void NVEventQueue::Shutdown()
{
pthread_mutex_destroy(&m_accessLock);
// free everyone...
unlockAll(&m_consumerSync);
unlockAll(&m_blockerSync);
syncDestroy(&m_consumerSync);
syncDestroy(&m_blockerSync);
}
void Node::removeSiblingLocksBackoff()
{
lockAll();
removeFixupParent();
removeFixupSibsThreaded();
unlockAll();
removeFixupSelf();
}
static void NVEventShutdown()
{
JNIEnv* jniEnv = NVThreadGetCurrentJNIEnv();
if (!jniEnv || !s_globalThiz)
{
__android_log_print(ANDROID_LOG_DEBUG, MODULE, "Error: DestroyingRegisteredObjectInstance no TLS data!");
}
jniEnv->DeleteGlobalRef(s_globalThiz);
s_globalThiz = NULL;
__android_log_print(ANDROID_LOG_DEBUG, MODULE, "Released global thiz!");
pthread_mutex_destroy(&(s_eventQueue.m_mutex));
// free everyone...
unlockAll(&s_eventQueue.m_nativeSync);
unlockAll(&s_eventQueue.m_javaSync);
syncDestroy(&(s_eventQueue.m_nativeSync));
syncDestroy(&(s_eventQueue.m_javaSync));
}
static void* NVEventMainLoopThreadFunc(void*)
{
NVEventAppMain(0, NULL);
__android_log_print(ANDROID_LOG_DEBUG, MODULE, "NvEvent native app Main returned");
// signal the condition variable to unblock
// java from waiting on pause or quit
unlockAll(&(s_eventQueue.m_javaSync));
s_alreadyFinishing = true;
JNIEnv* env = NVThreadGetCurrentJNIEnv();
env->CallVoidMethod(s_globalThiz, s_finish);
return NULL;
}
void Monitor::wait()
{
assertex(owner==GetCurrentThreadId());
waiting++;
void *cur = last;
last = &cur;
while (1) {
int locked = unlockAll();
sem->wait();
lockAll(locked);
if (cur==NULL) { // i.e. first in
void **p=(void **)&last;
while (*p!=&cur)
p = (void **)*p;
*p = NULL; // reset so next picks up
break;
}
sem->signal();
}
}
static void NVEventQuitAndWait()
{
if (!s_alreadyFinishing)
{
__android_log_print(ANDROID_LOG_DEBUG, MODULE, "Posting quit event");
// flush ALL events
s_eventQueue.m_headIndex = s_eventQueue.m_nextInsertIndex;
NVEvent ev;
ev.m_type = NV_EVENT_QUIT;
NVEventInsertNewest(&s_eventQueue, &ev);
// ensure that the native side
// isn't blocked waiting for an event -- since we've flushed
// all the events save quit, we must artificially unblock native
unlockAll(&(s_eventQueue.m_nativeSync));
__android_log_print(ANDROID_LOG_DEBUG, MODULE, "Waiting for main loop exit");
pthread_join(s_mainThread, NULL);
__android_log_print(ANDROID_LOG_DEBUG, MODULE, "Main loop exited");
}
}
void NVEventQueue::UnblockProducer()
{
unlockAll(&m_blockerSync);
}
void NVEventQueue::UnblockConsumer()
{
unlockAll(&m_consumerSync);
}
ThrDevs::~ThrDevs(){
unlockAll();
delete pvLocked;
};
MountProtector::~MountProtector() {
unlockAll();
}
void MainWindow::setupActions()
{
// Game
KStandardGameAction::gameNew(this, SLOT(startNewGame()),
actionCollection());
m_pauseAction = KStandardGameAction::pause(this, SLOT(pauseGame(bool)),
actionCollection());
connect(Kg::difficulty(), &KgDifficulty::gameRunningChanged, m_pauseAction,
&QAction::setEnabled);
QAction *action = KStandardGameAction::solve(m_view, SLOT(solve()), actionCollection());
connect(Kg::difficulty(), &KgDifficulty::gameRunningChanged, action, &QAction::setEnabled);
KStandardGameAction::highscores(this, SLOT(showHighscores()),
actionCollection());
KStandardGameAction::quit(this, SLOT(close()), actionCollection());
// Settings
KStandardAction::preferences(this, SLOT(configureSettings()), actionCollection());
action = new QAction(i18n("&Unlock All"), this);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(unlockAll()));
connect(Kg::difficulty(), &KgDifficulty::gameRunningChanged, action, &QAction::setEnabled);
actionCollection()->addAction( QStringLiteral( "unlock_all" ), action);
action = new QAction(i18n("Keyboard: Field right"), this);
