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session-ios/Signal/src/call/CallService.swift

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//
// Copyright (c) 2018 Open Whisper Systems. All rights reserved.
//
import Foundation
import PromiseKit
import WebRTC
import SignalServiceKit
import SignalMessaging
/**
* `CallService` is a global singleton that manages the state of WebRTC-backed Signal Calls
* (as opposed to legacy "RedPhone Calls").
*
* It serves as a connection between the `CallUIAdapter` and the `PeerConnectionClient`.
*
* ## Signaling
*
* Signaling refers to the setup and tear down of the connection. Before the connection is established, this must happen
* out of band (using Signal Service), but once the connection is established it's possible to publish updates
* (like hangup) via the established channel.
*
* Signaling state is synchronized on the main thread and only mutated in the handleXXX family of methods.
*
* Following is a high level process of the exchange of messages that takes place during call signaling.
*
* ### Key
*
* --[SOMETHING]--> represents a message of type "Something" sent from the caller to the callee
* <--[SOMETHING]-- represents a message of type "Something" sent from the callee to the caller
* SS: Message sent via Signal Service
* DC: Message sent via WebRTC Data Channel
*
* ### Message Exchange / State Flow Overview
*
* | Caller | Callee |
* +----------------------------+-------------------------+
* Start outgoing call: `handleOutgoingCall`...
--[SS.CallOffer]-->
* ...and start generating ICE updates.
* As ICE candidates are generated, `handleLocalAddedIceCandidate` is called.
* and we *store* the ICE updates for later.
*
* Received call offer: `handleReceivedOffer`
* Send call answer
* <--[SS.CallAnswer]--
* Start generating ICE updates.
* As they are generated `handleLocalAddedIceCandidate` is called
which immediately sends the ICE updates to the Caller.
* <--[SS.ICEUpdate]-- (sent multiple times)
*
* Received CallAnswer: `handleReceivedAnswer`
* So send any stored ice updates (and send future ones immediately)
* --[SS.ICEUpdates]-->
*
* Once compatible ICE updates have been exchanged...
* both parties: `handleIceConnected`
*
* Show remote ringing UI
* Connect to offered Data Channel
* Show incoming call UI.
*
* If callee answers Call
* send connected message
* <--[DC.ConnectedMesage]--
* Received connected message
* Show Call is connected.
*
* Hang up (this could equally be sent by the Callee)
* --[DC.Hangup]-->
* --[SS.Hangup]-->
*/
public enum CallError: Error {
case providerReset
case assertionError(description: String)
case disconnected
case externalError(underlyingError: Error)
case timeout(description: String)
case obsoleteCall(description: String)
case fatalError(description: String)
}
// Should be roughly synced with Android client for consistency
private let connectingTimeoutSeconds: TimeInterval = 120
// All Observer methods will be invoked from the main thread.
protocol CallServiceObserver: class {
/**
* Fired whenever the call changes.
*/
func didUpdateCall(call: SignalCall?)
/**
* Fired whenever the local or remote video track become active or inactive.
*/
func didUpdateVideoTracks(call: SignalCall?,
localCaptureSession: AVCaptureSession?,
remoteVideoTrack: RTCVideoTrack?)
}
// Gather all per-call state in one place.
private class SignalCallData: NSObject {
public let call: SignalCall
// Used to coordinate promises across delegate methods
let callConnectedPromise: Promise<Void>
let callConnectedResolver: Resolver<Void>
// Used to ensure any received ICE messages wait until the peer connection client is set up.
let peerConnectionClientPromise: Promise<Void>
let peerConnectionClientResolver: Resolver<Void>
// Used to ensure CallOffer was sent before sending any ICE updates.
let readyToSendIceUpdatesPromise: Promise<Void>
let readyToSendIceUpdatesResolver: Resolver<Void>
weak var localCaptureSession: AVCaptureSession? {
didSet {
AssertIsOnMainThread()
Logger.info("")
}
}
weak var remoteVideoTrack: RTCVideoTrack? {
didSet {
AssertIsOnMainThread()
Logger.info("")
}
}
var isRemoteVideoEnabled = false {
didSet {
AssertIsOnMainThread()
Logger.info("\(isRemoteVideoEnabled)")
}
}
var peerConnectionClient: PeerConnectionClient? {
didSet {
AssertIsOnMainThread()
Logger.debug(".peerConnectionClient setter: \(oldValue != nil) -> \(peerConnectionClient != nil) \(String(describing: peerConnectionClient))")
}
}
required init(call
: SignalCall) { self.call = call
let(callConnectedPromise, callConnectedResolver)
= Promise<Void>.pending() self.callConnectedPromise = callConnectedPromise self.callConnectedResolver
= callConnectedResolver
let(peerConnectionClientPromise, peerConnectionClientResolver)
= Promise<Void>.pending() self.peerConnectionClientPromise
= peerConnectionClientPromise self.peerConnectionClientResolver = peerConnectionClientResolver
let(readyToSendIceUpdatesPromise, readyToSendIceUpdatesResolver)
= Promise<Void>.pending() self.readyToSendIceUpdatesPromise
= readyToSendIceUpdatesPromise self.readyToSendIceUpdatesResolver = readyToSendIceUpdatesResolver
super
.init()
SwiftSingletons.register(self) }
deinit
{
Logger.debug("[SignalCallData] deinit")
}
// MARK: -
public func terminate() {
AssertIsOnMainThread()
Logger.debug("")
self.call.removeAllObservers()
// In case we're still waiting on this promise somewhere, we need to reject it to avoid a memory leak.
// There is no harm in rejecting a previously fulfilled promise.
self.callConnectedResolver.reject(CallError.obsoleteCall(description: "Terminating call"))
// In case we're still waiting on the peer connection setup somewhere, we need to reject it to avoid a memory leak.
// There is no harm in rejecting a previously fulfilled promise.
self.peerConnectionClientResolver.reject(CallError.obsoleteCall(description: "Terminating call"))
// In case we're still waiting on this promise somewhere, we need to reject it to avoid a memory leak.
// There is no harm in rejecting a previously fulfilled promise.
self.readyToSendIceUpdatesResolver.reject(CallError.obsoleteCall(description: "Terminating call"))
peerConnectionClient?.terminate()
Logger.debug("setting peerConnectionClient")
}
}
// This class' state should only be accessed on the main queue.
@objc public class CallService: NSObject, CallObserver, PeerConnectionClientDelegate {
// MARK: - Properties
var observers = [Weak<CallServiceObserver>]()
// MARK: Dependencies
// Exposed by environment.m
@objc public var callUIAdapter : CallUIAdapter !
// MARK: Class
static let fallbackIceServer
= RTCIceServer(urlStrings
: ["stun:stun1.l.google.com:19302"])
// MARK: Ivars
fileprivate var callData : SignalCallData
?
