tdesktop/Telegram/SourceFiles/settings/settings_calls.cpp

692 lines
19 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 "settings/settings_calls.h"
#include "ui/wrap/vertical_layout.h"
#include "ui/wrap/slide_wrap.h"
#include "ui/widgets/labels.h"
#include "ui/widgets/checkbox.h"
#include "ui/widgets/level_meter.h"
#include "ui/widgets/buttons.h"
#include "ui/boxes/single_choice_box.h"
#include "ui/boxes/confirm_box.h"
#include "ui/vertical_list.h"
#include "platform/platform_specific.h"
#include "main/main_session.h"
#include "lang/lang_keys.h"
#include "styles/style_settings.h"
#include "ui/widgets/continuous_sliders.h"
#include "window/window_session_controller.h"
#include "core/application.h"
#include "core/core_settings.h"
#include "calls/calls_call.h"
#include "calls/calls_instance.h"
#include "calls/calls_video_bubble.h"
#include "apiwrap.h"
#include "api/api_authorizations.h"
#include "webrtc/webrtc_environment.h"
#include "webrtc/webrtc_video_track.h"
#include "webrtc/webrtc_audio_input_tester.h"
#include "webrtc/webrtc_create_adm.h" // Webrtc::Backend.
#include "tgcalls/VideoCaptureInterface.h"
#include "styles/style_layers.h"
namespace Settings {
namespace {
using namespace Webrtc;
[[nodiscard]] rpl::producer<QString> DeviceNameValue(
DeviceType type,
rpl::producer<QString> id) {
return std::move(id) | rpl::map([type](const QString &id) {
return Core::App().mediaDevices().devicesValue(
type
) | rpl::map([id](const std::vector<DeviceInfo> &list) {
const auto i = ranges::find(list, id, &DeviceInfo::id);
return (i != end(list) && !i->inactive)
? i->name
: tr::lng_settings_call_device_default(tr::now);
});
}) | rpl::flatten_latest();
}
} // namespace
Calls::Calls(
QWidget *parent,
not_null<Window::SessionController*> controller)
: Section(parent)
, _controller(controller) {
// Request valid value of calls disabled flag.
controller->session().api().authorizations().reload();
setupContent();
requestPermissionAndStartTestingMicrophone();
}
Calls::~Calls() = default;
rpl::producer<QString> Calls::title() {
return tr::lng_settings_section_devices();
}
Webrtc::VideoTrack *Calls::AddCameraSubsection(
std::shared_ptr<Ui::Show> show,
not_null<Ui::VerticalLayout*> content,
bool saveToSettings) {
auto &lifetime = content->lifetime();
const auto hasCall = (Core::App().calls().currentCall() != nullptr);
auto capturerOwner = lifetime.make_state<
std::shared_ptr<tgcalls::VideoCaptureInterface>
>();
const auto track = lifetime.make_state<VideoTrack>(
(hasCall
? VideoState::Inactive
: VideoState::Active));
const auto deviceId = lifetime.make_state<rpl::variable<QString>>(
Core::App().settings().cameraDeviceId());
auto resolvedId = rpl::deferred([=] {
return DeviceIdOrDefault(deviceId->value());
});
AddButtonWithLabel(
content,
tr::lng_settings_call_input_device(),
CameraDeviceNameValue(rpl::duplicate(resolvedId)),
st::settingsButtonNoIcon
)->addClickHandler([=] {
show->show(ChooseCameraDeviceBox(
rpl::duplicate(resolvedId),
[=](const QString &id) {
*deviceId = id;
if (saveToSettings) {
Core::App().settings().setCameraDeviceId(id);
Core::App().saveSettingsDelayed();
}
if (*capturerOwner) {
(*capturerOwner)->switchToDevice(
id.toStdString(),
false);
}
}));
});
const auto bubbleWrap = content->add(object_ptr<Ui::RpWidget>(content));
const auto bubble = lifetime.make_state<::Calls::VideoBubble>(
bubbleWrap,
track);
const auto padding = st::settingsButtonNoIcon.padding.left();
const auto top = st::boxRoundShadow.extend.top();
const auto bottom = st::boxRoundShadow.extend.bottom();
auto frameSize = track->renderNextFrame(
) | rpl::map([=] {
return track->frameSize();
