tdesktop/Telegram/SourceFiles/calls/group/calls_group_call.cpp

3513 lines
96 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "calls/group/calls_group_call.h"
#include "calls/group/calls_group_common.h"
#include "main/main_session.h"
#include "api/api_send_progress.h"
#include "api/api_updates.h"
#include "apiwrap.h"
#include "lang/lang_keys.h"
#include "lang/lang_hardcoded.h"
#include "boxes/peers/edit_participants_box.h" // SubscribeToMigration.
#include "ui/toast/toast.h"
#include "base/unixtime.h"
#include "core/application.h"
#include "core/core_settings.h"
#include "data/data_changes.h"
#include "data/data_user.h"
#include "data/data_chat.h"
#include "data/data_channel.h"
#include "data/data_group_call.h"
#include "data/data_peer_values.h"
#include "data/data_session.h"
#include "base/global_shortcuts.h"
#include "base/random.h"
#include "webrtc/webrtc_video_track.h"
#include "webrtc/webrtc_media_devices.h"
#include "webrtc/webrtc_create_adm.h"
#include <tgcalls/group/GroupInstanceCustomImpl.h>
#include <tgcalls/VideoCaptureInterface.h>
#include <tgcalls/StaticThreads.h>
#include <QtCore/QJsonDocument>
#include <QtCore/QJsonObject>
#include <QtCore/QJsonArray>
namespace Calls {
namespace {
constexpr auto kMaxInvitePerSlice = 10;
constexpr auto kCheckLastSpokeInterval = crl::time(1000);
constexpr auto kCheckJoinedTimeout = 4 * crl::time(1000);
constexpr auto kUpdateSendActionEach = crl::time(500);
constexpr auto kPlayConnectingEach = crl::time(1056) + 2 * crl::time(1000);
constexpr auto kFixManualLargeVideoDuration = 5 * crl::time(1000);
constexpr auto kFixSpeakingLargeVideoDuration = 3 * crl::time(1000);
constexpr auto kFullAsMediumsCount = 4; // 1 Full is like 4 Mediums.
constexpr auto kMaxMediumQualities = 16; // 4 Fulls or 16 Mediums.
[[nodiscard]] std::unique_ptr<Webrtc::MediaDevices> CreateMediaDevices() {
const auto &settings = Core::App().settings();
return Webrtc::CreateMediaDevices(
settings.callInputDeviceId(),
settings.callOutputDeviceId(),
settings.callVideoInputDeviceId());
}
[[nodiscard]] const Data::GroupCallParticipant *LookupParticipant(
not_null<PeerData*> peer,
CallId id,
not_null<PeerData*> participantPeer) {
const auto call = peer->groupCall();
return (id && call && call->id() == id)
? call->participantByPeer(participantPeer)
: nullptr;
}
[[nodiscard]] double TimestampFromMsgId(mtpMsgId msgId) {
return msgId / double(1ULL << 32);
}
[[nodiscard]] int64 TimestampInMsFromMsgId(mtpMsgId msgId) {
// return (msgId * 1000) / (1ULL << 32); // Almost... But this overflows.
return ((msgId / (1ULL << 10)) * 1000) / (1ULL << 22);
}
[[nodiscard]] uint64 FindLocalRaisedHandRating(
const std::vector<Data::GroupCallParticipant> &list) {
const auto i = ranges::max_element(
list,
ranges::less(),
&Data::GroupCallParticipant::raisedHandRating);
return (i == end(list)) ? 1 : (i->raisedHandRating + 1);
}
struct JoinVideoEndpoint {
std::string id;
};
struct JoinBroadcastStream {
bool rtmp = false;
Group::RtmpInfo rtmpInfo;
};
using JoinClientFields = std::variant<
v::null_t,
JoinVideoEndpoint,
JoinBroadcastStream>;
[[nodiscard]] JoinClientFields ParseJoinResponse(const QByteArray &json) {
auto error = QJsonParseError{ 0, QJsonParseError::NoError };
const auto document = QJsonDocument::fromJson(json, &error);
if (error.error != QJsonParseError::NoError) {
LOG(("API Error: "
"Failed to parse join response params, error: %1."
).arg(error.errorString()));
return {};
} else if (!document.isObject()) {
LOG(("API Error: "
"Not an object received in join response params."));
return {};
}
if (document.object().value("stream").toBool()) {
return JoinBroadcastStream{
.rtmp = document.object().value("rtmp").toBool(),
.rtmpInfo = {
.url = document.object().value("rtmp_stream_url").toString(),
.key = document.object().value("rtmp_stream_key").toString(),
},
};
}
const auto video = document.object().value("video").toObject();
return JoinVideoEndpoint{
video.value("endpoint").toString().toStdString(),
};
}
[[nodiscard]] const std::string &EmptyString() {
static const auto result = std::string();
return result;
}
} // namespace
class GroupCall::LoadPartTask final : public tgcalls::BroadcastPartTask {
public:
using Quality = tgcalls::VideoChannelDescription::Quality;
LoadPartTask(
base::weak_ptr<GroupCall> call,
int64 time,
int64 period,
Fn<void(tgcalls::BroadcastPart&&)> done);
LoadPartTask(
base::weak_ptr<GroupCall> call,
int64 time,
int64 period,
int32 videoChannel,
Quality videoQuality,
Fn<void(tgcalls::BroadcastPart&&)> done);
[[nodiscard]] int64 time() const {
return _time;
}
[[nodiscard]] int32 scale() const {
return _scale;
}
[[nodiscard]] int32 videoChannel() const {
return _videoChannel;
}
[[nodiscard]] Quality videoQuality() const {
return _videoQuality;
}
void done(tgcalls::BroadcastPart &&part);
void cancel() override;
private:
const base::weak_ptr<GroupCall> _call;
const int64 _time = 0;
const int32 _scale = 0;
const int32 _videoChannel = 0;
const Quality _videoQuality = {};
Fn<void(tgcalls::BroadcastPart &&)> _done;
QMutex _mutex;
};
class GroupCall::MediaChannelDescriptionsTask final
: public tgcalls::RequestMediaChannelDescriptionTask {
public:
MediaChannelDescriptionsTask(
base::weak_ptr<GroupCall> call,
const std::vector<std::uint32_t> &ssrcs,
Fn<void(std::vector<tgcalls::MediaChannelDescription>&&)> done);
[[nodiscard]] base::flat_set<uint32> ssrcs() const;
[[nodiscard]] bool finishWithAdding(
uint32 ssrc,
std::optional<tgcalls::MediaChannelDescription> description,
bool screen = false);
void cancel() override;
private:
const base::weak_ptr<GroupCall> _call;
base::flat_set<uint32> _ssrcs;
base::flat_set<uint32> _cameraAdded;
base::flat_set<uint32> _screenAdded;
std::vector<tgcalls::MediaChannelDescription> _result;
Fn<void(std::vector<tgcalls::MediaChannelDescription>&&)> _done;
QMutex _mutex;
};
class GroupCall::RequestCurrentTimeTask final
: public tgcalls::BroadcastPartTask {
public:
RequestCurrentTimeTask(
base::weak_ptr<GroupCall> call,
Fn<void(int64)> done);
void done(int64 value);
void cancel() override;
private:
const base::weak_ptr<GroupCall> _call;
Fn<void(int64)> _done;
QMutex _mutex;
};
struct GroupCall::SinkPointer {
std::weak_ptr<Webrtc::SinkInterface> data;
};
struct GroupCall::VideoTrack {
VideoTrack(bool paused, bool requireARGB32, not_null<PeerData*> peer);
Webrtc::VideoTrack track;
rpl::variable<QSize> trackSize;
not_null<PeerData*> peer;
rpl::lifetime lifetime;
Group::VideoQuality quality = Group::VideoQuality();
bool shown = false;
};
GroupCall::VideoTrack::VideoTrack(
bool paused,
bool requireARGB32,
not_null<PeerData*> peer)
: track((paused
? Webrtc::VideoState::Paused
: Webrtc::VideoState::Active),
requireARGB32)
, peer(peer) {
}
[[nodiscard]] bool IsGroupCallAdmin(
not_null<PeerData*> peer,
not_null<PeerData*> participantPeer) {
const auto user = participantPeer->asUser();
if (!user) {
return (peer == participantPeer);
}
if (const auto chat = peer->asChat()) {
return chat->admins.contains(user)
|| (chat->creator == peerToUser(user->id));
} else if (const auto group = peer->asChannel()) {
if (const auto mgInfo = group->mgInfo.get()) {
if (mgInfo->creator == user) {
return true;
}
const auto i = mgInfo->lastAdmins.find(user);
if (i == mgInfo->lastAdmins.end()) {
return false;
}
return (i->second.rights.flags & ChatAdminRight::ManageCall);
}
}
return false;
}
bool VideoEndpoint::rtmp() const noexcept {
return (id == Data::RtmpEndpointId());
}
struct VideoParams {
std::string endpointId;
std::vector<tgcalls::MediaSsrcGroup> ssrcGroups;
uint32 additionalSsrc = 0;
bool paused = false;
[[nodiscard]] bool empty() const {
return !additionalSsrc && (endpointId.empty() || ssrcGroups.empty());
}
[[nodiscard]] explicit operator bool() const {
return !empty();
}
};
struct ParticipantVideoParams {
VideoParams camera;
VideoParams screen;
};
[[nodiscard]] bool VideoParamsAreEqual(
const VideoParams &was,
const tl::conditional<MTPGroupCallParticipantVideo> &now) {
if (!now) {
return !was;
}
return now->match([&](const MTPDgroupCallParticipantVideo &data) {
if (data.is_paused() != was.paused
|| data.vaudio_source().value_or_empty() != was.additionalSsrc) {
return false;
}
if (gsl::make_span(data.vendpoint().v)
!= gsl::make_span(was.endpointId)) {
return false;
}
const auto &list = data.vsource_groups().v;
if (list.size() != was.ssrcGroups.size()) {
return false;
}
auto index = 0;
for (const auto &group : list) {
const auto equal = group.match([&](
const MTPDgroupCallParticipantVideoSourceGroup &data) {
const auto &group = was.ssrcGroups[index++];
if (gsl::make_span(data.vsemantics().v)
!= gsl::make_span(group.semantics)) {
return false;
}
const auto list = data.vsources().v;
if (list.size() != group.ssrcs.size()) {
return false;
}
auto i = 0;
for (const auto &ssrc : list) {
if (ssrc.v != group.ssrcs[i++]) {
return false;
}
}
return true;
});
if (!equal) {
return false;
}
}
return true;
});
}
[[nodiscard]] VideoParams ParseVideoParams(
const tl::conditional<MTPGroupCallParticipantVideo> &params) {
if (!params) {
return VideoParams();
}
auto result = VideoParams();
params->match([&](const MTPDgroupCallParticipantVideo &data) {
result.paused = data.is_paused();
result.endpointId = data.vendpoint().v.toStdString();
result.additionalSsrc = data.vaudio_source().value_or_empty();
const auto &list = data.vsource_groups().v;
result.ssrcGroups.reserve(list.size());
for (const auto &group : list) {
group.match([&](
const MTPDgroupCallParticipantVideoSourceGroup &data) {
const auto &list = data.vsources().v;
auto ssrcs = std::vector<uint32_t>();
ssrcs.reserve(list.size());
for (const auto &ssrc : list) {
ssrcs.push_back(ssrc.v);
}
result.ssrcGroups.push_back({
.semantics = data.vsemantics().v.toStdString(),
.ssrcs = std::move(ssrcs),
});
});
}
});
return result;
}
const std::string &GetCameraEndpoint(
const std::shared_ptr<ParticipantVideoParams> &params) {
return params ? params->camera.endpointId : EmptyString();
}
const std::string &GetScreenEndpoint(
const std::shared_ptr<ParticipantVideoParams> &params) {
return params ? params->screen.endpointId : EmptyString();
}
bool IsCameraPaused(const std::shared_ptr<ParticipantVideoParams> &params) {
return params && params->camera.paused;
}
bool IsScreenPaused(const std::shared_ptr<ParticipantVideoParams> &params) {
return params && params->screen.paused;
}
uint32 GetAdditionalAudioSsrc(
const std::shared_ptr<ParticipantVideoParams> &params) {
return params ? params->screen.additionalSsrc : 0;
}
std::shared_ptr<ParticipantVideoParams> ParseVideoParams(
const tl::conditional<MTPGroupCallParticipantVideo> &camera,
const tl::conditional<MTPGroupCallParticipantVideo> &screen,
const std::shared_ptr<ParticipantVideoParams> &existing) {
using namespace tgcalls;
if (!camera && !screen) {
return nullptr;
}
if (existing
&& VideoParamsAreEqual(existing->camera, camera)
&& VideoParamsAreEqual(existing->screen, screen)) {
return existing;
}
// We don't reuse existing pointer, that way we can compare pointers
// to see if anything was changed in video params.
