Fix crash on startup X server is not available (#895)

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Murat Seker 2020-07-23 16:50:37 +02:00 committed by GitHub
parent 6f5f28cd56
commit e52fd7b557
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7 changed files with 113 additions and 77 deletions

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@ -76,6 +76,7 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
- Decrease compile time (#886) - Decrease compile time (#886)
- Fix some data synchronization error (#890) - Fix some data synchronization error (#890)
- Fix Qt screenhot crash (#889) - Fix Qt screenhot crash (#889)
- Fix crash on startup if no X server available (#892)
- Fix RPC restart of Hyperion (#894) - Fix RPC restart of Hyperion (#894)
### Removed ### Removed

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@ -32,6 +32,7 @@ public slots:
void setCecDetectionEnable(bool enable); void setCecDetectionEnable(bool enable);
void setDeviceVideoStandard(QString device, VideoStandard videoStandard); void setDeviceVideoStandard(QString device, VideoStandard videoStandard);
void handleCecEvent(CECEvent event); void handleCecEvent(CECEvent event);
void handleSettingsUpdate(const settings::type& type, const QJsonDocument& config) override;
private slots: private slots:
void newFrame(const Image<ColorRgb> & image); void newFrame(const Image<ColorRgb> & image);

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@ -51,6 +51,11 @@ public:
/// ///
virtual void stop(); virtual void stop();
///
/// Check if grabber is active
///
virtual bool isActive() const;
/// ///
/// @brief Get a list of all available V4L devices /// @brief Get a list of all available V4L devices
/// @return List of all available V4L devices on success else empty List /// @return List of all available V4L devices on success else empty List
@ -146,6 +151,12 @@ private slots:
/// Will start and stop grabber based on active listeners count /// Will start and stop grabber based on active listeners count
void handleSourceRequest(const hyperion::Components& component, const int hyperionInd, const bool listen); void handleSourceRequest(const hyperion::Components& component, const int hyperionInd, const bool listen);
///
/// @brief Update Update capture rate
/// @param type interval between frames in millisecons
///
void updateTimer(int interval);
protected: protected:
QString _grabberName; QString _grabberName;

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@ -109,3 +109,48 @@ void V4L2Wrapper::handleCecEvent(CECEvent event)
{ {
_grabber.handleCecEvent(event); _grabber.handleCecEvent(event);
} }
void V4L2Wrapper::handleSettingsUpdate(const settings::type& type, const QJsonDocument& config)
{
if(type == settings::V4L2 && _grabberName.startsWith("V4L"))
{
// extract settings
const QJsonObject& obj = config.object();
// pixel decimation for v4l
_grabber.setPixelDecimation(obj["sizeDecimation"].toInt(8));
// crop for v4l
_grabber.setCropping(
obj["cropLeft"].toInt(0),
obj["cropRight"].toInt(0),
obj["cropTop"].toInt(0),
obj["cropBottom"].toInt(0));
// device input
_grabber.setInput(obj["input"].toInt(-1));
// device resolution
_grabber.setWidthHeight(obj["width"].toInt(0), obj["height"].toInt(0));
// device framerate
_grabber.setFramerate(obj["fps"].toInt(15));
// CEC Standby
_grabber.setCecDetectionEnable(obj["cecDetection"].toBool(true));
_grabber.setSignalDetectionEnable(obj["signalDetection"].toBool(true));
_grabber.setSignalDetectionOffset(
obj["sDHOffsetMin"].toDouble(0.25),
obj["sDVOffsetMin"].toDouble(0.25),
obj["sDHOffsetMax"].toDouble(0.75),
obj["sDVOffsetMax"].toDouble(0.75));
_grabber.setSignalThreshold(
obj["redSignalThreshold"].toDouble(0.0)/100.0,
obj["greenSignalThreshold"].toDouble(0.0)/100.0,
obj["blueSignalThreshold"].toDouble(0.0)/100.0);
_grabber.setDeviceVideoStandard(
obj["device"].toString("auto"),
parseVideoStandard(obj["standard"].toString("no-change")));
}
}

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@ -25,8 +25,11 @@ void X11Wrapper::action()
} }
} }
if (_grabber.updateScreenDimensions() >= 0 ) if (isActive())
{ {
transferFrame(_grabber); if (_grabber.updateScreenDimensions() >= 0 )
{
transferFrame(_grabber);
}
} }
} }

