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mirror of https://github.com/f4exb/sdrangel.git synced 2024-11-19 14:51:47 -05:00
sdrangel/sdrbase/device/deviceenumerator.cpp
Jon Beniston 68603fec43 Allow sampling devices to be refreshed while SDRangel is running.
(Possibly need to add a mutex for MainCore::getPluginManager, so only
can be used by one thread)
Add option to automatically update My Position based on GPS. This is
started in MainCore, so we get position as soon as possible.
Don't set QFileDialog::DontUseNativeDialog on Android, as Qt's file
dialog can't access user storage. Set globally for Linux/Windows, rather
than for each dialog.

 MainWindow:
 - Add welcome dialog for Android.
 - Don't show menu bar or status bar on Android to save screen space.
 - On Android, change tab position when screen orientation changes.
 - Load default configurations and presets first time SDRangel is run.
 - Change loadConfiguration to use a QProgressDialog rather than
   QMessageBox, as the latter was crashing on Android.
   - Use DialogPositioner to ensure dialogs are on screen.
2022-12-20 21:06:39 +00:00

608 lines
22 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2016-2019 Edouard Griffiths, F4EXB //
// //
// 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 as 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 V3 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 <QGlobalStatic>
#include "deviceenumerator.h"
Q_GLOBAL_STATIC(DeviceEnumerator, deviceEnumerator)
DeviceEnumerator *DeviceEnumerator::instance()
{
return deviceEnumerator;
}
DeviceEnumerator::DeviceEnumerator()
{}
DeviceEnumerator::~DeviceEnumerator()
{}
void DeviceEnumerator::addNonDiscoverableDevices(PluginManager *pluginManager, const DeviceUserArgs& deviceUserArgs)
{
qDebug("DeviceEnumerator::addNonDiscoverableDevices: start");
const QList<DeviceUserArgs::Args>& args = deviceUserArgs.getArgsByDevice();
QList<DeviceUserArgs::Args>::const_iterator argsIt = args.begin();
unsigned int rxIndex = m_rxEnumeration.size();
unsigned int txIndex = m_txEnumeration.size();
unsigned int mimoIndex = m_mimoEnumeration.size();
for (; argsIt != args.end(); ++argsIt)
{
if (!argsIt->m_nonDiscoverable) { // this process is for non discoverable devices only
continue;
}
// qDebug("DeviceEnumerator::addNonDiscoverableDevices: device: %s[%d]", qPrintable(argsIt->m_id), argsIt->m_sequence);
QString serial = QString("%1-%2").arg(argsIt->m_id).arg(argsIt->m_sequence);
PluginInterface *rxPlugin = getRxRegisteredPlugin(pluginManager, argsIt->m_id);
if (rxPlugin && !isRxEnumerated(argsIt->m_id, argsIt->m_sequence))
{
int deviceNbItems = rxPlugin->getDefaultRxNbItems();
QString deviceId = rxPlugin->getDeviceTypeId();
for (int deviceIndex = 0; deviceIndex < deviceNbItems; deviceIndex++)
{
QString description = QString("%1[%2:%3] user defined").arg(argsIt->m_id).arg(argsIt->m_sequence).arg(deviceIndex);
qDebug("DeviceEnumerator::addNonDiscoverableDevices: Rx: %s", qPrintable(description));
PluginInterface::SamplingDevice ndDevice(
description,
argsIt->m_id,
deviceId, // id
serial,
argsIt->m_sequence,
rxPlugin->getSamplingDeviceType(),
