraPermission) {
await window.IPC.showPermissionsPopup(true, true);
// Check the setting again (from the source of truth).
return window.IPC.getMediaCameraPermissions();
}
return true;
}
private async requestPermissions(isVideoCall: boolean): Promise<boolean> {
const microphonePermission = await requestMicrophonePermissions(true);
if (microphonePermission) {
if (isVideoCall) {
return this.requestCameraPermissions();
}
return true;
}
return false;
}
private async handleSendCallMessage(
recipient: Uint8Array,
data: Uint8Array,
urgency: CallMessageUrgency
): Promise<boolean> {
const userId = bytesToUuid(recipient);
if (!userId) {
log.error('handleSendCallMessage(): bad recipient UUID');
return false;
}
const message = new CallingMessage();
message.opaque = new OpaqueMessage();
message.opaque.data = Buffer.from(data);
return this.handleOutgoingSignaling(userId, message, urgency);
}
// Used to send a variety of group call messages, including the initial call message
private async handleSendCallMessageToGroup(
groupIdBytes: Buffer,
data: Buffer,
urgency: CallMessageUrgency,
overrideRecipients: Array<Buffer> = []
): Promise<boolean> {
const groupId = groupIdBytes.toString('base64');
const conversation = window.ConversationController.get(groupId);
if (!conversation) {
log.error('handleSendCallMessageToGroup(): could not find conversation');
return false;
}
// If this message isn't droppable, we'll wake up recipient devices. The important one
// is the first message to start the call.
const urgent = urgency === CallMessageUrgency.HandleImmediately;
try {
let recipients: Array<ServiceIdString> = [];
let isPartialSend = false;
if (overrideRecipients.length > 0) {
// Send only to the overriding recipients.
overrideRecipients.forEach(recipient => {
const serviceId = bytesToUuid(recipient);
if (!serviceId) {
log.error(
'handleSendCallMessageToGroup(): missing recipient serviceId'
);
} else {
assertDev(
isServiceIdString(serviceId),
'remoteServiceId is not a serviceId'
);
recipients.push(serviceId);
}
});
isPartialSend = true;
} else {
// Send to all members in the group.
recipients = conversation.getRecipients();
}
const callingMessage = new CallingMessage();
callingMessage.opaque = new OpaqueMessage();
callingMessage.opaque.data = data;
const proto = callingMessageToProto(callingMessage, urgency);
const protoBytes = Proto.CallingMessage.encode(proto).finish();
const protoBase64 = Bytes.toBase64(protoBytes);
await conversationJobQueue.add({
type: 'CallingMessage',
conversationId: conversation.id,
protoBase64,
urgent,
isPartialSend,
recipients,
});
log.info('handleSendCallMessageToGroup() completed successfully');
return true;
} catch (err) {
const errorString = Errors.toLogFormat(err);
log.error(
`handleSendCallMessageToGroup() failed to queue job: ${errorString}`
);
return false;
}
}
private async handleGroupCallRingUpdate(
groupIdBytes: Buffer,
ringId: bigint,
ringerBytes: Buffer,
update: RingUpdate
): Promise<void> {
log.info(`handleGroupCallRingUpdate(): got ring update ${update}`);
const groupId = groupIdBytes.toString('base64');
const ringerUuid = bytesToUuid(ringerBytes);
if (!ringerUuid) {
log.error('handleGroupCallRingUpdate(): ringerUuid was invalid');
return;
}
const ringerAci = normalizeAci(ringerUuid, 'handleGroupCallRingUpdate');
const conversation = window.ConversationController.get(groupId);
if (!conversation) {
log.error('handleGroupCallRingUpdate(): could not find conversation');
return;
}
if (update === RingUpdate.Requested) {
this.reduxInterface?.peekNotConnectedGroupCall({
callMode: CallMode.Group,
conversationId: conversation.id,
});
}
const logId = `handleGroupCallRingUpdate(${conversation.idForLogging()})`;
