moonlight-qt/app/backend/computermanager.cpp

683 lines
21 KiB
C++

#include "computermanager.h"
#include "nvhttp.h"
#include "settings/streamingpreferences.h"
#include <Limelight.h>
#include <QtEndian>
#include <QThread>
#include <QThreadPool>
#define SER_HOSTS "hosts"
class PcMonitorThread : public QThread
{
Q_OBJECT
#define TRIES_BEFORE_OFFLINING 2
#define POLLS_PER_APPLIST_FETCH 10
public:
PcMonitorThread(NvComputer* computer)
: m_Computer(computer)
{
setObjectName("Polling thread for " + computer->name);
}
private:
bool tryPollComputer(QString address, bool& changed)
{
NvHTTP http(address, m_Computer->serverCert);
QString serverInfo;
try {
serverInfo = http.getServerInfo(NvHTTP::NvLogLevel::NONE);
} catch (...) {
return false;
}
NvComputer newState(address, serverInfo, QSslCertificate());
// Ensure the machine that responded is the one we intended to contact
if (m_Computer->uuid != newState.uuid) {
qInfo() << "Found unexpected PC " << newState.name << " looking for " << m_Computer->name;
return false;
}
changed = m_Computer->update(newState);
return true;
}
bool updateAppList(bool& changed)
{
Q_ASSERT(m_Computer->activeAddress != nullptr);
NvHTTP http(m_Computer->activeAddress, m_Computer->serverCert);
QVector<NvApp> appList;
try {
appList = http.getAppList();
if (appList.isEmpty()) {
return false;
}
} catch (...) {
return false;
}
QWriteLocker lock(&m_Computer->lock);
if (m_Computer->appList != appList) {
m_Computer->appList = appList;
m_Computer->sortAppList();
changed = true;
}
return true;
}
void run() override
{
// Always fetch the applist the first time
int pollsSinceLastAppListFetch = POLLS_PER_APPLIST_FETCH;
while (!isInterruptionRequested()) {
bool stateChanged = false;
bool online = false;
bool wasOnline = m_Computer->state == NvComputer::CS_ONLINE;
for (int i = 0; i < TRIES_BEFORE_OFFLINING && !online; i++) {
for (auto& address : m_Computer->uniqueAddresses()) {
if (isInterruptionRequested()) {
return;
}
if (tryPollComputer(address, stateChanged)) {
if (!wasOnline) {
qInfo() << m_Computer->name << "is now online at" << m_Computer->activeAddress;
}
online = true;
break;
}
}
}
// Check if we failed after all retry attempts
// Note: we don't need to acquire the read lock here,
// because we're on the writing thread.
if (!online && m_Computer->state != NvComputer::CS_OFFLINE) {
qInfo() << m_Computer->name << "is now offline";
m_Computer->state = NvComputer::CS_OFFLINE;
stateChanged = true;
}
// Grab the applist if it's empty or it's been long enough that we need to refresh
pollsSinceLastAppListFetch++;
if (m_Computer->state == NvComputer::CS_ONLINE &&
m_Computer->pairState == NvComputer::PS_PAIRED &&
(m_Computer->appList.isEmpty() || pollsSinceLastAppListFetch >= POLLS_PER_APPLIST_FETCH)) {
// Notify prior to the app list poll since it may take a while, and we don't
// want to delay onlining of a machine, especially if we already have a cached list.
if (stateChanged) {
emit computerStateChanged(m_Computer);
stateChanged = false;
}
if (updateAppList(stateChanged)) {
pollsSinceLastAppListFetch = 0;
}
}
if (stateChanged) {
// Tell anyone listening that we've changed state
emit computerStateChanged(m_Computer);
}
// Wait a bit to poll again
QThread::sleep(3);
}
}
signals:
void computerStateChanged(NvComputer* computer);
private:
NvComputer* m_Computer;
};
ComputerManager::ComputerManager(QObject *parent)
: QObject(parent),
m_PollingRef(0),
m_MdnsBrowser(nullptr)
{
QSettings settings;
// Inflate our hosts from QSettings
int hosts = settings.beginReadArray(SER_HOSTS);
for (int i = 0; i < hosts; i++) {
settings.setArrayIndex(i);
NvComputer* computer = new NvComputer(settings);
m_KnownHosts[computer->uuid] = computer;
}
settings.endArray();
}
ComputerManager::~ComputerManager()
{
QWriteLocker lock(&m_Lock);
// Delete machines that haven't been resolved yet
while (!m_PendingResolution.isEmpty()) {
MdnsPendingComputer* computer = m_PendingResolution.first();
delete computer;
m_PendingResolution.removeFirst();
}
// Delete the browser to stop discovery
delete m_MdnsBrowser;
m_MdnsBrowser = nullptr;
{
QMutableMapIterator<QString, QThread*> i(m_PollThreads);
// Interrupt all polling threads
while (i.hasNext()) {
i.next();
i.value()->requestInterruption();
}
// Wait for all threads to terminate before destroying
// the NvComputer objects.
