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#include "UASParameterCommsMgr.h"
#include "QGCUASParamManager.h"
#include "UASInterface.h"
UASParameterCommsMgr::UASParameterCommsMgr(QObject *parent, UASInterface *uas) :
QObject(parent),
mav(uas),
transmissionListMode(false),
transmissionActive(false),
transmissionTimeout(0),
retransmissionTimeout(350),
rewriteTimeout(500),
retransmissionBurstRequestSize(5)
loadParamCommsSettings();
//Requesting parameters one-by-one from mav
connect(this, SIGNAL(parameterUpdateRequestedById(int,int)),
mav, SLOT(requestParameter(int,int)));
// Sending params to the UAS
connect(this, SIGNAL(parameterChanged(int,QString,QVariant)),
mav, SLOT(setParameter(int,QString,QVariant)));
// New parameters from UAS
connect(mav, SIGNAL(parameterChanged(int,int,int,int,QString,QVariant)),
this, SLOT(receivedParameterUpdate(int,int,int,int,QString,QVariant)));
connect(&retransmissionTimer, SIGNAL(timeout()),
this, SLOT(retransmissionGuardTick()));
void UASParameterCommsMgr::loadParamCommsSettings()
{
QSettings settings;
settings.beginGroup("QGC_MAVLINK_PROTOCOL");
int val = settings.value("PARAMETER_RETRANSMISSION_TIMEOUT", retransmissionTimeout).toInt(&ok);
}
val = settings.value("PARAMETER_REWRITE_TIMEOUT", rewriteTimeout).toInt(&ok);
/**
* Send a request to deliver the list of onboard parameters
* from the MAV.
*/
void UASParameterCommsMgr::requestParameterList()
{
if (!mav) {
return;
}
//TODO check: no need to cause datamodel to forget params here?
// paramDataModel->forgetAllOnboardParameters();
if (!transmissionListMode) {
// Clear transmission state
receivedParamsList.clear();
transmissionListSizeKnown.clear();
transmissionListMode = true;
foreach (int key, transmissionMissingPackets.keys()) {
transmissionMissingPackets.value(key)->clear();
}
transmissionActive = true;
setParameterStatusMsg(tr("Requested param list.. waiting"));
mav->requestParameters();
}
else {
qDebug() << __FILE__ << __LINE__ << "Ignoring requestParameterList because we're receiving params list";
}
}
void UASParameterCommsMgr::retransmissionGuardTick()
{
if (transmissionActive) {
qDebug() << __FILE__ << __LINE__ << "RETRANSMISSION GUARD ACTIVE, CHECKING FOR DROPS..";
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// Check for timeout
// stop retransmission attempts on timeout
if (QGC::groundTimeMilliseconds() > transmissionTimeout) {
setRetransmissionGuardEnabled(false);
transmissionActive = false;
// Empty read retransmission list
// Empty write retransmission list
int missingReadCount = 0;
QList<int> readKeys = transmissionMissingPackets.keys();
foreach (int component, readKeys) {
missingReadCount += transmissionMissingPackets.value(component)->count();
transmissionMissingPackets.value(component)->clear();
}
// Empty write retransmission list
int missingWriteCount = 0;
QList<int> writeKeys = transmissionMissingWriteAckPackets.keys();
foreach (int component, writeKeys) {
missingWriteCount += transmissionMissingWriteAckPackets.value(component)->count();
transmissionMissingWriteAckPackets.value(component)->clear();
}
setParameterStatusMsg(tr("TIMEOUT! MISSING: %1 read, %2 write.").arg(missingReadCount).arg(missingWriteCount));
}
// Re-request at maximum retransmissionBurstRequestSize parameters at once
// to prevent link flooding
QMap<int, QMap<QString, QVariant>*>::iterator i;
QMap<int, QMap<QString, QVariant>*> onboardParams = paramDataModel->getOnboardParameters();
for (i = onboardParams.begin(); i != onboardParams.end(); ++i) {
// Iterate through the parameters of the component
int component = i.key();
// Request n parameters from this component (at maximum)
QList<int> * paramList = transmissionMissingPackets.value(component, NULL);
if (paramList) {
int count = 0;
foreach (int id, *paramList) {
if (count < retransmissionBurstRequestSize) {
//qDebug() << __FILE__ << __LINE__ << "RETRANSMISSION GUARD REQUESTS RETRANSMISSION OF PARAM #" << id << "FROM COMPONENT #" << component;
//TODO mavlink msg type for "request parameter set" ?