if (conversation.isBlocked()) {
log.warn(`${logId}: is blocked`);
return;
}
const ourAci = window.textsecure.storage.user.getCheckedAci();
if (conversation.get('left') || !conversation.hasMember(ourAci)) {
log.warn(`${logId}: we left the group`);
return;
}
if (!conversation.hasMember(ringerAci)) {
log.warn(`${logId}: they left the group`);
return;
}
if (
conversation.get('announcementsOnly') &&
!conversation.isAdmin(ringerAci)
) {
log.warn(`${logId}: non-admin update to announcement-only group`);
return;
}
const conversationId = conversation.id;
let shouldRing = false;
if (update === RingUpdate.Requested) {
if (await wasGroupCallRingPreviouslyCanceled(ringId)) {
RingRTC.cancelGroupRing(groupIdBytes, ringId, null);
} else if (this.areAnyCallsActiveOrRinging()) {
RingRTC.cancelGroupRing(groupIdBytes, ringId, RingCancelReason.Busy);
} else if (window.Events.getIncomingCallNotification()) {
shouldRing = true;
} else {
log.info(
'Incoming calls are disabled. Ignoring group call ring request'
);
}
} else {
await processGroupCallRingCancellation(ringId);
}
if (shouldRing) {
log.info('handleGroupCallRingUpdate: ringing');
this.reduxInterface?.receiveIncomingGroupCall({
conversationId,
ringId,
ringerAci,
});
} else {
log.info('handleGroupCallRingUpdate: canceling the existing ring');
this.reduxInterface?.cancelIncomingGroupCallRing({
conversationId,
ringId,
});
}
const localEventFromRing = getLocalCallEventFromRingUpdate(update);
if (localEventFromRing != null) {
const callId = getCallIdFromRing(ringId);
const callDetails = getCallDetailsFromGroupCallMeta(groupId, {
callId,
ringerId: ringerUuid,
});
let localEventForCall;
if (localEventFromRing === LocalCallEvent.Missed) {
localEventForCall = LocalCallEvent.Missed;
} else {
localEventForCall = shouldRing
? LocalCallEvent.Ringing
: LocalCallEvent.Started;
}
const callEvent = getCallEventDetails(
callDetails,
localEventForCall,
'CallingClass.handleGroupCallRingUpdate'
);
await updateCallHistoryFromLocalEvent(callEvent, null, null);
}
}
// Used for all 1:1 call messages, including the initial message to start the call
private async handleOutgoingSignaling(
remoteUserId: UserId,
message: CallingMessage,
urgency?: CallMessageUrgency
): Promise<boolean> {
assertDev(
isServiceIdString(remoteUserId),
'remoteUserId is not a service id'
);
const conversation = window.ConversationController.getOrCreate(
remoteUserId,
'private'
);
// We want 1:1 call initiate messages to wake up recipient devices, but not others
const urgent =
urgency === CallMessageUrgency.HandleImmediately ||
Boolean(message.offer);
try {
const proto = callingMessageToProto(message, urgency);
const protoBytes = Proto.CallingMessage.encode(proto).finish();
const protoBase64 = Bytes.toBase64(protoBytes);
await conversationJobQueue.add({
type: 'CallingMessage',
conversationId: conversation.id,
protoBase64,
urgent,
});
return true;
} catch (err) {
const errorString = Errors.toLogFormat(err);
log.error(
`handleOutgoingSignaling() failed to queue job: ${errorString}`
);
return false;
}
}
// If we return null here, we hang up the call.
private async handleIncomingCall(call: Call): Promise<boolean> {
log.info('CallingClass.handleIncomingCall()');
if (!this.reduxInterface || !this.localDeviceId) {
log.error('Missing required objects, ignoring incoming call.');
return false;
}
const conversation = window.ConversationController.get(call.remoteUserId);
if (!conversation) {
log.error('Missing conversation, ignoring incoming call.');
return false;
}
if (conversation.isBlocked()) {
log.warn(
`handleIncomingCall(): ${conversation.idForLogging()} is blocked`
);
return false;
}
try {
// The peer must be 'trusted' before accepting a call from them.
