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Sébastien Blin authoredChange-Id: Ic0c05b9099bc21b8ee936cbe3aef641534d55f77
Sébastien Blin authoredChange-Id: Ic0c05b9099bc21b8ee936cbe3aef641534d55f77
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avadapter.cpp 17.85 KiB
/*
* Copyright (C) 2020-2023 Savoir-faire Linux Inc.
* Author : Edric Ladent Milaret<edric.ladent - milaret @savoirfairelinux.com>
* Author : Andreas Traczyk<andreas.traczyk @savoirfairelinux.com>
* Author: Mingrui Zhang <mingrui.zhang@savoirfairelinux.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "avadapter.h"
#include "qtutils.h"
#include "api/codecmodel.h"
#include "api/devicemodel.h"
#ifdef Q_OS_LINUX
#include "xrectsel.h"
#endif
#include <QtConcurrent/QtConcurrent>
#include <QApplication>
#include <QPainter>
#include <QScreen>
#include <media_const.h>
AvAdapter::AvAdapter(LRCInstance* instance, QObject* parent)
: QmlAdapterBase(instance, parent)
, rendererInformationListModel_(std::make_unique<RendererInformationListModel>())
{
set_renderersInfoList(QVariant::fromValue(rendererInformationListModel_.get()));
connect(&lrcInstance_->avModel(),
&lrc::api::AVModel::audioDeviceEvent,
this,
&AvAdapter::onAudioDeviceEvent);
// QueuedConnection mandatory to avoid deadlock
connect(&lrcInstance_->avModel(),
&lrc::api::AVModel::rendererStarted,
this,
&AvAdapter::onRendererStarted,
Qt::QueuedConnection);
connect(&lrcInstance_->avModel(),
&lrc::api::AVModel::rendererStopped,
this,
&AvAdapter::onRendererStopped);
connect(&lrcInstance_->avModel(),
&lrc::api::AVModel::onRendererFpsChange,
this,
&AvAdapter::updateRenderersFPSInfo);
}
// The top left corner of primary screen is (0, 0).
// For Qt, QScreen geometry contains x, y location relative to primary screen.
// The purpose of the function is to use calculate a boundingRect for virtual desktop
// to help screen sharing.
const QRect
AvAdapter::getAllScreensBoundingRect()
{
auto screens = QGuiApplication::screens();
// p0 is for x axis, p1 is for y axis,
// points contain values that are the maximum positive and negative domain value
QPoint p0(0, 0), p1(0, 0);
for (auto scr : screens) {
auto devicePixelRatio = scr->devicePixelRatio();
auto screenRect = scr->geometry();
if (screenRect.y() < 0 && p1.y() < abs(screenRect.y()))
p1.setY(abs(screenRect.y()));
else if (screenRect.y() >= 0
&& p1.x() < screenRect.y() + screenRect.height() * devicePixelRatio)
p1.setX(screenRect.y() + screenRect.height() * devicePixelRatio);
if (screenRect.x() < 0 && p0.y() < abs(screenRect.x()))
p0.setY(abs(screenRect.x()));
else if (screenRect.x() >= 0
&& p0.x() < screenRect.x() + screenRect.width() * devicePixelRatio)
p0.setX(screenRect.x() + screenRect.width() * devicePixelRatio);
}
return QRect(-p0.y(), -p1.y(), p0.y() + p0.x(), p1.y() + p1.x());
}
void
AvAdapter::shareEntireScreen(int screenNumber)
{
QScreen* screen = QGuiApplication::screens().at(screenNumber);
if (!screen)
return;
QRect rect = screen->geometry();
#ifdef WIN32
rect.moveRight(rect.right() - rect.left() + 1);
rect.moveLeft(0);
rect.moveBottom(rect.bottom() - rect.top() + 1);
rect.moveTop(0);
#endif
auto resource = lrcInstance_->getCurrentCallModel()
->getDisplay(getScreenNumber(screenNumber),
rect.x(),
rect.y(),
rect.width() * screen->devicePixelRatio(),
rect.height() * screen->devicePixelRatio());
auto callId = lrcInstance_->getCurrentCallId();
muteCamera_ = !isCapturing();
lrcInstance_->getCurrentCallModel()
->addMedia(callId, resource, lrc::api::CallModel::MediaRequestType::SCREENSHARING);
}
void
AvAdapter::shareAllScreens()
{
const auto arrangementRect = getAllScreensBoundingRect();
auto resource = lrcInstance_->getCurrentCallModel()->getDisplay(getScreenNumber(),
arrangementRect.x(),
arrangementRect.y(),
arrangementRect.width(),
arrangementRect.height());
auto callId = lrcInstance_->getCurrentCallId();
muteCamera_ = !isCapturing();
lrcInstance_->getCurrentCallModel()
->addMedia(callId, resource, lrc::api::CallModel::MediaRequestType::SCREENSHARING);
}
void
AvAdapter::captureScreen(int screenNumber)
{ std::ignore = QtConcurrent::run([this, screenNumber]() {
QScreen* screen = QGuiApplication::screens().at(screenNumber);
if (!screen)
return;
/*
* The screen window id is always 0.