PluginInterface::SamplingDevice::StreamSingleRx,
deviceNbItems, // deviceNbItems
deviceIndex // deviceItemIndex
);
m_rxEnumeration.push_back(
DeviceEnumeration(
ndDevice,
rxPlugin,
rxIndex
)
);
rxIndex++;
}
}
PluginInterface *txPlugin = getTxRegisteredPlugin(pluginManager, argsIt->m_id);
if (txPlugin && !isTxEnumerated(argsIt->m_id, argsIt->m_sequence))
{
int deviceNbItems = txPlugin->getDefaultTxNbItems();
QString deviceId = txPlugin->getDeviceTypeId();
for (int deviceIndex = 0; deviceIndex < deviceNbItems; deviceIndex++)
{
QString description = QString("%1[%2:%3] user defined").arg(argsIt->m_id).arg(argsIt->m_sequence).arg(deviceIndex);
qDebug("DeviceEnumerator::addNonDiscoverableDevices: Tx: %s", qPrintable(description));
PluginInterface::SamplingDevice ndDevice(
description,
argsIt->m_id,
deviceId, // id
serial,
argsIt->m_sequence,
txPlugin->getSamplingDeviceType(),
PluginInterface::SamplingDevice::StreamSingleTx,
deviceNbItems, // deviceNbItems
deviceIndex // deviceItemIndex
);
m_txEnumeration.push_back(
DeviceEnumeration(
ndDevice,
txPlugin,
txIndex
)
);
txIndex++;
}
}
PluginInterface *mimoPlugin = getMIMORegisteredPlugin(pluginManager, argsIt->m_id);
if (mimoPlugin && !isMIMOEnumerated(argsIt->m_id, argsIt->m_sequence))
{
int deviceNbItems = mimoPlugin->getDefaultMIMONbItems();
QString deviceId = mimoPlugin->getDeviceTypeId();
for (int deviceIndex = 0; deviceIndex < deviceNbItems; deviceIndex++)
{
QString description = QString("%1[%2:%3] user defined").arg(argsIt->m_id).arg(argsIt->m_sequence).arg(deviceIndex);
qDebug("DeviceEnumerator::addNonDiscoverableDevices: MIMO: %s", qPrintable(description));
PluginInterface::SamplingDevice ndDevice(
description,
argsIt->m_id,
deviceId, // id
serial,
argsIt->m_sequence,
mimoPlugin->getSamplingDeviceType(),
PluginInterface::SamplingDevice::StreamMIMO,
deviceNbItems, // deviceNbItems
deviceIndex // deviceItemIndex
);
m_mimoEnumeration.push_back(
DeviceEnumeration(
ndDevice,
mimoPlugin,
mimoIndex
)
);
mimoIndex++;
}
}
} // loop through user args
}
PluginInterface *DeviceEnumerator::getRxRegisteredPlugin(PluginManager *pluginManager, const QString& deviceHwId)
{
PluginAPI::SamplingDeviceRegistrations& rxDeviceRegistrations = pluginManager->getSourceDeviceRegistrations();
PluginInterface *rxPlugin = nullptr;
for (int i = 0; i < rxDeviceRegistrations.count(); i++)
{
if (deviceHwId == rxDeviceRegistrations[i].m_deviceHardwareId)
{
rxPlugin = rxDeviceRegistrations[i].m_plugin;
break;
}
}
return rxPlugin;
}
bool DeviceEnumerator::isRxEnumerated(const QString& deviceHwId, int deviceSequence)
{
std::vector<DeviceEnumeration>::const_iterator rxIt = m_rxEnumeration.begin();
for (; rxIt != m_rxEnumeration.end(); ++rxIt)
{
if ((rxIt->m_samplingDevice.hardwareId == deviceHwId) && (rxIt->m_samplingDevice.sequence == deviceSequence)) {
return true;
}
}
return false;
}
PluginInterface *DeviceEnumerator::getTxRegisteredPlugin(PluginManager *pluginManager, const QString& deviceHwId)
{
PluginAPI::SamplingDeviceRegistrations& txDeviceRegistrations = pluginManager->getSinkDeviceRegistrations();
PluginInterface *txPlugin = nullptr;