// This is mostly the safety number check, unverified meaning that they were
// verified before but now they are not.
const verifiedEnum = await conversation.safeGetVerified();
if (
verifiedEnum ===
window.textsecure.storage.protocol.VerifiedStatus.UNVERIFIED
) {
log.info(
`Peer is not trusted, ignoring incoming call for conversation: ${conversation.idForLogging()}`
);
const localCallEvent = LocalCallEvent.Missed;
const peerId = getPeerIdFromConversation(conversation.attributes);
const callDetails = getCallDetailsFromDirectCall(peerId, call);
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'CallingClass.handleIncomingCall'
);
await updateCallHistoryFromLocalEvent(callEvent, null, null);
return false;
}
this.attachToCall(conversation, call);
this.reduxInterface.receiveIncomingDirectCall({
conversationId: conversation.id,
isVideoCall: call.isVideoCall,
});
return true;
} catch (err) {
log.error(`Ignoring incoming call: ${Errors.toLogFormat(err)}`);
return false;
}
}
private async handleAutoEndedIncomingCallRequest(
callIdValue: CallId,
remoteUserId: UserId,
callEndedReason: CallEndedReason,
ageInSeconds: number,
wasVideoCall: boolean,
receivedAtCounter: number | undefined,
receivedAtMS: number | undefined = undefined
) {
const conversation = window.ConversationController.get(remoteUserId);
if (!conversation) {
return;
}
const callId = Long.fromValue(callIdValue).toString();
const peerId = getPeerIdFromConversation(conversation.attributes);
// This is extra defensive, just in case RingRTC passes us a bad value. (It probably
// won't.)
const ageInMilliseconds =
isNormalNumber(ageInSeconds) && ageInSeconds >= 0
? ageInSeconds * durations.SECOND
: 0;
const timestamp = Date.now() - ageInMilliseconds;
const callDetails = getCallDetailsFromEndedDirectCall(
callId,
peerId,
remoteUserId,
wasVideoCall,
timestamp
);
const localCallEvent =
getLocalCallEventFromCallEndedReason(callEndedReason);
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'CallingClass.handleAutoEndedIncomingCallRequest'
);
await updateCallHistoryFromLocalEvent(
callEvent,
receivedAtCounter ?? null,
receivedAtMS ?? null
);
}
private attachToCall(conversation: ConversationModel, call: Call): void {
this.callsLookup[conversation.id] = call;
const { reduxInterface } = this;
if (!reduxInterface) {
return;
}
let acceptedTime: number | null = null;
// eslint-disable-next-line no-param-reassign
call.handleStateChanged = async () => {
if (call.state === CallState.Accepted) {
acceptedTime = acceptedTime ?? Date.now();
}
if (call.state === CallState.Ended) {
this.stopDeviceReselectionTimer();
this.lastMediaDeviceSettings = undefined;
delete this.callsLookup[conversation.id];
}
const localCallEvent = getLocalCallEventFromDirectCall(call);
if (localCallEvent != null) {
const peerId = getPeerIdFromConversation(conversation.attributes);
const callDetails = getCallDetailsFromDirectCall(peerId, call);
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'call.handleStateChanged'
);
await updateCallHistoryFromLocalEvent(callEvent, null, null);
}
reduxInterface.callStateChange({
conversationId: conversation.id,
callState: call.state,
callEndedReason: call.endedReason,
acceptedTime,
});
};
// eslint-disable-next-line no-param-reassign
call.handleRemoteAudioEnabled = () => {
// TODO: Implement handling for the remote audio state using call.remoteAudioEnabled
};
// eslint-disable-next-line no-param-reassign
call.handleRemoteVideoEnabled = () => {
reduxInterface.remoteVideoChange({
conversationId: conversation.id,
hasVideo: call.remoteVideoEnabled,
});
};
// eslint-disable-next-line no-param-reassign
call.handleRemoteSharingScreen = () => {
reduxInterface.remoteSharingScreenChange({
conversationId: conversation.id,
isSharingScreen: Boolean(call.remoteSharingScreen),
});
};
// eslint-disable-next-line no-param-reassign
call.handleLowBandwidthForVideo = _recovered => {
// TODO: Implement handling of "low outgoing bandwidth for video" notification.