*/
auto pixmap = screen->grabWindow(0);
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
pixmap.save(&buffer, "PNG");
Q_EMIT screenCaptured(screenNumber, Utils::byteArrayToBase64String(buffer.data()));
});
}
void
AvAdapter::captureAllScreens()
{
std::ignore = QtConcurrent::run([this]() {
auto screens = QGuiApplication::screens();
QList<QPixmap> scrs;
int width = 0, height = 0, currentPoint = 0;
for (auto scr : screens) {
QPixmap pix = scr->grabWindow(0);
auto devicePixelRatio = scr->devicePixelRatio();
width += scr->geometry().width() * devicePixelRatio;
if (height < scr->geometry().height() * devicePixelRatio)
height = scr->geometry().height() * devicePixelRatio;
scrs << pix;
}
QPixmap final(width, height);
QPainter painter(&final);
final.fill(Qt::black);
for (const auto& scr : scrs) {
painter.drawPixmap(currentPoint, 0, scr.width(), scr.height(), scr);
currentPoint += scr.width();
}
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
final.save(&buffer, "PNG");
Q_EMIT screenCaptured(-1, Utils::byteArrayToBase64String(buffer.data()));
});
}
void
AvAdapter::shareFile(const QString& filePath)
{
auto callId = lrcInstance_->getCurrentCallId();
if (!callId.isEmpty()) {
muteCamera_ = !isCapturing();
auto resource = QString("%1%2%3")
.arg(libjami::Media::VideoProtocolPrefix::FILE)
.arg(libjami::Media::VideoProtocolPrefix::SEPARATOR)
.arg(QUrl(filePath).toLocalFile());
Utils::oneShotConnect(&lrcInstance_->avModel(),
&lrc::api::AVModel::fileOpened,
this,
[this, callId, filePath, resource](bool hasAudio, bool hasVideo) {
// TODO: allow audio only sharing
if (hasVideo) { // only start sharing if video is available
lrcInstance_->avModel().pausePlayer(resource, false);
lrcInstance_->avModel().setAutoRestart(resource, true); lrcInstance_->getCurrentCallModel()
->addMedia(callId, filePath, lrc::api::CallModel::MediaRequestType::FILESHARING, false, hasAudio);
} else {
// Close media player because we are not going to start sharing
lrcInstance_->avModel().closeMediaPlayer(resource);
}
});
lrcInstance_->avModel().createMediaPlayer(resource);
}
}
void
AvAdapter::shareScreenArea(unsigned x, unsigned y, unsigned width, unsigned height)
{
muteCamera_ = !isCapturing();
#ifdef Q_OS_LINUX
// xrectsel will freeze all displays too fast so that the call
// context menu will not be closed even closed signal is emitted
// use timer to wait until popup is closed
QTimer::singleShot(100, this, [=]() mutable {
x = y = width = height = 0;
xrectsel(&x, &y, &width, &height);
auto resource = lrcInstance_->getCurrentCallModel()->getDisplay(getScreenNumber(),
x,
y,
width < 128 ? 128 : width,
height < 128 ? 128 : height);
auto callId = lrcInstance_->getCurrentCallId();
lrcInstance_->getCurrentCallModel()
->addMedia(callId, resource, lrc::api::CallModel::MediaRequestType::SCREENSHARING);
});
#else
auto resource = lrcInstance_->getCurrentCallModel()->getDisplay(getScreenNumber(),
x,
y,
width < 128 ? 128 : width,
height < 128 ? 128 : height);
auto callId = lrcInstance_->getCurrentCallId();
lrcInstance_->getCurrentCallModel()
->addMedia(callId, resource, lrc::api::CallModel::MediaRequestType::SCREENSHARING);
#endif