{
didSet {
AssertIsOnMainThread()
oldValue?.call.removeObserver(self)
callData?.call.addObserverAndSyncState(observer: self)
updateIsVideoEnabled()
// Prevent device from sleeping while we have an active call.
if oldValue != callData {
if let oldValue = oldValue {
DeviceSleepManager.sharedInstance.removeBlock(blockObject: oldValue)
}
if let callData = callData {
DeviceSleepManager.sharedInstance.addBlock(blockObject: callData)
self.startCallTimer()
} else {
stopAnyCallTimer()
}
}
Logger.debug(".callData setter: \(oldValue?.call.identifiersForLogs as Optional) -> \(callData?.call.identifiersForLogs as Optional)")
for observer in observers {
observer.value?.didUpdateCall(call: callData?.call)
}
}
}
@objc
var call: SignalCall? {
get {
AssertIsOnMainThread()
return callData?.call
}
}
var peerConnectionClient: PeerConnectionClient? {
get {
AssertIsOnMainThread()
return callData?.peerConnectionClient
}
}
weak var localCaptureSession: AVCaptureSession? {
get {
AssertIsOnMainThread()
return callData?.localCaptureSession
}
}
var remoteVideoTrack: RTCVideoTrack? {
get {
AssertIsOnMainThread()
return callData?.remoteVideoTrack
}
}
var isRemoteVideoEnabled: Bool {
get {
AssertIsOnMainThread()
guard let callData = callData else {
return false
}
return callData.isRemoteVideoEnabled
}
}
@objc public override init() { super
.init()
SwiftSingletons
.register(self)
self
.createCallUIAdapter()
NotificationCenter.default
.addObserver(self, selector
: #selector(didEnterBackground), name
: NSNotification.Name.OWSApplicationDidEnterBackground, object
: nil)
NotificationCenter.default.addObserver(
self, selector
: #selector(didBecomeActive), name
: NSNotification.Name.OWSApplicationDidBecomeActive, object
: nil) }
deinit
{
NotificationCenter.default.removeObserver(self)
}
// MARK: - Dependencies
private
var contactsManager : OWSContactsManager
{
return Environment.shared.contactsManager
}
private
var messageSender : MessageSender
{
return SSKEnvironment.shared.messageSender
}
private
var accountManager : AccountManager
{
return AppEnvironment.shared.accountManager
}
private
var notificationsAdapter : CallNotificationsAdapter
{
return AppEnvironment.shared.callNotificationsAdapter
}
// MARK: - Notifications
@objc func didEnterBackground() {
AssertIsOnMainThread()
self.updateIsVideoEnabled()
}
@objc func didBecomeActive() {
AssertIsOnMainThread()
self.updateIsVideoEnabled()
}
// MARK: -
/**
* Choose whether to use CallKit or a Notification backed interface for calling.
*/
@objc public func createCallUIAdapter() {
AssertIsOnMainThread()
if self.call != nil {
Logger.warn("ending current call in. Did user toggle callkit preference while in a call?")
self.terminateCall()
}
self.callUIAdapter = CallUIAdapter(callService: self, contactsManager: self.contactsManager, notificationsAdapter: self.notificationsAdapter)
}
// MARK: - Service Actions
/**
* Initiate an outgoing call.
*/
func handleOutgoingCall(_ call: SignalCall) -> Promise<Void> {
AssertIsOnMainThread()
guard self.call == nil else {
let errorDescription = "call was unexpectedly already set."
Logger.error(errorDescription)
call.state = .localFailure
OWSProdError(OWSAnalyticsEvents.callServiceCallAlreadySet(), file: #file, function: #function, line: #line)
return Promise(error: CallError.assertionError(description: errorDescription))
}
let callData = SignalCallData(call: call)
self.callData = callData
let callRecord = TSCall(timestamp: NSDate.ows_millisecondTimeStamp(), withCallNumber: call.remotePhoneNumber, callType: RPRecentCallTypeOutgoingIncomplete, in: call.thread)
callRecord.save()
call.callRecord = callRecord
let promise = getIceServers().then { iceServers -> Promise<HardenedRTCSessionDescription> in
Logger.debug("got ice servers:\(iceServers) for call: \(call.identifiersForLogs)")
guard self.call == call else {
throw CallError.obsoleteCall(description: "obsolete call")
}
guard callData.peerConnectionClient == nil else {
let errorDescription = "peerconnection was unexpectedly already set."
Logger.error(errorDescription)
OWSProdError(OWSAnalyticsEvents.callServicePeerConnectionAlreadySet(), file: #file, function: #function, line: #line)
throw CallError.assertionError(description: errorDescription)
}
let useTurnOnly = Environment.shared.preferences.doCallsHideIPAddress()
let peerConnectionClient = PeerConnectionClient(iceServers: iceServers, delegate: self, callDirection: .outgoing, useTurnOnly: useTurnOnly)
Logger.debug("setting peerConnectionClient for call: \(call.identifiersForLogs)")
callData.peerConnectionClient = peerConnectionClient
callData.peerConnectionClientResolver.fulfill(())
return peerConnectionClient.createOffer()
}.then { (sessionDescription: HardenedRTCSessionDescription) -> Promise<Void> in
guard self.call == call else {
throw CallError.obsoleteCall(description: "obsolete call")
}
guard let peerConnectionClient = self.peerConnectionClient else {
owsFailDebug("Missing peerConnectionClient")
throw CallError.obsoleteCall(description: "Missing peerConnectionClient")
}
Logger.info("session description for outgoing call: \(call.identifiersForLogs), sdp: \(sessionDescription.logSafeDescription).")
return firstly {
peerConnectionClient.setLocalSessionDescription(sessionDescription)
}.then { _ -> Promise<Void> in
do {
let offerBuilder = SSKProtoCallMessageOffer.builder(id: call.signalingId,
sessionDescription: sessionDescription.sdp)
let callMessage = OWSOutgoingCallMessage(thread: call.thread, offerMessage: try offerBuilder.build())
return self.messageSender.sendPromise(message: callMessage)
} catch {
owsFailDebug("Couldn't build proto")
throw CallError.fatalError(description: "Couldn't build proto")
}
}
}.then { () -> Promise<Void> in
guard self.call == call else {
throw CallError.obsoleteCall(description: "obsolete call")
}
// For outgoing calls, wait until call offer is sent before we send any ICE updates, to ensure message ordering for
// clients that don't support receiving ICE updates before receiving the call offer.
self.readyToSendIceUpdates(call: call)
// Don't let the outgoing call ring forever. We don't support inbound ringing forever anyway.
let timeout: Promise<Void> = after(seconds: connectingTimeoutSeconds).done {
// This code will always be called, whether or not the call has timed out.
// However, if the call has already connected, the `race` promise will have already been
// fulfilled. Rejecting an already fulfilled promise is a no-op.
throw CallError.timeout(description: "timed out waiting to receive call answer")
}
return race(timeout, callData.callConnectedPromise)
}.done {
Logger.info(self.call == call
? "outgoing call connected: \(call.identifiersForLogs)."
: "obsolete outgoing call connected: \(call.identifiersForLogs).")
}
promise.catch { error in
Logger.error("placing call \(call.identifiersForLogs) failed with error: \(error)")
if let callError = error as? CallError {
if case .timeout = callError {
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorTimeoutWhileConnectingOutgoing(), file: #file, function: #function, line: #line)
}
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorOutgoingConnectionFailedInternal(), file: #file, function: #function, line: #line)
self.handleFailedCall(failedCall: call, error: callError)
} else {
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorOutgoingConnectionFailedExternal(), file: #file, function: #function, line: #line)
let externalError = CallError.externalError(underlyingError: error)
self.handleFailedCall(failedCall: call, error: externalError)
}
}.retainUntilComplete()
return promise
}
func readyToSendIceUpdates(call: SignalCall) {
AssertIsOnMainThread()
guard let callData = self.callData else {
self.handleFailedCall(failedCall: call, error: .obsoleteCall(description:"obsolete call"))
return
}
guard callData.call == call else {
Logger.warn("ignoring \(#function) for call other than current call")
return
}
callData.readyToSendIceUpdatesResolver.fulfill(())
}
/**
* Called by the call initiator after receiving a CallAnswer from the callee.