};
}
private async handleLogMessage(
level: CallLogLevel,
fileName: string,
line: number,
message: string
) {
switch (level) {
case CallLogLevel.Info:
log.info(`${fileName}:${line} ${message}`);
break;
case CallLogLevel.Warn:
log.warn(`${fileName}:${line} ${message}`);
break;
case CallLogLevel.Error:
log.error(`${fileName}:${line} ${message}`);
break;
default:
break;
}
}
private async handleRtcStatsReport(reportJson: string) {
// assumes one active call
const conversationId = Object.keys(this.callsLookup)[0] ?? '';
const callId = this.callDebugNumber;
ipcRenderer.send('calling:rtc-stats-report', {
conversationId,
callId,
reportJson,
});
}
private async handleSendHttpRequest(
requestId: number,
url: string,
method: HttpMethod,
headers: { [name: string]: string },
body: Uint8Array | undefined
) {
if (!window.textsecure.messaging) {
RingRTC.httpRequestFailed(requestId, 'We are offline');
return;
}
const httpMethod = RINGRTC_HTTP_METHOD_TO_OUR_HTTP_METHOD.get(method);
if (httpMethod === undefined) {
RingRTC.httpRequestFailed(
requestId,
`Unknown method: ${JSON.stringify(method)}`
);
return;
}
let result;
try {
result = await window.textsecure.messaging.server.makeSfuRequest(
url,
httpMethod,
headers,
body
);
} catch (err) {
if (err.code !== -1) {
// WebAPI treats certain response codes as errors, but RingRTC still needs to
// see them. It does not currently look at the response body, so we're giving
// it an empty one.
RingRTC.receivedHttpResponse(requestId, err.code, Buffer.alloc(0));
} else {
log.error('handleSendHttpRequest: fetch failed with error', err);
RingRTC.httpRequestFailed(requestId, String(err));
}
return;
}
RingRTC.receivedHttpResponse(
requestId,
result.response.status,
Buffer.from(result.data)
);
}
private getRemoteUserIdFromConversation(
conversation: ConversationModel
): UserId | undefined | null {
const recipients = conversation.getRecipients();
if (recipients.length !== 1) {
return undefined;
}
return recipients[0];
}
private get localDeviceId(): DeviceId | null {
return this.parseDeviceId(window.textsecure.storage.user.getDeviceId());
}
private parseDeviceId(
deviceId: number | string | undefined
): DeviceId | null {
if (typeof deviceId === 'string') {
return parseInt(deviceId, 10);
}
if (typeof deviceId === 'number') {
return deviceId;
}
return null;
}
private async handleStartCall(call: Call): Promise<boolean> {
type IceServer = {
username?: string;
password?: string;
hostname?: string;
urls: Array<string>;
};
function iceServerConfigToList(
iceServerConfig: GetIceServersResultType
): Array<IceServer> {
return [
{
hostname: iceServerConfig.hostname ?? '',
username: iceServerConfig.username,
password: iceServerConfig.password,
urls: (iceServerConfig.urlsWithIps ?? []).slice(),
},
{
hostname: '',
username: iceServerConfig.username,
password: iceServerConfig.password,
urls: (iceServerConfig.urls ?? []).slice(),
},
];
}
if (!window.textsecure.messaging) {
log.error('handleStartCall: offline!');
return false;
}
const iceServerConfig =
await window.textsecure.messaging.server.getIceServers();
const shouldRelayCalls = window.Events.getAlwaysRelayCalls();
const conversation = window.ConversationController.get(call.remoteUserId);
if (!conversation) {
log.error('Missing conversation, ignoring incoming call.');
return false;
}
// If the peer is not in the user's system contacts, force IP hiding.