}
void
AvAdapter::shareWindow(const QString& windowProcessId, const QString& windowId)
{
auto resource = lrcInstance_->getCurrentCallModel()->getDisplay(windowProcessId, windowId);
auto callId = lrcInstance_->getCurrentCallId();
muteCamera_ = !isCapturing();
lrcInstance_->getCurrentCallModel()
->addMedia(callId, resource, lrc::api::CallModel::MediaRequestType::SCREENSHARING);
}
QString
AvAdapter::getSharingResource(int screenId, const QString& windowProcessId, const QString& windowId)
{
if (screenId == -1) {
const auto arrangementRect = getAllScreensBoundingRect();
return lrcInstance_->getCurrentCallModel()->getDisplay(getScreenNumber(),
arrangementRect.x(),
arrangementRect.y(),
arrangementRect.width(),
arrangementRect.height());
} else if (screenId > -1) {
QScreen* screen = QGuiApplication::screens().at(screenId);
if (!screen)
return ""; QRect rect = screen->geometry();
#ifdef WIN32
rect.moveRight(rect.right() - rect.left() + 1);
rect.moveLeft(0);
rect.moveBottom(rect.bottom() - rect.top() + 1);
rect.moveTop(0);
#endif
return lrcInstance_->getCurrentCallModel()->getDisplay(getScreenNumber(screenId),
rect.x(),
rect.y(),
rect.width()
* screen->devicePixelRatio(),
rect.height()
* screen->devicePixelRatio());
} else if (!windowId.isEmpty()) {
return lrcInstance_->getCurrentCallModel()->getDisplay(windowProcessId, windowId);
}
return "";
}
void
AvAdapter::getListWindows()
{
auto map = lrcInstance_->avModel().getListWindows();
set_windowsNames(map.keys());
set_windowsIds(map.values());
}
void
AvAdapter::stopSharing(const QString& source)
{
auto callId = lrcInstance_->getCurrentCallId();
if (!source.isEmpty() && !callId.isEmpty()) {
if (source.startsWith(libjami::Media::VideoProtocolPrefix::DISPLAY)) {
qDebug() << "Stopping display: " << source;
lrcInstance_->getCurrentCallModel()
->removeMedia(callId,
libjami::Media::Details::MEDIA_TYPE_VIDEO,
libjami::Media::VideoProtocolPrefix::DISPLAY,
muteCamera_,
true);
} else {
qDebug() << "Stopping file: " << source;
lrcInstance_->getCurrentCallModel()
->removeMedia(callId,
libjami::Media::Details::MEDIA_TYPE_VIDEO,
libjami::Media::VideoProtocolPrefix::FILE,
muteCamera_,
true);
}
}
}
void
AvAdapter::startAudioMeter()
{
lrcInstance_->startAudioMeter();
}
void
AvAdapter::stopAudioMeter()
{
lrcInstance_->stopAudioMeter();
}
void
AvAdapter::onAudioDeviceEvent(){
auto& avModel = lrcInstance_->avModel();
auto inputs = avModel.getAudioInputDevices().size();
auto outputs = avModel.getAudioOutputDevices().size();
Q_EMIT audioDeviceListChanged(inputs, outputs);
}
void
AvAdapter::onRendererStarted(const QString& id, const QSize& size)
{
Q_UNUSED(size)
auto callId = lrcInstance_->getCurrentCallId();
if (callId.isEmpty()) {
return;
}
// update renderer Information list
auto& avModel = lrcInstance_->avModel();
auto rendererInfoList = avModel.getRenderersInfo(id);
if (rendererInfoList.isEmpty())
return;
auto rendererInfo = rendererInfoList.first();
rendererInformationListModel_->addElement(qMakePair(id, rendererInfo));
}
void
AvAdapter::onRendererStopped(const QString& id)
{
rendererInformationListModel_->removeElement(id);
}
bool
AvAdapter::isSharing() const