actionCollection()->setDefaultShortcut(action, Qt::Key_Right);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(kbGoRight()));
actionCollection()->addAction( QStringLiteral( "kb_go_right" ), action);
action = new QAction(i18n("Keyboard: Field left"),this);
actionCollection()->setDefaultShortcut(action, Qt::Key_Left);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(kbGoLeft()));
actionCollection()->addAction( QStringLiteral( "kb_go_left" ), action);
action = new QAction(i18n("Keyboard: Field up"),this);
actionCollection()->setDefaultShortcut(action, Qt::Key_Up);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(kbGoUp()));
actionCollection()->addAction( QStringLiteral( "kb_go_up" ), action);
action = new QAction(i18n("Keyboard: Field down"),this);
actionCollection()->setDefaultShortcut(action, Qt::Key_Down);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(kbGoDown()));
actionCollection()->addAction( QStringLiteral( "kb_go_down" ), action);
action = new QAction(i18n("Keyboard: Turn clockwise"),this);
actionCollection()->setDefaultShortcut(action, Qt::Key_Return);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(rotateClockwise()));
actionCollection()->addAction( QStringLiteral( "kb_turn_clockwise" ), action);
action = new QAction(i18n("Keyboard: Turn counterclockwise"),this);
actionCollection()->setDefaultShortcut(action, Qt::CTRL + Qt::Key_Return);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(rotateCounterclockwise()));
actionCollection()->addAction( QStringLiteral( "kb_turn_counterclockwise" ), action);
action = new QAction(i18n("Keyboard: Toggle lock"),this);
actionCollection()->setDefaultShortcut(action, Qt::Key_Space);
connect(action, SIGNAL(triggered()), m_view->rootObject(), SLOT(toggleLock()));
actionCollection()->addAction( QStringLiteral( "kb_lock" ), action);
}
void ReplicationCoordinatorExternalStateImpl::shardingOnTransitionToPrimaryHook(
OperationContext* txn) {
auto status = ShardingStateRecovery::recover(txn);
if (ErrorCodes::isShutdownError(status.code())) {
// Note: callers of this method don't expect exceptions, so throw only unexpected fatal
// errors.
return;
}
if (!status.isOK()) {
fassertFailedWithStatus(40107, status);
}
if (serverGlobalParams.clusterRole == ClusterRole::ConfigServer) {
status = Grid::get(txn)->catalogManager()->initializeConfigDatabaseIfNeeded(txn);
if (!status.isOK() && status != ErrorCodes::AlreadyInitialized) {
if (ErrorCodes::isShutdownError(status.code())) {
// Don't fassert if we're mid-shutdown, let the shutdown happen gracefully.
return;
}
fassertFailedWithStatus(40184,
Status(status.code(),
str::stream()
<< "Failed to initialize config database on config "
"server's first transition to primary"
<< causedBy(status)));
}
if (status.isOK()) {
// Load the clusterId into memory. Use local readConcern, since we can't use majority
// readConcern in drain mode because the global lock prevents replication. This is
// safe, since if the clusterId write is rolled back, any writes that depend on it will
// also be rolled back.
// Since we *just* wrote the cluster ID to the config.version document (via
// ShardingCatalogManager::initializeConfigDatabaseIfNeeded), this should always
// succeed.
status = ClusterIdentityLoader::get(txn)->loadClusterId(
txn, repl::ReadConcernLevel::kLocalReadConcern);
if (ErrorCodes::isShutdownError(status.code())) {
// Don't fassert if we're mid-shutdown, let the shutdown happen gracefully.
return;
}
fassertStatusOK(40217, status);
}
// For upgrade from 3.2 to 3.4, check if any shards in config.shards are not yet marked as
// shard aware, and attempt to initialize sharding awareness on them.