*/
public func handleReceivedAnswer(thread: TSContactThread, callId: UInt64, sessionDescription: String) {
AssertIsOnMainThread()
Logger.info("received call answer for call: \(callId) thread: \(thread.contactIdentifier())")
guard let call = self.call else {
Logger.warn("ignoring obsolete call: \(callId)")
return
}
guard call.signalingId == callId else {
Logger.warn("ignoring mismatched call: \(callId) currentCall: \(call.signalingId)")
return
}
guard let peerConnectionClient = self.peerConnectionClient else {
OWSProdError(OWSAnalyticsEvents.callServicePeerConnectionMissing(), file: #file, function: #function, line: #line)
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "peerConnectionClient was unexpectedly nil"))
return
}
let sessionDescription = RTCSessionDescription(type: .answer, sdp: sessionDescription)
firstly {
peerConnectionClient.setRemoteSessionDescription(sessionDescription)
}.done {
Logger.debug("successfully set remote description")
}.catch { error in
if let callError = error as? CallError {
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorHandleReceivedErrorInternal(), file: #file, function: #function, line: #line)
self.handleFailedCall(failedCall: call, error: callError)
} else {
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorHandleReceivedErrorExternal(), file: #file, function: #function, line: #line)
let externalError = CallError.externalError(underlyingError: error)
self.handleFailedCall(failedCall: call, error: externalError)
}
}.retainUntilComplete()
}
/**
* User didn't answer incoming call
*/
public func handleMissedCall(_ call: SignalCall) {
AssertIsOnMainThread()
// Insert missed call record
if let callRecord = call.callRecord {
if callRecord.callType == RPRecentCallTypeIncoming {
callRecord.updateCallType(RPRecentCallTypeIncomingMissed)
}
} else {
call.callRecord = TSCall(timestamp: NSDate.ows_millisecondTimeStamp(),
withCallNumber: call.thread.contactIdentifier(),
callType: RPRecentCallTypeIncomingMissed,
in: call.thread)
}
assert(call.callRecord != nil)
call.callRecord?.save()
self.callUIAdapter.reportMissedCall(call)
}
/**
* Received a call while already in another call.
*/
private func handleLocalBusyCall(_ call: SignalCall) {
AssertIsOnMainThread()
Logger.info("for call: \(call.identifiersForLogs) thread: \(call.thread.contactIdentifier())")
do {
let busyBuilder = SSKProtoCallMessageBusy.builder(id: call.signalingId)
let callMessage = OWSOutgoingCallMessage(thread: call.thread, busyMessage: try busyBuilder.build())
let sendPromise = messageSender.sendPromise(message: callMessage)
sendPromise.retainUntilComplete()
handleMissedCall(call)
} catch {
owsFailDebug("Couldn't build proto")
}
}
/**
* The callee was already in another call.
*/
public func handleRemoteBusy(thread: TSContactThread, callId: UInt64) {
AssertIsOnMainThread()
Logger.info("for thread: \(thread.contactIdentifier())")
guard let call = self.call else {
Logger.warn("ignoring obsolete call: \(callId)")
return
}
guard call.signalingId == callId else {
Logger.warn("ignoring mismatched call: \(callId) currentCall: \(call.signalingId)")
return
}
guard thread.contactIdentifier() == call.remotePhoneNumber else {
Logger.warn("ignoring obsolete call")
return
}
call.state = .remoteBusy
callUIAdapter.remoteBusy(call)
terminateCall()
}
/**
* Received an incoming call offer. We still have to complete setting up the Signaling channel before we notify
* the user of an incoming call.
*/
public func handleReceivedOffer(thread: TSContactThread, callId: UInt64, sessionDescription callerSessionDescription: String) {
AssertIsOnMainThread()
let newCall = SignalCall.incomingCall(localId: UUID(), remotePhoneNumber: thread.contactIdentifier(), signalingId: callId)
Logger.info("receivedCallOffer: \(newCall.identifiersForLogs)")
let untrustedIdentity = OWSIdentityManager.shared().untrustedIdentityForSending(toRecipientId: thread.contactIdentifier())
guard untrustedIdentity == nil else {
Logger.warn("missed a call due to untrusted identity: \(newCall.identifiersForLogs)")
let callerName = self.contactsManager.displayName(forPhoneIdentifier: thread.contactIdentifier())
switch untrustedIdentity!.verificationState {
case .verified:
owsFailDebug("shouldn't have missed a call due to untrusted identity if the identity is verified")
self.notificationsAdapter.presentMissedCall(newCall, callerName: callerName)
case .default:
self.notificationsAdapter.presentMissedCallBecauseOfNewIdentity(call: newCall, callerName: callerName)
case .noLongerVerified:
self.notificationsAdapter.presentMissedCallBecauseOfNoLongerVerifiedIdentity(call: newCall, callerName: callerName)
}
let callRecord = TSCall(timestamp: NSDate.ows_millisecondTimeStamp(),
withCallNumber: thread.contactIdentifier(),
callType: RPRecentCallTypeIncomingMissedBecauseOfChangedIdentity,
in: thread)
assert(newCall.callRecord == nil)
newCall.callRecord = callRecord
callRecord.save()
terminateCall()
return
}
guard self.call == nil else {
let existingCall = self.call!
// TODO on iOS10+ we can use CallKit to swap calls rather than just returning busy immediately.
Logger.info("receivedCallOffer: \(newCall.identifiersForLogs) but we're already in call: \(existingCall.identifiersForLogs)")
handleLocalBusyCall(newCall)
if existingCall.remotePhoneNumber == newCall.remotePhoneNumber {
Logger.info("handling call from current call user as remote busy.: \(newCall.identifiersForLogs) but we're already in call: \(existingCall.identifiersForLogs)")
// If we're receiving a new call offer from the user we already think we have a call with,
// terminate our current call to get back to a known good state. If they call back, we'll
// be ready.
//
// TODO: Auto-accept this incoming call if our current call was either a) outgoing or
// b) never connected. There will be a bit of complexity around making sure that two
// parties that call each other at the same time end up connected.
switch existingCall.state {
case .idle, .dialing, .remoteRinging:
// If both users are trying to call each other at the same time,
// both should see busy.
handleRemoteBusy(thread: existingCall.thread, callId: existingCall.signalingId)
case .answering, .localRinging, .connected, .localFailure, .localHangup, .remoteHangup, .remoteBusy, .reconnecting:
// If one user calls another while the other has a "vestigial" call with
// that same user, fail the old call.
terminateCall()
}
}
return
}
Logger.info("starting new call: \(newCall.identifiersForLogs)")
let callData = SignalCallData(call: newCall)
self.callData = callData
var backgroundTask: OWSBackgroundTask? = OWSBackgroundTask(label: "\(#function)", completionBlock: { [weak self] status in
AssertIsOnMainThread()
guard status == .expired else {
return
}
guard let strongSelf = self else {
return
}
let timeout = CallError.timeout(description: "background task time ran out before call connected.")
