hyperion.ng/libsrc/leddevice/ProviderRs232.cpp
redPanther cab3c2fdc9 add more drawing func to effect engine (#400)
* - add more drawing func to effect engine
- make provider rs232 less noisy
- json checks: remove utf8 conversion temporarly and make it compat with py3 again

* fix compile prob
2017-02-16 07:33:58 +01:00

248 lines
6.5 KiB
C++

// STL includes
#include <cstring>
#include <iostream>
// Qt includes
#include <QTimer>
#include <QDateTime>
#include <QFile>
#include <QSerialPortInfo>
// Local Hyperion includes
#include "ProviderRs232.h"
ProviderRs232::ProviderRs232()
: _rs232Port(this)
, _blockedForDelay(false)
, _stateChanged(true)
, _bytesToWrite(0)
, _bytesWritten(0)
, _frameDropCounter(0)
, _lastError(QSerialPort::NoError)
, _preOpenDelayTimeOut(0)
, _preOpenDelay(2000)
, _enableAutoDeviceName(false)
{
connect(&_rs232Port, SIGNAL(error(QSerialPort::SerialPortError)), this, SLOT(error(QSerialPort::SerialPortError)));
connect(&_rs232Port, SIGNAL(bytesWritten(qint64)), this, SLOT(bytesWritten(qint64)));
connect(&_rs232Port, SIGNAL(readyRead()), this, SLOT(readyRead()));
}
bool ProviderRs232::init(const QJsonObject &deviceConfig)
{
closeDevice();
LedDevice::init(deviceConfig);
_deviceName = deviceConfig["output"].toString("auto");
_enableAutoDeviceName = _deviceName == "auto";
_baudRate_Hz = deviceConfig["rate"].toInt();
_delayAfterConnect_ms = deviceConfig["delayAfterConnect"].toInt(1500);
_preOpenDelay = deviceConfig["delayBeforeConnect"].toInt(1500);
return true;
}
QString ProviderRs232::findSerialDevice()
{
// take first available usb serial port - currently no probing!
for( auto port : QSerialPortInfo::availablePorts())
{
if (port.hasProductIdentifier() && port.hasVendorIdentifier() && !port.isBusy())
{
Info(_log, "found serial device: %s", port.systemLocation().toLocal8Bit().constData());
return port.systemLocation();
break;
}
}
return "";
}
void ProviderRs232::bytesWritten(qint64 bytes)
{
_bytesWritten += bytes;
if (_bytesWritten >= _bytesToWrite)
{
_bytesToWrite = 0;
_blockedForDelay = false;
}
}
void ProviderRs232::readyRead()
{
emit receivedData(_rs232Port.readAll());
//Debug(_log, "received data");
}
void ProviderRs232::error(QSerialPort::SerialPortError error)
{
if ( error != QSerialPort::NoError )
{
if (_lastError != error)
{
_lastError = error;
switch (error)
{
case QSerialPort::DeviceNotFoundError:
Error(_log, "An error occurred while attempting to open an non-existing device."); break;
case QSerialPort::PermissionError:
Error(_log, "An error occurred while attempting to open an already opened device by another process or a user not having enough permission and credentials to open. Device disabled.");
_deviceReady = false;
break;
case QSerialPort::OpenError:
Error(_log, "An error occurred while attempting to open an already opened device in this object."); break;
case QSerialPort::NotOpenError:
Error(_log, "This error occurs when an operation is executed that can only be successfully performed if the device is open."); break;
case QSerialPort::ParityError:
Error(_log, "Parity error detected by the hardware while reading data."); break;
case QSerialPort::FramingError:
Error(_log, "Framing error detected by the hardware while reading data."); break;
case QSerialPort::BreakConditionError:
Error(_log, "Break condition detected by the hardware on the input line."); break;
case QSerialPort::WriteError:
Error(_log, "An I/O error occurred while writing the data."); break;
case QSerialPort::ReadError:
Error(_log, "An I/O error occurred while reading the data."); break;
case QSerialPort::ResourceError:
Error(_log, "An I/O error occurred when a resource becomes unavailable, e.g. when the device is unexpectedly removed from the system."); break;
case QSerialPort::UnsupportedOperationError:
Error(_log, "The requested device operation is not supported or prohibited by the running operating system. Device disabled.");
_deviceReady = false;
break;
case QSerialPort::TimeoutError:
Error(_log, "A timeout error occurred."); break;
default:
Error(_log,"An unidentified error occurred. Device disabled. (%d)", error);
_deviceReady = false;
}
_rs232Port.clearError();
closeDevice();
}
}
}
ProviderRs232::~ProviderRs232()
{
disconnect(&_rs232Port, SIGNAL(error(QSerialPort::SerialPortError)), this, SLOT(error(QSerialPort::SerialPortError)));
closeDevice();
}
void ProviderRs232::closeDevice()
{
if (_rs232Port.isOpen())
{
_rs232Port.close();
Debug(_log,"Close UART: %s", _deviceName.toLocal8Bit().constData());
}
}
int ProviderRs232::open()
{
return tryOpen(_delayAfterConnect_ms) ? 0 : -1;
}
bool ProviderRs232::tryOpen(const int delayAfterConnect_ms)
{
if (_deviceName.isEmpty() || _rs232Port.portName().isEmpty())
{
if ( _enableAutoDeviceName )
{
_deviceName = findSerialDevice();
if ( _deviceName.isEmpty() )
{
return false;
}
}
Info(_log, "Opening UART: %s", _deviceName.toLocal8Bit().constData());
_rs232Port.setPortName(_deviceName);
}
if ( ! _rs232Port.isOpen() )
{
_frameDropCounter = 0;
if (QFile::exists(_deviceName))
{
if ( _preOpenDelayTimeOut > QDateTime::currentMSecsSinceEpoch() )
{
return false;
}
if ( ! _rs232Port.open(QIODevice::ReadWrite) )
{
if ( _stateChanged )
{
Error(_log, "Unable to open RS232 device (%s)", _deviceName.toLocal8Bit().constData());
_stateChanged = false;
}
return false;
}
Debug(_log, "Setting baud rate to %d", _baudRate_Hz);
_rs232Port.setBaudRate(_baudRate_Hz);
_stateChanged = true;
_preOpenDelayTimeOut = 0;
}
else
{
_preOpenDelayTimeOut = QDateTime::currentMSecsSinceEpoch() + _preOpenDelay;
return false;
}
}
if (delayAfterConnect_ms > 0)
{
_blockedForDelay = true;
QTimer::singleShot(delayAfterConnect_ms, this, SLOT(unblockAfterDelay()));
Debug(_log, "Device blocked for %d ms", delayAfterConnect_ms);
}
return _rs232Port.isOpen();
}
int ProviderRs232::writeBytes(const qint64 size, const uint8_t * data)
{
if (! _blockedForDelay)
{
if (!_rs232Port.isOpen())
{
return tryOpen(5000) ? 0 : -1;
}
if (_frameDropCounter > 5)
{
Debug(_log, "%d frames dropped", _frameDropCounter);
}
_frameDropCounter = 0;
_blockedForDelay = true;
_bytesToWrite = size;
qint64 bytesWritten = _rs232Port.write(reinterpret_cast<const char*>(data), size);
if (bytesWritten == -1 || bytesWritten != size)
{
Warning(_log,"failed writing data");
QTimer::singleShot(500, this, SLOT(unblockAfterDelay()));
return -1;
}
QTimer::singleShot(5000, this, SLOT(unblockAfterDelay()));
}
else
{
_frameDropCounter++;
}
return 0;
}
void ProviderRs232::unblockAfterDelay()
{
_blockedForDelay = false;
}
int ProviderRs232::rewriteLeds()
{
return writeBytes(_ledBuffer.size(), _ledBuffer.data());
}