emit parameterUpdateRequestedById(component, id);
setParameterStatusMsg(tr("Requested retransmission of #%1").arg(id+1));
count++;
} else {
break;
}
}
}
}
// Re-request at maximum retransmissionBurstRequestSize parameters at once
// to prevent write-request link flooding
// Empty write retransmission list
QList<int> writeKeys = transmissionMissingWriteAckPackets.keys();
foreach (int component, writeKeys) {
int count = 0;
QMap <QString, QVariant>* missingParams = transmissionMissingWriteAckPackets.value(component);
foreach (QString key, missingParams->keys()) {
if (count < retransmissionBurstRequestSize) {
// Re-request write operation
QVariant value = missingParams->value(key);
switch ((int)onboardParams.value(component)->value(key).type())
{
case QVariant::Int:
{
QVariant fixedValue(value.toInt());
emit parameterChanged(component, key, fixedValue);
}
break;
case QVariant::UInt:
{
QVariant fixedValue(value.toUInt());
emit parameterChanged(component, key, fixedValue);
}
break;
case QMetaType::Float:
{
QVariant fixedValue(value.toFloat());
emit parameterChanged(component, key, fixedValue);
}
break;
default:
//qCritical() << "ABORTED PARAM RETRANSMISSION, NO VALID QVARIANT TYPE";
return;
}
setParameterStatusMsg(tr("Requested rewrite of: %1: %2").arg(key).arg(missingParams->value(key).toDouble()));
count++;
} else {
break;
}
}
}
} else {
qDebug() << __FILE__ << __LINE__ << "STOPPING RETRANSMISSION GUARD GRACEFULLY";
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setRetransmissionGuardEnabled(false);
}
}
/**
* Enabling the retransmission guard enables the parameter widget to track
* dropped parameters and to re-request them. This works for both individual
* parameter reads as well for whole list requests.
*
* @param enabled True if retransmission checking should be enabled, false else
*/
void UASParameterCommsMgr::setRetransmissionGuardEnabled(bool enabled)
{
// qDebug() << "setRetransmissionGuardEnabled: " << enabled;
if (enabled) {
retransmissionTimer.start(retransmissionTimeout);
} else {
retransmissionTimer.stop();
}
}
void UASParameterCommsMgr::requestParameterUpdate(int component, const QString& parameter)
{
if (mav) {
mav->requestParameter(component, parameter);
}
}
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void UASParameterCommsMgr::requestRcCalibrationParamsUpdate()
{
if (!transmissionListMode) {
QString minTpl("RC%1_MIN");
QString maxTpl("RC%1_MAX");
QString trimTpl("RC%1_TRIM");
QString revTpl("RC%1_REV");
// Do not request the RC type, as these values depend on this
// active onboard parameter
for (unsigned int i = 1; i < (RC_CAL_CHAN_MAX+1); ++i) {
qDebug() << "Request RC " << i;
mav->requestParameter(0, minTpl.arg(i));
QGC::SLEEP::usleep(5000);
mav->requestParameter(0, trimTpl.arg(i));
QGC::SLEEP::usleep(5000);
mav->requestParameter(0, maxTpl.arg(i));
QGC::SLEEP::usleep(5000);
mav->requestParameter(0, revTpl.arg(i));
QGC::SLEEP::usleep(5000);
}
}
else {
qDebug() << __FILE__ << __LINE__ << "Ignoring requestRcCalibrationParamsUpdate because we're receiving params list";
}
}
/**
* @param component the subsystem which has the parameter
* @param parameterName name of the parameter, as delivered by the system
* @param value value of the parameter
*/
void UASParameterCommsMgr::setParameter(int component, QString parameterName, QVariant value)
{
if (parameterName.isEmpty()) {
return;
}
double dblValue = value.toDouble();
if (paramDataModel->isValueLessThanParamMin(parameterName,dblValue)) {
