kwin/plugins/platforms/drm/drm_object_crtc.cpp

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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2016 Roman Gilg <subdiff@gmail.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, 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 General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
#include "drm_object_crtc.h"
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
#include "drm_backend.h"
#include "drm_output.h"
#include "drm_buffer.h"
#include "logging.h"
[colorcorrection] Night Color - blue light filter at nighttime With Wayland KWin needs to provide certain services, which were provided before that by the Xserver. One of these is gamma correction, which includes the - by many people beloved - functionality to reduce the blue light at nighttime. This patch provides the KWin part of that. It is self contained, but in the end will work in tandem with a lib in Plasma Workspace and a KCM in Plasma Desktop, which can be used to configure Night Color. * Three modi: ** Automatic: The location and sun timings are determined automatically (location data updates will be provided by the workspace) ** Location: The sun timings are determined by fixed location data ** Timings: The sun timings are set manually by the user * Color temperature value changes are smoothly applied: ** Configuration changes, which lead to other current values are changed in a quick way over a few seconds ** Changes on sunrise and sunset are applied slowly over the course of few minutes till several hours depending on the configuration * The current color value is set immediately at startup or after suspend phases and VT switches. There is no flickering. * All configuration is done via a DBus interface, changed values are tested on correctness and applied atomically * Self contained mechanism, speaks directly to the hardware by setting the gamma ramps on the CRTC * Currently working on DRM backend, extensible to other platform backends in the future * The code is written in a way to make the classes later easily extendable to also provide normal color correction, as it's currently done by KGamma on X Test Plan: Manually with the workspace parts and added integration tests in KWin using the virtual backend. BUG:371494 Reviewers: #kwin, graesslin Subscribers: kwin, plasma-devel, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5928
2017-12-11 09:43:12 +00:00
#include <colorcorrection/gammaramp.h>
namespace KWin
{
DrmCrtc::DrmCrtc(uint32_t crtc_id, DrmBackend *backend, int resIndex)
: DrmObject(crtc_id, backend->fd()),
m_resIndex(resIndex),
m_backend(backend)
{
[colorcorrection] Night Color - blue light filter at nighttime With Wayland KWin needs to provide certain services, which were provided before that by the Xserver. One of these is gamma correction, which includes the - by many people beloved - functionality to reduce the blue light at nighttime. This patch provides the KWin part of that. It is self contained, but in the end will work in tandem with a lib in Plasma Workspace and a KCM in Plasma Desktop, which can be used to configure Night Color. * Three modi: ** Automatic: The location and sun timings are determined automatically (location data updates will be provided by the workspace) ** Location: The sun timings are determined by fixed location data ** Timings: The sun timings are set manually by the user * Color temperature value changes are smoothly applied: ** Configuration changes, which lead to other current values are changed in a quick way over a few seconds ** Changes on sunrise and sunset are applied slowly over the course of few minutes till several hours depending on the configuration * The current color value is set immediately at startup or after suspend phases and VT switches. There is no flickering. * All configuration is done via a DBus interface, changed values are tested on correctness and applied atomically * Self contained mechanism, speaks directly to the hardware by setting the gamma ramps on the CRTC * Currently working on DRM backend, extensible to other platform backends in the future * The code is written in a way to make the classes later easily extendable to also provide normal color correction, as it's currently done by KGamma on X Test Plan: Manually with the workspace parts and added integration tests in KWin using the virtual backend. BUG:371494 Reviewers: #kwin, graesslin Subscribers: kwin, plasma-devel, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5928
2017-12-11 09:43:12 +00:00
ScopedDrmPointer<_drmModeCrtc, &drmModeFreeCrtc> modeCrtc(drmModeGetCrtc(backend->fd(), crtc_id));
if (modeCrtc) {
m_gammaRampSize = modeCrtc->gamma_size;
}
}
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
DrmCrtc::~DrmCrtc()
{
}
bool DrmCrtc::atomicInit()
{
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
qCDebug(KWIN_DRM) << "Atomic init for CRTC:" << resIndex() << "id:" << m_id;
if (!initProps()) {
return false;
}
return true;
}
bool DrmCrtc::initProps()
{
setPropertyNames({
QByteArrayLiteral("MODE_ID"),
QByteArrayLiteral("ACTIVE"),
});
drmModeObjectProperties *properties = drmModeObjectGetProperties(fd(), m_id, DRM_MODE_OBJECT_CRTC);
if (!properties) {
qCWarning(KWIN_DRM) << "Failed to get properties for crtc " << m_id ;
return false;