guard strongSelf.call == newCall else {
Logger.warn("ignoring obsolete call")
return
}
strongSelf.handleFailedCall(failedCall: newCall, error: timeout)
})
firstly {
getIceServers()
}.then { (iceServers: [RTCIceServer]) -> Promise<HardenedRTCSessionDescription> in
// FIXME for first time call recipients I think we'll see mic/camera permission requests here,
// even though, from the users perspective, no incoming call is yet visible.
guard self.call == newCall else {
throw CallError.obsoleteCall(description: "getIceServers() response for obsolete call")
}
assert(self.peerConnectionClient == nil, "Unexpected PeerConnectionClient instance")
// For contacts not stored in our system contacts, we assume they are an unknown caller, and we force
// a TURN connection, so as not to reveal any connectivity information (IP/port) to the caller.
let isUnknownCaller = !self.contactsManager.hasSignalAccount(forRecipientId: thread.contactIdentifier())
let useTurnOnly = isUnknownCaller || Environment.shared.preferences.doCallsHideIPAddress()
Logger.debug("setting peerConnectionClient for: \(newCall.identifiersForLogs)")
let peerConnectionClient = PeerConnectionClient(iceServers: iceServers, delegate: self, callDirection: .incoming, useTurnOnly: useTurnOnly)
callData.peerConnectionClient = peerConnectionClient
callData.peerConnectionClientResolver.fulfill(())
let offerSessionDescription = RTCSessionDescription(type: .offer, sdp: callerSessionDescription)
let constraints = RTCMediaConstraints(mandatoryConstraints: nil, optionalConstraints: nil)
// Find a sessionDescription compatible with my constraints and the remote sessionDescription
return peerConnectionClient.negotiateSessionDescription(remoteDescription: offerSessionDescription, constraints: constraints)
}.then { (negotiatedSessionDescription: HardenedRTCSessionDescription) -> Promise<Void> in
guard self.call == newCall else {
throw CallError.obsoleteCall(description: "negotiateSessionDescription() response for obsolete call")
}
Logger.info("session description for incoming call: \(newCall.identifiersForLogs), sdp: \(negotiatedSessionDescription.logSafeDescription).")
do {
let answerBuilder = SSKProtoCallMessageAnswer.builder(id: newCall.signalingId,
sessionDescription: negotiatedSessionDescription.sdp)
let callAnswerMessage = OWSOutgoingCallMessage(thread: thread, answerMessage: try answerBuilder.build())
return self.messageSender.sendPromise(message: callAnswerMessage)
} catch {
owsFailDebug("Couldn't build proto")
throw CallError.fatalError(description: "Couldn't build proto")
}
}.then { () -> Promise<Void> in
guard self.call == newCall else {
throw CallError.obsoleteCall(description: "sendPromise(message: ) response for obsolete call")
}
Logger.debug("successfully sent callAnswerMessage for: \(newCall.identifiersForLogs)")
// There's nothing technically forbidding receiving ICE updates before receiving the CallAnswer, but this
// a more intuitive ordering.
self.readyToSendIceUpdates(call: newCall)
let timeout: Promise<Void> = after(seconds: connectingTimeoutSeconds).done {
// rejecting a promise by throwing is safely a no-op if the promise has already been fulfilled
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorTimeoutWhileConnectingIncoming(), file: #file, function: #function, line: #line)
throw CallError.timeout(description: "timed out waiting for call to connect")
}
// This will be fulfilled (potentially) by the RTCDataChannel delegate method
return race(callData.callConnectedPromise, timeout)
}.done {
Logger.info(self.call == newCall
? "incoming call connected: \(newCall.identifiersForLogs)."
: "obsolete incoming call connected: \(newCall.identifiersForLogs).")
}.recover { error in
guard self.call == newCall else {
Logger.debug("ignoring error: \(error) for obsolete call: \(newCall.identifiersForLogs).")
return
}
if let callError = error as? CallError {
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorIncomingConnectionFailedInternal(), file: #file, function: #function, line: #line)
self.handleFailedCall(failedCall: newCall, error: callError)
} else {
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorIncomingConnectionFailedExternal(), file: #file, function: #function, line: #line)
let externalError = CallError.externalError(underlyingError: error)
self.handleFailedCall(failedCall: newCall, error: externalError)
}
}.ensure {
Logger.debug("ending background task awaiting inbound call connection")
assert(backgroundTask != nil)
backgroundTask = nil
}.retainUntilComplete()
}
/**
* Remote client (could be caller or callee) sent us a connectivity update
*/
public func handleRemoteAddedIceCandidate(thread: TSContactThread, callId: UInt64, sdp: String, lineIndex: Int32, mid: String) {
AssertIsOnMainThread()
Logger.verbose("callId: \(callId)")
guard let callData = self.callData else {
Logger.info("ignoring remote ice update, since there is no current call.")
return
}
callData.peerConnectionClientPromise.done {
AssertIsOnMainThread()
guard let call = self.call else {
Logger.warn("ignoring remote ice update for thread: \(String(describing: thread.uniqueId)) since there is no current call. Call already ended?")
return
}
guard call.signalingId == callId else {
Logger.warn("ignoring mismatched call: \(callId) currentCall: \(call.signalingId)")
return
}
guard thread.contactIdentifier() == call.thread.contactIdentifier() else {
Logger.warn("ignoring remote ice update for thread: \(String(describing: thread.uniqueId)) due to thread mismatch. Call already ended?")
return
}
guard let peerConnectionClient = self.peerConnectionClient else {
Logger.warn("ignoring remote ice update for thread: \(String(describing: thread.uniqueId)) since there is no current peerConnectionClient. Call already ended?")
return
}
Logger.verbose("addRemoteIceCandidate")
peerConnectionClient.addRemoteIceCandidate(RTCIceCandidate(sdp: sdp, sdpMLineIndex: lineIndex, sdpMid: mid))
}.catch { error in
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorHandleRemoteAddedIceCandidate(), file: #file, function: #function, line: #line)
Logger.error("peerConnectionClientPromise failed with error: \(error)")
}.retainUntilComplete()
}
/**
* Local client (could be caller or callee) generated some connectivity information that we should send to the
* remote client.
*/
private func handleLocalAddedIceCandidate(_ iceCandidate: RTCIceCandidate) {
AssertIsOnMainThread()
guard let callData = self.callData else {
OWSProdError(OWSAnalyticsEvents.callServiceCallMissing(), file: #file, function: #function, line: #line)
self.handleFailedCurrentCall(error: CallError.assertionError(description: "ignoring local ice candidate, since there is no current call."))
return
}
let call = callData.call
// Wait until we've sent the CallOffer before sending any ice updates for the call to ensure
// intuitive message ordering for other clients.
callData.readyToSendIceUpdatesPromise.done {
guard call == self.call else {
self.handleFailedCurrentCall(error: .obsoleteCall(description: "current call changed since we became ready to send ice updates"))
return
}
guard call.state != .idle else {
// This will only be called for the current peerConnectionClient, so
// fail the current call.
