/* * Copyright (C) 2006 Aaron Seigo * Copyright (C) 2007 Ryan P. Bitanga * Copyright (2) 2008 Jordi Polo * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Library General Public License as * published by the Free Software Foundation; either version 2, 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 for more details * * You should have received a copy of the GNU Library General Public * License along with this program; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "runnermanager.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "querymatch.h" using ThreadWeaver::Weaver; using ThreadWeaver::Job; namespace Plasma { /***************************************************** * RunnerRestrictionPolicy class * Restricts simultaneous jobs of the same type * Similar to ResourceRestrictionPolicy but check the object type first ******************************************************/ class RunnerRestrictionPolicy : public ThreadWeaver::QueuePolicy { public: ~RunnerRestrictionPolicy(); static RunnerRestrictionPolicy &instance(); void setCap(int cap) { m_cap = cap; } int cap() const { return m_cap; } bool canRun(Job *job); void free(Job *job); void release(Job *job); void destructed(Job *job); private: RunnerRestrictionPolicy(); int m_count; int m_cap; QMutex m_mutex; }; RunnerRestrictionPolicy::RunnerRestrictionPolicy() : QueuePolicy(), m_count(0), m_cap(2) { } RunnerRestrictionPolicy::~RunnerRestrictionPolicy() { } RunnerRestrictionPolicy &RunnerRestrictionPolicy::instance() { static RunnerRestrictionPolicy policy; return policy; } bool RunnerRestrictionPolicy::canRun(Job *job) { Q_UNUSED(job) QMutexLocker l(&m_mutex); if (m_count > m_cap) { return false; } else { ++m_count; return true; } } void RunnerRestrictionPolicy::free(Job *job) { Q_UNUSED(job) QMutexLocker l(&m_mutex); --m_count; } void RunnerRestrictionPolicy::release(Job *job) { free(job); } void RunnerRestrictionPolicy::destructed(Job *job) { Q_UNUSED(job) } /***************************************************** * FindMatchesJob class * Class to run queries in different threads ******************************************************/ class FindMatchesJob : public Job { public: FindMatchesJob(Plasma::AbstractRunner *runner, Plasma::RunnerContext *context, QObject *parent = 0); int priority() const; Plasma::AbstractRunner *runner() const; protected: void run(); private: Plasma::RunnerContext m_context; Plasma::AbstractRunner *m_runner; }; FindMatchesJob::FindMatchesJob(Plasma::AbstractRunner *runner, Plasma::RunnerContext *context, QObject *parent) : ThreadWeaver::Job(parent), m_context(*context, 0), m_runner(runner) { if (runner->speed() == Plasma::AbstractRunner::SlowSpeed) { assignQueuePolicy(&RunnerRestrictionPolicy::instance()); } } void FindMatchesJob::run() { // kDebug() << "Running match for " << m_runner->objectName() // << " in Thread " << thread()->id() << endl; m_runner->performMatch(m_context); } int FindMatchesJob::priority() const { return m_runner->priority(); } Plasma::AbstractRunner *FindMatchesJob::runner() const { return m_runner; } /***************************************************** * RunnerManager::Private class * *****************************************************/ class RunnerManagerPrivate { public: RunnerManagerPrivate(RunnerManager *parent) : q(parent), deferredRun(0) { matchChangeTimer.setSingleShot(true); QObject::connect(&matchChangeTimer, SIGNAL(timeout()), q, SLOT(matchesChanged())); QObject::connect(&context, SIGNAL(matchesChanged()), q, SLOT(scheduleMatchesChanged())); } void scheduleMatchesChanged() { matchChangeTimer.start(50); } void matchesChanged() { emit q->matchesChanged(context.matches()); } void loadConfiguration(KConfigGroup &conf) { config = conf; //The number of threads used scales with the number of processors. const int numProcs = qMax(Solid::Device::listFromType(Solid::DeviceInterface::Processor).count(), 