{
try {
auto callId = lrcInstance_->getCurrentCallId();
auto callModel = lrcInstance_->getCurrentCallModel();
auto call = callModel->getCall(callId);
// TODO enum
return call.hasMediaWithType(libjami::Media::VideoProtocolPrefix::DISPLAY,
libjami::Media::Details::MEDIA_TYPE_VIDEO)
|| call.hasMediaWithType("file:", libjami::Media::Details::MEDIA_TYPE_VIDEO);
} catch (...) {
}
return false;
}
bool
AvAdapter::isCapturing() const
{
try {
auto callId = lrcInstance_->getCurrentCallId();
auto callModel = lrcInstance_->getCurrentCallModel();
auto call = callModel->getCall(callId);
for (const auto& m : call.mediaList) {
if (m[libjami::Media::MediaAttributeKey::SOURCE].startsWith(
libjami::Media::VideoProtocolPrefix::CAMERA)
&& m[libjami::Media::MediaAttributeKey::MEDIA_TYPE]
== libjami::Media::Details::MEDIA_TYPE_VIDEO)
return m[libjami::Media::MediaAttributeKey::MUTED] == FALSE_STR;
}
return false;
} catch (...) {
}
return false;
}
bool
AvAdapter::hasCamera() const
{ try {
auto callId = lrcInstance_->getCurrentCallId();
auto callModel = lrcInstance_->getCurrentCallModel();
auto call = callModel->getCall(callId);
// TODO enum
for (const auto& m : call.mediaList) {
if (m[libjami::Media::MediaAttributeKey::SOURCE].startsWith(
libjami::Media::VideoProtocolPrefix::CAMERA)
&& m[libjami::Media::MediaAttributeKey::MEDIA_TYPE]
== libjami::Media::Details::MEDIA_TYPE_VIDEO)
return true;
}
return false;
} catch (...) {
}
return false;
}
int
AvAdapter::getScreenNumber(int screenId) const
{
int display = 0;
#ifdef Q_OS_LINUX
// Get display
QString display_env {getenv("DISPLAY")};
if (!display_env.isEmpty()) {
auto list = display_env.split(':', Qt::SkipEmptyParts);
// Should only be one display, so get the first one
if (list.size() > 0) {
display = list.at(0).toInt();
}
}
#else
#ifdef WIN32
display = screenId;
#endif
#endif
return display;
}
void
AvAdapter::setDeviceName(const QString& deviceName)
{
lrcInstance_->getCurrentAccountInfo().deviceModel->setCurrentDeviceName(deviceName);
}
void
AvAdapter::enableCodec(unsigned int id, bool isToEnable)
{
lrcInstance_->getCurrentAccountInfo().codecModel->enable(id, isToEnable);
}
void
AvAdapter::increaseCodecPriority(unsigned int id, bool isVideo)
{
lrcInstance_->getCurrentAccountInfo().codecModel->increasePriority(id, isVideo);
}
void
AvAdapter::decreaseCodecPriority(unsigned int id, bool isVideo)
{
lrcInstance_->getCurrentAccountInfo().codecModel->decreasePriority(id, isVideo);
}
bool
AvAdapter::getHardwareAcceleration()
{
return lrcInstance_->avModel().getHardwareAcceleration();
}
void
AvAdapter::setHardwareAcceleration(bool accelerate)
{
lrcInstance_->avModel().setHardwareAcceleration(accelerate);
}
void
AvAdapter::resetRendererInfo()
{
rendererInformationListModel_->reset();
}
void
AvAdapter::setRendererInfo()
{
auto& avModel = lrcInstance_->avModel();
for (auto rendererInfo : avModel.getRenderersInfo()) {
rendererInformationListModel_->addElement(
qMakePair(rendererInfo["RENDERER_ID"], rendererInfo));
}
}
void
AvAdapter::updateRenderersFPSInfo(QPair<QString, QString> fpsInfo)
{
rendererInformationListModel_->updateFps(fpsInfo.first, fpsInfo.second);
}