auto shardAwareInitializationStatus =
Grid::get(txn)->catalogManager()->initializeShardingAwarenessOnUnawareShards(txn);
if (!shardAwareInitializationStatus.isOK()) {
warning() << "Error while attempting to initialize sharding awareness on sharding "
"unaware shards "
<< causedBy(shardAwareInitializationStatus);
}
// Free any leftover locks from previous instantiations
auto distLockManager = Grid::get(txn)->catalogClient(txn)->getDistLockManager();
distLockManager->unlockAll(txn, distLockManager->getProcessID());
// If this is a config server node becoming a primary, start the balancer
auto balancer = Balancer::get(txn);
// We need to join the balancer here, because it might have been running at a previous time
// when this node was a primary.
balancer->joinThread();
balancer->startThread(txn);
} else if (ShardingState::get(txn)->enabled()) {
const auto configsvrConnStr =
Grid::get(txn)->shardRegistry()->getConfigShard()->getConnString();
auto status = ShardingState::get(txn)->updateShardIdentityConfigString(
txn, configsvrConnStr.toString());
if (!status.isOK()) {
warning() << "error encountered while trying to update config connection string to "
<< configsvrConnStr << causedBy(status);
}
}
// There is a slight chance that some stale metadata might have been loaded before the latest
// optime has been recovered, so throw out everything that we have up to now
ShardingState::get(txn)->clearCollectionMetadata();
}
void ReplicationCoordinatorExternalStateImpl::_shardingOnTransitionToPrimaryHook(
OperationContext* opCtx) {
auto status = ShardingStateRecovery::recover(opCtx);
if (ErrorCodes::isShutdownError(status.code())) {
// Note: callers of this method don't expect exceptions, so throw only unexpected fatal
// errors.
return;
}
fassertStatusOK(40107, status);
if (serverGlobalParams.clusterRole == ClusterRole::ConfigServer) {
status = ShardingCatalogManager::get(opCtx)->initializeConfigDatabaseIfNeeded(opCtx);
if (!status.isOK() && status != ErrorCodes::AlreadyInitialized) {
if (ErrorCodes::isShutdownError(status.code())) {
// Don't fassert if we're mid-shutdown, let the shutdown happen gracefully.
return;
}
fassertFailedWithStatus(
40184,
status.withContext("Failed to initialize config database on config server's "
"first transition to primary"));
}
if (status.isOK()) {
// Load the clusterId into memory. Use local readConcern, since we can't use majority
// readConcern in drain mode because the global lock prevents replication. This is
// safe, since if the clusterId write is rolled back, any writes that depend on it will
// also be rolled back.
// Since we *just* wrote the cluster ID to the config.version document (via
// ShardingCatalogManager::initializeConfigDatabaseIfNeeded), this should always
// succeed.
status = ClusterIdentityLoader::get(opCtx)->loadClusterId(
opCtx, repl::ReadConcernLevel::kLocalReadConcern);
if (ErrorCodes::isShutdownError(status.code())) {
// Don't fassert if we're mid-shutdown, let the shutdown happen gracefully.
return;
}
fassertStatusOK(40217, status);
}
// Free any leftover locks from previous instantiations.
auto distLockManager = Grid::get(opCtx)->catalogClient()->getDistLockManager();
distLockManager->unlockAll(opCtx, distLockManager->getProcessID());
// If this is a config server node becoming a primary, start the balancer
Balancer::get(opCtx)->initiateBalancer(opCtx);
if (auto validator = LogicalTimeValidator::get(_service)) {
validator->enableKeyGenerator(opCtx, true);
}
} else if (ShardingState::get(opCtx)->enabled()) {
invariant(serverGlobalParams.clusterRole == ClusterRole::ShardServer);
const auto configsvrConnStr =
Grid::get(opCtx)->shardRegistry()->getConfigShard()->getConnString();
auto status = ShardingState::get(opCtx)->updateShardIdentityConfigString(
opCtx, configsvrConnStr.toString());
if (!status.isOK()) {
warning() << "error encountered while trying to update config connection string to "
<< configsvrConnStr << causedBy(status);
}
CatalogCacheLoader::get(_service).onStepUp();
ShardingState::get(_service)->initiateChunkSplitter();
} else { // unsharded
if (auto validator = LogicalTimeValidator::get(_service)) {
validator->enableKeyGenerator(opCtx, true);
}
}
SessionCatalog::get(_service)->onStepUp(opCtx);
}
