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230 lines
10 KiB
230 lines
10 KiB
=======
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drm-kms
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=======
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-------------------
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Kernel Mode-Setting
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-------------------
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:Date: September 2012
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:Manual section: 7
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:Manual group: Direct Rendering Manager
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Synopsis
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========
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``#include <xf86drm.h>``
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``#include <xf86drmMode.h>``
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Description
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===========
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Each DRM device provides access to manage which monitors and displays are
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currently used and what frames to be displayed. This task is called *Kernel
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Mode-Setting* (KMS). Historically, this was done in user-space and called
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*User-space Mode-Setting* (UMS). Almost all open-source drivers now provide the
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KMS kernel API to do this in the kernel, however, many non-open-source binary
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drivers from different vendors still do not support this. You can use
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**drmModeSettingSupported**\ (3) to check whether your driver supports this. To
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understand how KMS works, we need to introduce 5 objects: *CRTCs*, *Planes*,
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*Encoders*, *Connectors* and *Framebuffers*.
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CRTCs
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A *CRTC* short for *CRT Controller* is an abstraction representing a part of
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the chip that contains a pointer to a scanout buffer. Therefore, the number
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of CRTCs available determines how many independent scanout buffers can be
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active at any given time. The CRTC structure contains several fields to
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support this: a pointer to some video memory (abstracted as a frame-buffer
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object), a list of driven connectors, a display mode and an (x, y) offset
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into the video memory to support panning or configurations where one piece
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of video memory spans multiple CRTCs. A CRTC is the central point where
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configuration of displays happens. You select which objects to use, which
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modes and which parameters and then configure each CRTC via
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**drmModeCrtcSet**\ (3) to drive the display devices.
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Planes
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A *plane* respresents an image source that can be blended with or overlayed
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on top of a CRTC during the scanout process. Planes are associated with a
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frame-buffer to crop a portion of the image memory (source) and optionally
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scale it to a destination size. The result is then blended with or overlayed
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on top of a CRTC. Planes are not provided by all hardware and the number of
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available planes is limited. If planes are not available or if not enough
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planes are available, the user should fall back to normal software blending
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(via GPU or CPU).
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Encoders
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An *encoder* takes pixel data from a CRTC and converts it to a format
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suitable for any attached connectors. On some devices, it may be possible to
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have a CRTC send data to more than one encoder. In that case, both encoders
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would receive data from the same scanout buffer, resulting in a *cloned*
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display configuration across the connectors attached to each encoder.
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Connectors
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A *connector* is the final destination of pixel-data on a device, and
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usually connects directly to an external display device like a monitor or
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laptop panel. A connector can only be attached to one encoder at a time. The
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connector is also the structure where information about the attached display
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is kept, so it contains fields for display data, *EDID* data, *DPMS* and
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*connection status*, and information about modes supported on the attached
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displays.
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Framebuffers
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*Framebuffers* are abstract memory objects that provide a source of pixel
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data to scanout to a CRTC. Applications explicitly request the creation of
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framebuffers and can control their behavior. Framebuffers rely on the
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underneath memory manager for low-level memory operations. When creating a
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framebuffer, applications pass a memory handle through the API which is used
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as backing storage. The framebuffer itself is only an abstract object with
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no data. It just refers to memory buffers that must be created with the
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**drm-memory**\ (7) API.
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Mode-Setting
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------------
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Before mode-setting can be performed, an application needs to call
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**drmSetMaster**\ (3) to become *DRM-Master*. It then has exclusive access to
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the KMS API. A call to **drmModeGetResources**\ (3) returns a list of *CRTCs*,
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*Connectors*, *Encoders* and *Planes*.
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Normal procedure now includes: First, you select which connectors you want to
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use. Users are mostly interested in which monitor or display-panel is active so
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you need to make sure to arrange them in the correct logical order and select
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the correct ones to use. For each connector, you need to find a CRTC to drive
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this connector. If you want to clone output to two or more connectors, you may
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use a single CRTC for all cloned connectors (if the hardware supports this). To
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find a suitable CRTC, you need to iterate over the list of encoders that are
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available for each connector. Each encoder contains a list of CRTCs that it can
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work with and you simply select one of these CRTCs. If you later program the
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CRTC to control a connector, it automatically selects the best encoder.
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However, this procedure is needed so your CRTC has at least one working encoder
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for the selected connector. See the *Examples* section below for more
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information.
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All valid modes for a connector can be retrieved with a call to
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drmModeGetConnector3 You need to select the mode you want to use and save it.
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The first mode in the list is the default mode with the highest resolution
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possible and often a suitable choice.
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After you have a working connector+CRTC+mode combination, you need to create a
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framebuffer that is used for scanout. Memory buffer allocation is
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driver-depedent and described in **drm-memory**\ (7). You need to create a
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buffer big enough for your selected mode. Now you can create a framebuffer
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object that uses your memory-buffer as scanout buffer. You can do this with
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**drmModeAddFB**\ (3) and **drmModeAddFB2**\ (3).