i.toFront();
while (i.hasNext()) {
i.next();
QThread* thread = i.value();
thread->wait();
delete thread;
i.remove();
}
}
{
QMutableMapIterator<QString, NvComputer*> i(m_KnownHosts);
// Destroy all NvComputer objects
while (i.hasNext()) {
i.next();
delete i.value();
i.remove();
}
}
}
void ComputerManager::saveHosts()
{
QSettings settings;
QReadLocker lock(&m_Lock);
settings.remove(SER_HOSTS);
settings.beginWriteArray(SER_HOSTS);
for (int i = 0; i < m_KnownHosts.count(); i++) {
settings.setArrayIndex(i);
m_KnownHosts.value(m_KnownHosts.keys()[i])->serialize(settings);
}
settings.endArray();
}
void ComputerManager::startPolling()
{
QWriteLocker lock(&m_Lock);
if (++m_PollingRef > 1) {
return;
}
StreamingPreferences prefs;
if (prefs.enableMdns) {
// Start an MDNS query for GameStream hosts
m_MdnsBrowser = new QMdnsEngine::Browser(&m_MdnsServer, "_nvstream._tcp.local.", &m_MdnsCache);
connect(m_MdnsBrowser, &QMdnsEngine::Browser::serviceAdded,
this, [this](const QMdnsEngine::Service& service) {
qInfo() << "Discovered mDNS host:" << service.hostname();
MdnsPendingComputer* pendingComputer = new MdnsPendingComputer(&m_MdnsServer, &m_MdnsCache, service);
connect(pendingComputer, SIGNAL(resolvedv4(MdnsPendingComputer*,QHostAddress)),
this, SLOT(handleMdnsServiceResolved(MdnsPendingComputer*,QHostAddress)));
m_PendingResolution.append(pendingComputer);
});
}
else {
qWarning() << "mDNS is disabled by user preference";
}
// Start polling threads for each known host
QMapIterator<QString, NvComputer*> i(m_KnownHosts);
while (i.hasNext()) {
i.next();
startPollingComputer(i.value());
}
}
// Must hold m_Lock for write
void ComputerManager::startPollingComputer(NvComputer* computer)
{
if (m_PollingRef == 0) {
return;
}
if (m_PollThreads.contains(computer->uuid)) {
Q_ASSERT(m_PollThreads.value(computer->uuid)->isRunning());
return;
}
PcMonitorThread* thread = new PcMonitorThread(computer);
connect(thread, SIGNAL(computerStateChanged(NvComputer*)),
this, SLOT(handleComputerStateChanged(NvComputer*)));
m_PollThreads[computer->uuid] = thread;
thread->start();
}
void ComputerManager::handleMdnsServiceResolved(MdnsPendingComputer* computer,
const QHostAddress& address)
{
qInfo() << "Resolved" << computer->hostname() << "to" << address.toString();
addNewHost(address.toString(), true);
m_PendingResolution.removeOne(computer);
computer->deleteLater();
}
void ComputerManager::handleComputerStateChanged(NvComputer* computer)
{
emit computerStateChanged(computer);
if (computer->pendingQuit && computer->currentGameId == 0) {
computer->pendingQuit = false;
emit quitAppCompleted(QVariant());
}
// Save updated hosts to QSettings
saveHosts();
}
QVector<NvComputer*> ComputerManager::getComputers()
{
QReadLocker lock(&m_Lock);
return QVector<NvComputer*>::fromList(m_KnownHosts.values());
}
class DeferredHostDeletionTask : public QRunnable
{
public:
DeferredHostDeletionTask(ComputerManager* cm, NvComputer* computer)
: m_Computer(computer),
m_ComputerManager(cm) {}
void run()
{
QThread* pollingThread;
// Only do the minimum amount of work while holding the writer lock.
// We must release it before calling saveHosts().
{
QWriteLocker lock(&m_ComputerManager->m_Lock);
pollingThread = m_ComputerManager->m_PollThreads.take(m_Computer->uuid);
m_ComputerManager->m_KnownHosts.remove(m_Computer->uuid);
}
// Persist the new host list
m_ComputerManager->saveHosts();
// Delete the polling thread
if (pollingThread != nullptr) {
pollingThread->requestInterruption();
// We must wait here because we're going to delete computer
// and we can't do that out from underneath the poller.
pollingThread->wait();
// The thread is safe to delete now
Q_ASSERT(pollingThread->isFinished());
delete pollingThread;
}
// Finally, delete the computer itself. This must be done
// last because the polling thread might be using it.
