#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gstqt6gl.h" #include "qt6glrenderer.h" #include "gstqt6glutility.h" #define GST_CAT_DEFAULT gst_qt6_gl_renderer_debug GST_DEBUG_CATEGORY_STATIC (GST_CAT_DEFAULT); static void init_debug (void) { static gsize _debug; if (g_once_init_enter (&_debug)) { GST_DEBUG_CATEGORY_INIT (GST_CAT_DEFAULT, "qt6glrenderer", 0, "Qt6 OpenGL Renderer"); g_once_init_leave (&_debug, 1); } } /* Needs to be based on QWindow otherwise (at least) windows and nvidia * proprietary on linux does not work * We also need to override the size handling to get the correct output size */ class GstQt6BackingSurface : public QWindow { public: GstQt6BackingSurface(); ~GstQt6BackingSurface(); void setSize (int width, int height); QSize size() const override; private: QSize m_size; }; GstQt6BackingSurface::GstQt6BackingSurface() : m_size(QSize()) { /* we do OpenGL things so need an OpenGL surface */ setSurfaceType(QSurface::OpenGLSurface); } GstQt6BackingSurface::~GstQt6BackingSurface() { } QSize GstQt6BackingSurface::size () const { return m_size; } void GstQt6BackingSurface::setSize (int width, int height) { m_size = QSize (width, height); } class GstQt6AnimationDriver : public QAnimationDriver { public: GstQt6AnimationDriver(); void setNextTime(qint64 ms); void advance() override; qint64 elapsed() const override; private: qint64 m_elapsed; qint64 m_next; }; GstQt6AnimationDriver::GstQt6AnimationDriver() : m_elapsed(0), m_next(0) { } void GstQt6AnimationDriver::advance() { m_elapsed = m_next; advanceAnimation(); } qint64 GstQt6AnimationDriver::elapsed() const { return m_elapsed; } void GstQt6AnimationDriver::setNextTime(qint64 ms) { m_next = ms; } typedef enum { STATE_ERROR = -1, STATE_NEW = 0, STATE_WAITING_FOR_WINDOW, STATE_WINDOW_CREATED, STATE_READY, } SharedRenderDataState; struct SharedRenderData { int refcount; SharedRenderDataState state; GMutex lock; GCond cond; GstQt6AnimationDriver *m_animationDriver; QOpenGLContext *m_context; GstQt6BackingSurface *m_surface; QThread *m_renderThread; }; static struct SharedRenderData * shared_render_data_new (void) { struct SharedRenderData *ret = g_new0 (struct SharedRenderData, 1); g_atomic_int_set (&ret->refcount, 1); g_mutex_init (&ret->lock); return ret; } static void shared_render_data_free (struct SharedRenderData * data) { GST_DEBUG ("%p freeing shared render data", data); g_mutex_clear (&data->lock); if (data->m_animationDriver) { data->m_animationDriver->uninstall(); delete data->m_animationDriver; } data->m_animationDriver = nullptr; if (data->m_context) { if (QOpenGLContext::currentContext() == data->m_context) data->m_context->doneCurrent(); delete data->m_context; } data->m_context = nullptr; if (data->m_surface) data->m_surface->deleteLater(); data->m_surface = nullptr; } static struct SharedRenderData * shared_render_data_ref (struct SharedRenderData * data) { GST_TRACE ("%p reffing shared render data", data); g_atomic_int_inc (&data->refcount); return data; } static void shared_render_data_unref (struct SharedRenderData * data) { GST_TRACE ("%p unreffing shared render data", data); if (g_atomic_int_dec_and_test (&data->refcount)) shared_render_data_free (data); } void GstQt6QuickRenderer::deactivateContext () { } void GstQt6QuickRenderer::activateContext () { } struct FBOUserData { GstGLContext * context; QOpenGLFramebufferObject * fbo; }; GstQt6QuickRenderer::GstQt6QuickRenderer() : gl_context(NULL), m_quickWindow(nullptr), m_renderControl(nullptr), m_qmlEngine(nullptr), m_qmlComponent(nullptr), m_rootItem(nullptr), gl_allocator(NULL), gl_params(NULL), gl_mem(NULL), m_sharedRenderData(NULL) { init_debug (); } static gpointer dup_shared_render_data (gpointer data, gpointer user_data) { struct SharedRenderData *render_data = (struct SharedRenderData *) data; if (render_data) return shared_render_data_ref (render_data); return NULL; } class Qt6CreateSurfaceEvent : public QEvent { public: Qt6CreateSurfaceEvent (Qt6CreateSurfaceWorker * worker) : QEvent(Qt6CreateSurfaceEvent::type()) { m_worker = worker; } ~Qt6CreateSurfaceEvent() { GST_TRACE ("%p destroying create surface event", this); delete m_worker; } static QEvent::Type type() { if (customEventType == QEvent::None) { int generatedType = QEvent::registerEventType(); customEventType = static_cast(generatedType); } return customEventType; } private: static QEvent::Type customEventType; Qt6CreateSurfaceWorker *m_worker; }; QEvent::Type Qt6CreateSurfaceEvent::customEventType = QEvent::None; Qt6CreateSurfaceWorker::Qt6CreateSurfaceWorker (struct SharedRenderData * rdata) { m_sharedRenderData = shared_render_data_ref (rdata); } Qt6CreateSurfaceWorker::~Qt6CreateSurfaceWorker () { shared_render_data_unref (m_sharedRenderData); } bool Qt6CreateSurfaceWorker::event(QEvent * ev) { if (ev->type() == Qt6CreateSurfaceEvent::type()) { GST_TRACE ("%p creating surface", m_sharedRenderData); /* create the window surface in the main thread */ g_mutex_lock (&m_sharedRenderData->lock); m_sharedRenderData->m_surface = new GstQt6BackingSurface; m_sharedRenderData->m_surface->create(); GST_TRACE ("%p created surface %p", m_sharedRenderData, m_sharedRenderData->m_surface); g_cond_broadcast (&m_sharedRenderData->cond); g_mutex_unlock (&m_sharedRenderData->lock); } return QObject::event(ev); } bool GstQt6QuickRenderer::init (GstGLContext * context, GError ** error) { g_return_val_if_fail (GST_IS_GL_CONTEXT (context), false); g_return_val_if_fail (gst_gl_context_get_current () == context, false); QOpenGLContext *qt_native_context = qt6_opengl_native_context_from_gst_gl_context (context); if (!qt_native_context) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, "Could not convert from the provided GstGLContext to a Qt " "native context"); return false; } struct SharedRenderData *render_data = NULL, *old_render_data; do { if (render_data) shared_render_data_unref (render_data); old_render_data = render_data = (struct SharedRenderData *) g_object_dup_data (G_OBJECT (context), "qt.gl.render.shared.data", dup_shared_render_data, NULL); if (!render_data) render_data = shared_render_data_new (); } while (old_render_data != render_data && !g_object_replace_data (G_OBJECT (context), "qt.gl.render.shared.data", old_render_data, render_data, NULL, NULL)); m_sharedRenderData = render_data; GST_TRACE ("%p retrieved shared render data %p", this, m_sharedRenderData); g_mutex_lock (&m_sharedRenderData->lock); if (m_sharedRenderData->state == STATE_ERROR) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, "In an error state from a previous attempt"); g_mutex_unlock (&m_sharedRenderData->lock); return false; } if (m_sharedRenderData->state != STATE_READY) { /* this state handling and locking is so that two qtglrenderer's will * not attempt to create an OpenGL context without freeing the previous * OpenGL context and cause a leak. It also only allows one * CreateSurfaceEvent() to be posted to the main thread * (QCoreApplication::instance()->thread()) while still allowing * multiple waiters to wait for the window to be created */ if (m_sharedRenderData->state == STATE_NEW) { QCoreApplication *app = QCoreApplication::instance (); if (!app) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, "Could not retrieve QCoreApplication instance"); m_sharedRenderData->state = STATE_ERROR; g_mutex_unlock (&m_sharedRenderData->lock); return false; } m_sharedRenderData->m_renderThread = QThread::currentThread(); m_sharedRenderData->m_context = qt_native_context; GST_TRACE ("%p new QOpenGLContext %p", this, m_sharedRenderData->m_context); Qt6CreateSurfaceWorker *w = new Qt6CreateSurfaceWorker (m_sharedRenderData); GST_TRACE ("%p posting create surface event to main thread with " "worker %p", this, w); w->moveToThread (app->thread()); app->postEvent (w, new Qt6CreateSurfaceEvent (w)); m_sharedRenderData->state = STATE_WAITING_FOR_WINDOW; } if (m_sharedRenderData->state == STATE_WAITING_FOR_WINDOW) { gint64 end_time = g_get_monotonic_time () + 5 * G_TIME_SPAN_SECOND; while (!m_sharedRenderData->m_surface) { /* XXX: This might deadlock with the main thread if the * QCoreApplication is not running and will not be able to * execute. We only wait for 5 seconds until a better * approach can be found here */ if (!g_cond_wait_until (&m_sharedRenderData->cond, &m_sharedRenderData->lock, end_time)) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, "Could not create Qt window within 5 seconds"); m_sharedRenderData->state = STATE_ERROR; g_mutex_unlock (&m_sharedRenderData->lock); return false; } } GST_TRACE ("%p surface successfully created", this); m_sharedRenderData->state = STATE_WINDOW_CREATED; } if (m_sharedRenderData->state == STATE_WINDOW_CREATED) { /* Qt does some things that may require the OpenGL context current * in ->create() so that it has the necessry information to create * the QOpenGLContext from the native handle. This may fail if the * OpenGL context is already current in another thread so we need * to deactivate the context from GStreamer's thread before asking * Qt to create the QOpenGLContext with ->create(). */ gst_gl_context_activate (context, FALSE); //m_sharedRenderData->m_context->create(); //m_sharedRenderData->m_context->doneCurrent(); if (!m_sharedRenderData->m_context->makeCurrent(m_sharedRenderData->m_surface)) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, "Could not make Qt OpenGL context current"); /* try to keep the same OpenGL context state */ gst_gl_context_activate (context, TRUE); m_sharedRenderData->state = STATE_ERROR; g_mutex_unlock (&m_sharedRenderData->lock); return false; } if (!gst_gl_context_activate (context, TRUE)) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, "Could not make GStreamer OpenGL context current again"); m_sharedRenderData->state = STATE_ERROR; g_mutex_unlock (&m_sharedRenderData->lock); return false; } m_sharedRenderData->state = STATE_READY; } } m_renderControl = new QQuickRenderControl(); /* Create a QQuickWindow that is associated with our render control. Note that this * window never gets created or shown, meaning that it will never get an underlying * native (platform) window. */ m_quickWindow = new QQuickWindow(m_renderControl); m_quickWindow->setGraphicsDevice(QQuickGraphicsDevice::fromOpenGLContext(qt_native_context)); /* after QQuickWindow creation as QQuickRenderControl requires it */ m_renderControl->prepareThread (m_sharedRenderData->m_renderThread); g_mutex_unlock (&m_sharedRenderData->lock); /* Create a QML engine. */ m_qmlEngine = new QQmlEngine; if (!m_qmlEngine->incubationController()) m_qmlEngine->setIncubationController(m_quickWindow->incubationController()); /* TODO: use buffer pool */ gl_context = static_cast(gst_object_ref (context)); gl_allocator = (GstGLBaseMemoryAllocator *) gst_gl_memory_allocator_get_default (gl_context); gl_params = (GstGLAllocationParams *) gst_gl_video_allocation_params_new (gl_context, NULL, &this->v_info, 0, NULL, GST_GL_TEXTURE_TARGET_2D, GST_GL_RGBA8); /* This is a gross hack relying on the internals of Qt and GStreamer * however it's the only way to remove this warning on shutdown of all * resources. * * GLib-CRITICAL **: 17:35:24.988: g_main_context_pop_thread_default: assertion 'g_queue_peek_head (stack) == context' failed * * The reason is that libgstgl has a GMainContext that it pushes as the * thread default context. Then later, Qt pushes a thread default main * context. The detruction order of the GMainContext's is reversed as * GStreamer will explicitly pop the thread default main context however * Qt pops when the thread is about to be destroyed. GMainContext is * unhappy with the ordering of the pops. */ GMainContext *gst_main_context = g_main_context_ref_thread_default (); /* make Qt allocate and push a thread-default GMainContext if it is * going to */ QEventLoop loop; if (loop.processEvents()) GST_LOG ("pending QEvents processed"); GMainContext *qt_main_context = g_main_context_ref_thread_default (); if (qt_main_context == gst_main_context) { g_main_context_unref (qt_main_context); g_main_context_unref (gst_main_context); } else { /* We flip the order of the GMainContext's so that the destruction * order can be preserved. */ g_main_context_pop_thread_default (qt_main_context); g_main_context_pop_thread_default (gst_main_context); g_main_context_push_thread_default (qt_main_context); g_main_context_push_thread_default (gst_main_context); g_main_context_unref (qt_main_context); g_main_context_unref (gst_main_context); } return true; } GstQt6QuickRenderer::~GstQt6QuickRenderer() { gst_gl_allocation_params_free (gl_params); gst_clear_object (&gl_allocator); } void GstQt6QuickRenderer::stopGL () { QOpenGLContext *current_qt_context = QOpenGLContext::currentContext(); GST_DEBUG ("%p stop QOpenGLContext current: %p stored: %p", this, current_qt_context, m_sharedRenderData->m_context); /* Invalidating the renderer will cause Qt6 to clear the current qt-tracked OpenGL context. * We however may be using the QOpenGLContext for multiple qml6gloverlay * elements so need to recurrent it */ if (current_qt_context) g_assert (current_qt_context == m_sharedRenderData->m_context); else m_sharedRenderData->m_context->makeCurrent(m_sharedRenderData->m_surface); if (m_renderControl) m_renderControl->invalidate(); GST_ERROR ("%p %p", this, QOpenGLContext::currentContext()); QEventLoop loop; if (loop.processEvents()) GST_LOG ("%p pending QEvents processed", this); } void GstQt6QuickRenderer::stopAfterGL () { GST_DEBUG ("%p stop QOpenGLContext curent: %p stored: %p", this, QOpenGLContext::currentContext(), m_sharedRenderData->m_context); g_assert (QOpenGLContext::currentContext() == nullptr); if (!m_sharedRenderData->m_context->makeCurrent(m_sharedRenderData->m_surface)) g_warn_if_reached(); if (m_sharedRenderData) shared_render_data_unref (m_sharedRenderData); m_sharedRenderData = NULL; /* XXX: reset the OpenGL context and drawable as Qt may have clobbered it. * Fixes any attempt to access OpenGL after shutting down qmlgloverlay. */ gst_gl_context_activate (gl_context, FALSE); gst_gl_context_activate (gl_context, TRUE); } void GstQt6QuickRenderer::cleanup() { if (gl_context) gst_gl_context_thread_add (gl_context, (GstGLContextThreadFunc) GstQt6QuickRenderer::stop_c, this); /* Delete the render control first