const auto data = /*existing
? existing
: */std::make_shared<ParticipantVideoParams>();
data->camera = ParseVideoParams(camera);
data->screen = ParseVideoParams(screen);
return data;
}
GroupCall::LoadPartTask::LoadPartTask(
base::weak_ptr<GroupCall> call,
int64 time,
int64 period,
Fn<void(tgcalls::BroadcastPart&&)> done)
: LoadPartTask(std::move(call), time, period, 0, {}, std::move(done)) {
}
GroupCall::LoadPartTask::LoadPartTask(
base::weak_ptr<GroupCall> call,
int64 time,
int64 period,
int32 videoChannel,
tgcalls::VideoChannelDescription::Quality videoQuality,
Fn<void(tgcalls::BroadcastPart&&)> done)
: _call(std::move(call))
, _time(time ? time : (base::unixtime::now() * int64(1000)))
, _scale([&] {
switch (period) {
case 1000: return 0;
case 500: return 1;
case 250: return 2;
case 125: return 3;
}
Unexpected("Period in LoadPartTask.");
}())
, _videoChannel(videoChannel)
, _videoQuality(videoQuality)
, _done(std::move(done)) {
}
void GroupCall::LoadPartTask::done(tgcalls::BroadcastPart &&part) {
QMutexLocker lock(&_mutex);
if (_done) {
base::take(_done)(std::move(part));
}
}
void GroupCall::LoadPartTask::cancel() {
QMutexLocker lock(&_mutex);
if (!_done) {
return;
}
_done = nullptr;
lock.unlock();
if (_call) {
const auto that = this;
crl::on_main(_call, [weak = _call, that] {
if (const auto strong = weak.get()) {
strong->broadcastPartCancel(that);
}
});
}
}
GroupCall::MediaChannelDescriptionsTask::MediaChannelDescriptionsTask(
base::weak_ptr<GroupCall> call,
const std::vector<std::uint32_t> &ssrcs,
Fn<void(std::vector<tgcalls::MediaChannelDescription>&&)> done)
: _call(std::move(call))
, _ssrcs(ssrcs.begin(), ssrcs.end())
, _done(std::move(done)) {
}
auto GroupCall::MediaChannelDescriptionsTask::ssrcs() const
-> base::flat_set<uint32> {
return _ssrcs;
}
bool GroupCall::MediaChannelDescriptionsTask::finishWithAdding(
uint32 ssrc,
std::optional<tgcalls::MediaChannelDescription> description,
bool screen) {
Expects(_ssrcs.contains(ssrc));
using Type = tgcalls::MediaChannelDescription::Type;
_ssrcs.remove(ssrc);
if (!description) {
} else if (description->type == Type::Audio
|| (!screen && _cameraAdded.emplace(description->audioSsrc).second)
|| (screen && _screenAdded.emplace(description->audioSsrc).second)) {
_result.push_back(std::move(*description));
}
if (!_ssrcs.empty()) {
return false;
}
QMutexLocker lock(&_mutex);
if (_done) {
base::take(_done)(std::move(_result));
}
return true;
}
void GroupCall::MediaChannelDescriptionsTask::cancel() {
QMutexLocker lock(&_mutex);
if (!_done) {
return;
}
_done = nullptr;
lock.unlock();
if (_call) {
const auto that = this;
crl::on_main(_call, [weak = _call, that] {
if (const auto strong = weak.get()) {
strong->mediaChannelDescriptionsCancel(that);
}
});
}
}
GroupCall::RequestCurrentTimeTask::RequestCurrentTimeTask(
base::weak_ptr<GroupCall> call,
Fn<void(int64)> done)
: _call(call)
, _done(std::move(done)) {
}
void GroupCall::RequestCurrentTimeTask::done(int64 value) {
QMutexLocker lock(&_mutex);
if (_done) {
base::take(_done)(value);
}
}
void GroupCall::RequestCurrentTimeTask::cancel() {
QMutexLocker lock(&_mutex);
_done = nullptr;
}
not_null<PeerData*> GroupCall::TrackPeer(
const std::unique_ptr<VideoTrack> &track) {
return track->peer;
}
not_null<Webrtc::VideoTrack*> GroupCall::TrackPointer(
const std::unique_ptr<VideoTrack> &track) {
return &track->track;
}
rpl::producer<QSize> GroupCall::TrackSizeValue(
const std::unique_ptr<VideoTrack> &track) {
return track->trackSize.value();
}
GroupCall::GroupCall(
not_null<Delegate*> delegate,
Group::JoinInfo info,
const MTPInputGroupCall &inputCall)
: _delegate(delegate)
, _peer(info.peer)
, _history(_peer->owner().history(_peer))
, _api(&_peer->session().mtp())
, _joinAs(info.joinAs)
, _possibleJoinAs(std::move(info.possibleJoinAs))
, _joinHash(info.joinHash)
, _rtmpUrl(info.rtmpInfo.url)
, _rtmpKey(info.rtmpInfo.key)
, _canManage(Data::CanManageGroupCallValue(_peer))
, _id(inputCall.c_inputGroupCall().vid().v)
, _scheduleDate(info.scheduleDate)
, _lastSpokeCheckTimer([=] { checkLastSpoke(); })
, _checkJoinedTimer([=] { checkJoined(); })
, _pushToTalkCancelTimer([=] { pushToTalkCancel(); })
, _connectingSoundTimer([=] { playConnectingSoundOnce(); })
, _listenersHidden(info.rtmp)
, _rtmp(info.rtmp)
, _rtmpVolume(Group::kDefaultVolume)
, _mediaDevices(CreateMediaDevices()) {
_muted.value(
) | rpl::combine_previous(
) | rpl::start_with_next([=](MuteState previous, MuteState state) {
if (_instance) {
updateInstanceMuteState();
}
if (_joinState.ssrc
&& (!_initialMuteStateSent || state == MuteState::Active)) {
_initialMuteStateSent = true;
maybeSendMutedUpdate(previous);
}
}, _lifetime);
_instanceState.value(
) | rpl::filter([=] {
return _hadJoinedState;
}) | rpl::start_with_next([=](InstanceState state) {
if (state == InstanceState::Disconnected) {
playConnectingSound();
} else {
stopConnectingSound();
}
}, _lifetime);
checkGlobalShortcutAvailability();
if (const auto real = lookupReal()) {
subscribeToReal(real);
if (!canManage() && real->joinMuted()) {
_muted = MuteState::ForceMuted;
}
} else {
_peer->session().changes().peerFlagsValue(
_peer,
Data::PeerUpdate::Flag::GroupCall
) | rpl::map([=] {
return lookupReal();
}) | rpl::filter([](Data::GroupCall *real) {
return real != nullptr;
}) | rpl::map([](Data::GroupCall *real) {
return not_null{ real };
}) | rpl::take(
1
) | rpl::start_with_next([=](not_null<Data::GroupCall*> real) {
subscribeToReal(real);
_realChanges.fire_copy(real);
}, _lifetime);
}
setupMediaDevices();
setupOutgoingVideo();
if (_id) {
join(inputCall);
} else {
start(info.scheduleDate, info.rtmp);
}
if (_scheduleDate) {
saveDefaultJoinAs(joinAs());
}
}
GroupCall::~GroupCall() {
destroyScreencast();
destroyController();
}
bool GroupCall::isSharingScreen() const {
return _isSharingScreen.current();
}
rpl::producer<bool> GroupCall::isSharingScreenValue() const {
return _isSharingScreen.value();
}
bool GroupCall::isScreenPaused() const {
return (_screenState.current() == Webrtc::VideoState::Paused);
}
const std::string &GroupCall::screenSharingEndpoint() const {
return isSharingScreen() ? _screenEndpoint : EmptyString();
}
bool GroupCall::isSharingCamera() const {
return _isSharingCamera.current();
}
rpl::producer<bool> GroupCall::isSharingCameraValue() const {
return _isSharingCamera.value();
}
bool GroupCall::isCameraPaused() const {
return (_cameraState.current() == Webrtc::VideoState::Paused);
}
const std::string &GroupCall::cameraSharingEndpoint() const {
return isSharingCamera() ? _cameraEndpoint : EmptyString();
}
QString GroupCall::screenSharingDeviceId() const {
return isSharingScreen() ? _screenDeviceId : QString();
}
bool GroupCall::screenSharingWithAudio() const {
return isSharingScreen() && _screenWithAudio;
}
bool GroupCall::mutedByAdmin() const {
const auto mute = muted();
return _rtmp
|| (mute == MuteState::ForceMuted)
|| (mute == MuteState::RaisedHand);
}
bool GroupCall::canManage() const {
return _canManage.current();
}
rpl::producer<bool> GroupCall::canManageValue() const {
return _canManage.value();
}
void GroupCall::toggleVideo(bool active) {
if (!_instance || !_id) {
return;
}
_cameraState = active
? Webrtc::VideoState::Active
: Webrtc::VideoState::Inactive;
}
void GroupCall::toggleScreenSharing(
std::optional<QString> uniqueId,
bool withAudio) {
if (!_instance || !_id) {
return;
} else if (!uniqueId) {
_screenState = Webrtc::VideoState::Inactive;
return;
}
const auto changed = (_screenDeviceId != *uniqueId);
const auto wasSharing = isSharingScreen();
_screenDeviceId = *uniqueId;
_screenWithAudio = withAudio;
_screenState = Webrtc::VideoState::Active;
if (changed && wasSharing && isSharingScreen()) {
_screenCapture->switchToDevice(uniqueId->toStdString(), true);
}
if (_screenInstance) {
_screenInstance->setIsMuted(!withAudio);
}
}
bool GroupCall::hasVideoWithFrames() const {
return !_shownVideoTracks.empty();
}
rpl::producer<bool> GroupCall::hasVideoWithFramesValue() const {
return _videoStreamShownUpdates.events_starting_with(
VideoStateToggle()
) | rpl::map([=] {
return hasVideoWithFrames();
}) | rpl::distinct_until_changed();
}
void GroupCall::setScheduledDate(TimeId date) {
const auto was = _scheduleDate;
_scheduleDate = date;
if (was && !date) {
join(inputCall());
}
}
void GroupCall::subscribeToReal(not_null<Data::GroupCall*> real) {
_listenersHidden = real->listenersHidden();
real->scheduleDateValue(
) | rpl::start_with_next([=](TimeId date) {
setScheduledDate(date);
}, _lifetime);
// Postpone creating video tracks, so that we know if Panel
// supports OpenGL and we don't need ARGB32 frames at all.
Ui::PostponeCall(this, [=] {
if (const auto real = lookupReal()) {
real->participantsReloaded(
) | rpl::start_with_next([=] {
fillActiveVideoEndpoints();
}, _lifetime);
fillActiveVideoEndpoints();
}
});
using Update = Data::GroupCall::ParticipantUpdate;
real->participantUpdated(
) | rpl::start_with_next([=](const Update &data) {
const auto regularEndpoint = [&](const std::string &endpoint)
-> const std::string & {
return (endpoint.empty()
|| endpoint == _cameraEndpoint
|| endpoint == _screenEndpoint)
? EmptyString()
: endpoint;
};
const auto peer = data.was ? data.was->peer : data.now->peer;
if (peer == joinAs()) {
const auto working = data.now && data.now->videoJoined;
if (videoIsWorking() != working) {
fillActiveVideoEndpoints();
}
return;
}
const auto &wasCameraEndpoint = data.was
? regularEndpoint(GetCameraEndpoint(data.was->videoParams))
: EmptyString();
const auto &nowCameraEndpoint = data.now
? regularEndpoint(GetCameraEndpoint(data.now->videoParams))
: EmptyString();
const auto wasCameraPaused = !wasCameraEndpoint.empty()
&& IsCameraPaused(data.was->videoParams);
const auto nowCameraPaused = !nowCameraEndpoint.empty()
&& IsCameraPaused(data.now->videoParams);
if (wasCameraEndpoint != nowCameraEndpoint) {
markEndpointActive({
VideoEndpointType::Camera,
peer,
nowCameraEndpoint,
}, true, nowCameraPaused);
markEndpointActive({
VideoEndpointType::Camera,
peer,
wasCameraEndpoint,
}, false, false);
} else if (wasCameraPaused != nowCameraPaused) {
markTrackPaused({
VideoEndpointType::Camera,
peer,
nowCameraEndpoint,
}, nowCameraPaused);
}
const auto &wasScreenEndpoint = data.was
? regularEndpoint(data.was->screenEndpoint())
: EmptyString();
const auto &nowScreenEndpoint = data.now
? regularEndpoint(data.now->screenEndpoint())
: EmptyString();
const auto wasScreenPaused = !wasScreenEndpoint.empty()
&& IsScreenPaused(data.was->videoParams);
const auto nowScreenPaused = !nowScreenEndpoint.empty()
&& IsScreenPaused(data.now->videoParams);
if (wasScreenEndpoint != nowScreenEndpoint) {
markEndpointActive({
VideoEndpointType::Screen,
peer,
nowScreenEndpoint,
}, true, nowScreenPaused);
markEndpointActive({
VideoEndpointType::Screen,
peer,
wasScreenEndpoint,
}, false, false);
} else if (wasScreenPaused != nowScreenPaused) {
markTrackPaused({
VideoEndpointType::Screen,
peer,
wasScreenEndpoint,
}, nowScreenPaused);
}
}, _lifetime);
real->participantsResolved(
) | rpl::start_with_next([=](
not_null<const base::flat_map<
uint32,
Data::LastSpokeTimes>*> ssrcs) {
checkMediaChannelDescriptions([&](uint32 ssrc) {
return ssrcs->contains(ssrc);
});
}, _lifetime);
real->participantSpeaking(
) | rpl::filter([=] {
return _videoEndpointLarge.current();
}) | rpl::start_with_next([=](not_null<Data::GroupCallParticipant*> p) {
const auto now = crl::now();
if (_videoEndpointLarge.current().peer == p->peer) {
_videoLargeTillTime = std::max(
_videoLargeTillTime,
now + kFixSpeakingLargeVideoDuration);
return;
} else if (videoEndpointPinned() || _videoLargeTillTime > now) {
return;
}
using Type = VideoEndpointType;
const auto &params = p->videoParams;
if (GetCameraEndpoint(params).empty()
&& GetScreenEndpoint(params).empty()) {
return;
}
const auto tryEndpoint = [&](Type type, const std::string &id) {
if (id.empty()) {
return false;
}
const auto endpoint = VideoEndpoint{ type, p->peer, id };
if (!shownVideoTracks().contains(endpoint)) {
return false;
}
setVideoEndpointLarge(endpoint);
return true;
};
if (tryEndpoint(Type::Screen, GetScreenEndpoint(params))
|| tryEndpoint(Type::Camera, GetCameraEndpoint(params))) {
_videoLargeTillTime = now + kFixSpeakingLargeVideoDuration;
}
}, _lifetime);
}
void GroupCall::checkGlobalShortcutAvailability() {
auto &settings = Core::App().settings();
if (!settings.groupCallPushToTalk()) {
return;
} else if (!base::GlobalShortcutsAllowed()) {
settings.setGroupCallPushToTalk(false);
Core::App().saveSettingsDelayed();
}
}
void GroupCall::setState(State state) {
const auto current = _state.current();
if (current == State::Failed) {
return;
} else if (current == State::Ended && state != State::Failed) {
return;
} else if (current == State::FailedHangingUp && state != State::Failed) {
return;
} else if (current == State::HangingUp
&& state != State::Ended
&& state != State::Failed) {
return;
}
if (current == state) {
return;
}
_state = state;
if (state == State::Joined) {
stopConnectingSound();
if (const auto call = _peer->groupCall(); call && call->id() == _id) {
call->setInCall();
}
}
if (false
|| state == State::Ended
|| state == State::Failed) {
// Destroy controller before destroying Call Panel,
// so that the panel hide animation is smooth.