}
int propCount = int(PropertyIndex::Count);
for (int j = 0; j < propCount; ++j) {
initProp(j, properties);
}
drmModeFreeObjectProperties(properties);
return true;
}
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
void DrmCrtc::flipBuffer()
{
if (m_currentBuffer && m_backend->deleteBufferAfterPageFlip() && m_currentBuffer != m_nextBuffer) {
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
delete m_currentBuffer;
}
m_currentBuffer = m_nextBuffer;
m_nextBuffer = nullptr;
delete m_blackBuffer;
m_blackBuffer = nullptr;
}
bool DrmCrtc::blank()
{
if (!m_output) {
return false;
}
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
if (!m_blackBuffer) {
DrmDumbBuffer *blackBuffer = m_backend->createBuffer(m_output->pixelSize());
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
if (!blackBuffer->map()) {
delete blackBuffer;
return false;
}
blackBuffer->image()->fill(Qt::black);
m_blackBuffer = blackBuffer;
}
if (m_output->setModeLegacy(m_blackBuffer)) {
if (m_currentBuffer && m_backend->deleteBufferAfterPageFlip()) {
[DRM plugin] Remember static kernel objects, amplify use of DrmCrtc To get an image from KWin to the screen in the DRM pipeline we combine a CRTC, an encoder and a connector. These objects are static in the sense, that they represent real hardware on the graphics card, which doesn't change in a session. See here for more details: https://01.org/linuxgraphics/gfx-docs/drm/gpu/drm-kms.html Until now we used DrmOutput as the main representation for such an active rendering pipeline. I.e. it gets created and destroyed on hot plug events of displays. On the other side we had no fixed representation of the static kernel objects throughout the lifetime of KWin. This has several disadvantages: * We always need to query all available static objects on an hot plug event. * We can't manipulate the frame buffer of a CRTC after an output has been disconnected * Adding functionality for driving multiple displays on a single CRTC (i.e. cloning) would be difficult * We can't destroy the last frame buffer on display disconnect because the CRTC still accesses it and have therefore a memory leak on every display disconnect This patch solves these issues by storing representations of all available CRTC and Connector objects in DrmBackend on init via DrmCrtc and DrmConnector instances. On an hotplug event these vectors are looped for a fitting CRTC and Connector combinations. Buffer handling is moved to the respective CRTC instance. All changes in overview: * Query all available CRTCs and Connectors and save for subsequent hotplug events * Fix logic errors in `queryResources()` * Move framebuffers, buffer flip and blank logic in DrmCrtc * Remove `restoreSaved()`. It isn't necessary and is dangerous if the old framebuffer was deleted in the meantime. Also could reveal sensitive user info from old session. Test Plan: Login, logout, VT switching, connect and disconnect external monitor, energy saving mode. Reviewers: #kwin Subscribers: kwin, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5118
2017-05-09 18:02:49 +00:00
delete m_currentBuffer;
delete m_nextBuffer;
}
m_currentBuffer = nullptr;
m_nextBuffer = nullptr;
return true;
}
return false;
}
[colorcorrection] Night Color - blue light filter at nighttime With Wayland KWin needs to provide certain services, which were provided before that by the Xserver. One of these is gamma correction, which includes the - by many people beloved - functionality to reduce the blue light at nighttime. This patch provides the KWin part of that. It is self contained, but in the end will work in tandem with a lib in Plasma Workspace and a KCM in Plasma Desktop, which can be used to configure Night Color. * Three modi: ** Automatic: The location and sun timings are determined automatically (location data updates will be provided by the workspace) ** Location: The sun timings are determined by fixed location data ** Timings: The sun timings are set manually by the user * Color temperature value changes are smoothly applied: ** Configuration changes, which lead to other current values are changed in a quick way over a few seconds ** Changes on sunrise and sunset are applied slowly over the course of few minutes till several hours depending on the configuration * The current color value is set immediately at startup or after suspend phases and VT switches. There is no flickering. * All configuration is done via a DBus interface, changed values are tested on correctness and applied atomically * Self contained mechanism, speaks directly to the hardware by setting the gamma ramps on the CRTC * Currently working on DRM backend, extensible to other platform backends in the future * The code is written in a way to make the classes later easily extendable to also provide normal color correction, as it's currently done by KGamma on X Test Plan: Manually with the workspace parts and added integration tests in KWin using the virtual backend. BUG:371494 Reviewers: #kwin, graesslin Subscribers: kwin, plasma-devel, #kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D5928
2017-12-11 09:43:12 +00:00
bool DrmCrtc::setGammaRamp(ColorCorrect::GammaRamp &gamma) {
bool isError = drmModeCrtcSetGamma(m_backend->fd(), m_id, gamma.size,
gamma.red, gamma.green, gamma.blue);
return !isError;
}
}