for (int i = 0; i < txDeviceRegistrations.count(); i++)
{
if (deviceHwId == txDeviceRegistrations[i].m_deviceHardwareId)
{
txPlugin = txDeviceRegistrations[i].m_plugin;
break;
}
}
return txPlugin;
}
bool DeviceEnumerator::isTxEnumerated(const QString& deviceHwId, int deviceSequence)
{
std::vector<DeviceEnumeration>::const_iterator txIt = m_txEnumeration.begin();
for (; txIt != m_txEnumeration.end(); ++txIt)
{
if ((txIt->m_samplingDevice.hardwareId == deviceHwId) && (txIt->m_samplingDevice.sequence == deviceSequence)) {
return true;
}
}
return false;
}
PluginInterface *DeviceEnumerator::getMIMORegisteredPlugin(PluginManager *pluginManager, const QString& deviceHwId)
{
PluginAPI::SamplingDeviceRegistrations& mimoDeviceRegistrations = pluginManager->getMIMODeviceRegistrations();
PluginInterface *mimoPlugin = nullptr;
for (int i = 0; i < mimoDeviceRegistrations.count(); i++)
{
if (deviceHwId == mimoDeviceRegistrations[i].m_deviceHardwareId)
{
mimoPlugin = mimoDeviceRegistrations[i].m_plugin;
break;
}
}
return mimoPlugin;
}
bool DeviceEnumerator::isMIMOEnumerated(const QString& deviceHwId, int deviceSequence)
{
std::vector<DeviceEnumeration>::const_iterator mimoIt = m_mimoEnumeration.begin();
for (; mimoIt != m_mimoEnumeration.end(); ++mimoIt)
{
if ((mimoIt->m_samplingDevice.hardwareId == deviceHwId) && (mimoIt->m_samplingDevice.sequence == deviceSequence)) {
return true;
}
}
return false;
}
void DeviceEnumerator::enumerateDevices(PluginAPI::SamplingDeviceRegistrations& deviceRegistrations, DevicesEnumeration& enumeration, PluginInterface::SamplingDevice::StreamType type)
{
DevicesEnumeration tempEnumeration;
PluginInterface::OriginDevices originDevices;
QStringList originDevicesHwIds;
for (int i = 0; i < deviceRegistrations.count(); i++)
{
qDebug("DeviceEnumerator::enumerateDevices: %s", qPrintable(deviceRegistrations[i].m_deviceId));
deviceRegistrations[i].m_plugin->enumOriginDevices(originDevicesHwIds, originDevices);
PluginInterface::SamplingDevices samplingDevices;
if (type == PluginInterface::SamplingDevice::StreamSingleRx) {
samplingDevices = deviceRegistrations[i].m_plugin->enumSampleSources(originDevices);
} else if (type == PluginInterface::SamplingDevice::StreamSingleTx) {
samplingDevices = deviceRegistrations[i].m_plugin->enumSampleSinks(originDevices);
} else {
samplingDevices = deviceRegistrations[i].m_plugin->enumSampleMIMO(originDevices);
}
for (int j = 0; j < samplingDevices.count(); j++)
{
tempEnumeration.push_back(
DeviceEnumeration(
samplingDevices[j],
deviceRegistrations[i].m_plugin,
0 // Index will be set when adding to enumeration below
)
);
}
}
// We don't remove devices that are no-longer found from the enumeration list, in case their
// index is referenced in some other object (E.g. DeviceGUI)
// Instead we mark as removed. If later re-added, then we re-use the same index
for (DevicesEnumeration::iterator it = enumeration.begin(); it != enumeration.end(); ++it)
{
bool found = false;
for (DevicesEnumeration::iterator it2 = tempEnumeration.begin(); it2 != tempEnumeration.end(); ++it2)
{
if (it->m_samplingDevice == it2->m_samplingDevice)
{
found = true;
break;
}
}
if (!found) {