destroyScreencast();
destroyController();
}
switch (state) {
case State::HangingUp:
case State::FailedHangingUp:
stopConnectingSound();
_delegate->groupCallPlaySound(Delegate::GroupCallSound::Ended);
break;
case State::Ended:
stopConnectingSound();
_delegate->groupCallFinished(this);
break;
case State::Failed:
stopConnectingSound();
_delegate->groupCallFailed(this);
break;
case State::Connecting:
if (!_checkJoinedTimer.isActive()) {
_checkJoinedTimer.callOnce(kCheckJoinedTimeout);
}
break;
}
}
void GroupCall::playConnectingSound() {
const auto state = _state.current();
if (_connectingSoundTimer.isActive()
|| state == State::HangingUp
|| state == State::FailedHangingUp
|| state == State::Ended
|| state == State::Failed) {
return;
}
playConnectingSoundOnce();
_connectingSoundTimer.callEach(kPlayConnectingEach);
}
void GroupCall::stopConnectingSound() {
_connectingSoundTimer.cancel();
}
void GroupCall::playConnectingSoundOnce() {
_delegate->groupCallPlaySound(Delegate::GroupCallSound::Connecting);
}
bool GroupCall::showChooseJoinAs() const {
return !_rtmp
&& ((_possibleJoinAs.size() > 1)
|| (_possibleJoinAs.size() == 1
&& !_possibleJoinAs.front()->isSelf()));
}
bool GroupCall::scheduleStartSubscribed() const {
if (const auto real = lookupReal()) {
return real->scheduleStartSubscribed();
}
return false;
}
bool GroupCall::rtmp() const {
return _rtmp;
}
bool GroupCall::listenersHidden() const {
return _listenersHidden;
}
bool GroupCall::emptyRtmp() const {
return _emptyRtmp.current();
}
rpl::producer<bool> GroupCall::emptyRtmpValue() const {
return _emptyRtmp.value();
}
int GroupCall::rtmpVolume() const {
return _rtmpVolume;
}
Calls::Group::RtmpInfo GroupCall::rtmpInfo() const {
return { _rtmpUrl, _rtmpKey };
}
void GroupCall::setRtmpInfo(const Calls::Group::RtmpInfo &value) {
_rtmpUrl = value.url;
_rtmpKey = value.key;
}
Data::GroupCall *GroupCall::lookupReal() const {
const auto real = _peer->groupCall();
return (real && real->id() == _id) ? real : nullptr;
}
rpl::producer<not_null<Data::GroupCall*>> GroupCall::real() const {
if (const auto real = lookupReal()) {
return rpl::single(not_null{ real });
}
return _realChanges.events();
}
void GroupCall::start(TimeId scheduleDate, bool rtmp) {
using Flag = MTPphone_CreateGroupCall::Flag;
_createRequestId = _api.request(MTPphone_CreateGroupCall(
MTP_flags((scheduleDate ? Flag::f_schedule_date : Flag(0))
| (rtmp ? Flag::f_rtmp_stream : Flag(0))),
_peer->input,
MTP_int(base::RandomValue<int32>()),
MTPstring(), // title
MTP_int(scheduleDate)
)).done([=](const MTPUpdates &result) {
_reloadedStaleCall = true;
_acceptFields = true;
_peer->session().api().applyUpdates(result);
_acceptFields = false;
}).fail([=](const MTP::Error &error) {
LOG(("Call Error: Could not create, error: %1"
).arg(error.type()));
hangup();
}).send();
}
void GroupCall::join(const MTPInputGroupCall &inputCall) {
inputCall.match([&](const MTPDinputGroupCall &data) {
_id = data.vid().v;
_accessHash = data.vaccess_hash().v;
});
setState(_scheduleDate ? State::Waiting : State::Joining);
if (_scheduleDate) {
return;
}
rejoin();
using Update = Data::GroupCall::ParticipantUpdate;
const auto real = lookupReal();
Assert(real != nullptr);
real->participantUpdated(
) | rpl::filter([=](const Update &update) {
return (_instance != nullptr);
}) | rpl::start_with_next([=](const Update &update) {
if (!update.now) {
_instance->removeSsrcs({
update.was->ssrc,
GetAdditionalAudioSsrc(update.was->videoParams),
});
} else if (!_rtmp) {
updateInstanceVolume(update.was, *update.now);
}
}, _lifetime);
_peer->session().updates().addActiveChat(
_peerStream.events_starting_with_copy(_peer));
SubscribeToMigration(_peer, _lifetime, [=](not_null<ChannelData*> group) {
_peer = group;
_canManage = Data::CanManageGroupCallValue(_peer);
_peerStream.fire_copy(group);
});
}
void GroupCall::setScreenEndpoint(std::string endpoint) {
if (_screenEndpoint == endpoint) {
return;
}
if (!_screenEndpoint.empty()) {
markEndpointActive({
VideoEndpointType::Screen,
joinAs(),
_screenEndpoint
}, false, false);
}
_screenEndpoint = std::move(endpoint);
if (_screenEndpoint.empty()) {
return;
}
if (isSharingScreen()) {
markEndpointActive({
VideoEndpointType::Screen,
joinAs(),
_screenEndpoint
}, true, isScreenPaused());
}
}
void GroupCall::setCameraEndpoint(std::string endpoint) {
if (_cameraEndpoint == endpoint) {
return;
}
if (!_cameraEndpoint.empty()) {
markEndpointActive({
VideoEndpointType::Camera,
joinAs(),
_cameraEndpoint
}, false, false);
}
_cameraEndpoint = std::move(endpoint);
if (_cameraEndpoint.empty()) {
return;
}
if (isSharingCamera()) {
markEndpointActive({
VideoEndpointType::Camera,
joinAs(),
_cameraEndpoint
}, true, isCameraPaused());
}
}
void GroupCall::addVideoOutput(
const std::string &endpoint,
SinkPointer sink) {
if (_cameraEndpoint == endpoint) {
if (auto strong = sink.data.lock()) {
_cameraCapture->setOutput(std::move(strong));
}
} else if (_screenEndpoint == endpoint) {
if (auto strong = sink.data.lock()) {
_screenCapture->setOutput(std::move(strong));
}
} else if (_instance) {
_instance->addIncomingVideoOutput(endpoint, std::move(sink.data));
} else {
_pendingVideoOutputs.emplace(endpoint, std::move(sink));
}
}
void GroupCall::markEndpointActive(
VideoEndpoint endpoint,
bool active,
bool paused) {
if (!endpoint) {
return;
}
const auto i = _activeVideoTracks.find(endpoint);
const auto changed = active
? (i == end(_activeVideoTracks))
: (i != end(_activeVideoTracks));
if (!changed) {
if (active) {
markTrackPaused(endpoint, paused);
}
return;
}
auto shown = false;
if (active) {
const auto i = _activeVideoTracks.emplace(
endpoint,
std::make_unique<VideoTrack>(
paused,
_requireARGB32,
endpoint.peer)).first;
const auto track = &i->second->track;
track->renderNextFrame(
) | rpl::start_with_next([=] {
const auto activeTrack = _activeVideoTracks[endpoint].get();
const auto size = track->frameSize();
if (size.isEmpty()) {
track->markFrameShown();
} else if (!activeTrack->shown) {
activeTrack->shown = true;
markTrackShown(endpoint, true);
}
activeTrack->trackSize = size;
}, i->second->lifetime);
const auto size = track->frameSize();
i->second->trackSize = size;
if (!size.isEmpty() || paused) {
i->second->shown = true;
shown = true;
} else {
track->stateValue(
) | rpl::filter([=](Webrtc::VideoState state) {
return (state == Webrtc::VideoState::Paused)
&& !_activeVideoTracks[endpoint]->shown;
}) | rpl::start_with_next([=] {
_activeVideoTracks[endpoint]->shown = true;
markTrackShown(endpoint, true);
}, i->second->lifetime);
}
addVideoOutput(i->first.id, { track->sink() });
} else {
if (_videoEndpointLarge.current() == endpoint) {
setVideoEndpointLarge({});
}
markTrackShown(endpoint, false);
markTrackPaused(endpoint, false);
_activeVideoTracks.erase(i);
}
updateRequestedVideoChannelsDelayed();
_videoStreamActiveUpdates.fire({ endpoint, active });
if (active) {
markTrackShown(endpoint, shown);
markTrackPaused(endpoint, paused);
}
}
void GroupCall::markTrackShown(const VideoEndpoint &endpoint, bool shown) {
const auto changed = shown
? _shownVideoTracks.emplace(endpoint).second
: _shownVideoTracks.remove(endpoint);
if (!changed) {
return;
}
_videoStreamShownUpdates.fire_copy({ endpoint, shown });
if (shown && endpoint.type == VideoEndpointType::Screen) {
crl::on_main(this, [=] {
if (_shownVideoTracks.contains(endpoint)) {
pinVideoEndpoint(endpoint);
}
});
}
}
void GroupCall::markTrackPaused(const VideoEndpoint &endpoint, bool paused) {
if (!endpoint) {
return;
}
const auto i = _activeVideoTracks.find(endpoint);
Assert(i != end(_activeVideoTracks));
i->second->track.setState(paused
? Webrtc::VideoState::Paused
: Webrtc::VideoState::Active);
}
void GroupCall::rejoin() {
rejoin(joinAs());
}
void GroupCall::rejoinWithHash(const QString &hash) {
if (!hash.isEmpty() && mutedByAdmin()) {
_joinHash = hash;
rejoin();
}
}
void GroupCall::setJoinAs(not_null<PeerData*> as) {
_joinAs = as;
if (const auto chat = _peer->asChat()) {
chat->setGroupCallDefaultJoinAs(joinAs()->id);
} else if (const auto channel = _peer->asChannel()) {
channel->setGroupCallDefaultJoinAs(joinAs()->id);
}
}
void GroupCall::saveDefaultJoinAs(not_null<PeerData*> as) {
setJoinAs(as);
_api.request(MTPphone_SaveDefaultGroupCallJoinAs(
_peer->input,
joinAs()->input
)).send();
}
void GroupCall::rejoin(not_null<PeerData*> as) {
if (state() != State::Joining
&& state() != State::Joined
&& state() != State::Connecting) {
return;
} else if (_joinState.action != JoinAction::None) {
return;
}
if (joinAs() != as) {
toggleVideo(false);
toggleScreenSharing(std::nullopt);
}
_joinState.action = JoinAction::Joining;
_joinState.ssrc = 0;
_initialMuteStateSent = false;
setState(State::Joining);
if (!tryCreateController()) {
setInstanceMode(InstanceMode::None);
}
applyMeInCallLocally();
LOG(("Call Info: Requesting join payload."));
setJoinAs(as);
const auto weak = base::make_weak(&_instanceGuard);
_instance->emitJoinPayload([=](tgcalls::GroupJoinPayload payload) {
crl::on_main(weak, [=, payload = std::move(payload)] {
if (state() != State::Joining) {
_joinState.finish();
checkNextJoinAction();
return;
}
const auto ssrc = payload.audioSsrc;
LOG(("Call Info: Join payload received, joining with ssrc: %1."