OWSProdError(OWSAnalyticsEvents.callServiceCallUnexpectedlyIdle(), file: #file, function: #function, line: #line)
self.handleFailedCurrentCall(error: CallError.assertionError(description: "ignoring local ice candidate, since call is now idle."))
return
}
guard let sdpMid = iceCandidate.sdpMid else {
owsFailDebug("Missing sdpMid")
throw CallError.fatalError(description: "Missing sdpMid")
}
guard iceCandidate.sdpMLineIndex < UINT32_MAX else {
owsFailDebug("Invalid sdpMLineIndex")
throw CallError.fatalError(description: "Invalid sdpMLineIndex")
}
Logger.info("sending ICE Candidate \(call.identifiersForLogs).")
do {
/**
* Sent by both parties out of band of the RTC calling channels, as part of setting up those channels. The messages
* include network accessibility information from the perspective of each client. Once compatible ICEUpdates have been
* exchanged, the clients can connect.
*/
let iceUpdateBuilder = SSKProtoCallMessageIceUpdate.builder(id: call.signalingId,
sdpMid: sdpMid,
sdpMlineIndex: UInt32(iceCandidate.sdpMLineIndex),
sdp: iceCandidate.sdp)
let callMessage = OWSOutgoingCallMessage(thread: call.thread, iceUpdateMessage: try iceUpdateBuilder.build())
let sendPromise = self.messageSender.sendPromise(message: callMessage)
sendPromise.retainUntilComplete()
} catch {
owsFailDebug("Couldn't build proto")
throw CallError.fatalError(description: "Couldn't build proto")
}
}.catch { error in
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorHandleLocalAddedIceCandidate(), file: #file, function: #function, line: #line)
Logger.error("waitUntilReadyToSendIceUpdates failed with error: \(error)")
}.retainUntilComplete()
}
/**
* The clients can now communicate via WebRTC.
*
* Called by both caller and callee. Compatible ICE messages have been exchanged between the local and remote
* client.
*/
private func handleIceConnected() {
AssertIsOnMainThread()
guard let call = self.call else {
// This will only be called for the current peerConnectionClient, so
// fail the current call.
OWSProdError(OWSAnalyticsEvents.callServiceCallMissing(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "ignoring \(#function) since there is no current call."))
return
}
Logger.info("\(call.identifiersForLogs).")
switch call.state {
case .dialing:
call.state = .remoteRinging
case .answering:
call.state = .localRinging
self.callUIAdapter.reportIncomingCall(call, thread: call.thread)
case .remoteRinging:
Logger.info("call already ringing. Ignoring \(#function): \(call.identifiersForLogs).")
case .connected:
Logger.info("Call reconnected \(#function): \(call.identifiersForLogs).")
case .reconnecting:
call.state = .connected
case .idle, .localRinging, .localFailure, .localHangup, .remoteHangup, .remoteBusy:
owsFailDebug("unexpected call state: \(call.state): \(call.identifiersForLogs).")
}
}
private func handleIceDisconnected() {
AssertIsOnMainThread()
guard let call = self.call else {
// This will only be called for the current peerConnectionClient, so
// fail the current call.
OWSProdError(OWSAnalyticsEvents.callServiceCallMissing(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "ignoring \(#function) since there is no current call."))
return
}
Logger.info("\(call.identifiersForLogs).")
switch call.state {
case .remoteRinging, .localRinging:
Logger.debug("disconnect while ringing... we'll keep ringing")
case .connected:
call.state = .reconnecting
default:
owsFailDebug("unexpected call state: \(call.state): \(call.identifiersForLogs).")
}
}
/**
* The remote client (caller or callee) ended the call.
*/
public func handleRemoteHangup(thread: TSContactThread, callId: UInt64) {
AssertIsOnMainThread()
Logger.debug("")
guard let call = self.call else {
// This may happen if we hang up slightly before they hang up.
handleFailedCurrentCall(error: .obsoleteCall(description:"call was unexpectedly nil"))
return
}
guard call.signalingId == callId else {
Logger.warn("ignoring mismatched call: \(callId) currentCall: \(call.signalingId)")
return
}
guard thread.contactIdentifier() == call.thread.contactIdentifier() else {
// This can safely be ignored.
// We don't want to fail the current call because an old call was slow to send us the hangup message.
Logger.warn("ignoring hangup for thread: \(thread.contactIdentifier()) which is not the current call: \(call.identifiersForLogs)")
return
}
Logger.info("\(call.identifiersForLogs).")
switch call.state {
case .idle, .dialing, .answering, .localRinging, .localFailure, .remoteBusy, .remoteRinging:
handleMissedCall(call)
case .connected, .reconnecting, .localHangup, .remoteHangup:
Logger.info("call is finished.")
}
call.state = .remoteHangup
// Notify UI
callUIAdapter.remoteDidHangupCall(call)
// self.call is nil'd in `terminateCall`, so it's important we update it's state *before* calling `terminateCall`
terminateCall()
}
/**
* User chose to answer call referred to by call `localId`. Used by the Callee only.
*
* Used by notification actions which can't serialize a call object.
*/
@objc public func handleAnswerCall(localId: UUID) {
AssertIsOnMainThread()
guard let call = self.call else {
// This should never happen; return to a known good state.
owsFailDebug("call was unexpectedly nil")
OWSProdError(OWSAnalyticsEvents.callServiceCallMissing(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "call was unexpectedly nil"))
return
}
guard call.localId == localId else {
// This should never happen; return to a known good state.
owsFailDebug("callLocalId:\(localId) doesn't match current calls: \(call.localId)")
OWSProdError(OWSAnalyticsEvents.callServiceCallIdMismatch(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "callLocalId:\(localId) doesn't match current calls: \(call.localId)"))
return
}
self.handleAnswerCall(call)
}
/**
* User chose to answer call referred to by call `localId`. Used by the Callee only.
*/
public func handleAnswerCall(_ call: SignalCall) {
AssertIsOnMainThread()
Logger.debug("")
guard let currentCallData = self.callData else {
OWSProdError(OWSAnalyticsEvents.callServiceCallDataMissing(), file: #file, function: #function, line: #line)
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "callData unexpectedly nil"))
return
}
guard call == currentCallData.call else {
// This could conceivably happen if the other party of an old call was slow to send us their answer
// and we've subsequently engaged in another call. Don't kill the current call, but just ignore it.
Logger.warn("ignoring \(#function) for call other than current call")
return
}
guard let peerConnectionClient = self.peerConnectionClient else {
OWSProdError(OWSAnalyticsEvents.callServicePeerConnectionMissing(), file: #file, function: #function, line: #line)
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "missing peerconnection client"))
return
}
Logger.info("\(call.identifiersForLogs).")
let callRecord = TSCall(timestamp: NSDate.ows_millisecondTimeStamp(), withCallNumber: call.remotePhoneNumber, callType: RPRecentCallTypeIncomingIncomplete, in: call.thread)
callRecord.save()
call.callRecord = callRecord
var messageData: Data
do {
let connectedBuilder = WebRTCProtoConnected.builder(id: call.signalingId)
let dataBuilder = WebRTCProtoData.builder()
dataBuilder.setConnected(try connectedBuilder.build())
messageData = try dataBuilder.buildSerializedData()
} catch {
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "couldn't build proto"))
return
}
peerConnectionClient.sendDataChannelMessage(data: messageData, description: "connected", isCritical: true)
handleConnectedCall(currentCallData)
}
/**
* For outgoing call, when the callee has chosen to accept the call.
* For incoming call, when the local user has chosen to accept the call.