it->m_samplingDevice.removed = true;
}
}
// Add new entries and update existing (in case re-added or sequence number has changed)
int index = enumeration.size();
for (DevicesEnumeration::iterator it = tempEnumeration.begin(); it != tempEnumeration.end(); ++it)
{
bool found = false;
for (DevicesEnumeration::iterator it2 = enumeration.begin(); it2 != enumeration.end(); ++it2)
{
if (it->m_samplingDevice == it2->m_samplingDevice)
{
it2->m_samplingDevice.removed = false;
it2->m_samplingDevice.displayedName = it->m_samplingDevice.displayedName;
found = true;
break;
}
}
if (!found)
{
it->m_index = index++;
enumeration.push_back(*it);
}
}
}
void DeviceEnumerator::enumerateRxDevices(PluginManager *pluginManager)
{
enumerateDevices(pluginManager->getSourceDeviceRegistrations(), m_rxEnumeration, PluginInterface::SamplingDevice::StreamSingleRx);
}
void DeviceEnumerator::enumerateTxDevices(PluginManager *pluginManager)
{
enumerateDevices(pluginManager->getSinkDeviceRegistrations(), m_txEnumeration, PluginInterface::SamplingDevice::StreamSingleTx);
}
void DeviceEnumerator::enumerateMIMODevices(PluginManager *pluginManager)
{
enumerateDevices(pluginManager->getMIMODeviceRegistrations(), m_mimoEnumeration, PluginInterface::SamplingDevice::StreamMIMO);
}
void DeviceEnumerator::listRxDeviceNames(QList<QString>& list, std::vector<int>& indexes) const
{
for (DevicesEnumeration::const_iterator it = m_rxEnumeration.begin(); it != m_rxEnumeration.end(); ++it)
{
if (((it->m_samplingDevice.claimed < 0) && (!it->m_samplingDevice.removed)) || (it->m_samplingDevice.type == PluginInterface::SamplingDevice::BuiltInDevice))
{
list.append(it->m_samplingDevice.displayedName);
indexes.push_back(it->m_index);
}
}
}
void DeviceEnumerator::listTxDeviceNames(QList<QString>& list, std::vector<int>& indexes) const
{
for (DevicesEnumeration::const_iterator it = m_txEnumeration.begin(); it != m_txEnumeration.end(); ++it)
{
if (((it->m_samplingDevice.claimed < 0) && (!it->m_samplingDevice.removed)) || (it->m_samplingDevice.type == PluginInterface::SamplingDevice::BuiltInDevice))
{
list.append(it->m_samplingDevice.displayedName);
indexes.push_back(it->m_index);
}
}
}
void DeviceEnumerator::listMIMODeviceNames(QList<QString>& list, std::vector<int>& indexes) const
{
for (DevicesEnumeration::const_iterator it = m_mimoEnumeration.begin(); it != m_mimoEnumeration.end(); ++it)
{
if (((it->m_samplingDevice.claimed < 0) && (!it->m_samplingDevice.removed)) || (it->m_samplingDevice.type == PluginInterface::SamplingDevice::BuiltInDevice))
{
list.append(it->m_samplingDevice.displayedName);
indexes.push_back(it->m_index);
}
}
}
void DeviceEnumerator::changeRxSelection(int tabIndex, int deviceIndex)
{
for (DevicesEnumeration::iterator it = m_rxEnumeration.begin(); it != m_rxEnumeration.end(); ++it)
{
if (it->m_samplingDevice.claimed == tabIndex) {
it->m_samplingDevice.claimed = -1;
}
if (it->m_index == deviceIndex) {
it->m_samplingDevice.claimed = tabIndex;
}
}
}
void DeviceEnumerator::changeTxSelection(int tabIndex, int deviceIndex)
{
for (DevicesEnumeration::iterator it = m_txEnumeration.begin(); it != m_txEnumeration.end(); ++it)
{