).arg(ssrc));
const auto json = QByteArray::fromStdString(payload.json);
const auto wasMuteState = muted();
const auto wasVideoStopped = !isSharingCamera();
using Flag = MTPphone_JoinGroupCall::Flag;
const auto flags = (wasMuteState != MuteState::Active
? Flag::f_muted
: Flag(0))
| (_joinHash.isEmpty()
? Flag(0)
: Flag::f_invite_hash)
| (wasVideoStopped
? Flag::f_video_stopped
: Flag(0));
_api.request(MTPphone_JoinGroupCall(
MTP_flags(flags),
inputCall(),
joinAs()->input,
MTP_string(_joinHash),
MTP_dataJSON(MTP_bytes(json))
)).done([=](
const MTPUpdates &updates,
const MTP::Response &response) {
_serverTimeMs = TimestampInMsFromMsgId(response.outerMsgId);
_serverTimeMsGotAt = crl::now();
_joinState.finish(ssrc);
_mySsrcs.emplace(ssrc);
setState((_instanceState.current()
== InstanceState::Disconnected)
? State::Connecting
: State::Joined);
applyMeInCallLocally();
maybeSendMutedUpdate(wasMuteState);
_peer->session().api().applyUpdates(updates);
applyQueuedSelfUpdates();
checkFirstTimeJoined();
_screenJoinState.nextActionPending = true;
checkNextJoinAction();
if (wasVideoStopped == isSharingCamera()) {
sendSelfUpdate(SendUpdateType::CameraStopped);
}
if (isCameraPaused()) {
sendSelfUpdate(SendUpdateType::CameraPaused);
}
sendPendingSelfUpdates();
if (!_reloadedStaleCall
&& _state.current() != State::Joining) {
if (const auto real = lookupReal()) {
_reloadedStaleCall = true;
real->reloadIfStale();
}
}
}).fail([=](const MTP::Error &error) {
_joinState.finish();
const auto type = error.type();
LOG(("Call Error: Could not join, error: %1").arg(type));
if (type == u"GROUPCALL_SSRC_DUPLICATE_MUCH") {
rejoin();
return;
}
hangup();
Ui::Toast::Show((type == u"GROUPCALL_FORBIDDEN"_q)
? tr::lng_group_not_accessible(tr::now)
: Lang::Hard::ServerError());
}).send();
});
});
}
void GroupCall::checkNextJoinAction() {
if (_joinState.action != JoinAction::None) {
return;
} else if (_joinState.nextActionPending) {
_joinState.nextActionPending = false;
const auto state = _state.current();
if (state != State::HangingUp && state != State::FailedHangingUp) {
rejoin();
} else {
leave();
}
} else if (!_joinState.ssrc) {
rejoin();
} else if (_screenJoinState.action != JoinAction::None
|| !_screenJoinState.nextActionPending) {
return;
} else {
_screenJoinState.nextActionPending = false;
if (isSharingScreen()) {
rejoinPresentation();
} else {
leavePresentation();
}
}
}
void GroupCall::rejoinPresentation() {
if (!_joinState.ssrc
|| _screenJoinState.action == JoinAction::Joining
|| !isSharingScreen()) {
return;
} else if (_screenJoinState.action != JoinAction::None) {
_screenJoinState.nextActionPending = true;
return;
}
_screenJoinState.action = JoinAction::Joining;
_screenJoinState.ssrc = 0;
if (!tryCreateScreencast()) {
setScreenInstanceMode(InstanceMode::None);
}
LOG(("Call Info: Requesting join screen payload."));
const auto weak = base::make_weak(&_screenInstanceGuard);
_screenInstance->emitJoinPayload([=](tgcalls::GroupJoinPayload payload) {
crl::on_main(weak, [=, payload = std::move(payload)]{
if (!isSharingScreen() || !_joinState.ssrc) {
_screenJoinState.finish();
checkNextJoinAction();
return;
}
const auto withMainSsrc = _joinState.ssrc;
const auto ssrc = payload.audioSsrc;
LOG(("Call Info: Join screen payload received, ssrc: %1."
).arg(ssrc));
const auto json = QByteArray::fromStdString(payload.json);
_api.request(
MTPphone_JoinGroupCallPresentation(
inputCall(),
MTP_dataJSON(MTP_bytes(json)))
).done([=](const MTPUpdates &updates) {
_screenJoinState.finish(ssrc);
_mySsrcs.emplace(ssrc);
_peer->session().api().applyUpdates(updates);
checkNextJoinAction();
if (isScreenPaused()) {
sendSelfUpdate(SendUpdateType::ScreenPaused);
}
sendPendingSelfUpdates();
}).fail([=](const MTP::Error &error) {
_screenJoinState.finish();
const auto type = error.type();
if (type == u"GROUPCALL_SSRC_DUPLICATE_MUCH") {
_screenJoinState.nextActionPending = true;
checkNextJoinAction();
} else if (type == u"GROUPCALL_JOIN_MISSING"_q
|| type == u"GROUPCALL_FORBIDDEN"_q) {
if (_joinState.ssrc != withMainSsrc) {
// We've rejoined, rejoin presentation again.
_screenJoinState.nextActionPending = true;
checkNextJoinAction();
}
} else {
LOG(("Call Error: "
"Could not screen join, error: %1").arg(type));
_screenState = Webrtc::VideoState::Inactive;
_errors.fire_copy(mutedByAdmin()
? Error::MutedNoScreen
: Error::ScreenFailed);
}
}).send();
});
});
}
void GroupCall::leavePresentation() {
destroyScreencast();
if (!_screenJoinState.ssrc) {
setScreenEndpoint(std::string());
return;
} else if (_screenJoinState.action == JoinAction::Leaving) {
return;
} else if (_screenJoinState.action != JoinAction::None) {
_screenJoinState.nextActionPending = true;
return;
}
_api.request(
MTPphone_LeaveGroupCallPresentation(inputCall())
).done([=](const MTPUpdates &updates) {
_screenJoinState.finish();
_peer->session().api().applyUpdates(updates);
setScreenEndpoint(std::string());
checkNextJoinAction();
}).fail([=](const MTP::Error &error) {
_screenJoinState.finish();
const auto type = error.type();
LOG(("Call Error: "
"Could not screen leave, error: %1").arg(type));
setScreenEndpoint(std::string());
checkNextJoinAction();
}).send();
}
void GroupCall::applyMeInCallLocally() {
const auto real = lookupReal();
if (!real) {
return;
}
using Flag = MTPDgroupCallParticipant::Flag;
const auto participant = real->participantByPeer(joinAs());
const auto date = participant
? participant->date
: base::unixtime::now();
const auto lastActive = participant
? participant->lastActive
: TimeId(0);
const auto volume = participant
? participant->volume
: Group::kDefaultVolume;
const auto canSelfUnmute = !mutedByAdmin();
const auto raisedHandRating = (muted() != MuteState::RaisedHand)
? uint64(0)
: participant
? participant->raisedHandRating
: FindLocalRaisedHandRating(real->participants());
const auto flags = (canSelfUnmute ? Flag::f_can_self_unmute : Flag(0))
| (lastActive ? Flag::f_active_date : Flag(0))
| (_joinState.ssrc ? Flag(0) : Flag::f_left)
| (_videoIsWorking.current() ? Flag::f_video_joined : Flag(0))
| Flag::f_self
| Flag::f_volume // Without flag the volume is reset to 100%.
| Flag::f_volume_by_admin // Self volume can only be set by admin.
| ((muted() != MuteState::Active) ? Flag::f_muted : Flag(0))
| (raisedHandRating > 0 ? Flag::f_raise_hand_rating : Flag(0));
real->applyLocalUpdate(
MTP_updateGroupCallParticipants(
inputCall(),
MTP_vector<MTPGroupCallParticipant>(
1,
MTP_groupCallParticipant(
MTP_flags(flags),
peerToMTP(joinAs()->id),
MTP_int(date),
MTP_int(lastActive),
MTP_int(_joinState.ssrc),
MTP_int(volume),
MTPstring(), // Don't update about text in local updates.
MTP_long(raisedHandRating),
MTPGroupCallParticipantVideo(),
MTPGroupCallParticipantVideo())),
MTP_int(0)).c_updateGroupCallParticipants());
}
void GroupCall::applyParticipantLocally(
not_null<PeerData*> participantPeer,
bool mute,
std::optional<int> volume) {
const auto participant = LookupParticipant(_peer, _id, participantPeer);
if (!participant || !participant->ssrc) {
return;
}
const auto canManageCall = canManage();
const auto isMuted = participant->muted || (mute && canManageCall);
const auto canSelfUnmute = !canManageCall
? participant->canSelfUnmute
: (!mute || IsGroupCallAdmin(_peer, participantPeer));
const auto isMutedByYou = mute && !canManageCall;
using Flag = MTPDgroupCallParticipant::Flag;
const auto flags = (canSelfUnmute ? Flag::f_can_self_unmute : Flag(0))
| Flag::f_volume // Without flag the volume is reset to 100%.
| ((participant->applyVolumeFromMin && !volume)
? Flag::f_volume_by_admin
: Flag(0))
| (participant->videoJoined ? Flag::f_video_joined : Flag(0))
| (participant->lastActive ? Flag::f_active_date : Flag(0))
| (isMuted ? Flag::f_muted : Flag(0))
| (isMutedByYou ? Flag::f_muted_by_you : Flag(0))
| (participantPeer == joinAs() ? Flag::f_self : Flag(0))
| (participant->raisedHandRating
? Flag::f_raise_hand_rating
: Flag(0));
_peer->groupCall()->applyLocalUpdate(
MTP_updateGroupCallParticipants(
inputCall(),
MTP_vector<MTPGroupCallParticipant>(
1,
MTP_groupCallParticipant(
MTP_flags(flags),
peerToMTP(participantPeer->id),
MTP_int(participant->date),
MTP_int(participant->lastActive),
MTP_int(participant->ssrc),
MTP_int(volume.value_or(participant->volume)),
MTPstring(), // Don't update about text in local updates.
MTP_long(participant->raisedHandRating),
MTPGroupCallParticipantVideo(),
MTPGroupCallParticipantVideo())),
MTP_int(0)).c_updateGroupCallParticipants());
}
void GroupCall::hangup() {
finish(FinishType::Ended);
}
void GroupCall::discard() {
if (!_id) {
_api.request(_createRequestId).cancel();
hangup();
return;
}
_api.request(MTPphone_DiscardGroupCall(
inputCall()
)).done([=](const MTPUpdates &result) {
// Here 'this' could be destroyed by updates, so we set Ended after
// updates being handled, but in a guarded way.
crl::on_main(this, [=] { hangup(); });
_peer->session().api().applyUpdates(result);
}).fail([=] {
hangup();
}).send();
}
void GroupCall::rejoinAs(Group::JoinInfo info) {
_possibleJoinAs = std::move(info.possibleJoinAs);
if (info.joinAs == joinAs()) {
return;
}
const auto event = Group::RejoinEvent{
.wasJoinAs = joinAs(),
.nowJoinAs = info.joinAs,
};
if (_scheduleDate) {
saveDefaultJoinAs(info.joinAs);
} else {
setState(State::Joining);
rejoin(info.joinAs);
}
_rejoinEvents.fire_copy(event);
}
void GroupCall::finish(FinishType type) {
Expects(type != FinishType::None);
const auto finalState = (type == FinishType::Ended)
? State::Ended
: State::Failed;
const auto hangupState = (type == FinishType::Ended)
? State::HangingUp
: State::FailedHangingUp;
const auto state = _state.current();
if (state == State::HangingUp
|| state == State::FailedHangingUp
|| state == State::Ended
|| state == State::Failed) {
return;
} else if (_joinState.action == JoinAction::None && !_joinState.ssrc) {
setState(finalState);
return;
}
setState(hangupState);
_joinState.nextActionPending = true;
checkNextJoinAction();
}
void GroupCall::leave() {
Expects(_joinState.action == JoinAction::None);
_joinState.action = JoinAction::Leaving;
const auto finalState = (_state.current() == State::HangingUp)
? State::Ended
: State::Failed;
// We want to leave request still being sent and processed even if
// the call is already destroyed.
const auto session = &_peer->session();
const auto weak = base::make_weak(this);
session->api().request(MTPphone_LeaveGroupCall(
inputCall(),
MTP_int(base::take(_joinState.ssrc))
)).done([=](const MTPUpdates &result) {
// Here 'this' could be destroyed by updates, so we set Ended after
// updates being handled, but in a guarded way.
crl::on_main(weak, [=] { setState(finalState); });
session->api().applyUpdates(result);
}).fail(crl::guard(weak, [=] {
setState(finalState);
})).send();
}
void GroupCall::startScheduledNow() {
if (!lookupReal()) {
return;
}
_api.request(MTPphone_StartScheduledGroupCall(
inputCall()
)).done([=](const MTPUpdates &result) {
_peer->session().api().applyUpdates(result);
}).send();
}
void GroupCall::toggleScheduleStartSubscribed(bool subscribed) {
if (!lookupReal()) {
return;
}
_api.request(MTPphone_ToggleGroupCallStartSubscription(
inputCall(),
MTP_bool(subscribed)
)).done([=](const MTPUpdates &result) {
_peer->session().api().applyUpdates(result);
}).send();
}
void GroupCall::setNoiseSuppression(bool enabled) {
if (_instance) {
_instance->setIsNoiseSuppressionEnabled(enabled);
}
}
void GroupCall::addVideoOutput(
const std::string &endpoint,
not_null<Webrtc::VideoTrack*> track) {
addVideoOutput(endpoint, { track->sink() });
}
void GroupCall::setMuted(MuteState mute) {
const auto set = [=] {
const auto was = muted();
const auto wasSpeaking = (was == MuteState::Active)
|| (was == MuteState::PushToTalk);
const auto wasMuted = (was == MuteState::Muted)
|| (was == MuteState::PushToTalk);
const auto wasRaiseHand = (was == MuteState::RaisedHand);
_muted = mute;
const auto now = muted();
const auto nowSpeaking = (now == MuteState::Active)
|| (now == MuteState::PushToTalk);
const auto nowMuted = (now == MuteState::Muted)
|| (now == MuteState::PushToTalk);
const auto nowRaiseHand = (now == MuteState::RaisedHand);
if (wasMuted != nowMuted || wasRaiseHand != nowRaiseHand) {
applyMeInCallLocally();
}
if (mutedByAdmin()) {
toggleVideo(false);
toggleScreenSharing(std::nullopt);
}
if (wasSpeaking && !nowSpeaking && _joinState.ssrc) {
_levelUpdates.fire(LevelUpdate{
.ssrc = _joinState.ssrc,
.value = 0.f,
.voice = false,
.me = true,
});
}
};
if (mute == MuteState::Active || mute == MuteState::PushToTalk) {
_delegate->groupCallRequestPermissionsOrFail(crl::guard(this, set));
} else {
set();
}
}
void GroupCall::setMutedAndUpdate(MuteState mute) {
const auto was = muted();
// Active state is sent from _muted changes,
// because it may be set delayed, after permissions request, not now.