delete m_Computer;
}
private:
NvComputer* m_Computer;
ComputerManager* m_ComputerManager;
};
void ComputerManager::deleteHost(NvComputer* computer)
{
// Punt to a worker thread to avoid stalling the
// UI while waiting for the polling thread to die
QThreadPool::globalInstance()->start(new DeferredHostDeletionTask(this, computer));
}
class PendingPairingTask : public QObject, public QRunnable
{
Q_OBJECT
public:
PendingPairingTask(ComputerManager* computerManager, NvComputer* computer, QString pin)
: m_Computer(computer),
m_Pin(pin)
{
connect(this, &PendingPairingTask::pairingCompleted,
computerManager, &ComputerManager::pairingCompleted);
}
signals:
void pairingCompleted(NvComputer* computer, QString error);
private:
void run()
{
NvPairingManager pairingManager(m_Computer->activeAddress);
try {
NvPairingManager::PairState result = pairingManager.pair(m_Computer->appVersion, m_Pin, m_Computer->serverCert);
switch (result)
{
case NvPairingManager::PairState::PIN_WRONG:
emit pairingCompleted(m_Computer, "The PIN from the PC didn't match. Please try again.");
break;
case NvPairingManager::PairState::FAILED:
emit pairingCompleted(m_Computer, "Pairing failed. Please try again.");
break;
case NvPairingManager::PairState::ALREADY_IN_PROGRESS:
emit pairingCompleted(m_Computer, "Another pairing attempt is already in progress.");
break;
case NvPairingManager::PairState::PAIRED:
emit pairingCompleted(m_Computer, nullptr);
break;
}
} catch (const GfeHttpResponseException& e) {
emit pairingCompleted(m_Computer, e.toQString());
} catch (const QtNetworkReplyException& e) {
emit pairingCompleted(m_Computer, e.toQString());
}
}
NvComputer* m_Computer;
QString m_Pin;
};
void ComputerManager::pairHost(NvComputer* computer, QString pin)
{
// Punt to a worker thread to avoid stalling the
// UI while waiting for pairing to complete
PendingPairingTask* pairing = new PendingPairingTask(this, computer, pin);
QThreadPool::globalInstance()->start(pairing);
}
class PendingQuitTask : public QObject, public QRunnable
{
Q_OBJECT
public:
PendingQuitTask(ComputerManager* computerManager, NvComputer* computer)
: m_Computer(computer)
{
connect(this, &PendingQuitTask::quitAppFailed,
computerManager, &ComputerManager::quitAppCompleted);
}
signals:
void quitAppFailed(QString error);
private:
void run()
{
NvHTTP http(m_Computer->activeAddress, m_Computer->serverCert);
try {
if (m_Computer->currentGameId != 0) {
http.quitApp();
}
} catch (const GfeHttpResponseException& e) {
{
QWriteLocker lock(&m_Computer->lock);
m_Computer->pendingQuit = false;
}
if (e.getStatusCode() == 599) {
// 599 is a special code we make a custom message for
emit quitAppFailed("The running game wasn't started by this PC. "
"You must quit the game on the host PC manually or use the device that originally started the game.");
}
else {
emit quitAppFailed(e.toQString());
}
} catch (const QtNetworkReplyException& e) {
{
QWriteLocker lock(&m_Computer->lock);
m_Computer->pendingQuit = false;
}
emit quitAppFailed(e.toQString());
}
}
NvComputer* m_Computer;
};
void ComputerManager::quitRunningApp(NvComputer* computer)
{
QWriteLocker lock(&computer->lock);
computer->pendingQuit = true;
PendingQuitTask* quit = new PendingQuitTask(this, computer);
QThreadPool::globalInstance()->start(quit);
}
void ComputerManager::stopPollingAsync()
{
QWriteLocker lock(&m_Lock);
Q_ASSERT(m_PollingRef > 0);
if (--m_PollingRef > 0) {
return;
}
// Delete machines that haven't been resolved yet
while (!m_PendingResolution.isEmpty()) {
MdnsPendingComputer* computer = m_PendingResolution.first();
computer->deleteLater();
m_PendingResolution.removeFirst();
}
// Delete the browser to stop discovery
delete m_MdnsBrowser;
m_MdnsBrowser = nullptr;
// Interrupt all threads, but don't wait for them to terminate
QMutableMapIterator<QString, QThread*> i(m_PollThreads);
while (i.hasNext()) {
i.next();
QThread* thread = i.value();
// Let this thread delete itself when it's finished
connect(thread, SIGNAL(finished()),
thread, SLOT(deleteLater()));
// The threads will delete themselves when they terminate,
// but we remove them from the polling threads map here.