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@ -61,6 +61,11 @@ void GrabberWrapper::stop()
} }
} }
bool GrabberWrapper::isActive() const
{
return _timer->isActive();
}
QStringList GrabberWrapper::availableGrabbers() QStringList GrabberWrapper::availableGrabbers()
{ {
QStringList grabbers; QStringList grabbers;
@ -110,85 +115,49 @@ void GrabberWrapper::setCropping(unsigned cropLeft, unsigned cropRight, unsigned
_ggrabber->setCropping(cropLeft, cropRight, cropTop, cropBottom); _ggrabber->setCropping(cropLeft, cropRight, cropTop, cropBottom);
} }
void GrabberWrapper::updateTimer(int interval)
{
if(_updateInterval_ms != interval)
{
_updateInterval_ms = interval;
const bool& timerWasActive = _timer->isActive();
_timer->stop();
_timer->setInterval(_updateInterval_ms);
if(timerWasActive)
_timer->start();
}
}
void GrabberWrapper::handleSettingsUpdate(const settings::type& type, const QJsonDocument& config) void GrabberWrapper::handleSettingsUpdate(const settings::type& type, const QJsonDocument& config)
{ {
if(type == settings::V4L2 || type == settings::SYSTEMCAPTURE) if(type == settings::SYSTEMCAPTURE && !_grabberName.startsWith("V4L"))
{ {
// extract settings // extract settings
const QJsonObject& obj = config.object(); const QJsonObject& obj = config.object();
if(type == settings::SYSTEMCAPTURE && !_grabberName.startsWith("V4L")) // width/height
{ _ggrabber->setWidthHeight(obj["width"].toInt(96), obj["height"].toInt(96));
// width/height
_ggrabber->setWidthHeight(obj["width"].toInt(96), obj["height"].toInt(96));
// display index for MAC // display index for MAC
_ggrabber->setDisplayIndex(obj["display"].toInt(0)); _ggrabber->setDisplayIndex(obj["display"].toInt(0));
// device path for Framebuffer // device path for Framebuffer
_ggrabber->setDevicePath(obj["device"].toString("/dev/fb0")); _ggrabber->setDevicePath(obj["device"].toString("/dev/fb0"));
// pixel decimation for x11 // pixel decimation for x11
_ggrabber->setPixelDecimation(obj["pixelDecimation"].toInt(8)); _ggrabber->setPixelDecimation(obj["pixelDecimation"].toInt(8));
// crop for system capture // crop for system capture
_ggrabber->setCropping( _ggrabber->setCropping(
obj["cropLeft"].toInt(0), obj["cropLeft"].toInt(0),
obj["cropRight"].toInt(0), obj["cropRight"].toInt(0),
obj["cropTop"].toInt(0), obj["cropTop"].toInt(0),
obj["cropBottom"].toInt(0)); obj["cropBottom"].toInt(0));
// eval new update timer (not for v4l) // eval new update time
if(_updateInterval_ms != 1000/obj["frequency_Hz"].toInt(10)) updateTimer(1000/obj["frequency_Hz"].toInt(10));
{
_updateInterval_ms = 1000/obj["frequency_Hz"].toInt(10);
const bool& timerWasActive = _timer->isActive();
_timer->stop();
_timer->setInterval(_updateInterval_ms);
if(timerWasActive)
_timer->start();
}
}
// v4l instances only!
if(type == settings::V4L2 && _grabberName.startsWith("V4L"))
{
// pixel decimation for v4l
_ggrabber->setPixelDecimation(obj["sizeDecimation"].toInt(8));
// crop for v4l
_ggrabber->setCropping(
obj["cropLeft"].toInt(0),
obj["cropRight"].toInt(0),
obj["cropTop"].toInt(0),
obj["cropBottom"].toInt(0));
// device input
_ggrabber->setInput(obj["input"].toInt(-1));
// device resolution
_ggrabber->setWidthHeight(obj["width"].toInt(0), obj["height"].toInt(0));
// device framerate
_ggrabber->setFramerate(obj["fps"].toInt(15));
// CEC Standby
_ggrabber->setCecDetectionEnable(obj["cecDetection"].toBool(true));
_ggrabber->setSignalDetectionEnable(obj["signalDetection"].toBool(true));
_ggrabber->setSignalDetectionOffset(
obj["sDHOffsetMin"].toDouble(0.25),
obj["sDVOffsetMin"].toDouble(0.25),
obj["sDHOffsetMax"].toDouble(0.75),
obj["sDVOffsetMax"].toDouble(0.75));
_ggrabber->setSignalThreshold(
obj["redSignalThreshold"].toDouble(0.0)/100.0,
obj["greenSignalThreshold"].toDouble(0.0)/100.0,
obj["blueSignalThreshold"].toDouble(0.0)/100.0);
_ggrabber->setDeviceVideoStandard(
obj["device"].toString("auto"),
parseVideoStandard(obj["standard"].toString("no-change")));
}
} }
} }

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@ -128,12 +128,13 @@ Logger::Logger (const QString & name, LogLevel minLevel)
{ {
qRegisterMetaType<Logger::T_LOG_MESSAGE>(); qRegisterMetaType<Logger::T_LOG_MESSAGE>();
int count = LoggerCount.fetchAndAddOrdered(1); if (LoggerCount.fetchAndAddOrdered(1) == 1)
if (_syslogEnabled && count == 1)
{ {
#ifndef _WIN32 #ifndef _WIN32
openlog (_appname.toLocal8Bit(), LOG_CONS | LOG_PID | LOG_NDELAY, LOG_LOCAL0); if (_syslogEnabled)
{
openlog (_appname.toLocal8Bit(), LOG_CONS | LOG_PID | LOG_NDELAY, LOG_LOCAL0);
}
#endif #endif
} }
} }
@ -142,11 +143,16 @@ Logger::~Logger()
{ {
//Debug(this, "logger '%s' destroyed", QSTRING_CSTR(_name) ); //Debug(this, "logger '%s' destroyed", QSTRING_CSTR(_name) );
int count = LoggerCount.fetchAndSubOrdered(1);
if (LoggerCount.fetchAndSubOrdered(1) == 0)
{
#ifndef _WIN32 #ifndef _WIN32
if (_syslogEnabled && count == 0) if (_syslogEnabled)
closelog(); {
closelog();
}
#endif #endif
}
} }
void Logger::write(const Logger::T_LOG_MESSAGE & message) const void Logger::write(const Logger::T_LOG_MESSAGE & message) const