}) | rpl::filter([=](QSize size) {
return !size.isEmpty()
&& !Core::App().calls().currentCall()
&& !Core::App().calls().currentGroupCall();
});
auto bubbleWidth = bubbleWrap->widthValue(
) | rpl::filter([=](int width) {
return width > 2 * padding + 1;
});
rpl::combine(
std::move(bubbleWidth),
std::move(frameSize)
) | rpl::start_with_next([=](int width, QSize frame) {
const auto useWidth = (width - 2 * padding);
const auto useHeight = std::min(
((useWidth * frame.height()) / frame.width()),
(useWidth * 480) / 640);
bubbleWrap->resize(width, top + useHeight + bottom);
bubble->updateGeometry(
::Calls::VideoBubble::DragMode::None,
QRect(padding, top, useWidth, useHeight));
bubbleWrap->update();
}, bubbleWrap->lifetime());
using namespace rpl::mappers;
const auto checkCapturer = [=] {
if (*capturerOwner
|| Core::App().calls().currentCall()
|| Core::App().calls().currentGroupCall()) {
return;
}
*capturerOwner = Core::App().calls().getVideoCapture(
Core::App().settings().cameraDeviceId(),
false);
(*capturerOwner)->setPreferredAspectRatio(0.);
track->setState(VideoState::Active);
(*capturerOwner)->setState(tgcalls::VideoState::Active);
(*capturerOwner)->setOutput(track->sink());
};
rpl::combine(
Core::App().calls().currentCallValue(),
Core::App().calls().currentGroupCallValue(),
_1 || _2
) | rpl::start_with_next([=](bool has) {
if (has) {
track->setState(VideoState::Inactive);
bubbleWrap->resize(bubbleWrap->width(), 0);
*capturerOwner = nullptr;
} else {
crl::on_main(content, checkCapturer);
}
}, lifetime);
return track;
}
void Calls::sectionSaveChanges(FnMut<void()> done) {
_testingMicrophone = false;
done();
}
void Calls::setupContent() {
const auto content = Ui::CreateChild<Ui::VerticalLayout>(this);
const auto settings = &Core::App().settings();
Ui::AddSkip(content);
Ui::AddSubsectionTitle(content, tr::lng_settings_call_section_output());
initPlaybackButton(
content,
tr::lng_settings_call_output_device(),
rpl::deferred([=] {
return DeviceIdOrDefault(settings->playbackDeviceIdValue());
}),
[=](const QString &id) { settings->setPlaybackDeviceId(id); });
Ui::AddSkip(content);
Ui::AddDivider(content);
Ui::AddSkip(content);
Ui::AddSubsectionTitle(content, tr::lng_settings_call_section_input());
initCaptureButton(
content,
tr::lng_settings_call_input_device(),
rpl::deferred([=] {
return DeviceIdOrDefault(settings->captureDeviceIdValue());
}),
[=](const QString &id) { settings->setCaptureDeviceId(id); });
Ui::AddSkip(content);
Ui::AddDivider(content);
Ui::AddSkip(content);
Ui::AddSubsectionTitle(content, tr::lng_settings_devices_calls());
const auto orDefault = [](const QString &value) {
return value.isEmpty() ? kDefaultDeviceId : value;
};
const auto same = content->add(object_ptr<Ui::SettingsButton>(
content,
tr::lng_settings_devices_calls_same(),
st::settingsButtonNoIcon));
same->toggleOn(rpl::combine(
settings->callPlaybackDeviceIdValue(),
settings->callCaptureDeviceIdValue()
) | rpl::map([](const QString &playback, const QString &capture) {
return playback.isEmpty() && capture.isEmpty();
}));
same->toggledValue() | rpl::filter([=](bool toggled) {
const auto empty = settings->callPlaybackDeviceId().isEmpty()
&& settings->callCaptureDeviceId().isEmpty();
return (empty != toggled);
}) | rpl::start_with_next([=](bool toggled) {
if (toggled) {
settings->setCallPlaybackDeviceId(QString());
settings->setCallCaptureDeviceId(QString());
} else {
settings->setCallPlaybackDeviceId(
orDefault(settings->playbackDeviceId()));
settings->setCallCaptureDeviceId(
orDefault(settings->captureDeviceId()));
}
Core::App().saveSettingsDelayed();
}, same->lifetime());
const auto different = content->add(