const auto send = _initialMuteStateSent && (mute != MuteState::Active);
setMuted(mute);
if (send) {
maybeSendMutedUpdate(was);
}
}
void GroupCall::handlePossibleCreateOrJoinResponse(
const MTPDupdateGroupCall &data) {
data.vcall().match([&](const MTPDgroupCall &data) {
handlePossibleCreateOrJoinResponse(data);
}, [&](const MTPDgroupCallDiscarded &data) {
handlePossibleDiscarded(data);
});
}
void GroupCall::handlePossibleCreateOrJoinResponse(
const MTPDgroupCall &data) {
if (_acceptFields) {
if (!_instance && !_id) {
const auto input = MTP_inputGroupCall(
data.vid(),
data.vaccess_hash());
const auto scheduleDate = data.vschedule_date().value_or_empty();
const auto rtmp = data.is_rtmp_stream();
_rtmp = rtmp;
setScheduledDate(scheduleDate);
if (const auto chat = _peer->asChat()) {
chat->setGroupCall(input, scheduleDate, rtmp);
} else if (const auto group = _peer->asChannel()) {
group->setGroupCall(input, scheduleDate, rtmp);
} else {
Unexpected("Peer type in GroupCall::join.");
}
join(input);
}
return;
} else if (_id != data.vid().v || !_instance) {
return;
}
setScheduledDate(data.vschedule_date().value_or_empty());
if (const auto streamDcId = data.vstream_dc_id()) {
_broadcastDcId = MTP::BareDcId(streamDcId->v);
}
}
void GroupCall::handlePossibleCreateOrJoinResponse(
const MTPDupdateGroupCallConnection &data) {
if (data.is_presentation()) {
if (!_screenInstance) {
return;
}
setScreenInstanceMode(InstanceMode::Rtc);
data.vparams().match([&](const MTPDdataJSON &data) {
const auto json = data.vdata().v;
const auto response = ParseJoinResponse(json);
const auto endpoint = std::get_if<JoinVideoEndpoint>(&response);
if (endpoint) {
setScreenEndpoint(endpoint->id);
} else {
LOG(("Call Error: Bad response for 'presentation' flag."));
}
_screenInstance->setJoinResponsePayload(json.toStdString());
});
} else {
if (!_instance) {
return;
}
data.vparams().match([&](const MTPDdataJSON &data) {
const auto json = data.vdata().v;
const auto response = ParseJoinResponse(json);
const auto stream = std::get_if<JoinBroadcastStream>(&response);
const auto endpoint = std::get_if<JoinVideoEndpoint>(&response);
if (stream) {
if (!_broadcastDcId) {
LOG(("Api Error: Empty stream_dc_id in groupCall."));
_broadcastDcId = _peer->session().mtp().mainDcId();
}
if (stream->rtmp) {
_rtmp = true;
_rtmpUrl = stream->rtmpInfo.url;
_rtmpKey = stream->rtmpInfo.key;
}
setInstanceMode(InstanceMode::Stream);
} else {
setInstanceMode(InstanceMode::Rtc);
setCameraEndpoint(endpoint ? endpoint->id : std::string());
_instance->setJoinResponsePayload(json.toStdString());
}
updateRequestedVideoChannels();
checkMediaChannelDescriptions();
});
}
}
void GroupCall::handlePossibleDiscarded(const MTPDgroupCallDiscarded &data) {
if (data.vid().v == _id) {
LOG(("Call Info: Hangup after groupCallDiscarded."));
_joinState.finish();
hangup();
}
}
void GroupCall::checkMediaChannelDescriptions(
Fn<bool(uint32)> resolved) {
const auto real = lookupReal();
if (!real || (_instanceMode == InstanceMode::None)) {
return;
}
for (auto i = begin(_mediaChannelDescriptionses)
; i != end(_mediaChannelDescriptionses);) {
if (mediaChannelDescriptionsFill(i->get(), resolved)) {
i = _mediaChannelDescriptionses.erase(i);
} else {
++i;
}
}
if (!_unresolvedSsrcs.empty()) {
real->resolveParticipants(base::take(_unresolvedSsrcs));
}
}
void GroupCall::handleUpdate(const MTPUpdate &update) {
update.match([&](const MTPDupdateGroupCall &data) {
handleUpdate(data);
}, [&](const MTPDupdateGroupCallParticipants &data) {
handleUpdate(data);
}, [](const auto &) {
Unexpected("Type in Instance::applyGroupCallUpdateChecked.");
});
}
void GroupCall::handleUpdate(const MTPDupdateGroupCall &data) {
data.vcall().match([](const MTPDgroupCall &) {
}, [&](const MTPDgroupCallDiscarded &data) {
handlePossibleDiscarded(data);
});
}
void GroupCall::handleUpdate(const MTPDupdateGroupCallParticipants &data) {
const auto callId = data.vcall().match([](const auto &data) {
return data.vid().v;
});
if (_id != callId) {
return;
}
const auto state = _state.current();
const auto joined = (state == State::Joined)
|| (state == State::Connecting);
for (const auto &participant : data.vparticipants().v) {
participant.match([&](const MTPDgroupCallParticipant &data) {
const auto isSelf = data.is_self()
|| (data.is_min()
&& peerFromMTP(data.vpeer()) == joinAs()->id);
if (!isSelf) {
applyOtherParticipantUpdate(data);
} else if (joined) {
applySelfUpdate(data);
} else {
_queuedSelfUpdates.push_back(participant);
}
});
}
}
void GroupCall::applyQueuedSelfUpdates() {
const auto weak = base::make_weak(this);
while (weak
&& !_queuedSelfUpdates.empty()
&& (_state.current() == State::Joined
|| _state.current() == State::Connecting)) {
const auto update = _queuedSelfUpdates.front();
_queuedSelfUpdates.erase(_queuedSelfUpdates.begin());
update.match([&](const MTPDgroupCallParticipant &data) {
applySelfUpdate(data);
});
}
}
void GroupCall::applySelfUpdate(const MTPDgroupCallParticipant &data) {
if (data.is_left()) {
if (data.vsource().v == _joinState.ssrc) {
// I was removed from the call, rejoin.
LOG(("Call Info: "
"Rejoin after got 'left' with my ssrc."));
setState(State::Joining);
rejoin();
}
return;
} else if (data.vsource().v != _joinState.ssrc) {
const auto ssrc = uint32(data.vsource().v);
if (!_mySsrcs.contains(ssrc)) {
// I joined from another device, hangup.
LOG(("Call Info: "
"Hangup after '!left' with ssrc %1, my %2."
).arg(data.vsource().v
).arg(_joinState.ssrc));
_joinState.finish();
hangup();
} else {
LOG(("Call Info: "
"Some old 'self' with '!left' and ssrc %1, my %2."
).arg(data.vsource().v
).arg(_joinState.ssrc));
}
return;
}
if (data.is_muted() && !data.is_can_self_unmute()) {
setMuted(data.vraise_hand_rating().value_or_empty()
? MuteState::RaisedHand
: MuteState::ForceMuted);
} else if (_instanceMode == InstanceMode::Stream) {
LOG(("Call Info: Rejoin after unforcemute in stream mode."));
setState(State::Joining);
rejoin();
} else if (mutedByAdmin()) {
setMuted(MuteState::Muted);
if (!_instanceTransitioning) {
notifyAboutAllowedToSpeak();
}
} else if (data.is_muted() && muted() != MuteState::Muted) {
setMuted(MuteState::Muted);
}
}
void GroupCall::applyOtherParticipantUpdate(
const MTPDgroupCallParticipant &data) {
if (data.is_min()) {
// No real information about mutedByMe or my custom volume.
return;
}
const auto participantPeer = _peer->owner().peer(
peerFromMTP(data.vpeer()));
if (!LookupParticipant(_peer, _id, participantPeer)) {
return;
}
_otherParticipantStateValue.fire(Group::ParticipantState{
.peer = participantPeer,
.volume = data.vvolume().value_or_empty(),
.mutedByMe = data.is_muted_by_you(),
});
}
void GroupCall::setupMediaDevices() {
_mediaDevices->audioInputId(
) | rpl::start_with_next([=](QString id) {
_audioInputId = id;
if (_instance) {
_instance->setAudioInputDevice(id.toStdString());
}
}, _lifetime);
_mediaDevices->audioOutputId(
) | rpl::start_with_next([=](QString id) {
_audioOutputId = id;
if (_instance) {
_instance->setAudioOutputDevice(id.toStdString());
}
}, _lifetime);
_mediaDevices->videoInputId(
) | rpl::start_with_next([=](QString id) {
_cameraInputId = id;
if (_cameraCapture) {
_cameraCapture->switchToDevice(id.toStdString(), false);
}
}, _lifetime);
}
int GroupCall::activeVideoSendersCount() const {
auto result = 0;
for (const auto &[endpoint, track] : _activeVideoTracks) {
if (endpoint.type == VideoEndpointType::Camera) {
++result;
} else {
auto sharesCameraToo = false;
for (const auto &[other, _] : _activeVideoTracks) {
if (other.type == VideoEndpointType::Camera
&& other.peer == endpoint.peer) {
sharesCameraToo = true;
break;
}
}
if (!sharesCameraToo) {
++result;
}
}
}
return result;
}
bool GroupCall::emitShareCameraError() {
const auto emitError = [=](Error error) {
emitShareCameraError(error);
return true;
};
if (const auto real = lookupReal()
; real && activeVideoSendersCount() >= real->unmutedVideoLimit()) {
return emitError(Error::DisabledNoCamera);
} else if (!videoIsWorking()) {
return emitError(Error::DisabledNoCamera);
} else if (mutedByAdmin()) {
return emitError(Error::MutedNoCamera);
} else if (Webrtc::GetVideoInputList().empty()) {
return emitError(Error::NoCamera);
}
return false;
}
void GroupCall::emitShareCameraError(Error error) {
_cameraState = Webrtc::VideoState::Inactive;
if (error == Error::CameraFailed
&& Webrtc::GetVideoInputList().empty()) {
error = Error::NoCamera;
}
_errors.fire_copy(error);
}
bool GroupCall::emitShareScreenError() {
const auto emitError = [=](Error error) {
emitShareScreenError(error);
return true;
};
if (const auto real = lookupReal()
; real && activeVideoSendersCount() >= real->unmutedVideoLimit()) {
return emitError(Error::DisabledNoScreen);
} else if (!videoIsWorking()) {
return emitError(Error::DisabledNoScreen);
} else if (mutedByAdmin()) {
return emitError(Error::MutedNoScreen);
}
return false;
}
void GroupCall::emitShareScreenError(Error error) {
_screenState = Webrtc::VideoState::Inactive;
_errors.fire_copy(error);
}
void GroupCall::setupOutgoingVideo() {
using Webrtc::VideoState;
_cameraState.value(
) | rpl::combine_previous(
) | rpl::filter([=](VideoState previous, VideoState state) {
// Recursive entrance may happen if error happens when activating.
return (previous != state);
}) | rpl::start_with_next([=](VideoState previous, VideoState state) {
const auto wasActive = (previous != VideoState::Inactive);
const auto nowPaused = (state == VideoState::Paused);
const auto nowActive = (state != VideoState::Inactive);
if (wasActive == nowActive) {
Assert(wasActive && nowActive);
sendSelfUpdate(SendUpdateType::CameraPaused);
markTrackPaused({
VideoEndpointType::Camera,
joinAs(),
_cameraEndpoint
}, nowPaused);
return;
}
if (nowActive) {
if (emitShareCameraError()) {
return;
} else if (!_cameraCapture) {
_cameraCapture = _delegate->groupCallGetVideoCapture(
_cameraInputId);
if (!_cameraCapture) {
return emitShareCameraError(Error::CameraFailed);
}
const auto weak = base::make_weak(this);
_cameraCapture->setOnFatalError([=] {
crl::on_main(weak, [=] {
emitShareCameraError(Error::CameraFailed);
});
});
} else {
_cameraCapture->switchToDevice(
_cameraInputId.toStdString(),
false);
}
if (_instance) {
_instance->setVideoCapture(_cameraCapture);
}
_cameraCapture->setState(tgcalls::VideoState::Active);
} else if (_cameraCapture) {
_cameraCapture->setState(tgcalls::VideoState::Inactive);
}
_isSharingCamera = nowActive;
markEndpointActive({
VideoEndpointType::Camera,
joinAs(),
_cameraEndpoint
}, nowActive, nowPaused);
sendSelfUpdate(SendUpdateType::CameraStopped);
applyMeInCallLocally();
}, _lifetime);
_screenState.value(
) | rpl::combine_previous(
) | rpl::filter([=](VideoState previous, VideoState state) {
// Recursive entrance may happen if error happens when activating.