if (it->m_samplingDevice.claimed == tabIndex) {
it->m_samplingDevice.claimed = -1;
}
if (it->m_index == deviceIndex) {
it->m_samplingDevice.claimed = tabIndex;
}
}
}
void DeviceEnumerator::changeMIMOSelection(int tabIndex, int deviceIndex)
{
for (DevicesEnumeration::iterator it = m_mimoEnumeration.begin(); it != m_mimoEnumeration.end(); ++it)
{
if (it->m_samplingDevice.claimed == tabIndex) {
it->m_samplingDevice.claimed = -1;
}
if (it->m_index == deviceIndex) {
it->m_samplingDevice.claimed = tabIndex;
}
}
}
void DeviceEnumerator::removeRxSelection(int tabIndex)
{
for (DevicesEnumeration::iterator it = m_rxEnumeration.begin(); it != m_rxEnumeration.end(); ++it)
{
if (it->m_samplingDevice.claimed == tabIndex) {
it->m_samplingDevice.claimed = -1;
}
}
}
void DeviceEnumerator::removeTxSelection(int tabIndex)
{
for (DevicesEnumeration::iterator it = m_txEnumeration.begin(); it != m_txEnumeration.end(); ++it)
{
if (it->m_samplingDevice.claimed == tabIndex) {
it->m_samplingDevice.claimed = -1;
}
}
}
void DeviceEnumerator::removeMIMOSelection(int tabIndex)
{
for (DevicesEnumeration::iterator it = m_mimoEnumeration.begin(); it != m_mimoEnumeration.end(); ++it)
{
if (it->m_samplingDevice.claimed == tabIndex) {
it->m_samplingDevice.claimed = -1;
}
}
}
int DeviceEnumerator::getFileInputDeviceIndex() const
{
for (DevicesEnumeration::const_iterator it = m_rxEnumeration.begin(); it != m_rxEnumeration.end(); ++it)
{
if (it->m_samplingDevice.id == PluginManager::getFileInputDeviceId()) {
return it->m_index;
}
}
return -1;
}
int DeviceEnumerator::getFileOutputDeviceIndex() const
{
for (DevicesEnumeration::const_iterator it = m_txEnumeration.begin(); it != m_txEnumeration.end(); ++it)
{
if (it->m_samplingDevice.id == PluginManager::getFileOutputDeviceId()) {
return it->m_index;
}
}
return -1;
}
int DeviceEnumerator::getTestMIMODeviceIndex() const
{
for (DevicesEnumeration::const_iterator it = m_mimoEnumeration.begin(); it != m_mimoEnumeration.end(); ++it)
{
if (it->m_samplingDevice.id == PluginManager::getTestMIMODeviceId()) {
return it->m_index;
}
}
return -1;
}
int DeviceEnumerator::getRxSamplingDeviceIndex(const QString& deviceId, int sequence, int deviceItemIndex)
{
for (DevicesEnumeration::iterator it = m_rxEnumeration.begin(); it != m_rxEnumeration.end(); ++it)
{
if ((it->m_samplingDevice.id == deviceId)
&& (it->m_samplingDevice.sequence == sequence)
&& (it->m_samplingDevice.deviceItemIndex == deviceItemIndex))
{
return it->m_index;
}
}
return -1;
}
int DeviceEnumerator::getTxSamplingDeviceIndex(const QString& deviceId, int sequence, int deviceItemIndex)
{
for (DevicesEnumeration::iterator it = m_txEnumeration.begin(); it != m_txEnumeration.end(); ++it)
{
if ((it->m_samplingDevice.id == deviceId)
&& (it->m_samplingDevice.sequence == sequence)
&& (it->m_samplingDevice.deviceItemIndex == deviceItemIndex))
{
return it->m_index;
}
}
return -1;
}
int DeviceEnumerator::getMIMOSamplingDeviceIndex(const QString& deviceId, int sequence)
{
for (DevicesEnumeration::iterator it = m_mimoEnumeration.begin(); it != m_mimoEnumeration.end(); ++it)
{
if ((it->m_samplingDevice.id == deviceId) && (it->m_samplingDevice.sequence == sequence)) {