object_ptr<Ui::SlideWrap<Ui::VerticalLayout>>(
content,
object_ptr<Ui::VerticalLayout>(content)));
const auto calls = different->entity();
initPlaybackButton(
calls,
tr::lng_group_call_speakers(),
rpl::deferred([=] {
return DeviceIdValueWithFallback(
settings->callPlaybackDeviceIdValue(),
settings->playbackDeviceIdValue());
}),
[=](const QString &id) { settings->setCallPlaybackDeviceId(id); });
initCaptureButton(
calls,
tr::lng_group_call_microphone(),
rpl::deferred([=] {
return DeviceIdValueWithFallback(
settings->callCaptureDeviceIdValue(),
settings->captureDeviceIdValue());
}),
[=](const QString &id) { settings->setCallCaptureDeviceId(id); });
different->toggleOn(same->toggledValue() | rpl::map(!rpl::mappers::_1));
Ui::AddSkip(content);
Ui::AddDivider(content);
if (!Core::App().mediaDevices().defaultId(
Webrtc::DeviceType::Camera).isEmpty()) {
Ui::AddSkip(content);
Ui::AddSubsectionTitle(content, tr::lng_settings_call_camera());
AddCameraSubsection(_controller->uiShow(), content, true);
Ui::AddSkip(content);
Ui::AddDivider(content);
}
Ui::AddSkip(content);
Ui::AddSubsectionTitle(content, tr::lng_settings_call_section_other());
const auto api = &_controller->session().api();
content->add(object_ptr<Ui::SettingsButton>(
content,
tr::lng_settings_call_accept_calls(),
st::settingsButtonNoIcon
))->toggleOn(
api->authorizations().callsDisabledHereValue(
) | rpl::map(!rpl::mappers::_1)
)->toggledChanges(
) | rpl::filter([=](bool value) {
return (value == api->authorizations().callsDisabledHere());
}) | start_with_next([=](bool value) {
api->authorizations().toggleCallsDisabledHere(!value);
}, content->lifetime());
content->add(object_ptr<Ui::SettingsButton>(
content,
tr::lng_settings_call_open_system_prefs(),
st::settingsButtonNoIcon
))->addClickHandler([=] {
using namespace ::Platform;
const auto opened = OpenSystemSettings(SystemSettingsType::Audio);
if (!opened) {
_controller->show(
Ui::MakeInformBox(tr::lng_linux_no_audio_prefs()));
}
});
Ui::AddSkip(content);
Ui::ResizeFitChild(this, content);
}
void Calls::initPlaybackButton(
not_null<Ui::VerticalLayout*> container,
rpl::producer<QString> text,
rpl::producer<QString> resolvedId,
Fn<void(QString)> set) {
AddButtonWithLabel(
container,
tr::lng_settings_call_output_device(),
PlaybackDeviceNameValue(rpl::duplicate(resolvedId)),
st::settingsButtonNoIcon
)->addClickHandler([=] {
_controller->show(ChoosePlaybackDeviceBox(
rpl::duplicate(resolvedId),
[=](const QString &id) {
set(id);
Core::App().saveSettingsDelayed();
}));
});
}
void Calls::initCaptureButton(
not_null<Ui::VerticalLayout*> container,
rpl::producer<QString> text,
rpl::producer<QString> resolvedId,
Fn<void(QString)> set) {
AddButtonWithLabel(
container,
tr::lng_settings_call_input_device(),
CaptureDeviceNameValue(rpl::duplicate(resolvedId)),
st::settingsButtonNoIcon
)->addClickHandler([=] {
_controller->show(ChooseCaptureDeviceBox(
rpl::duplicate(resolvedId),
[=](const QString &id) {
set(id);
Core::App().saveSettingsDelayed();
}));
});
struct LevelState {
std::unique_ptr<Webrtc::DeviceResolver> deviceId;
std::unique_ptr<Webrtc::AudioInputTester> tester;
base::Timer timer;
Ui::Animations::Simple animation;
float level = 0.;
};
const auto level = container->add(
object_ptr<Ui::LevelMeter>(
container,
st::defaultLevelMeter),
st::settingsLevelMeterPadding);
const auto state = level->lifetime().make_state<LevelState>();
level->resize(QSize(0, st::defaultLevelMeter.height));
state->timer.setCallback([=] {
const auto was = state->level;
state->level = state->tester->getAndResetLevel();
state->animation.start([=] {
level->setValue(state->animation.value(state->level));