const isContactUntrusted = !isInSystemContacts(conversation.attributes);
// proritize ice servers with IPs to avoid DNS
// only include hostname with urlsWithIps
let iceServers = iceServerConfigToList(iceServerConfig);
if (this._iceServerOverride) {
if (typeof this._iceServerOverride === 'string') {
if (ICE_SERVER_IS_IP_LIKE.test(this._iceServerOverride)) {
iceServers[0].urls = [this._iceServerOverride];
iceServers = [iceServers[0]];
} else {
iceServers[1].urls = [this._iceServerOverride];
iceServers = [iceServers[1]];
}
} else {
iceServers = iceServerConfigToList(this._iceServerOverride);
}
}
const callSettings = {
iceServers,
hideIp: shouldRelayCalls || isContactUntrusted,
dataMode: DataMode.Normal,
// TODO: DESKTOP-3101
// audioLevelsIntervalMillis: AUDIO_LEVEL_INTERVAL_MS,
};
log.info('CallingClass.handleStartCall(): Proceeding');
RingRTC.proceed(call.callId, callSettings);
return true;
}
public async updateCallHistoryForAdhocCall(
roomId: string,
joinState: GroupCallJoinState | null,
peekInfo: PeekInfo | null
): Promise<void> {
if (!peekInfo?.eraId) {
return;
}
const callId = getCallIdFromEra(peekInfo.eraId);
try {
let localCallEvent;
if (joinState === GroupCallJoinState.Joined) {
localCallEvent = LocalCallEvent.Accepted;
} else if (peekInfo && peekInfo.devices.length > 0) {
localCallEvent = LocalCallEvent.Started;
} else {
return;
}
const callDetails = getCallDetailsForAdhocCall(roomId, callId);
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'CallingClass.updateCallHistoryForAdhocCall'
);
await updateAdhocCallHistory(callEvent);
} catch (error) {
log.error(
'CallingClass.updateCallHistoryForAdhocCall: Error updating state',
Errors.toLogFormat(error)
);
}
}
public async updateCallHistoryForGroupCallOnLocalChanged(
conversationId: string,
joinState: GroupCallJoinState | null,
peekInfo: PeekInfo | null
): Promise<void> {
const groupCallMeta = getGroupCallMeta(peekInfo);
if (!groupCallMeta) {
return;
}
try {
const localCallEvent = getLocalCallEventFromJoinState(
joinState,
groupCallMeta
);
if (!localCallEvent) {
return;
}
const conversation = window.ConversationController.get(conversationId);
strictAssert(
conversation != null,
'CallingClass.updateCallHistoryForGroupCallOnLocalChanged: Missing conversation'
);
const peerId = getPeerIdFromConversation(conversation.attributes);
const callDetails = getCallDetailsFromGroupCallMeta(
peerId,
groupCallMeta
);
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'CallingClass.updateCallHistoryForGroupCallOnLocalChanged'
);
await updateCallHistoryFromLocalEvent(callEvent, null, null);
} catch (error) {
log.error(
'CallingClass.updateCallHistoryForGroupCallOnLocalChanged: Error updating state',
Errors.toLogFormat(error)
);
}
}
public async updateCallHistoryForGroupCallOnPeek(
conversationId: string,
joinState: GroupCallJoinState | null,
peekInfo: PeekInfo | null
): Promise<void> {
const groupCallMeta = getGroupCallMeta(peekInfo);
// If we don't have the necessary pieces to peek, bail. (It's okay if we don't.)