return (previous != state);
}) | rpl::start_with_next([=](VideoState previous, VideoState state) {
const auto wasActive = (previous != VideoState::Inactive);
const auto nowPaused = (state == VideoState::Paused);
const auto nowActive = (state != VideoState::Inactive);
if (wasActive == nowActive) {
Assert(wasActive && nowActive);
sendSelfUpdate(SendUpdateType::ScreenPaused);
markTrackPaused({
VideoEndpointType::Screen,
joinAs(),
_screenEndpoint
}, nowPaused);
return;
}
if (nowActive) {
if (emitShareScreenError()) {
return;
} else if (!_screenCapture) {
_screenCapture = std::shared_ptr<
tgcalls::VideoCaptureInterface
>(tgcalls::VideoCaptureInterface::Create(
tgcalls::StaticThreads::getThreads(),
_screenDeviceId.toStdString()));
if (!_screenCapture) {
return emitShareScreenError(Error::ScreenFailed);
}
const auto weak = base::make_weak(this);
_screenCapture->setOnFatalError([=] {
crl::on_main(weak, [=] {
emitShareScreenError(Error::ScreenFailed);
});
});
_screenCapture->setOnPause([=](bool paused) {
crl::on_main(weak, [=] {
if (isSharingScreen()) {
_screenState = paused
? VideoState::Paused
: VideoState::Active;
}
});
});
} else {
_screenCapture->switchToDevice(
_screenDeviceId.toStdString(),
true);
}
if (_screenInstance) {
_screenInstance->setVideoCapture(_screenCapture);
}
_screenCapture->setState(tgcalls::VideoState::Active);
} else if (_screenCapture) {
_screenCapture->setState(tgcalls::VideoState::Inactive);
}
_isSharingScreen = nowActive;
markEndpointActive({
VideoEndpointType::Screen,
joinAs(),
_screenEndpoint
}, nowActive, nowPaused);
_screenJoinState.nextActionPending = true;
checkNextJoinAction();
}, _lifetime);
}
void GroupCall::changeTitle(const QString &title) {
const auto real = lookupReal();
if (!real || real->title() == title) {
return;
}
_api.request(MTPphone_EditGroupCallTitle(
inputCall(),
MTP_string(title)
)).done([=](const MTPUpdates &result) {
_peer->session().api().applyUpdates(result);
_titleChanged.fire({});
}).send();
}
void GroupCall::toggleRecording(
bool enabled,
const QString &title,
bool video,
bool videoPortrait) {
const auto real = lookupReal();
if (!real) {
return;
}
const auto already = (real->recordStartDate() != 0);
if (already == enabled) {
return;
}
if (!enabled) {
_recordingStoppedByMe = true;
}
using Flag = MTPphone_ToggleGroupCallRecord::Flag;
_api.request(MTPphone_ToggleGroupCallRecord(
MTP_flags((enabled ? Flag::f_start : Flag(0))
| (video ? Flag::f_video : Flag(0))
| (title.isEmpty() ? Flag(0) : Flag::f_title)),
inputCall(),
MTP_string(title),
MTP_bool(videoPortrait)
)).done([=](const MTPUpdates &result) {
_peer->session().api().applyUpdates(result);
_recordingStoppedByMe = false;
}).fail([=] {
_recordingStoppedByMe = false;
}).send();
}
bool GroupCall::tryCreateController() {
if (_instance) {
return false;
}
const auto &settings = Core::App().settings();
const auto weak = base::make_weak(&_instanceGuard);
const auto myLevel = std::make_shared<tgcalls::GroupLevelValue>();
tgcalls::GroupInstanceDescriptor descriptor = {
.threads = tgcalls::StaticThreads::getThreads(),
.config = tgcalls::GroupConfig{
},
.networkStateUpdated = [=](tgcalls::GroupNetworkState networkState) {
crl::on_main(weak, [=] { setInstanceConnected(networkState); });
},
.audioLevelsUpdated = [=](const tgcalls::GroupLevelsUpdate &data) {
const auto &updates = data.updates;
if (updates.empty()) {
return;
} else if (updates.size() == 1 && !updates.front().ssrc) {
const auto &value = updates.front().value;
// Don't send many 0 while we're muted.
if (myLevel->level == value.level
&& myLevel->voice == value.voice) {
return;
}
*myLevel = updates.front().value;
}
crl::on_main(weak, [=] { audioLevelsUpdated(data); });
},
.initialInputDeviceId = _audioInputId.toStdString(),
.initialOutputDeviceId = _audioOutputId.toStdString(),
.createAudioDeviceModule = Webrtc::AudioDeviceModuleCreator(
settings.callAudioBackend()),
.videoCapture = _cameraCapture,
.requestCurrentTime = [=, call = base::make_weak(this)](
std::function<void(int64_t)> done) {
auto result = std::make_shared<RequestCurrentTimeTask>(
call,
std::move(done));
crl::on_main(weak, [=] {
requestCurrentTimeStart(std::move(result));
});
return result;
},
.requestAudioBroadcastPart = [=, call = base::make_weak(this)](
int64_t time,
int64_t period,
std::function<void(tgcalls::BroadcastPart &&)> done) {
auto result = std::make_shared<LoadPartTask>(
call,
time,
period,
std::move(done));
crl::on_main(weak, [=]() mutable {
broadcastPartStart(std::move(result));
});
return result;
},
.requestVideoBroadcastPart = [=, call = base::make_weak(this)](
int64_t time,
int64_t period,
int32_t channel,
tgcalls::VideoChannelDescription::Quality quality,
std::function<void(tgcalls::BroadcastPart &&)> done) {
auto result = std::make_shared<LoadPartTask>(
call,
time,
period,
channel,
quality,
std::move(done));
crl::on_main(weak, [=]() mutable {
broadcastPartStart(std::move(result));
});
return result;
},
.videoContentType = tgcalls::VideoContentType::Generic,
.initialEnableNoiseSuppression
= settings.groupCallNoiseSuppression(),
.requestMediaChannelDescriptions = [=, call = base::make_weak(this)](
const std::vector<uint32_t> &ssrcs,
std::function<void(
std::vector<tgcalls::MediaChannelDescription> &&)> done) {
auto result = std::make_shared<MediaChannelDescriptionsTask>(
call,
ssrcs,
std::move(done));
crl::on_main(weak, [=]() mutable {
mediaChannelDescriptionsStart(std::move(result));
});
return result;
},
};
if (Logs::DebugEnabled()) {
auto callLogFolder = cWorkingDir() + u"DebugLogs"_q;
auto callLogPath = callLogFolder + u"/last_group_call_log.txt"_q;
auto callLogNative = QDir::toNativeSeparators(callLogPath);
descriptor.config.need_log = true;
#ifdef Q_OS_WIN
descriptor.config.logPath.data = callLogNative.toStdWString();
#else // Q_OS_WIN
const auto callLogUtf = QFile::encodeName(callLogNative);
descriptor.config.logPath.data.resize(callLogUtf.size());
ranges::copy(callLogUtf, descriptor.config.logPath.data.begin());
#endif // Q_OS_WIN
QFile(callLogPath).remove();
QDir().mkpath(callLogFolder);
} else {
descriptor.config.need_log = false;
}
LOG(("Call Info: Creating group instance"));
_instance = std::make_unique<tgcalls::GroupInstanceCustomImpl>(
std::move(descriptor));
updateInstanceMuteState();
updateInstanceVolumes();
for (auto &[endpoint, sink] : base::take(_pendingVideoOutputs)) {
_instance->addIncomingVideoOutput(endpoint, std::move(sink.data));
}
//raw->setAudioOutputDuckingEnabled(settings.callAudioDuckingEnabled());
return true;
}
bool GroupCall::tryCreateScreencast() {
if (_screenInstance) {
return false;
}
const auto weak = base::make_weak(&_screenInstanceGuard);
tgcalls::GroupInstanceDescriptor descriptor = {
.threads = tgcalls::StaticThreads::getThreads(),
.config = tgcalls::GroupConfig{
.need_log = Logs::DebugEnabled(),
},
.networkStateUpdated = [=](tgcalls::GroupNetworkState networkState) {
crl::on_main(weak, [=] {
setScreenInstanceConnected(networkState);
});
},
.createAudioDeviceModule = Webrtc::LoopbackAudioDeviceModuleCreator(),
.videoCapture = _screenCapture,
.videoContentType = tgcalls::VideoContentType::Screencast,
};
LOG(("Call Info: Creating group screen instance"));
_screenInstance = std::make_unique<tgcalls::GroupInstanceCustomImpl>(
std::move(descriptor));
_screenInstance->setIsMuted(!_screenWithAudio);
return true;
}
void GroupCall::broadcastPartStart(std::shared_ptr<LoadPartTask> task) {
const auto raw = task.get();
const auto time = raw->time();
const auto scale = raw->scale();
const auto videoChannel = raw->videoChannel();
const auto videoQuality = raw->videoQuality();
const auto finish = [=](tgcalls::BroadcastPart &&part) {
raw->done(std::move(part));
_broadcastParts.erase(raw);
};
using Status = tgcalls::BroadcastPart::Status;
using Quality = tgcalls::VideoChannelDescription::Quality;
using Flag = MTPDinputGroupCallStream::Flag;
const auto requestId = _api.request(MTPupload_GetFile(
MTP_flags(0),
MTP_inputGroupCallStream(
MTP_flags(videoChannel
? (Flag::f_video_channel | Flag::f_video_quality)
: Flag(0)),
inputCall(),
MTP_long(time),
MTP_int(scale),
MTP_int(videoChannel),
MTP_int((videoQuality == Quality::Full)
? 2
: (videoQuality == Quality::Medium)
? 1
: 0)),
MTP_long(0),
MTP_int(128 * 1024)
)).done([=](
const MTPupload_File &result,
const MTP::Response &response) {
result.match([&](const MTPDupload_file &data) {
const auto size = data.vbytes().v.size();
auto bytes = std::vector<uint8_t>(size);
memcpy(bytes.data(), data.vbytes().v.constData(), size);
finish({
.timestampMilliseconds = time,
.responseTimestamp = TimestampFromMsgId(response.outerMsgId),
.status = Status::Success,
.data = std::move(bytes),
});
}, [&](const MTPDupload_fileCdnRedirect &data) {
LOG(("Voice Chat Stream Error: fileCdnRedirect received."));
finish({
.timestampMilliseconds = time,
.responseTimestamp = TimestampFromMsgId(response.outerMsgId),
.status = Status::ResyncNeeded,
});
});
}).fail([=](const MTP::Error &error, const MTP::Response &response) {
if (error.type() == u"GROUPCALL_JOIN_MISSING"_q
|| error.type() == u"GROUPCALL_FORBIDDEN"_q) {
for (const auto &[task, part] : _broadcastParts) {
_api.request(part.requestId).cancel();
}
setState(State::Joining);
rejoin();
return;
}
const auto status = (MTP::IsFloodError(error)
|| error.type() == u"TIME_TOO_BIG"_q)
? Status::NotReady
: Status::ResyncNeeded;
finish({
.timestampMilliseconds = time,
.responseTimestamp = TimestampFromMsgId(response.outerMsgId),
.status = status,
});
}).handleAllErrors().toDC(
MTP::groupCallStreamDcId(_broadcastDcId)
).send();
_broadcastParts.emplace(raw, LoadingPart{ std::move(task), requestId });
}
void GroupCall::broadcastPartCancel(not_null<LoadPartTask*> task) {
const auto i = _broadcastParts.find(task);
if (i != end(_broadcastParts)) {
_api.request(i->second.requestId).cancel();
_broadcastParts.erase(i);
}
}
void GroupCall::mediaChannelDescriptionsStart(
std::shared_ptr<MediaChannelDescriptionsTask> task) {
const auto real = lookupReal();
if (!real || (_instanceMode == InstanceMode::None)) {
for (const auto ssrc : task->ssrcs()) {
_unresolvedSsrcs.emplace(ssrc);
}
_mediaChannelDescriptionses.emplace(std::move(task));
return;
}
if (!mediaChannelDescriptionsFill(task.get())) {
_mediaChannelDescriptionses.emplace(std::move(task));
Assert(!_unresolvedSsrcs.empty());
}
if (!_unresolvedSsrcs.empty()) {
real->resolveParticipants(base::take(_unresolvedSsrcs));
}
}
bool GroupCall::mediaChannelDescriptionsFill(
not_null<MediaChannelDescriptionsTask*> task,
Fn<bool(uint32)> resolved) {
using Channel = tgcalls::MediaChannelDescription;
auto result = false;
const auto real = lookupReal();
Assert(real != nullptr);
for (const auto ssrc : task->ssrcs()) {
const auto add = [&](
std::optional<Channel> channel,
bool screen = false) {
if (task->finishWithAdding(ssrc, std::move(channel), screen)) {
result = true;
}
};
if (const auto byAudio = real->participantPeerByAudioSsrc(ssrc)) {
add(Channel{
.type = Channel::Type::Audio,
.audioSsrc = ssrc,
});
} else if (!resolved) {
_unresolvedSsrcs.emplace(ssrc);
} else if (resolved(ssrc)) {
add(std::nullopt);
}
}
return result;
}
void GroupCall::mediaChannelDescriptionsCancel(
not_null<MediaChannelDescriptionsTask*> task) {
const auto i = _mediaChannelDescriptionses.find(task.get());
if (i != end(_mediaChannelDescriptionses)) {
_mediaChannelDescriptionses.erase(i);
}
}
void GroupCall::requestCurrentTimeStart(
std::shared_ptr<RequestCurrentTimeTask> task) {
if (!_rtmp) {
task->done(approximateServerTimeInMs());
return;
}
_requestCurrentTimes.emplace(std::move(task));
if (_requestCurrentTimeRequestId) {
return;
}
const auto finish = [=](int64 value) {
_requestCurrentTimeRequestId = 0;
for (const auto &task : base::take(_requestCurrentTimes)) {
task->done(value);
}
};
_requestCurrentTimeRequestId = _api.request(
MTPphone_GetGroupCallStreamChannels(inputCall())
).done([=](const MTPphone_GroupCallStreamChannels &result) {
result.match([&](const MTPDphone_groupCallStreamChannels &data) {
const auto &list = data.vchannels().v;
const auto empty = list.isEmpty();
if (!empty) {
const auto &first = list.front();
first.match([&](const MTPDgroupCallStreamChannel &data) {
finish(data.vlast_timestamp_ms().v);
});
} else {
finish(0);
}
_emptyRtmp = empty;
});
}).fail([=](const MTP::Error &error) {
finish(0);
if (error.type() == u"GROUPCALL_JOIN_MISSING"_q
|| error.type() == u"GROUPCALL_FORBIDDEN"_q) {
for (const auto &[task, part] : _broadcastParts) {
_api.request(part.requestId).cancel();
}
setState(State::Joining);
rejoin();
}
}).handleAllErrors().toDC(
MTP::groupCallStreamDcId(_broadcastDcId)
).send();
}
void GroupCall::requestCurrentTimeCancel(
not_null<RequestCurrentTimeTask*> task) {
const auto i = _requestCurrentTimes.find(task.get());
if (i != end(_requestCurrentTimes)) {
_requestCurrentTimes.erase(i);
}
}
int64 GroupCall::approximateServerTimeInMs() const {
Expects(_serverTimeMs != 0);
return _serverTimeMs + (crl::now() - _serverTimeMsGotAt);
}
void GroupCall::updateRequestedVideoChannels() {
_requestedVideoChannelsUpdateScheduled = false;
const auto real = lookupReal();
if (!real || !_instance) {
return;
}
auto channels = std::vector<tgcalls::VideoChannelDescription>();
using Quality = tgcalls::VideoChannelDescription::Quality;
channels.reserve(_activeVideoTracks.size());
const auto &camera = cameraSharingEndpoint();
const auto &screen = screenSharingEndpoint();
auto mediums = 0;
auto fullcameras = 0;
auto fullscreencasts = 0;
for (const auto &[endpoint, video] : _activeVideoTracks) {
const auto &endpointId = endpoint.id;
if (endpointId == camera || endpointId == screen) {
continue;
} else if (endpointId == Data::RtmpEndpointId()) {
channels.push_back({
.endpointId = endpointId,
.minQuality = (video->quality == Group::VideoQuality::Full
? Quality::Full
: Quality::Thumbnail),
.maxQuality = Quality::Full,
});
continue;
}
const auto participant = real->participantByEndpoint(endpointId);
const auto params = (participant && participant->ssrc)
? participant->videoParams.get()
: nullptr;
if (!params) {
continue;
}
const auto min = (video->quality == Group::VideoQuality::Full
&& endpoint.type == VideoEndpointType::Screen)
? Quality::Full
: Quality::Thumbnail;
const auto max = (video->quality == Group::VideoQuality::Full)
? Quality::Full
: (video->quality == Group::VideoQuality::Medium
&& endpoint.type != VideoEndpointType::Screen)
? Quality::Medium
: Quality::Thumbnail;
if (max == Quality::Full) {
if (endpoint.type == VideoEndpointType::Screen) {
++fullscreencasts;
} else {
++fullcameras;
}
} else if (max == Quality::Medium) {
++mediums;
}
channels.push_back({
.audioSsrc = participant->ssrc,
.endpointId = endpointId,
.ssrcGroups = (params->camera.endpointId == endpointId
? params->camera.ssrcGroups
: params->screen.ssrcGroups),
.minQuality = min,
.maxQuality = max,
});
}
// We limit `count(Full) * kFullAsMediumsCount + count(medium)`.