return it->m_index;
}
}
return -1;
}
int DeviceEnumerator::getBestRxSamplingDeviceIndex(const QString& deviceId, const QString& deviceSerial, int deviceSequence, int deviceItemIndex)
{
return getBestSamplingDeviceIndex(m_rxEnumeration, deviceId, deviceSerial, deviceSequence, deviceItemIndex);
}
int DeviceEnumerator::getBestTxSamplingDeviceIndex(const QString& deviceId, const QString& deviceSerial, int deviceSequence, int deviceItemIndex)
{
return getBestSamplingDeviceIndex(m_txEnumeration, deviceId, deviceSerial, deviceSequence, deviceItemIndex);
}
int DeviceEnumerator::getBestMIMOSamplingDeviceIndex(const QString& deviceId, const QString& deviceSerial, int deviceSequence)
{
return getBestSamplingDeviceIndex(m_mimoEnumeration, deviceId, deviceSerial, deviceSequence, -1);
}
int DeviceEnumerator::getBestSamplingDeviceIndex(
const DevicesEnumeration& devicesEnumeration,
const QString& deviceId,
const QString& deviceSerial,
int deviceSequence,
int deviceItemIndex
)
{
DevicesEnumeration::const_iterator it = devicesEnumeration.begin();
DevicesEnumeration::const_iterator itFirstOfKind = devicesEnumeration.end();
DevicesEnumeration::const_iterator itMatchSequence = devicesEnumeration.end();
for (; it != devicesEnumeration.end(); ++it)
{
if ((it->m_samplingDevice.id == deviceId) &&
(
((deviceItemIndex < 0) || (deviceItemIndex > it->m_samplingDevice.deviceNbItems)) || // take first if item index is negative or out of range
((deviceItemIndex <= it->m_samplingDevice.deviceNbItems) && (deviceItemIndex == it->m_samplingDevice.deviceItemIndex)) // take exact item index if in range
)
)
{
if (itFirstOfKind == devicesEnumeration.end()) {
itFirstOfKind = it;
}
if (deviceSerial.isNull() || deviceSerial.isEmpty())
{
if (it->m_samplingDevice.sequence == deviceSequence) {
break;
}
}
else
{
if (it->m_samplingDevice.serial == deviceSerial) {
break;
} else if(it->m_samplingDevice.sequence == deviceSequence) {
itMatchSequence = it;
}
}
}
}
if (it == devicesEnumeration.end()) // no exact match
{
if (itMatchSequence != devicesEnumeration.end()) // match sequence and device type ?
{
qDebug("DeviceEnumerator::getBestSamplingDeviceIndex: sequence matched: id: %s ser: %s seq: %d",
qPrintable(itMatchSequence->m_samplingDevice.id),
qPrintable(itMatchSequence->m_samplingDevice.serial),
itMatchSequence->m_samplingDevice.sequence);
return itMatchSequence - devicesEnumeration.begin();
}
else if (itFirstOfKind != devicesEnumeration.end()) // match just device type ?
{
qDebug("DeviceEnumerator::getBestSamplingDeviceIndex: first of kind matched: id: %s ser: %s seq: %d",
qPrintable(itFirstOfKind->m_samplingDevice.id),
qPrintable(itFirstOfKind->m_samplingDevice.serial),
itFirstOfKind->m_samplingDevice.sequence);
return itFirstOfKind - devicesEnumeration.begin();
}
else // definitely not found !
{
qDebug("DeviceEnumerator::getBestSamplingDeviceIndex: no match");
return -1;
}
}
else // exact match
{
qDebug("DeviceEnumerator::getBestSamplingDeviceIndex: serial matched (exact): id: %s ser: %s",
qPrintable(it->m_samplingDevice.id), qPrintable(it->m_samplingDevice.serial));
return it - devicesEnumeration.begin();
}
}