PipeWire 1.1.0
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PipeWire supports sharing Direct Memory Access buffers (DMA-BUFs) between clients via the SPA_DATA_DmaBuf data type.
However properly negotiating DMA-BUF support on both the producer and the consumer side require following a specific procedure. This page describes said procedure by using events and methods from the filter or stream API.
Note: This article focuses mostly on DMA-BUF sharing from arbitrary devices, like discrete GPUs. For using DMA-BUFs created by v4l2 please refer to the corresponding paragraph.
The capability negotiation for DMA-BUFs is complicated by the fact that a usable and preferred optimal modifier for a given format can only be determined by the allocator. This allocator has to be invoked with the intersection of all supported modifiers for every client. As a result, the fixation of the modifier is delegated from PipeWire to the node responsible for allocating the buffers.
The stream parameters should contain two SPA_PARAM_EnumFormat objects for each format: one for DMA-BUFs, one for shared memory buffers as a fallback.
Query the list of all supported modifiers from your graphics API of choice. Add a SPA_FORMAT_VIDEO_modifier property to the first stream parameter with the flags SPA_POD_PROP_FLAG_MANDATORY | SPA_POD_PROP_FLAG_DONT_FIXATE
. The value of the property should be set to a SPA_CHOICE_Enum containing one long
choice per supported modifier, plus DRM_FORMAT_MOD_INVALID
if the graphics API supports modifier-less buffers.
Note: When a producer is only supporting modifier-less buffers it can omit the SPA_POD_PROP_FLAG_DONT_FIXATE (see param_changed hook, For producers).
The second stream parameter should not contain any SPA_FORMAT_VIDEO_modifier property.
To prioritise DMA-BUFs place those SPA_PARAM_EnumFormat containing modifiers first, when emitting them to PipeWire.
When the param_changed
hook is called for a SPA_PARAM_Format the client has to parse the spa_pod
directly. Use spa_pod_find_prop(param, NULL, SPA_FORMAT_VIDEO_modifier)
to check whether modifiers were negotiated. If they were negotiated, set the SPA_PARAM_BUFFERS_dataType property to 1 << SPA_DATA_DmaBuf
. If they were not negotiated, fall back to shared memory by setting the SPA_PARAM_BUFFERS_dataType property to 1 << SPA_DATA_MemFd
, 1 << SPA_DATA_MemPtr
, or both.
While consumers only have to parse the resulting SPA_PARAM_Format for any format related information, it's up to the producer to fixate onto a single format modifier pair. The producer is also responsible to check if all clients announce sufficient capabilities or fallback to shared memory buffers when possible.
Use spa_format_video_raw_parse to get the format and modifier.
Producers have to handle two cases when it comes to modifiers wrt. to the previous announced capabilities: Using only the modifier-less API, only the modifier-aware one, or supporting both.
DRM_FORMAT_MOD_INVALID
was announced with the format. It is sufficient to check if the SPA_PARAM_Format contains the modifier property as described above. If that is the case, use DMA-BUFs for screen-sharing, else fall back to SHM, if possible.DRM_FORMAT_MOD_INVALID
as the token for the modifier-less API). On the param_changed
event check if the modifier key is present and has the flag SPA_POD_PROP_FLAG_DONT_FIXATE attached to it. In this case, extract all modifiers from the list and do a test allocation with your allocator to choose the preferred modifier. Fixate on that EnumFormat by announcing a SPA_PARAM_EnumFormat with only one modifier in the SPA_CHOICE_Enum and without the SPA_POD_PROP_FLAG_DONT_FIXATE flag, followed by the previous announced EnumFormat. This will retrigger the param_changed
event with an SPA_PARAM_Format as described below. If the SPA_PARAM_Format contains a modifier key, without the flag SPA_POD_PROP_FLAG_DONT_FIXATE, it should only contain one value in the SPA_CHOICE_Enum. In this case announce the SPA_PARAM_Buffers accordingly to the selected format and modifier. It is important to query the plane count of the used format modifier pair and set SPA_PARAM_BUFFERS_blocks
accordingly.Note: When test allocating a buffer, collect all possible modifiers, while omitting DRM_FORMAT_MOD_INVALID
from the SPA_FORMAT_VIDEO_modifier property and pass them all to the graphics API. If the allocation fails and the list of possible modifiers contains DRM_FORMAT_MOD_INVALID
, fall back to allocating without an explicit modifier if the graphics API allows it.
This is relevant for producers.
Allocate a DMA-BUF only using the negotiated format and modifier.
This is relevant for consumers.
Check the type of the dequeued buffer. If its SPA_DATA_MemFd or SPA_DATA_MemPtr use the fallback SHM import mechanism. If it's SPA_DATA_DmaBuf get the DMA-BUF FDs (the plane count is encoded in the n_datas
variable of the spa_buffer
struct) and import them with the graphics API.
Note: Some graphics APIs have separated functions for the modifier-less case (DRM_FORMAT_MOD_INVALID
) or are omitting the modifier, since it might be used for error handling.
It's important to make sure all consumers of the PipeWire stream are prepared to deal with DMA-BUFs. Most DMA-BUFs cannot be treated like shared memory in general because of the following issues:
mmap(3)
on the DMA-BUF FD will not give a linear view of the buffer contents.mmap(3)
call is not enough to guarantee proper synchronization. (Maybe add link to linux syscall doc??)mmap(3)
can be extremely slow if the buffer has been allocated on discrete hardware. Consumers are better off using a proper graphics API (such as EGL, Vulkan or VA-API) to process the DMA-BUFs.When importing a DMA-BUF with a proper graphics API the size of a single buffer plane is no relevant property since it will be derived by the driver from the other properties. Therefore consumers should ignore the field maxsize
of a spa_data
and the field size
of a spa_chunk
struct. Producers are allowed to set both to 0. In cases where mapping a single plane is required the size should be obtained locally via the filedescriptor.
SPA offers helper functions to parse and build a spa_pod object to/from the spa_video_info_* struct. The flags SPA_VIDEO_FLAG_MODIFIER and SPA_VIDEO_FLAG_MODIFIER_FIXATION_REQUIRED are used to indicate modifier usage with the format. SPA_VIDEO_FLAG_MODIFIER
declares the parsed/provided spa_video_info_* struct contains valid modifier information. For legacy reasons spa_format_video_*_build
will announce any modifier != 0 even when this flag is unused. SPA_VIDEO_FLAG_MODIFIER_FIXATION_REQUIRED
is exclusive to the parse helpers and declares that the parsed spa_pod contains modifier information which needs to be fixated as described above. The list of available modifiers has to be parsed manually from the spa_pod object.
Another use case for streaming via DMA-BUFs are exporting a camera feed from v4l2 as DMA-BUFs. Those are located in the main memory where it is possible to mmap them. This should be done as follows: Neither producer nor consumer should announce a modifier, but both should include 1 << SPA_DATA_DmaBuf
in the SPA_PARAM_BUFFERS_dataType
property. It's the the responsibility of the producer while the add_buffer
event to choose DMA-BUF as the used buffer type even though no modifier is present, if it can guarantee, that the used buffer is mmapable.
Note: For now v4l2 uses planar buffers without modifiers. This is the reason for this special case.