//
// Try to preserve all qualities; If not
// Try to preserve all screencasts as Full and cameras as Medium; If not
// Try to preserve all screencasts as Full; If not
// Try to preserve all cameras as Medium;
const auto mediumsCount = mediums
+ (fullcameras + fullscreencasts) * kFullAsMediumsCount;
const auto downgradeSome = (mediumsCount > kMaxMediumQualities);
const auto downgradeAll = (fullscreencasts * kFullAsMediumsCount)
> kMaxMediumQualities;
if (downgradeSome) {
for (auto &channel : channels) {
if (channel.maxQuality == Quality::Full) {
const auto camera = (channel.minQuality != Quality::Full);
if (camera) {
channel.maxQuality = Quality::Medium;
} else if (downgradeAll) {
channel.maxQuality
= channel.minQuality
= Quality::Thumbnail;
--fullscreencasts;
}
}
}
mediums += fullcameras;
fullcameras = 0;
if (downgradeAll) {
fullscreencasts = 0;
}
}
if (mediums > kMaxMediumQualities) {
for (auto &channel : channels) {
if (channel.maxQuality == Quality::Medium) {
channel.maxQuality = Quality::Thumbnail;
}
}
}
_instance->setRequestedVideoChannels(std::move(channels));
}
void GroupCall::updateRequestedVideoChannelsDelayed() {
if (_requestedVideoChannelsUpdateScheduled) {
return;
}
_requestedVideoChannelsUpdateScheduled = true;
crl::on_main(this, [=] {
if (_requestedVideoChannelsUpdateScheduled) {
updateRequestedVideoChannels();
}
});
}
void GroupCall::fillActiveVideoEndpoints() {
const auto real = lookupReal();
Assert(real != nullptr);
if (_rtmp) {
_videoIsWorking = true;
markEndpointActive({
VideoEndpointType::Screen,
_peer,
Data::RtmpEndpointId(),
}, true, false);
updateRequestedVideoChannels();
return;
}
const auto me = real->participantByPeer(joinAs());
if (me && me->videoJoined) {
_videoIsWorking = true;
} else {
_videoIsWorking = false;
toggleVideo(false);
toggleScreenSharing(std::nullopt);
}
const auto &large = _videoEndpointLarge.current();
auto largeFound = false;
auto endpoints = _activeVideoTracks | ranges::views::transform([](
const auto &pair) {
return pair.first;
});
auto removed = base::flat_set<VideoEndpoint>(
begin(endpoints),
end(endpoints));
const auto feedOne = [&](VideoEndpoint endpoint, bool paused) {
if (endpoint.empty()) {
return;
} else if (endpoint == large) {
largeFound = true;
}
if (removed.remove(endpoint)) {
markTrackPaused(endpoint, paused);
} else {
markEndpointActive(std::move(endpoint), true, paused);
}
};
using Type = VideoEndpointType;
for (const auto &participant : real->participants()) {
const auto camera = GetCameraEndpoint(participant.videoParams);
if (camera != _cameraEndpoint
&& camera != _screenEndpoint
&& participant.peer != joinAs()) {
const auto paused = IsCameraPaused(participant.videoParams);
feedOne({ Type::Camera, participant.peer, camera }, paused);
}
const auto screen = GetScreenEndpoint(participant.videoParams);
if (screen != _cameraEndpoint
&& screen != _screenEndpoint
&& participant.peer != joinAs()) {
const auto paused = IsScreenPaused(participant.videoParams);
feedOne({ Type::Screen, participant.peer, screen }, paused);
}
}
feedOne(
{ Type::Camera, joinAs(), cameraSharingEndpoint() },
isCameraPaused());
feedOne(
{ Type::Screen, joinAs(), screenSharingEndpoint() },
isScreenPaused());
if (large && !largeFound) {
setVideoEndpointLarge({});
}
for (const auto &endpoint : removed) {
markEndpointActive(endpoint, false, false);
}
updateRequestedVideoChannels();
}
void GroupCall::updateInstanceMuteState() {
Expects(_instance != nullptr);
const auto state = muted();
_instance->setIsMuted(state != MuteState::Active
&& state != MuteState::PushToTalk);
}
void GroupCall::updateInstanceVolumes() {
const auto real = lookupReal();
if (!real) {
return;
}
if (_rtmp) {
const auto value = _rtmpVolume / float64(Group::kDefaultVolume);
_instance->setVolume(1, value);
} else {
const auto &participants = real->participants();
for (const auto &participant : participants) {
updateInstanceVolume(std::nullopt, participant);
}
}
}
void GroupCall::updateInstanceVolume(
const std::optional<Data::GroupCallParticipant> &was,
const Data::GroupCallParticipant &now) {
const auto nonDefault = now.mutedByMe
|| (now.volume != Group::kDefaultVolume);
const auto volumeChanged = was
? (was->volume != now.volume || was->mutedByMe != now.mutedByMe)
: nonDefault;
const auto additionalSsrc = GetAdditionalAudioSsrc(now.videoParams);
const auto set = now.ssrc
&& (volumeChanged || (was && was->ssrc != now.ssrc));
const auto additionalSet = additionalSsrc
&& (volumeChanged
|| (was && (GetAdditionalAudioSsrc(was->videoParams)
!= additionalSsrc)));
const auto localVolume = now.mutedByMe
? 0.
: (now.volume / float64(Group::kDefaultVolume));
if (set) {
_instance->setVolume(now.ssrc, localVolume);
}
if (additionalSet) {
_instance->setVolume(additionalSsrc, localVolume);
}
}
void GroupCall::audioLevelsUpdated(const tgcalls::GroupLevelsUpdate &data) {
Expects(!data.updates.empty());
auto check = false;
auto checkNow = false;
const auto now = crl::now();
const auto meMuted = [&] {
const auto state = muted();
return (state != MuteState::Active)
&& (state != MuteState::PushToTalk);
};
for (const auto &[ssrcOrZero, value] : data.updates) {
const auto ssrc = ssrcOrZero ? ssrcOrZero : _joinState.ssrc;
if (!ssrc) {
continue;
}
const auto level = value.level;
const auto voice = value.voice;
const auto me = (ssrc == _joinState.ssrc);
const auto ignore = me && meMuted();
_levelUpdates.fire(LevelUpdate{
.ssrc = ssrc,
.value = ignore ? 0.f : level,
.voice = (!ignore && voice),
.me = me,
});
if (level <= kSpeakLevelThreshold) {
continue;
}
if (me
&& voice
&& (!_lastSendProgressUpdate
|| _lastSendProgressUpdate + kUpdateSendActionEach < now)) {
_lastSendProgressUpdate = now;
_peer->session().sendProgressManager().update(
_history,
Api::SendProgressType::Speaking);
}
check = true;
const auto i = _lastSpoke.find(ssrc);
if (i == _lastSpoke.end()) {
_lastSpoke.emplace(ssrc, Data::LastSpokeTimes{
.anything = now,
.voice = voice ? now : 0,
});
checkNow = true;
} else {
if ((i->second.anything + kCheckLastSpokeInterval / 3 <= now)
|| (voice
&& i->second.voice + kCheckLastSpokeInterval / 3 <= now)) {
checkNow = true;
}
i->second.anything = now;
if (voice) {
i->second.voice = now;
}
}
}
if (checkNow) {
checkLastSpoke();
} else if (check && !_lastSpokeCheckTimer.isActive()) {
_lastSpokeCheckTimer.callEach(kCheckLastSpokeInterval / 2);
}
}
void GroupCall::checkLastSpoke() {
const auto real = lookupReal();
if (!real) {
return;
}
constexpr auto kKeepInListFor = kCheckLastSpokeInterval * 2;
static_assert(Data::GroupCall::kSoundStatusKeptFor
<= kKeepInListFor - (kCheckLastSpokeInterval / 3));
auto hasRecent = false;
const auto now = crl::now();
auto list = base::take(_lastSpoke);
for (auto i = list.begin(); i != list.end();) {
const auto [ssrc, when] = *i;
if (when.anything + kKeepInListFor >= now) {
hasRecent = true;
++i;
} else {
i = list.erase(i);
}
// Ignore my levels from microphone if I'm already muted.
if (ssrc != _joinState.ssrc
|| muted() == MuteState::Active
|| muted() == MuteState::PushToTalk) {
real->applyLastSpoke(ssrc, when, now);
} else {
real->applyLastSpoke(ssrc, { crl::time(), crl::time() }, now);
}
}
_lastSpoke = std::move(list);
if (!hasRecent) {
_lastSpokeCheckTimer.cancel();
} else if (!_lastSpokeCheckTimer.isActive()) {
_lastSpokeCheckTimer.callEach(kCheckLastSpokeInterval / 3);
}
}
void GroupCall::checkJoined() {
if (state() != State::Connecting || !_id || !_joinState.ssrc) {
return;
}
auto sources = QVector<MTPint>(1, MTP_int(_joinState.ssrc));
if (_screenJoinState.ssrc) {
sources.push_back(MTP_int(_screenJoinState.ssrc));
}
_api.request(MTPphone_CheckGroupCall(
inputCall(),
MTP_vector<MTPint>(std::move(sources))
)).done([=](const MTPVector<MTPint> &result) {
if (!ranges::contains(result.v, MTP_int(_joinState.ssrc))) {
LOG(("Call Info: Rejoin after no my ssrc in checkGroupCall."));
_joinState.nextActionPending = true;
checkNextJoinAction();
} else {
if (state() == State::Connecting) {
_checkJoinedTimer.callOnce(kCheckJoinedTimeout);
}
if (_screenJoinState.ssrc
&& !ranges::contains(
result.v,
MTP_int(_screenJoinState.ssrc))) {
LOG(("Call Info: "
"Screen rejoin after _screenSsrc not found."));
_screenJoinState.nextActionPending = true;
checkNextJoinAction();
}
}
}).fail([=](const MTP::Error &error) {
LOG(("Call Info: Full rejoin after error '%1' in checkGroupCall."