if (groupCallMeta == null) {
return;
}
const creatorConversation = window.ConversationController.get(
groupCallMeta.ringerId
);
const conversation = window.ConversationController.get(conversationId);
if (!conversation) {
log.error(
'updateCallHistoryForGroupCallOnPeek(): could not find conversation'
);
return;
}
const prevMessageId = await DataReader.getCallHistoryMessageByCallId({
conversationId: conversation.id,
callId: groupCallMeta.callId,
});
const isNewCall = prevMessageId == null;
if (isNewCall) {
const localCallEvent = getLocalCallEventFromJoinState(
joinState,
groupCallMeta
);
if (localCallEvent != null) {
const peerId = getPeerIdFromConversation(conversation.attributes);
const callDetails = getCallDetailsFromGroupCallMeta(
peerId,
groupCallMeta
);
const callEvent = getCallEventDetails(
callDetails,
localCallEvent,
'CallingClass.updateCallHistoryForGroupCallOnPeek'
);
await updateCallHistoryFromLocalEvent(callEvent, null, null);
}
}
const wasStartedByMe = Boolean(
creatorConversation && isMe(creatorConversation.attributes)
);
const isAnybodyElseInGroupCall = Boolean(peekInfo?.devices.length);
if (
isNewCall &&
!wasStartedByMe &&
isAnybodyElseInGroupCall &&
!conversation.isMuted()
) {
await this.notifyForGroupCall(conversation, creatorConversation);
}
}
private async notifyForGroupCall(
conversation: Readonly<ConversationModel>,
creatorConversation: undefined | Readonly<ConversationModel>
): Promise<void> {
let notificationTitle: string;
let notificationMessage: string;
switch (notificationService.getNotificationSetting()) {
case NotificationSetting.Off:
return;
case NotificationSetting.NoNameOrMessage:
notificationTitle = FALLBACK_NOTIFICATION_TITLE;
notificationMessage = window.i18n(
'icu:calling__call-notification__started-by-someone'
);
break;
default:
// These fallbacks exist just in case something unexpected goes wrong.
notificationTitle =
conversation?.getTitle() || FALLBACK_NOTIFICATION_TITLE;
notificationMessage = creatorConversation
? window.i18n('icu:calling__call-notification__started', {
name: creatorConversation.getTitle(),
})
: window.i18n('icu:calling__call-notification__started-by-someone');
break;
}
const { url, absolutePath } = await conversation.getAvatarOrIdenticon();
notificationService.notify({
conversationId: conversation.id,
iconPath: absolutePath,
iconUrl: url,
message: notificationMessage,
type: NotificationType.IncomingGroupCall,
sentAt: 0,
silent: false,
title: notificationTitle,
});
}
private areAnyCallsActiveOrRinging(): boolean {
return this.reduxInterface?.areAnyCallsActiveOrRinging() ?? false;
}
private async cleanExpiredGroupCallRingsAndLoop(): Promise<void> {
try {
await cleanExpiredGroupCallRingCancellations();
} catch (err: unknown) {
// These errors are ignored here. They should be logged elsewhere and it's okay if
// we don't do a cleanup this time.
}
setTimeout(() => {
void this.cleanExpiredGroupCallRingsAndLoop();
}, CLEAN_EXPIRED_GROUP_CALL_RINGS_INTERVAL);
}
// MacOS: Preload devices to work around delay when first entering call lobby
// https://bugs.chromium.org/p/chromium/issues/detail?id=1287628
private async enumerateMediaDevices(): Promise<void> {
try {
const microphoneStatus =
await window.IPC.getMediaAccessStatus('microphone');
if (microphoneStatus !== 'granted') {
return;
}
drop(window.navigator.mediaDevices.enumerateDevices());
} catch (error) {
log.error('enumerateMediaDevices failed:', Errors.toLogFormat(error));
}
}
}
export const calling = new CallingClass();