1); //This entry allows to define a hard upper limit independent of the number of processors. const int maxThreads = config.readEntry("maxThreads", 16); const int numThreads = qMin(maxThreads, 2 + ((numProcs - 1) * 2)); //kDebug() << "setting up" << numThreads << "threads for" << numProcs << "processors"; Weaver::instance()->setMaximumNumberOfThreads(numThreads); //Preferred order of execution of runners //prioritylist = config.readEntry("priority", QStringList()); //If set, this list defines which runners won't be used at runtime //blacklist = config.readEntry("blacklist", QStringList()); } void loadRunners() { KService::List offers = KServiceTypeTrader::self()->query("Plasma/Runner"); bool loadAll = config.readEntry("loadAll", false); //The plugin configuration is stored under the section Plugins //and not PlasmaRunnerManager->Plugins KConfigGroup conf(KGlobal::config(), "Plugins"); foreach (const KService::Ptr &service, offers) { //kDebug() << "Loading runner: " << service->name() << service->storageId(); QString tryExec = service->property("TryExec", QVariant::String).toString(); kDebug() << "tryExec is" << tryExec; if (!tryExec.isEmpty() && KStandardDirs::findExe(tryExec).isEmpty()) { // we don't actually have this application! continue; } KPluginInfo description(service); QString runnerName = description.pluginName(); description.load(conf); bool loaded = runners.contains(runnerName); bool selected = loadAll || description.isPluginEnabled(); if (selected) { if (!loaded) { QString api = service->property("X-Plasma-API").toString(); QString error; AbstractRunner *runner = 0; if (api.isEmpty()) { QVariantList args; args << service->storageId(); if (Plasma::isPluginVersionCompatible(KPluginLoader(*service).pluginVersion())) { runner = service->createInstance(q, args, &error); } } else { //kDebug() << "got a script runner known as" << api; runner = new AbstractRunner(q, service->storageId()); } if (runner) { kDebug() << "loading runner:" << service->name(); runners.insert(runnerName, runner); } else { kDebug() << "failed to load runner:" << service->name() << ". error reported:" << error; } } } else if (loaded) { //Remove runner AbstractRunner *runner = runners.take(runnerName); kDebug() << "Removing runner: " << runnerName; delete runner; } } kDebug() << "All runners loaded, total:" << runners.count(); } void jobDone(ThreadWeaver::Job *job) { FindMatchesJob *runJob = static_cast(job); if (deferredRun.isEnabled() && runJob->runner() == deferredRun.runner()) { //kDebug() << "job actually done, running now **************"; QueryMatch tmpRun = deferredRun; deferredRun = QueryMatch(0); tmpRun.run(context); } searchJobs.remove(runJob); oldSearchJobs.remove(runJob); delete runJob; if (searchJobs.isEmpty() && context.matches().isEmpty()) { // we finished our run, and there are no valid matches, and so no // signal will have been sent out. so we need to emit the signal // ourselves here emit q->matchesChanged(context.matches()); } } RunnerManager *q; QueryMatch deferredRun; RunnerContext context; QTimer matchChangeTimer; QHash runners; QSet searchJobs; QSet oldSearchJobs; // QStringList prioritylist; bool loadAll; KConfigGroup config; }; /***************************************************** * RunnerManager::Public class * *****************************************************/ RunnerManager::RunnerManager(QObject *parent) : QObject(parent), d(new RunnerManagerPrivate(this)) { KConfigGroup config(KGlobal::config(), "PlasmaRunnerManager"); d->loadConfiguration(config); //ThreadWeaver::setDebugLevel(true, 4); } RunnerManager::RunnerManager(KConfigGroup &c, QObject *parent) : QObject(parent), d(new RunnerManagerPrivate(this)) { // Should this be really needed? Maybe d->loadConfiguration(c) would make // more sense. KConfigGroup config(&c, "PlasmaRunnerManager"); d->loadConfiguration(config); //ThreadWeaver::setDebugLevel(true, 