).arg(error.type()));
rejoin();
}).send();
}
void GroupCall::setInstanceConnected(
tgcalls::GroupNetworkState networkState) {
const auto inTransit = networkState.isTransitioningFromBroadcastToRtc;
const auto instanceState = !networkState.isConnected
? InstanceState::Disconnected
: inTransit
? InstanceState::TransitionToRtc
: InstanceState::Connected;
const auto connected = (instanceState != InstanceState::Disconnected);
if (_instanceState.current() == instanceState
&& _instanceTransitioning == inTransit) {
return;
}
const auto nowCanSpeak = connected
&& _instanceTransitioning
&& !inTransit
&& (muted() == MuteState::Muted);
_instanceTransitioning = inTransit;
_instanceState = instanceState;
if (state() == State::Connecting && connected) {
setState(State::Joined);
} else if (state() == State::Joined && !connected) {
setState(State::Connecting);
}
if (nowCanSpeak) {
notifyAboutAllowedToSpeak();
}
if (!_hadJoinedState && state() == State::Joined) {
checkFirstTimeJoined();
}
}
void GroupCall::setScreenInstanceConnected(
tgcalls::GroupNetworkState networkState) {
const auto inTransit = networkState.isTransitioningFromBroadcastToRtc;
const auto screenInstanceState = !networkState.isConnected
? InstanceState::Disconnected
: inTransit
? InstanceState::TransitionToRtc
: InstanceState::Connected;
if (_screenInstanceState.current() == screenInstanceState) {
return;
}
_screenInstanceState = screenInstanceState;
}
void GroupCall::checkFirstTimeJoined() {
if (_hadJoinedState || state() != State::Joined) {
return;
}
_hadJoinedState = true;
applyGlobalShortcutChanges();
_delegate->groupCallPlaySound(Delegate::GroupCallSound::Started);
}
void GroupCall::notifyAboutAllowedToSpeak() {
if (!_hadJoinedState) {
return;
}
_delegate->groupCallPlaySound(
Delegate::GroupCallSound::AllowedToSpeak);
_allowedToSpeakNotifications.fire({});
}
void GroupCall::setInstanceMode(InstanceMode mode) {
Expects(_instance != nullptr);
_instanceMode = mode;
using Mode = tgcalls::GroupConnectionMode;
_instance->setConnectionMode([&] {
switch (_instanceMode) {
case InstanceMode::None: return Mode::GroupConnectionModeNone;
case InstanceMode::Rtc: return Mode::GroupConnectionModeRtc;
case InstanceMode::Stream: return Mode::GroupConnectionModeBroadcast;
}
Unexpected("Mode in GroupCall::setInstanceMode.");
}(), true, _rtmp);
}
void GroupCall::setScreenInstanceMode(InstanceMode mode) {
Expects(_screenInstance != nullptr);
_screenInstanceMode = mode;
using Mode = tgcalls::GroupConnectionMode;
_screenInstance->setConnectionMode([&] {
switch (_screenInstanceMode) {
case InstanceMode::None: return Mode::GroupConnectionModeNone;
case InstanceMode::Rtc: return Mode::GroupConnectionModeRtc;
case InstanceMode::Stream: return Mode::GroupConnectionModeBroadcast;
}
Unexpected("Mode in GroupCall::setInstanceMode.");
}(), true, false);
}
void GroupCall::maybeSendMutedUpdate(MuteState previous) {
// Send Active <-> !Active or ForceMuted <-> RaisedHand changes.
const auto now = muted();
if ((previous == MuteState::Active && now == MuteState::Muted)
|| (now == MuteState::Active
&& (previous == MuteState::Muted
|| previous == MuteState::PushToTalk))) {
sendSelfUpdate(SendUpdateType::Mute);
} else if ((now == MuteState::ForceMuted
&& previous == MuteState::RaisedHand)
|| (now == MuteState::RaisedHand
&& previous == MuteState::ForceMuted)) {
sendSelfUpdate(SendUpdateType::RaiseHand);
}
}
void GroupCall::sendPendingSelfUpdates() {
if ((state() != State::Connecting && state() != State::Joined)
|| _selfUpdateRequestId) {
return;
}
const auto updates = {
SendUpdateType::Mute,
SendUpdateType::RaiseHand,
SendUpdateType::CameraStopped,
SendUpdateType::CameraPaused,
SendUpdateType::ScreenPaused,
};
for (const auto type : updates) {
if (type == SendUpdateType::ScreenPaused
&& _screenJoinState.action != JoinAction::None) {
continue;
}
if (_pendingSelfUpdates & type) {
_pendingSelfUpdates &= ~type;
sendSelfUpdate(type);
return;
}
}
}
void GroupCall::sendSelfUpdate(SendUpdateType type) {
if ((state() != State::Connecting && state() != State::Joined)
|| _selfUpdateRequestId) {
_pendingSelfUpdates |= type;
return;
}
using Flag = MTPphone_EditGroupCallParticipant::Flag;
_selfUpdateRequestId = _api.request(MTPphone_EditGroupCallParticipant(
MTP_flags((type == SendUpdateType::RaiseHand)
? Flag::f_raise_hand
: (type == SendUpdateType::CameraStopped)
? Flag::f_video_stopped
: (type == SendUpdateType::CameraPaused)
? Flag::f_video_paused
: (type == SendUpdateType::ScreenPaused)
? Flag::f_presentation_paused
: Flag::f_muted),
inputCall(),
joinAs()->input,
MTP_bool(muted() != MuteState::Active),
MTP_int(100000), // volume
MTP_bool(muted() == MuteState::RaisedHand),
MTP_bool(!isSharingCamera()),
MTP_bool(isCameraPaused()),
MTP_bool(isScreenPaused())
)).done([=](const MTPUpdates &result) {
_selfUpdateRequestId = 0;
_peer->session().api().applyUpdates(result);
sendPendingSelfUpdates();
}).fail([=](const MTP::Error &error) {
_selfUpdateRequestId = 0;
if (error.type() == u"GROUPCALL_FORBIDDEN"_q) {
LOG(("Call Info: Rejoin after error '%1' in editGroupCallMember."
).arg(error.type()));
rejoin();
}
}).send();
}
void GroupCall::pinVideoEndpoint(VideoEndpoint endpoint) {
_videoEndpointPinned = false;
if (endpoint) {
setVideoEndpointLarge(std::move(endpoint));
_videoEndpointPinned = true;
}
}
void GroupCall::showVideoEndpointLarge(VideoEndpoint endpoint) {
if (_videoEndpointLarge.current() == endpoint) {
return;
}
_videoEndpointPinned = false;
setVideoEndpointLarge(std::move(endpoint));
_videoLargeTillTime = crl::now() + kFixManualLargeVideoDuration;
}
void GroupCall::setVideoEndpointLarge(VideoEndpoint endpoint) {
if (!endpoint) {
_videoEndpointPinned = false;
}
_videoEndpointLarge = endpoint;
}
void GroupCall::requestVideoQuality(
const VideoEndpoint &endpoint,
Group::VideoQuality quality) {
if (!endpoint) {
return;
}
const auto i = _activeVideoTracks.find(endpoint);
if (i == end(_activeVideoTracks) || i->second->quality == quality) {
return;
}
i->second->quality = quality;
updateRequestedVideoChannelsDelayed();
}
void GroupCall::setCurrentAudioDevice(bool input, const QString &deviceId) {
if (input) {
_mediaDevices->switchToAudioInput(deviceId);
} else {
_mediaDevices->switchToAudioOutput(deviceId);
}
}
void GroupCall::toggleMute(const Group::MuteRequest &data) {
if (_rtmp) {
_rtmpVolume = data.mute ? 0 : Group::kDefaultVolume;
updateInstanceVolumes();
} else if (data.locallyOnly) {
applyParticipantLocally(data.peer, data.mute, std::nullopt);
} else {
editParticipant(data.peer, data.mute, std::nullopt);
}
}
void GroupCall::changeVolume(const Group::VolumeRequest &data) {
if (_rtmp) {
_rtmpVolume = data.volume;
updateInstanceVolumes();
} else if (data.locallyOnly) {
applyParticipantLocally(data.peer, false, data.volume);
} else {
editParticipant(data.peer, false, data.volume);
}
}
void GroupCall::editParticipant(
not_null<PeerData*> participantPeer,
bool mute,
std::optional<int> volume) {
const auto participant = LookupParticipant(_peer, _id, participantPeer);
if (!participant) {
return;
}
applyParticipantLocally(participantPeer, mute, volume);
using Flag = MTPphone_EditGroupCallParticipant::Flag;
const auto flags = Flag::f_muted
| (volume.has_value() ? Flag::f_volume : Flag(0));
_api.request(MTPphone_EditGroupCallParticipant(
MTP_flags(flags),
inputCall(),
participantPeer->input,
MTP_bool(mute),
MTP_int(std::clamp(volume.value_or(0), 1, Group::kMaxVolume)),
MTPBool(), // raise_hand
MTPBool(), // video_muted
MTPBool(), // video_paused
MTPBool() // presentation_paused
)).done([=](const MTPUpdates &result) {
_peer->session().api().applyUpdates(result);
}).fail([=](const MTP::Error &error) {
if (error.type() == u"GROUPCALL_FORBIDDEN"_q) {
LOG(("Call Info: Rejoin after error '%1' in editGroupCallMember."
).arg(error.type()));
rejoin();
}
}).send();
}
std::variant<int, not_null<UserData*>> GroupCall::inviteUsers(
const std::vector<not_null<UserData*>> &users) {
const auto real = lookupReal();
if (!real) {
return 0;
}
const auto owner = &_peer->owner();
auto count = 0;
auto slice = QVector<MTPInputUser>();
auto result = std::variant<int, not_null<UserData*>>(0);
slice.reserve(kMaxInvitePerSlice);
const auto sendSlice = [&] {
count += slice.size();
_api.request(MTPphone_InviteToGroupCall(
inputCall(),
MTP_vector<MTPInputUser>(slice)
)).done([=](const MTPUpdates &result) {
_peer->session().api().applyUpdates(result);
}).send();
slice.clear();
};
for (const auto &user : users) {
if (!count && slice.empty()) {
result = user;
}
owner->registerInvitedToCallUser(_id, _peer, user);
slice.push_back(user->inputUser);
if (slice.size() == kMaxInvitePerSlice) {
sendSlice();
}
}
if (count != 0 || slice.size() != 1) {
result = int(count + slice.size());
}
if (!slice.empty()) {
sendSlice();
}
return result;
}
auto GroupCall::ensureGlobalShortcutManager()
-> std::shared_ptr<GlobalShortcutManager> {
if (!_shortcutManager) {
_shortcutManager = base::CreateGlobalShortcutManager();
}
return _shortcutManager;
}
void GroupCall::applyGlobalShortcutChanges() {
auto &settings = Core::App().settings();
if (!settings.groupCallPushToTalk()
|| settings.groupCallPushToTalkShortcut().isEmpty()
|| !base::GlobalShortcutsAvailable()
|| !base::GlobalShortcutsAllowed()) {
_shortcutManager = nullptr;
_pushToTalk = nullptr;
return;
}
ensureGlobalShortcutManager();
const auto shortcut = _shortcutManager->shortcutFromSerialized(
settings.groupCallPushToTalkShortcut());
if (!shortcut) {
settings.setGroupCallPushToTalkShortcut(QByteArray());
settings.setGroupCallPushToTalk(false);
Core::App().saveSettingsDelayed();
_shortcutManager = nullptr;
_pushToTalk = nullptr;
return;
}
if (_pushToTalk) {
if (shortcut->serialize() == _pushToTalk->serialize()) {
return;
}
_shortcutManager->stopWatching(_pushToTalk);
}
_pushToTalk = shortcut;
_shortcutManager->startWatching(_pushToTalk, [=](bool pressed) {
pushToTalk(
pressed,
Core::App().settings().groupCallPushToTalkDelay());
});
}
void GroupCall::pushToTalk(bool pressed, crl::time delay) {
if (mutedByAdmin() || muted() == MuteState::Active) {
return;
} else if (pressed) {
_pushToTalkCancelTimer.cancel();
setMuted(MuteState::PushToTalk);
} else if (delay) {
_pushToTalkCancelTimer.callOnce(delay);
} else {
pushToTalkCancel();
}
}
void GroupCall::pushToTalkCancel() {
_pushToTalkCancelTimer.cancel();
if (muted() == MuteState::PushToTalk) {
setMuted(MuteState::Muted);
}
}
void GroupCall::setNotRequireARGB32() {
_requireARGB32 = false;
}
auto GroupCall::otherParticipantStateValue() const
-> rpl::producer<Group::ParticipantState> {
return _otherParticipantStateValue.events();
}
MTPInputGroupCall GroupCall::inputCall() const {
Expects(_id != 0);
return MTP_inputGroupCall(
MTP_long(_id),
MTP_long(_accessHash));
}
void GroupCall::destroyController() {
if (_instance) {
DEBUG_LOG(("Call Info: Destroying call controller.."));
invalidate_weak_ptrs(&_instanceGuard);
_instance->stop();
crl::async([
instance = base::take(_instance),
done = _delegate->groupCallAddAsyncWaiter()
]() mutable {
instance = nullptr;
DEBUG_LOG(("Call Info: Call controller destroyed."));
done();
});
}
}
void GroupCall::destroyScreencast() {
if (_screenInstance) {
DEBUG_LOG(("Call Info: Destroying call screen controller.."));
invalidate_weak_ptrs(&_screenInstanceGuard);
_screenInstance->stop();
crl::async([
instance = base::take(_screenInstance),
done = _delegate->groupCallAddAsyncWaiter()
]() mutable {
instance = nullptr;
DEBUG_LOG(("Call Info: Call screen controller destroyed."));
done();
});
}
}
} // namespace Calls