setParameterStatusMsg(tr("REJ. %1, %2 < min").arg(parameterName).arg(dblValue),
ParamCommsStatusLevel_Error
);
return;
}
if (paramDataModel->isValueGreaterThanParamMax(parameterName,dblValue)) {
setParameterStatusMsg(tr("REJ. %1, %2 > max").arg(parameterName).arg(dblValue),
ParamCommsStatusLevel_Error
);
return;
}
QVariant onboardVal;
paramDataModel->getOnboardParameterValue(component,parameterName,onboardVal);
if (onboardVal == value) {
setParameterStatusMsg(tr("REJ. %1 already %2").arg(parameterName).arg(dblValue),
ParamCommsStatusLevel_Warning
);
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return;
}
//int paramType = (int)onboardParameters.value(component)->value(parameterName).type();
int paramType = (int)value.type();
switch (paramType)
{
case QVariant::Char:
{
QVariant fixedValue(QChar((unsigned char)value.toInt()));
emit parameterChanged(component, parameterName, fixedValue);
}
break;
case QVariant::Int:
{
QVariant fixedValue(value.toInt());
emit parameterChanged(component, parameterName, fixedValue);
}
break;
case QVariant::UInt:
{
QVariant fixedValue(value.toUInt());
emit parameterChanged(component, parameterName, fixedValue);
}
break;
case QMetaType::Float:
{
QVariant fixedValue(value.toFloat());
emit parameterChanged(component, parameterName, fixedValue);
}
break;
default:
qCritical() << "ABORTED PARAM SEND, NO VALID QVARIANT TYPE";
return;
}
// Wait for parameter to be written back
// mark it therefore as missing
if (!transmissionMissingWriteAckPackets.contains(component))
{
transmissionMissingWriteAckPackets.insert(component, new QMap<QString, QVariant>());
}
// Insert it in missing write ACK list
transmissionMissingWriteAckPackets.value(component)->insert(parameterName, value);
// Set timeouts
if (transmissionActive)
{
transmissionTimeout += rewriteTimeout;
}
else
{
quint64 newTransmissionTimeout = QGC::groundTimeMilliseconds() + rewriteTimeout;
if (newTransmissionTimeout > transmissionTimeout)
{
transmissionTimeout = newTransmissionTimeout;
}
transmissionActive = true;
}
// Enable guard / reset timeouts
setRetransmissionGuardEnabled(true);
}
void UASParameterCommsMgr::setParameterStatusMsg(const QString& msg, ParamCommsStatusLevel_t level)
{
qDebug() << "parameterStatusMsg: " << msg;
parameterStatusMsg = msg;
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/**
* @param uas System which has the component
* @param component id of the component
* @param parameterName human friendly name of the parameter
*/
void UASParameterCommsMgr::receivedParameterUpdate(int uas, int compId, int paramCount, int paramId, QString paramName, QVariant value)
{
// Missing packets list has to be instantiated for all components
if (!transmissionMissingPackets.contains(compId)) {
transmissionMissingPackets.insert(compId, new QList<int>());
}
// List mode is different from single parameter transfers
if (transmissionListMode) {
// Only accept the list size once on the first packet from
// each component
if (!transmissionListSizeKnown.contains(compId)) {
// Mark list size as known
transmissionListSizeKnown.insert(compId, true);
// Mark all parameters as missing
for (int i = 0; i < paramCount; ++i) {
if (!transmissionMissingPackets.value(compId)->contains(i)) {
transmissionMissingPackets.value(compId)->append(i);
}
}
// There is only one transmission timeout for all components
// since components do not manage their transmission,
// the longest timeout is safe for all components.