*/
private func handleConnectedCall(_ callData: SignalCallData) {
AssertIsOnMainThread()
Logger.info("")
guard let peerConnectionClient = callData.peerConnectionClient else {
OWSProdError(OWSAnalyticsEvents.callServicePeerConnectionMissing(), file: #file, function: #function, line: #line)
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "peerConnectionClient unexpectedly nil"))
return
}
Logger.info("handleConnectedCall: \(callData.call.identifiersForLogs).")
// cancel connection timeout
callData.callConnectedResolver.fulfill(())
callData.call.state = .connected
// We don't risk transmitting any media until the remote client has admitted to being connected.
ensureAudioState(call: callData.call, peerConnectionClient: peerConnectionClient)
peerConnectionClient.setLocalVideoEnabled(enabled: shouldHaveLocalVideoTrack())
}
/**
* Local user chose to decline the call vs. answering it.
*
* The call is referred to by call `localId`, which is included in Notification actions.
*
* Incoming call only.
*/
public func handleDeclineCall(localId: UUID) {
AssertIsOnMainThread()
guard let call = self.call else {
// This should never happen; return to a known good state.
owsFailDebug("call was unexpectedly nil")
OWSProdError(OWSAnalyticsEvents.callServiceCallMissing(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "call was unexpectedly nil"))
return
}
guard call.localId == localId else {
// This should never happen; return to a known good state.
owsFailDebug("callLocalId:\(localId) doesn't match current calls: \(call.localId)")
OWSProdError(OWSAnalyticsEvents.callServiceCallIdMismatch(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "callLocalId:\(localId) doesn't match current calls: \(call.localId)"))
return
}
self.handleDeclineCall(call)
}
/**
* Local user chose to decline the call vs. answering it.
*
* Incoming call only.
*/
public func handleDeclineCall(_ call: SignalCall) {
AssertIsOnMainThread()
Logger.info("\(call.identifiersForLogs).")
if let callRecord = call.callRecord {
owsFailDebug("Not expecting callrecord to already be set")
callRecord.updateCallType(RPRecentCallTypeIncomingDeclined)
} else {
let callRecord = TSCall(timestamp: NSDate.ows_millisecondTimeStamp(), withCallNumber: call.remotePhoneNumber, callType: RPRecentCallTypeIncomingDeclined, in: call.thread)
callRecord.save()
call.callRecord = callRecord
}
// Currently we just handle this as a hangup. But we could offer more descriptive action. e.g. DataChannel message
handleLocalHungupCall(call)
}
/**
* Local user chose to end the call.
*
* Can be used for Incoming and Outgoing calls.
*/
func handleLocalHungupCall(_ call: SignalCall) {
AssertIsOnMainThread()
guard let currentCall = self.call else {
Logger.info("No current call. Other party hung up just before us.")
// terminating the call might be redundant, but it shouldn't hurt.
terminateCall()
return
}
guard call == currentCall else {
OWSProdError(OWSAnalyticsEvents.callServiceCallMismatch(), file: #file, function: #function, line: #line)
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "ignoring \(#function) for call other than current call"))
return
}
Logger.info("\(call.identifiersForLogs).")
call.state = .localHangup
if let callRecord = call.callRecord {
if callRecord.callType == RPRecentCallTypeOutgoingIncomplete {
callRecord.updateCallType(RPRecentCallTypeOutgoingMissed)
}
} else {
owsFailDebug("missing call record")
}
// TODO something like this lifted from Signal-Android.
// this.accountManager.cancelInFlightRequests();
// this.messageSender.cancelInFlightRequests();
if let peerConnectionClient = self.peerConnectionClient {
// Stop audio capture ASAP
ensureAudioState(call: call, peerConnectionClient: peerConnectionClient)
// If the call is connected, we can send the hangup via the data channel for faster hangup.
var messageData: Data
do {
let hangupBuilder = WebRTCProtoHangup.builder(id: call.signalingId)
let dataBuilder = WebRTCProtoData.builder()
dataBuilder.setHangup(try hangupBuilder.build())
messageData = try dataBuilder.buildSerializedData()
} catch {
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "couldn't build proto"))
return
}
peerConnectionClient.sendDataChannelMessage(data: messageData, description: "hangup", isCritical: true)
} else {
Logger.info("ending call before peer connection created. Device offline or quick hangup.")
}
// If the call hasn't started yet, we don't have a data channel to communicate the hang up. Use Signal Service Message.
do {
let hangupBuilder = SSKProtoCallMessageHangup.builder(id: call.signalingId)
let callMessage = OWSOutgoingCallMessage(thread: call.thread, hangupMessage: try hangupBuilder.build())
firstly {
self.messageSender.sendPromise(message: callMessage)
}.done {
Logger.debug("successfully sent hangup call message to \(call.thread.contactIdentifier())")
}.catch { error in
OWSProdInfo(OWSAnalyticsEvents.callServiceErrorHandleLocalHungupCall(), file: #file, function: #function, line: #line)
Logger.error("failed to send hangup call message to \(call.thread.contactIdentifier()) with error: \(error)")
}.retainUntilComplete()
terminateCall()
} catch {
handleFailedCall(failedCall: call, error: CallError.assertionError(description: "couldn't build proto"))
}
}
/**
* Local user toggled to mute audio.
*
* Can be used for Incoming and Outgoing calls.
*/
func setIsMuted(call: SignalCall, isMuted: Bool) {
AssertIsOnMainThread()
guard call == self.call else {
// This can happen after a call has ended. Reproducible on iOS11, when the other party ends the call.
Logger.info("ignoring mute request for obsolete call")
return
}
call.isMuted = isMuted
guard let peerConnectionClient = self.peerConnectionClient else {
// The peer connection might not be created yet.
return
}
ensureAudioState(call: call, peerConnectionClient: peerConnectionClient)
}
/**
* Local user toggled to hold call. Currently only possible via CallKit screen,
* e.g. when another Call comes in.
*/
func setIsOnHold(call: SignalCall, isOnHold: Bool) {
AssertIsOnMainThread()
guard call == self.call else {
Logger.info("ignoring held request for obsolete call")
return
}
call.isOnHold = isOnHold
guard let peerConnectionClient = self.peerConnectionClient else {
// The peer connection might not be created yet.
return
}
ensureAudioState(call: call, peerConnectionClient: peerConnectionClient)
}
func ensureAudioState(call: SignalCall, peerConnectionClient: PeerConnectionClient) {
guard call.state == .connected else {
peerConnectionClient.setAudioEnabled(enabled: false)
return
}
guard !call.isMuted else {
peerConnectionClient.setAudioEnabled(enabled: false)
return
}
guard !call.isOnHold else {
peerConnectionClient.setAudioEnabled(enabled: false)
return
}
peerConnectionClient.setAudioEnabled(enabled: true)
}
/**
* Local user toggled video.
*
* Can be used for Incoming and Outgoing calls.
*/
func setHasLocalVideo(hasLocalVideo: Bool) {
AssertIsOnMainThread()
guard let frontmostViewController = UIApplication.shared.frontmostViewController else {
owsFailDebug("could not identify frontmostViewController")
return
}
frontmostViewController.ows_ask(forCameraPermissions: { [weak self] granted in
guard let strongSelf = self else {
return
}
if (granted) {
// Success callback; camera permissions are granted.
strongSelf.setHasLocalVideoWithCameraPermissions(hasLocalVideo: hasLocalVideo)
} else {
// Failed callback; camera permissions are _NOT_ granted.
// We don't need to worry about the user granting or remoting this permission
// during a call while the app is in the background, because changing this
// permission kills the app.