4); } RunnerManager::~RunnerManager() { delete d; } void RunnerManager::reloadConfiguration() { d->loadConfiguration(d->config); d->loadRunners(); } AbstractRunner *RunnerManager::runner(const QString &name) const { if (d->runners.isEmpty()) { d->loadRunners(); } return d->runners.value(name, 0); } RunnerContext *RunnerManager::searchContext() const { return &d->context; } //Reordering is here so data is not reordered till strictly needed QList RunnerManager::matches() const { return d->context.matches(); } void RunnerManager::run(const QString &id) { run(d->context.match(id)); } void RunnerManager::run(const QueryMatch &match) { if (!match.isEnabled()) { return; } //TODO: this function is not const as it may be used for learning AbstractRunner *runner = match.runner(); foreach (FindMatchesJob *job, d->searchJobs) { if (job->runner() == runner && !job->isFinished()) { kDebug() << "deferred run"; d->deferredRun = match; return; } } if (d->deferredRun.isValid()) { d->deferredRun = QueryMatch(0); } match.run(d->context); } QList RunnerManager::actionsForMatch(const QueryMatch &match) { AbstractRunner *runner = match.runner(); if (runner) { return runner->actionsForMatch(match); } return QList(); } void RunnerManager::launchQuery(const QString &term) { launchQuery(term, QString()); } void RunnerManager::launchQuery(const QString &term, const QString &runnerName) { if (d->runners.isEmpty()) { d->loadRunners(); } if (term.isEmpty()) { reset(); return; } if (d->context.query() == term) { // we already are searching for this! return; } reset(); // kDebug() << "runners searching for" << term << "on" << runnerName; d->context.setQuery(term); AbstractRunner::List runable; //if the name is not empty we will launch only the specified runner if (!runnerName.isEmpty()) { AbstractRunner *r = runner(runnerName); if (r) { runable.append(r); } } else { runable = d->runners.values(); } foreach (Plasma::AbstractRunner *r, runable) { if ((r->ignoredTypes() & d->context.type()) == 0) { // kDebug() << "launching" << r->name(); FindMatchesJob *job = new FindMatchesJob(r, &d->context, this); connect(job, SIGNAL(done(ThreadWeaver::Job*)), this, SLOT(jobDone(ThreadWeaver::Job*))); Weaver::instance()->enqueue(job); d->searchJobs.insert(job); } } } bool RunnerManager::execQuery(const QString &term) { return execQuery(term, QString()); } bool RunnerManager::execQuery(const QString &term, const QString &runnerName) { if (d->runners.isEmpty()) { d->loadRunners(); } if (term.isEmpty()) { reset(); return false; } if (d->context.query() == term) { // we already are searching for this! emit matchesChanged(d->context.matches()); return false; } reset(); //kDebug() << "executing query about " << term << "on" << runnerName; d->context.setQuery(term); AbstractRunner *r = runner(runnerName); if (!r) { //kDebug() << "failed to find the runner"; return false; } if ((r->ignoredTypes() & d->context.type()) != 0) { //kDebug() << "ignored!"; return false; } RunnerContext localContext(d->context, 0); r->performMatch(localContext); //kDebug() << "succeeded with" << d->context.matches().count() << "results"; emit matchesChanged(d->context.matches()); return true; } QString RunnerManager::query() const { return d->context.query(); } void RunnerManager::reset() { // If ThreadWeaver is idle, it is safe to clear previous jobs if (Weaver::instance()->isIdle()) { qDeleteAll(d->searchJobs); qDeleteAll(d->oldSearchJobs); d->oldSearchJobs.clear(); } else { Weaver::instance()->dequeue(); d->oldSearchJobs += d->searchJobs; } d->searchJobs.clear(); if (d->deferredRun.isEnabled()) { //kDebug() << "job actually done, running now **************"; QueryMatch tmpRun = d->deferredRun; d->deferredRun = QueryMatch(0); tmpRun.run(d->context); } d->context.reset(); } } // Plasma namespace #include "runnermanager.moc"