}, was, state->level, kMicTestAnimationDuration);
});
_testingMicrophone.value() | rpl::start_with_next([=](bool testing) {
if (testing) {
state->deviceId = std::make_unique<Webrtc::DeviceResolver>(
&Core::App().mediaDevices(),
Webrtc::DeviceType::Capture,
rpl::duplicate(resolvedId));
state->tester = std::make_unique<AudioInputTester>(
state->deviceId->value());
state->timer.callEach(kMicTestUpdateInterval);
} else {
state->timer.cancel();
state->animation.stop();
state->tester = nullptr;
state->deviceId = nullptr;
}
}, level->lifetime());
}
void Calls::requestPermissionAndStartTestingMicrophone() {
using namespace ::Platform;
const auto status = GetPermissionStatus(
PermissionType::Microphone);
if (status == PermissionStatus::Granted) {
_testingMicrophone = true;
} else if (status == PermissionStatus::CanRequest) {
const auto startTestingChecked = crl::guard(this, [=](
PermissionStatus status) {
if (status == PermissionStatus::Granted) {
crl::on_main(crl::guard(this, [=] {
_testingMicrophone = true;
}));
}
});
RequestPermission(
PermissionType::Microphone,
startTestingChecked);
} else {
const auto showSystemSettings = [controller = _controller] {
OpenSystemSettingsForPermission(
PermissionType::Microphone);
controller->hideLayer();
};
_controller->show(Ui::MakeConfirmBox({
.text = tr::lng_no_mic_permission(),
.confirmed = showSystemSettings,
.confirmText = tr::lng_menu_settings(),
}));
}
}
rpl::producer<QString> PlaybackDeviceNameValue(rpl::producer<QString> id) {
return DeviceNameValue(DeviceType::Playback, std::move(id));
}
rpl::producer<QString> CaptureDeviceNameValue(rpl::producer<QString> id) {
return DeviceNameValue(DeviceType::Capture, std::move(id));
}
rpl::producer<QString> CameraDeviceNameValue(
rpl::producer<QString> id) {
return DeviceNameValue(DeviceType::Camera, std::move(id));
}
void ChooseMediaDeviceBox(
not_null<Ui::GenericBox*> box,
rpl::producer<QString> title,
rpl::producer<std::vector<DeviceInfo>> devicesValue,
rpl::producer<QString> currentId,
Fn<void(QString id)> chosen,
const style::Checkbox *st,
const style::Radio *radioSt) {
box->setTitle(std::move(title));
box->addButton(tr::lng_box_ok(), [=] { box->closeBox(); });
const auto layout = box->verticalLayout();
const auto skip = st::boxOptionListPadding.top()
+ st::defaultBoxCheckbox.margin.top();
layout->add(object_ptr<Ui::FixedHeightWidget>(layout, skip));
if (!st) {
st = &st::defaultBoxCheckbox;
}
if (!radioSt) {
radioSt = &st::defaultRadio;
}
struct State {
std::vector<DeviceInfo> list;
base::flat_map<int, QString> ids;
rpl::variable<QString> currentId;
QString currentName;
bool ignoreValueChange = false;
};
const auto state = box->lifetime().make_state<State>();
state->currentId = std::move(currentId);
const auto choose = [=](const QString &id) {
const auto weak = Ui::MakeWeak(box);
chosen(id);
if (weak) {
box->closeBox();
}
};
const auto group = std::make_shared<Ui::RadiobuttonGroup>();
const auto fake = std::make_shared<Ui::RadiobuttonGroup>(0);
const auto buttons = layout->add(object_ptr<Ui::VerticalLayout>(layout));
const auto other = layout->add(object_ptr<Ui::VerticalLayout>(layout));
const auto margins = QMargins(
st::boxPadding.left() + st::boxOptionListPadding.left(),
0,
st::boxPadding.right(),
st::boxOptionListSkip);
const auto def = buttons->add(
object_ptr<Ui::Radiobutton>(
buttons,
group,
0,
tr::lng_settings_call_device_default(tr::now),
*st,
*radioSt),
margins);
def->clicks(
) | rpl::filter([=] {
return !group->value();
}) | rpl::start_with_next([=] {
choose(kDefaultDeviceId);
}, def->lifetime());
const auto showUnavailable = [=](QString text) {
AddSkip(other);
AddSubsectionTitle(other, tr::lng_settings_devices_inactive());