OWSAlerts.showAlert(title: NSLocalizedString("MISSING_CAMERA_PERMISSION_TITLE", comment: "Alert title when camera is not authorized"),
message: NSLocalizedString("MISSING_CAMERA_PERMISSION_MESSAGE", comment: "Alert body when camera is not authorized"))
}
})
}
private func setHasLocalVideoWithCameraPermissions(hasLocalVideo: Bool) {
AssertIsOnMainThread()
guard let call = self.call else {
// This can happen if you toggle local video right after
// the other user ends the call.
Logger.debug("Ignoring event from obsolete call")
return
}
call.hasLocalVideo = hasLocalVideo
guard let peerConnectionClient = self.peerConnectionClient else {
// The peer connection might not be created yet.
return
}
if call.state == .connected {
peerConnectionClient.setLocalVideoEnabled(enabled: shouldHaveLocalVideoTrack())
}
}
@objc
func handleCallKitStartVideo() {
AssertIsOnMainThread()
self.setHasLocalVideo(hasLocalVideo: true)
}
func setCameraSource(call: SignalCall, isUsingFrontCamera: Bool) {
AssertIsOnMainThread()
guard let peerConnectionClient = self.peerConnectionClient else {
return
}
peerConnectionClient.setCameraSource(isUsingFrontCamera: isUsingFrontCamera)
}
/**
* Local client received a message on the WebRTC data channel.
*
* The WebRTC data channel is a faster signaling channel than out of band Signal Service messages. Once it's
* established we use it to communicate further signaling information. The one sort-of exception is that with
* hangup messages we redundantly send a Signal Service hangup message, which is more reliable, and since the hangup
* action is idemptotent, there's no harm done.
*
* Used by both Incoming and Outgoing calls.
*/
private func handleDataChannelMessage(_ message: WebRTCProtoData) {
AssertIsOnMainThread()
guard let callData = self.callData else {
// This should never happen; return to a known good state.
owsFailDebug("received data message, but there is no current call. Ignoring.")
OWSProdError(OWSAnalyticsEvents.callServiceCallMissing(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "received data message, but there is no current call. Ignoring."))
return
}
let call = callData.call
if let connected = message.connected {
Logger.debug("remote participant sent Connected via data channel: \(call.identifiersForLogs).")
guard connected.id == call.signalingId else {
// This should never happen; return to a known good state.
owsFailDebug("received connected message for call with id:\(connected.id) but current call has id:\(call.signalingId)")
OWSProdError(OWSAnalyticsEvents.callServiceCallIdMismatch(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "received connected message for call with id:\(connected.id) but current call has id:\(call.signalingId)"))
return
}
self.callUIAdapter.recipientAcceptedCall(call)
handleConnectedCall(callData)
} else if let hangup = message.hangup {
Logger.debug("remote participant sent Hangup via data channel: \(call.identifiersForLogs).")
guard hangup.id == call.signalingId else {
// This should never happen; return to a known good state.
owsFailDebug("received hangup message for call with id:\(hangup.id) but current call has id:\(call.signalingId)")
OWSProdError(OWSAnalyticsEvents.callServiceCallIdMismatch(), file: #file, function: #function, line: #line)
handleFailedCurrentCall(error: CallError.assertionError(description: "received hangup message for call with id:\(hangup.id) but current call has id:\(call.signalingId)"))
return
}
handleRemoteHangup(thread: call.thread, callId: hangup.id)
} else if let videoStreamingStatus = message.videoStreamingStatus {
Logger.debug("remote participant sent VideoStreamingStatus via data channel: \(call.identifiersForLogs).")
callData.isRemoteVideoEnabled = videoStreamingStatus.enabled
self.fireDidUpdateVideoTracks()
} else {
Logger.info("received unknown or empty DataChannelMessage: \(call.identifiersForLogs).")
}
}
// MARK: - PeerConnectionClientDelegate
/**
* The connection has been established. The clients can now communicate.
*/
internal func peerConnectionClientIceConnected(_ peerConnectionClient: PeerConnectionClient) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
self.handleIceConnected()
}
func peerConnectionClientIceDisconnected(_ peerconnectionClient: PeerConnectionClient) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
self.handleIceDisconnected()
}
/**
* The connection failed to establish. The clients will not be able to communicate.
*/
internal func peerConnectionClientIceFailed(_ peerConnectionClient: PeerConnectionClient) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
// Return to a known good state.
self.handleFailedCurrentCall(error: CallError.disconnected)
}
/**
* During the Signaling process each client generates IceCandidates locally, which contain information about how to
* reach the local client via the internet. The delegate must shuttle these IceCandates to the other (remote) client
* out of band, as part of establishing a connection over WebRTC.
*/
internal func peerConnectionClient(_ peerConnectionClient: PeerConnectionClient, addedLocalIceCandidate iceCandidate: RTCIceCandidate) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
self.handleLocalAddedIceCandidate(iceCandidate)
}
/**
* Once the peerconnection is established, we can receive messages via the data channel, and notify the delegate.
*/
internal func peerConnectionClient(_ peerConnectionClient: PeerConnectionClient, received dataChannelMessage: WebRTCProtoData) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
self.handleDataChannelMessage(dataChannelMessage)
}
internal func peerConnectionClient(_ peerConnectionClient: PeerConnectionClient, didUpdateLocalVideoCaptureSession captureSession: AVCaptureSession?) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
guard let callData = callData else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
callData.localCaptureSession = captureSession
fireDidUpdateVideoTracks()
}
internal func peerConnectionClient(_ peerConnectionClient: PeerConnectionClient, didUpdateRemoteVideoTrack videoTrack: RTCVideoTrack?) {
AssertIsOnMainThread()
guard peerConnectionClient == self.peerConnectionClient else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
guard let callData = callData else {
Logger.debug("Ignoring event from obsolete peerConnectionClient")
return
}
callData.remoteVideoTrack = videoTrack
fireDidUpdateVideoTracks()
}
// MARK: -
/**
* RTCIceServers are used when attempting to establish an optimal connection to the other party. SignalService supplies
* a list of servers, plus we have fallback servers hardcoded in the app.
*/
private func getIceServers() -> Promise<[RTCIceServer]> {
AssertIsOnMainThread()
return firstly {
accountManager.getTurnServerInfo()
}.map { turnServerInfo -> [RTCIceServer] in
Logger.debug("got turn server urls: \(turnServerInfo.urls)")
return turnServerInfo.urls.map { url in
if url.hasPrefix("turn") {
// Only "turn:" servers require authentication. Don't include the credentials to other ICE servers
// as 1.) they aren't used, and 2.) the non-turn servers might not be under our control.
// e.g. we use a public fallback STUN server.
return RTCIceServer(urlStrings: [url], username: turnServerInfo.username, credential: turnServerInfo.password)
} else {
return RTCIceServer(urlStrings: [url])
}
} + [CallService.fallbackIceServer]
}.recover { (error: Error) -> Guarantee<[RTCIceServer]> in
Logger.error("fetching ICE servers failed with error: \(error)")
Logger.warn("using fallback ICE Servers")
return Guarantee.value([CallService.fallbackIceServer])
}
}
// This method should be called when either: a) we know or assume that
// the error is related to the current call. b) the error is so serious
// that we want to terminate the current call (if any) in order to
// return to a known good state.
public func handleFailedCurrentCall(error: CallError) {
Logger.debug("")
// Return to a known good state by ending the current call, if any.
handleFailedCall(failedCall: self.call, error: error)
}
// This method should be called when a fatal error occurred for a call.