since it will free the scenegraph resources. * Destroy the QQuickWindow only afterwards. */ if (m_renderControl) delete m_renderControl; m_renderControl = nullptr; if (m_qmlComponent) delete m_qmlComponent; m_qmlComponent = nullptr; if (m_quickWindow) delete m_quickWindow; m_quickWindow = nullptr; if (m_qmlEngine) delete m_qmlEngine; m_qmlEngine = nullptr; if (m_rootItem) delete m_rootItem; m_rootItem = nullptr; if (gl_context) gst_gl_context_thread_add (gl_context, (GstGLContextThreadFunc) GstQt6QuickRenderer::stop_after_c, this); gst_clear_object (&gl_context); } static QSize gl_params_get_QSize(GstGLAllocationParams * gl_params) { GstGLVideoAllocationParams * gl_vid_params = (GstGLVideoAllocationParams *) gl_params; if (!gl_vid_params) return QSize (0, 0); return QSize(GST_VIDEO_INFO_WIDTH (gl_vid_params->v_info), GST_VIDEO_INFO_HEIGHT(gl_vid_params->v_info)); } void GstQt6QuickRenderer::renderGstGL () { // const GstGLFuncs *gl = gl_context->gl_vtable; GST_TRACE ("%p current QOpenGLContext %p", this, QOpenGLContext::currentContext()); m_sharedRenderData->m_animationDriver->advance(); QEventLoop loop; if (loop.processEvents()) GST_LOG ("pending QEvents processed"); loop.exit(); if (gl_params && gl_params_get_QSize(gl_params) != m_sharedRenderData->m_surface->size()) { gst_gl_allocation_params_free(gl_params); gl_params = NULL; } if (!gl_params) gl_params = (GstGLAllocationParams *) gst_gl_video_allocation_params_new (gl_context, NULL, &this->v_info, 0, NULL, GST_GL_TEXTURE_TARGET_2D, GST_GL_RGBA8); gl_mem = (GstGLMemory *) gst_gl_base_memory_alloc (gl_allocator, gl_params); m_quickWindow->setRenderTarget(QQuickRenderTarget::fromOpenGLTexture(gst_gl_memory_get_texture_id (gl_mem), gl_params_get_QSize(gl_params))); m_renderControl->beginFrame(); if (m_renderControl->sync()) GST_LOG ("sync successful"); m_renderControl->render(); m_renderControl->endFrame(); /* Qt doesn't seem to reset this, breaking glimagesink */ // if (gl->DrawBuffer) // gl->DrawBuffer (GL_BACK); } GstGLMemory *GstQt6QuickRenderer::generateOutput(GstClockTime input_ns) { m_sharedRenderData->m_animationDriver->setNextTime(input_ns / GST_MSECOND); /* run an event loop to update any changed values for rendering */ QEventLoop loop; if (loop.processEvents()) GST_LOG ("pending QEvents processed"); GST_LOG ("generating output for time %" GST_TIME_FORMAT " ms: %" G_GUINT64_FORMAT, GST_TIME_ARGS (input_ns), input_ns / GST_MSECOND); m_quickWindow->update(); /* Polishing happens on the gui thread. */ m_renderControl->polishItems(); /* TODO: an async version could be used instead */ gst_gl_context_thread_add (gl_context, (GstGLContextThreadFunc) GstQt6QuickRenderer::render_gst_gl_c, this); GstGLMemory *tmp = gl_mem; gl_mem = NULL; return tmp; } void GstQt6QuickRenderer::initializeGstGL () { GST_TRACE ("current QOpenGLContext %p", QOpenGLContext::currentContext()); if (!m_sharedRenderData->m_context->makeCurrent(m_sharedRenderData->m_surface)) { m_errorString = "Failed to make Qt's wrapped OpenGL context current"; return; } GST_INFO ("current QOpenGLContext %p", QOpenGLContext::currentContext()); /* XXX: Avoid an assertion inside QSGDefaultRenderContext::initialize() * from an unused (in this scenario) property when using multiple * QQuickRenderControl's with the same QOpenGLContext. * * First noticed with Qt 5.15. Idea from: * https://forum.qt.io/topic/55888/is-it-impossible-that-2-qquickrendercontrol-use-same-qopenglcontext/2 * * ASSERT: "!m_gl->property(QSG_RENDERCONTEXT_PROPERTY).isValid()" in file /path/to/qt5/qtdeclarative/src/quick/scenegraph/qsgdefaultrendercontext.cpp, line 