const auto &radio = *radioSt;
const auto button = other->add(
object_ptr<Ui::Radiobutton>(other, fake, 0, text, *st, radio),
margins);
button->show();
button->setDisabled(true);
button->finishAnimating();
button->setAttribute(Qt::WA_TransparentForMouseEvents);
while (other->count() > 3) {
delete other->widgetAt(0);
}
if (const auto width = box->width()) {
other->resizeToWidth(width);
}
};
const auto hideUnavailable = [=] {
while (other->count() > 0) {
delete other->widgetAt(0);
}
};
const auto selectCurrent = [=](QString current) {
state->ignoreValueChange = true;
const auto guard = gsl::finally([&] {
state->ignoreValueChange = false;
});
if (current.isEmpty() || current == kDefaultDeviceId) {
group->setValue(0);
hideUnavailable();
} else {
auto found = false;
for (const auto &[index, id] : state->ids) {
if (id == current) {
group->setValue(index);
found = true;
break;
}
}
if (found) {
hideUnavailable();
} else {
group->setValue(0);
const auto i = ranges::find(
state->list,
current,
&DeviceInfo::id);
if (i != end(state->list)) {
showUnavailable(i->name);
} else {
hideUnavailable();
}
}
}
};
std::move(
devicesValue
) | rpl::start_with_next([=](std::vector<DeviceInfo> &&list) {
auto count = buttons->count();
auto index = 1;
state->ids.clear();
state->list = std::move(list);
state->ignoreValueChange = true;
const auto guard = gsl::finally([&] {
state->ignoreValueChange = false;
});
const auto current = state->currentId.current();
for (const auto &info : state->list) {
const auto id = info.id;
if (info.inactive) {
continue;
} else if (current == id) {
group->setValue(index);
}
const auto button = buttons->insert(
index,
object_ptr<Ui::Radiobutton>(
buttons,
group,
index,
info.name,
*st,
*radioSt),
margins);
button->show();
button->finishAnimating();
button->clicks(
) | rpl::filter([=] {
return (group->value() == index);
}) | rpl::start_with_next([=] {
choose(id);
}, button->lifetime());
state->ids.emplace(index, id);
if (index < count) {
delete buttons->widgetAt(index + 1);
}
++index;
}
while (index < count) {
delete buttons->widgetAt(index);
--count;
}
if (const auto width = box->width()) {
buttons->resizeToWidth(width);
}
selectCurrent(current);
}, box->lifetime());
state->currentId.changes(
) | rpl::start_with_next(selectCurrent, box->lifetime());
def->finishAnimating();
group->setChangedCallback([=](int value) {
if (state->ignoreValueChange) {
return;
}
const auto i = state->ids.find(value);
choose((i != end(state->ids)) ? i->second : kDefaultDeviceId);
});
}
object_ptr<Ui::GenericBox> ChoosePlaybackDeviceBox(
rpl::producer<QString> currentId,
Fn<void(QString id)> chosen,
const style::Checkbox *st,
const style::Radio *radioSt) {
return Box(
ChooseMediaDeviceBox,
tr::lng_settings_call_output_device(),
Core::App().mediaDevices().devicesValue(DeviceType::Playback),
std::move(currentId),
std::move(chosen),
st,
radioSt);
}
object_ptr<Ui::GenericBox> ChooseCaptureDeviceBox(
rpl::producer<QString> currentId,
Fn<void(QString id)> chosen,
const style::Checkbox *st,
const style::Radio *radioSt) {
return Box(
ChooseMediaDeviceBox,
tr::lng_settings_call_input_device(),
Core::App().mediaDevices().devicesValue(DeviceType::Capture),
std::move(currentId),
std::move(chosen),
st,
radioSt);
}
object_ptr<Ui::GenericBox> ChooseCameraDeviceBox(
rpl::producer<QString> currentId,
Fn<void(QString id)> chosen,
const style::Checkbox *st,
const style::Radio *radioSt) {
return Box(
ChooseMediaDeviceBox,
tr::lng_settings_call_device_default(),
Core::App().mediaDevices().devicesValue(DeviceType::Camera),
std::move(currentId),
std::move(chosen),
st,
radioSt);
}
} // namespace Settings