//
// * If we know which call it was, we should update that call's state
// to reflect the error.
// * IFF that call is the current call, we want to terminate it.
public func handleFailedCall(failedCall: SignalCall?, error: CallError) {
AssertIsOnMainThread()
if case CallError.assertionError(description: let description) = error {
owsFailDebug(description)
}
if let failedCall = failedCall {
switch failedCall.state {
case .answering, .localRinging:
assert(failedCall.callRecord == nil)
// call failed before any call record could be created, make one now.
handleMissedCall(failedCall)
default:
assert(failedCall.callRecord != nil)
}
// It's essential to set call.state before terminateCall, because terminateCall nils self.call
failedCall.error = error
failedCall.state = .localFailure
self.callUIAdapter.failCall(failedCall, error: error)
// Only terminate the current call if the error pertains to the current call.
guard failedCall == self.call else {
Logger.debug("ignoring obsolete call: \(failedCall.identifiersForLogs).")
return
}
Logger.error("call: \(failedCall.identifiersForLogs) failed with error: \(error)")
} else {
Logger.error("unknown call failed with error: \(error)")
}
// Only terminate the call if it is the current call.
terminateCall()
}
/**
* Clean up any existing call state and get ready to receive a new call.
*/
private func terminateCall() {
AssertIsOnMainThread()
Logger.debug("")
let currentCallData = self.callData
self.callData = nil
currentCallData?.terminate()
self.callUIAdapter.didTerminateCall(currentCallData?.call)
fireDidUpdateVideoTracks()
}
// MARK: - CallObserver
internal func stateDidChange(call: SignalCall, state: CallState) {
AssertIsOnMainThread()
Logger.info("\(state)")
updateIsVideoEnabled()
}
internal func hasLocalVideoDidChange(call: SignalCall, hasLocalVideo: Bool) {
AssertIsOnMainThread()
Logger.info("\(hasLocalVideo)")
self.updateIsVideoEnabled()
}
internal func muteDidChange(call: SignalCall, isMuted: Bool) {
AssertIsOnMainThread()
// Do nothing
}
internal func holdDidChange(call: SignalCall, isOnHold: Bool) {
AssertIsOnMainThread()
// Do nothing
}
internal func audioSourceDidChange(call: SignalCall, audioSource: AudioSource?) {
AssertIsOnMainThread()
// Do nothing
}
// MARK: - Video
private func shouldHaveLocalVideoTrack() -> Bool {
AssertIsOnMainThread()
guard let call = self.call else {
return false
}
// The iOS simulator doesn't provide any sort of camera capture
// support or emulation (http://goo.gl/rHAnC1) so don't bother
// trying to open a local stream.
return (!Platform.isSimulator &&
UIApplication.shared.applicationState != .background &&
call.state == .connected &&
call.hasLocalVideo)
}
//TODO only fire this when it's changed? as of right now it gets called whenever you e.g. lock the phone while it's incoming ringing.
private func updateIsVideoEnabled() {
AssertIsOnMainThread()
guard let call = self.call else {
return
}
guard let peerConnectionClient = self.peerConnectionClient else {
return
}
let shouldHaveLocalVideoTrack = self.shouldHaveLocalVideoTrack()
Logger.info("\(shouldHaveLocalVideoTrack)")
self.peerConnectionClient?.setLocalVideoEnabled(enabled: shouldHaveLocalVideoTrack)
var messageData: Data
do {
let videoStreamingStatusBuilder = WebRTCProtoVideoStreamingStatus.builder(id: call.signalingId)
videoStreamingStatusBuilder.setEnabled(shouldHaveLocalVideoTrack)
let dataBuilder = WebRTCProtoData.builder()
dataBuilder.setVideoStreamingStatus(try videoStreamingStatusBuilder.build())
messageData = try dataBuilder.buildSerializedData()
} catch {
Logger.error("couldn't build proto")
return
}
peerConnectionClient.sendDataChannelMessage(data: messageData, description: "videoStreamingStatus", isCritical: false)
}
// MARK: - Observers
// The observer-related methods should be invoked on the main thread.
func addObserverAndSyncState(observer: CallServiceObserver) {
AssertIsOnMainThread()
observers.append(Weak(value: observer))
// Synchronize observer with current call state
let remoteVideoTrack = self.isRemoteVideoEnabled ? self.remoteVideoTrack : nil
observer.didUpdateVideoTracks(call: self.call,
localCaptureSession: self.localCaptureSession,
remoteVideoTrack: remoteVideoTrack)
}
// The observer-related methods should be invoked on the main thread.
func removeObserver(_ observer: CallServiceObserver) {
AssertIsOnMainThread()
while let index = observers.index(where: { $0.value === observer }) {
observers.remove(at: index)
}
}
// The observer-related methods should be invoked on the main thread.
func removeAllObservers() {
AssertIsOnMainThread()
observers = []
}
private func fireDidUpdateVideoTracks() {
AssertIsOnMainThread()
let remoteVideoTrack = self.isRemoteVideoEnabled ? self.remoteVideoTrack : nil
for observer in observers {
observer.value?.didUpdateVideoTracks(call: self.call,
localCaptureSession: self.localCaptureSession,
remoteVideoTrack: remoteVideoTrack)
}
}
// MARK: CallViewController Timer
var activeCallTimer: Timer?
func startCallTimer() {
AssertIsOnMainThread()
stopAnyCallTimer()
assert(self.activeCallTimer == nil)
self.activeCallTimer = WeakTimer.scheduledTimer(timeInterval: 1, target: self, userInfo: nil, repeats: true) { [weak self] timer in
guard let strongSelf = self else {
return
}
guard let call = strongSelf.call else {
owsFailDebug("call has since ended. Timer should have been invalidated.")
timer.invalidate()
return
}
strongSelf.ensureCallScreenPresented(call: call)
}
}
func ensureCallScreenPresented(call: SignalCall) {
guard let currentCall = self.call else {
owsFailDebug("obsolete call: \(call.identifiersForLogs)")
return
}
guard currentCall == call else {
owsFailDebug("obsolete call: \(call.identifiersForLogs)")
return
}
guard let connectedDate = call.connectedDate else {
// Ignore; call hasn't connected yet.
return
}
let kMaxViewPresentationDelay: Double = 5
guard fabs(connectedDate.timeIntervalSinceNow) > kMaxViewPresentationDelay else {
// Ignore; call connected recently.
return
}
guard !call.isTerminated else {
// There's a brief window between when the callViewController is removed
// and when this timer is terminated.
//
// We don't want to fail a call that's already terminated.
Logger.debug("ignoring screen protection check for already terminated call.")
return
}
if !OWSWindowManager.shared().hasCall() {
OWSProdError(OWSAnalyticsEvents.callServiceCallViewCouldNotPresent(), file: #file, function: #function, line: #line)
owsFailDebug("Call terminated due to missing call view.")
self.handleFailedCall(failedCall: call, error: CallError.assertionError(description: "Call view didn't present after \(kMaxViewPresentationDelay) seconds"))
return
}
}
func stopAnyCallTimer() {
AssertIsOnMainThread()
self.activeCallTimer?.invalidate()
self.activeCallTimer = nil
}
}
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