i.value()->requestInterruption();
i.remove();
}
}
class PendingAddTask : public QObject, public QRunnable
{
Q_OBJECT
public:
PendingAddTask(ComputerManager* computerManager, QString address, bool mdns)
: m_ComputerManager(computerManager),
m_Address(address),
m_Mdns(mdns)
{
connect(this, &PendingAddTask::computerAddCompleted,
computerManager, &ComputerManager::computerAddCompleted);
connect(this, &PendingAddTask::computerStateChanged,
computerManager, &ComputerManager::handleComputerStateChanged);
}
signals:
void computerAddCompleted(QVariant success);
void computerStateChanged(NvComputer* computer);
private:
QString fetchServerInfo(NvHTTP& http)
{
QString serverInfo;
try {
// There's a race condition between GameStream servers reporting presence over
// mDNS and the HTTPS server being ready to respond to our queries. To work
// around this issue, we will issue the request again after a few seconds if
// we see a ServiceUnavailableError error.
try {
serverInfo = http.getServerInfo(NvHTTP::NvLogLevel::VERBOSE);
} catch (const QtNetworkReplyException& e) {
if (e.getError() == QNetworkReply::ServiceUnavailableError) {
qWarning() << "Retrying request in 5 seconds after ServiceUnavailableError";
QThread::sleep(5);
serverInfo = http.getServerInfo(NvHTTP::NvLogLevel::VERBOSE);
qInfo() << "Retry successful";
}
else {
// Rethrow other errors
throw e;
}
}
return serverInfo;
} catch (...) {
if (!m_Mdns) {
emit computerAddCompleted(false);
}
return QString();
}
}
void run()
{
NvHTTP http(m_Address, QSslCertificate());
qInfo() << "Processing new PC at" << m_Address << "from" << (m_Mdns ? "mDNS" : "user");
// Perform initial serverinfo fetch over HTTP since we don't know which cert to use
QString serverInfo = fetchServerInfo(http);
if (serverInfo.isEmpty()) {
return;
}
// Create initial newComputer using HTTP serverinfo with no pinned cert
NvComputer* newComputer = new NvComputer(m_Address, serverInfo, QSslCertificate());
// Check if we have a record of this host UUID to pull the pinned cert
NvComputer* existingComputer;
{
QReadLocker lock(&m_ComputerManager->m_Lock);
existingComputer = m_ComputerManager->m_KnownHosts.value(newComputer->uuid);
if (existingComputer != nullptr) {
http.setServerCert(existingComputer->serverCert);
}
}
// Fetch serverinfo again over HTTPS with the pinned cert
if (existingComputer != nullptr) {
serverInfo = fetchServerInfo(http);
if (serverInfo.isEmpty()) {
return;
}
// Update the polled computer with the HTTPS information
NvComputer httpsComputer(m_Address, serverInfo, QSslCertificate());
newComputer->update(httpsComputer);
}
// Update addresses depending on the context
if (m_Mdns) {
newComputer->localAddress = m_Address;
// Get the WAN IP address using STUN if we're on mDNS
quint32 addr;
int err = LiFindExternalAddressIP4("stun.stunprotocol.org", 3478, &addr);
if (err == 0) {
newComputer->remoteAddress = QHostAddress(qFromBigEndian(addr)).toString();
}
else {
qWarning() << "STUN failed to get WAN address:" << err;
}
}
else {
newComputer->manualAddress = m_Address;
}
{
// Check if this PC already exists
QWriteLocker lock(&m_ComputerManager->m_Lock);
NvComputer* existingComputer = m_ComputerManager->m_KnownHosts.value(newComputer->uuid);
if (existingComputer != nullptr) {
// Fold it into the existing PC
bool changed = existingComputer->update(*newComputer);
delete newComputer;
// Drop the lock before notifying
lock.unlock();
// For non-mDNS clients, let them know it succeeded
if (!m_Mdns) {
emit computerAddCompleted(true);
}
// Tell our client if something changed
if (changed) {
qInfo() << existingComputer->name << "is now at" << existingComputer->activeAddress;
emit computerStateChanged(existingComputer);
}
}
else {
// Store this in our active sets
m_ComputerManager->m_KnownHosts[newComputer->uuid] = newComputer;
// Start polling if enabled (write lock required)
m_ComputerManager->startPollingComputer(newComputer);
// Drop the lock before notifying
lock.unlock();
// For non-mDNS clients, let them know it succeeded
if (!m_Mdns) {
emit computerAddCompleted(true);
}
// Tell our client about this new PC
emit computerStateChanged(newComputer);
}
}
}
ComputerManager* m_ComputerManager;
QString m_Address;
bool m_Mdns;
};
void ComputerManager::addNewHost(QString address, bool mdns)
{
// Punt to a worker thread to avoid stalling the
// UI while waiting for serverinfo query to complete
PendingAddTask* addTask = new PendingAddTask(this, address, mdns);
QThreadPool::globalInstance()->start(addTask);
}
#include "computermanager.moc"