/* KWin - the KDE window manager This file is part of the KDE project. SPDX-FileCopyrightText: 2016 Roman Gilg SPDX-License-Identifier: GPL-2.0-or-later */ #include "drm_object_plane.h" #include "drm_buffer.h" #include "drm_pointer.h" #include "logging.h" namespace KWin { DrmPlane::DrmPlane(uint32_t plane_id, int fd) : DrmObject(plane_id, fd) { } DrmPlane::~DrmPlane() { delete m_current; delete m_next; } bool DrmPlane::atomicInit() { qCDebug(KWIN_DRM) << "Atomic init for plane:" << m_id; DrmScopedPointer p(drmModeGetPlane(fd(), m_id)); if (!p) { qCWarning(KWIN_DRM) << "Failed to get kernel plane" << m_id; return false; } m_possibleCrtcs = p->possible_crtcs; int count_formats = p->count_formats; m_formats.resize(count_formats); for (int i = 0; i < count_formats; i++) { m_formats[i] = p->formats[i]; } if (!initProps()) { return false; } return true; } bool DrmPlane::atomicPopulate(drmModeAtomicReq *req) const { return doAtomicPopulate(req, 1); } bool DrmPlane::initProps() { setPropertyNames( { QByteArrayLiteral("type"), QByteArrayLiteral("SRC_X"), QByteArrayLiteral("SRC_Y"), QByteArrayLiteral("SRC_W"), QByteArrayLiteral("SRC_H"), QByteArrayLiteral("CRTC_X"), QByteArrayLiteral("CRTC_Y"), QByteArrayLiteral("CRTC_W"), QByteArrayLiteral("CRTC_H"), QByteArrayLiteral("FB_ID"), QByteArrayLiteral("CRTC_ID"), QByteArrayLiteral("rotation") }); QVector typeNames = { QByteArrayLiteral("Overlay"), QByteArrayLiteral("Primary"), QByteArrayLiteral("Cursor") }; const QVector rotationNames{ QByteArrayLiteral("rotate-0"), QByteArrayLiteral("rotate-90"), QByteArrayLiteral("rotate-180"), QByteArrayLiteral("rotate-270"), QByteArrayLiteral("reflect-x"), QByteArrayLiteral("reflect-y") }; DrmScopedPointer properties( drmModeObjectGetProperties(fd(), m_id, DRM_MODE_OBJECT_PLANE)); if (!properties){ qCWarning(KWIN_DRM) << "Failed to get properties for plane " << m_id ; return false; } int propCount = int(PropertyIndex::Count); for (int j = 0; j < propCount; ++j) { if (j == int(PropertyIndex::Type)) { initProp(j, properties.data(), typeNames); } else if (j == int(PropertyIndex::Rotation)) { initProp(j, properties.data(), rotationNames); m_supportedTransformations = Transformations(); auto checkSupport = [j, this] (uint64_t value, Transformation t) { if (propHasEnum(j, value)) { m_supportedTransformations |= t; } }; checkSupport(0, Transformation::Rotate0); checkSupport(1, Transformation::Rotate90); checkSupport(2, Transformation::Rotate180); checkSupport(3, Transformation::Rotate270); checkSupport(4, Transformation::ReflectX); checkSupport(5, Transformation::ReflectY); qCDebug(KWIN_DRM) << "Supported Transformations on plane" << m_id << "are" << m_supportedTransformations; } else { initProp(j, properties.data()); } } return true; } DrmPlane::TypeIndex DrmPlane::type() { auto property = m_props.at(int(PropertyIndex::Type)); if (!property) { return TypeIndex::Overlay; } int typeCount = int(TypeIndex::Count); for (int i = 0; i < typeCount; i++) { if (property->enumMap(i) == property->value()) { return TypeIndex(i); } } return TypeIndex::Overlay; } void DrmPlane::setNext(DrmBuffer *b) { if (auto property = m_props.at(int(PropertyIndex::FbId))) { property->setValue(b ? b->bufferId() : 0); } m_next = b; } void DrmPlane::setTransformation(Transformations t) { // TODO: When being pedantic, this should go through the enum mapping. Just remember // that these are the shift distance, not the shifted value. if (auto property = m_props.at(int(PropertyIndex::Rotation))) { property->setValue(int(t)); } } DrmPlane::Transformations DrmPlane::transformation() { if (auto property = m_props.at(int(PropertyIndex::Rotation))) { return Transformations(int(property->value())); } return Transformations(Transformation::Rotate0); } void DrmPlane::flipBuffer() { m_current = m_next; m_next = nullptr; } void DrmPlane::flipBufferWithDelete() { if (m_current != m_next) { delete m_current; } flipBuffer(); } }