121 */ //m_sharedRenderData->m_context->setProperty("_q_sgrendercontext", QVariant()); m_renderControl->initialize(); /* 1. QAnimationDriver's are thread-specific * 2. QAnimationDriver controls the 'animation time' that the Qml scene is * rendered at */ /* FIXME: what happens with multiple qmlgloverlay elements? Do we need a * shared animation driver? */ g_mutex_lock (&m_sharedRenderData->lock); if (m_sharedRenderData->m_animationDriver == nullptr) { m_sharedRenderData->m_animationDriver = new GstQt6AnimationDriver; m_sharedRenderData->m_animationDriver->install(); } g_mutex_unlock (&m_sharedRenderData->lock); /* XXX: reset the OpenGL context drawable as Qt may have clobbered it. * Fixes glimagesink output where Qt replaces the Surface to use in its * own MakeCurrent call. Qt does this on it's OpenGL initialisation * the the rendering engine. */ gst_gl_context_activate (gl_context, FALSE); gst_gl_context_activate (gl_context, TRUE); } void GstQt6QuickRenderer::initializeQml() { disconnect(m_qmlComponent, &QQmlComponent::statusChanged, this, &GstQt6QuickRenderer::initializeQml); if (m_qmlComponent->isError()) { const QList errorList = m_qmlComponent->errors(); for (const QQmlError &error : errorList) m_errorString += error.toString(); return; } QObject *rootObject = m_qmlComponent->create(); if (m_qmlComponent->isError()) { const QList errorList = m_qmlComponent->errors(); for (const QQmlError &error : errorList) m_errorString += error.toString(); delete rootObject; return; } m_rootItem = qobject_cast(rootObject); if (!m_rootItem) { m_errorString += "root QML item is not a QQuickItem"; delete rootObject; return; } /* The root item is ready. Associate it with the window. */ m_rootItem->setParentItem(m_quickWindow->contentItem()); /* Update item and rendering related geometries. */ updateSizes(); /* Initialize the render control and our OpenGL resources. */ gst_gl_context_thread_add (gl_context, (GstGLContextThreadFunc) GstQt6QuickRenderer::initialize_gst_gl_c, this); } void GstQt6QuickRenderer::updateSizes() { GstQt6BackingSurface *surface = static_cast(m_sharedRenderData->m_surface); /* Behave like SizeRootObjectToView. */ QSize size = surface->size(); m_rootItem->setWidth(size.width()); m_rootItem->setHeight(size.height()); m_quickWindow->setGeometry(0, 0, size.width(), size.height()); gst_video_info_set_format (&v_info, GST_VIDEO_FORMAT_RGBA, size.width(), size.height()); GstGLVideoAllocationParams *params = (GstGLVideoAllocationParams *) (gl_params); gst_video_info_set_format (params->v_info, GST_VIDEO_FORMAT_RGBA, size.width(), size.height()); } void GstQt6QuickRenderer::setSize(int w, int h) { static_cast(m_sharedRenderData->m_surface)->setSize(w, h); updateSizes(); } bool GstQt6QuickRenderer::setQmlScene (const gchar * scene, GError ** error) { /* replacing the scene is not supported */ g_return_val_if_fail (m_qmlComponent == NULL, false); m_errorString = ""; m_qmlComponent = new QQmlComponent(m_qmlEngine); /* XXX: do we need to provide a propper base name? */ m_qmlComponent->setData(QByteArray (scene), QUrl("")); if (m_qmlComponent->isLoading()) /* TODO: handle async properly */ connect(m_qmlComponent, &QQmlComponent::statusChanged, this, &GstQt6QuickRenderer::initializeQml); else initializeQml(); if (m_errorString != "") { QByteArray string = m_errorString.toUtf8(); g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_SETTINGS, "%s", string.constData()); return FALSE; } return TRUE; } QQuickItem * GstQt6QuickRenderer::rootItem() const { return m_rootItem; }