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As a last step, you want to program your CRTC to drive your selected connector.
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You can do this with a call to **drmModeSetCrtc**\ (3).
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Page-Flipping
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-------------
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A call to **drmModeSetCrtc**\ (3) is executed immediately and forces the CRTC
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to use the new scanout buffer. If you want smooth-transitions without tearing,
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you probably use double-buffering. You need to create one framebuffer object
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for each buffer you use. You can then call **drmModeSetCrtc**\ (3) on the next
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buffer to flip. If you want to synchronize your flips with *vertical-blanks*,
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you can use **drmModePageFlip**\ (3) which schedules your page-flip for the
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next *vblank*.
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Planes
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------
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Planes are controlled independently from CRTCs. That is, a call to
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**drmModeSetCrtc**\ (3) does not affect planes. Instead, you need to call
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**drmModeSetPlane**\ (3) to configure a plane. This requires the plane ID, a
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CRTC, a framebuffer and offsets into the plane-framebuffer and the
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CRTC-framebuffer. The CRTC then blends the content from the plane over the CRTC
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framebuffer buffer during scanout. As this does not involve any
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software-blending, it is way faster than traditional blending. However, plane
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resources are limited. See **drmModeGetPlaneResources**\ (3) for more
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information.
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Cursors
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-------
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Similar to planes, many hardware also supports cursors. A cursor is a very
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small buffer with an image that is blended over the CRTC framebuffer. You can
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set a different cursor for each CRTC with **drmModeSetCursor**\ (3) and move it
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on the screen with **drmModeMoveCursor**\ (3). This allows to move the cursor
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on the screen without rerendering. If no hardware cursors are supported, you
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need to rerender for each frame the cursor is moved.
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Examples
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========
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Some examples of how basic mode-setting can be done. See the man-page of each
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DRM function for more information.
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CRTC/Encoder Selection
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----------------------
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If you retrieved all display configuration information via
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**drmModeGetResources**\ (3) as ``drmModeRes *res``, selected a connector from
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the list in ``res->connectors`` and retrieved the connector-information as
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``drmModeConnector *conn`` via **drmModeGetConnector**\ (3) then this example
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shows, how you can find a suitable CRTC id to drive this connector. This
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function takes a file-descriptor to the DRM device (see **drmOpen**\ (3)) as
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``fd``, a pointer to the retrieved resources as ``res`` and a pointer to the
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selected connector as ``conn``. It returns an integer smaller than 0 on
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failure, otherwise, a valid CRTC id is returned.
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::
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static int modeset_find_crtc(int fd, drmModeRes *res, drmModeConnector *conn)
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{
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drmModeEncoder *enc;
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unsigned int i, j;
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/* iterate all encoders of this connector */
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for (i = 0; i < conn->count_encoders; ++i) {
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enc = drmModeGetEncoder(fd, conn->encoders[i]);
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if (!enc) {
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/* cannot retrieve encoder, ignoring... */
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continue;
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}
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/* iterate all global CRTCs */
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for (j = 0; j < res->count_crtcs; ++j) {
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/* check whether this CRTC works with the encoder */
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if (!(enc->possible_crtcs & (1 << j)))
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continue;
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/* Here you need to check that no other connector
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* currently uses the CRTC with id "crtc". If you intend
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* to drive one connector only, then you can skip this
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* step. Otherwise, simply scan your list of configured
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* connectors and CRTCs whether this CRTC is already
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* used. If it is, then simply continue the search here. */
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if (res->crtcs[j] "is unused") {
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drmModeFreeEncoder(enc);
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return res->crtcs[j];
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}
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}
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drmModeFreeEncoder(enc);
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}
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/* cannot find a suitable CRTC */
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return -ENOENT;
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}
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Reporting Bugs
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==============
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Bugs in this manual should be reported to
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https://gitlab.freedesktop.org/mesa/drm/-/issues
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See Also
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========
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**drm**\ (7), **drm-memory**\ (7), **drmModeGetResources**\ (3),
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**drmModeGetConnector**\ (3), **drmModeGetEncoder**\ (3),
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**drmModeGetCrtc**\ (3), **drmModeSetCrtc**\ (3), **drmModeGetFB**\ (3),
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**drmModeAddFB**\ (3), **drmModeAddFB2**\ (3), **drmModeRmFB**\ (3),
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**drmModePageFlip**\ (3), **drmModeGetPlaneResources**\ (3),
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**drmModeGetPlane**\ (3), **drmModeSetPlane**\ (3), **drmModeSetCursor**\ (3),
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**drmModeMoveCursor**\ (3), **drmSetMaster**\ (3), **drmAvailable**\ (3),
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**drmCheckModesettingSupported**\ (3), **drmOpen**\ (3)
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