quint64 thisTransmissionTimeout = QGC::groundTimeMilliseconds() + ((paramCount)*retransmissionTimeout);
if (thisTransmissionTimeout > transmissionTimeout) {
transmissionTimeout = thisTransmissionTimeout;
}
}
// Start retransmission guard
// or reset timer
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}
// Mark this parameter as received in read list
int index = transmissionMissingPackets.value(compId)->indexOf(paramId);
// If the MAV sent the parameter without request, it wont be in missing list
if (index != -1) {
transmissionMissingPackets.value(compId)->removeAt(index);
}
bool justWritten = false;
bool writeMismatch = false;
//bool lastWritten = false;
// Mark this parameter as received in write ACK list
QMap<QString, QVariant>* map = transmissionMissingWriteAckPackets.value(compId);
if (map && map->contains(paramName)) {
justWritten = true;
QVariant newval = map->value(paramName);
if (map->value(paramName) != value) {
writeMismatch = true;
}
map->remove(paramName);
}
int missCount = 0;
foreach (int key, transmissionMissingPackets.keys()) {
missCount += transmissionMissingPackets.value(key)->count();
}
int missWriteCount = 0;
foreach (int key, transmissionMissingWriteAckPackets.keys()) {
missWriteCount += transmissionMissingWriteAckPackets.value(key)->count();
}
//TODO simplify this if-else tree
if (justWritten && !writeMismatch && missWriteCount == 0) {
// Just wrote one and count went to 0 - this was the last missing write parameter
setParameterStatusMsg(tr("SUCCESS: WROTE ALL PARAMETERS"));
}
else if (justWritten && !writeMismatch) {
setParameterStatusMsg(tr("SUCCESS: Wrote %2 (#%1/%4): %3").arg(paramId+1).arg(paramName).arg(value.toDouble()).arg(paramCount));
}
else if (justWritten && writeMismatch) {
// Mismatch, tell user
setParameterStatusMsg(tr("FAILURE: Wrote %1: sent %2 != onboard %3").arg(paramName).arg(map->value(paramName).toDouble()).arg(value.toDouble()),
ParamCommsStatusLevel_Warning);
}
else {
QString val = QString("%1").arg(value.toFloat(), 5, 'f', 1, QChar(' '));
if (missCount == 0) {
// Transmission done
QTime time = QTime::currentTime();
QString timeString = time.toString();
setParameterStatusMsg(tr("All received. (updated at %1)").arg(timeString));
}
else {
// Transmission in progress
setParameterStatusMsg(tr("OK: %1 %2 (%3/%4)").arg(paramName).arg(val).arg(paramCount-missCount).arg(paramCount),
ParamCommsStatusLevel_Warning);
}
}
// Check if last parameter was received
if (missCount == 0 && missWriteCount == 0) {
this->transmissionActive = false;
this->transmissionListMode = false;
transmissionListSizeKnown.clear();
foreach (int key, transmissionMissingPackets.keys()) {
transmissionMissingPackets.value(key)->clear();
}
//all parameters have been received, broadcast to UI
emit parameterListUpToDate();
//TODO in UI
// Expand visual tree
//tree->expandItem(tree->topLevelItem(0));
}
}
void UASParameterCommsMgr::writeParamsToPersistentStorage()
{
if (mav) {
mav->writeParametersToStorage(); //TODO track timeout, retransmit etc?
}
}
void UASParameterCommsMgr::sendPendingParameters()
{
// Iterate through all components, through all pending parameters and send them to UAS
int parametersSent = 0;
QMap<int, QMap<QString, QVariant>*> changedValues = paramDataModel->getPendingParameters();
QMap<int, QMap<QString, QVariant>*>::iterator i;
for (i = changedValues.begin(); i != changedValues.end(); ++i) {
// Iterate through the parameters of the component
int compid = i.key();
QMap<QString, QVariant>* comp = i.value();
{
QMap<QString, QVariant>::iterator j;
for (j = comp->begin(); j != comp->end(); ++j) {
//TODO mavlink command for "set parameter list" ?
setParameter(compid, j.key(), j.value());
parametersSent++;
}
}
}
// Change transmission status if necessary
if (parametersSent == 0) {
setParameterStatusMsg(tr("No transmission: No changed values."),ParamCommsStatusLevel_Warning);
} else {
setParameterStatusMsg(tr("Transmitting %1 parameters.").arg(parametersSent));
// Set timeouts
if (transmissionActive) {
transmissionTimeout += parametersSent*rewriteTimeout;
}
else {
transmissionActive = true;
quint64 newTransmissionTimeout = QGC::groundTimeMilliseconds() + parametersSent*rewriteTimeout;
if (newTransmissionTimeout > transmissionTimeout) {
transmissionTimeout = newTransmissionTimeout;
}
}
// Enable guard
setRetransmissionGuardEnabled(true);
}
}
UASParameterCommsMgr::~UASParameterCommsMgr()
{
setRetransmissionGuardEnabled(false);
}