From: Milen Mitkov <quic_mmitkov@xxxxxxxxxxx>
For v4:
- fixes the warning reported by the kernel test robot
- tiny code change to enable the vc functionality with the
partially-applied
multistream patches on linux-next (tested on tag:next-20221010)
For v3:
- setting the sink pad format on the CSID entity will now propagate the
format to the source pads to keep the subdev in a valid internal
state.
- code syntax improvements
For v2:
- code syntax improvements
- The info print for the enabled VCs was demoted to a dbg print. Can be
enabled with dynamic debug, e.g.:
echo "file drivers/media/platform/qcom/camss/* +p" >
/sys/kernel/debug/dynamic_debug/control
NOTE: These changes depend on the multistream series, that as of yet
is still not merged upstream. However, part of the
multistream patches are merged in linux-next (tested on
tag:next-20221010), including the patch that introduces the
video_device_pipeline_alloc_start() functionality. This allows
applying and using this series on linux-next without applying the
complete multistream set.
The CSID hardware on SM8250 can demux the input data stream into
maximum of 4 multiple streams depending on virtual channel (vc)
or data type (dt) configuration.
Situations in which demuxing is useful:
- HDR sensors that produce a 2-frame HDR output, e.g. a light and a
dark frame
(the setup we used for testing, with the imx412 sensor),
or a 3-frame HDR output - light, medium-lit, dark frame.
- sensors with additional metadata that is streamed over a different
virtual channel/datatype.
- sensors that produce frames with multiple resolutions in the same
pixel
data stream
With these changes, the CSID entity has, as it did previously, a single
sink port (0), and always exposes 4 source ports (1, 2,3, 4). The
virtual channel configuration is determined by which of the source ports
are linked to an output VFE line. For example, the link below will
configure the CSID driver to enable vc 0 and vc 1:
media-ctl -l '"msm_csid0":1->"msm_vfe0_rdi0":0[1]'
media-ctl -l '"msm_csid0":2->"msm_vfe0_rdi1":0[1]'
which will be demuxed and propagated into /dev/video0
and /dev/video1 respectively. With this, the userspace can use
any normal V4L2 client app to start/stop/queue/dequeue from these
video nodes. Tested with the yavta app.
The format of each RDI channel of the used VFE(s) (msm_vfe0_rdi0,
msm_vfe0_rdi1,...) must also be configured explicitly.
Note that in order to keep a valid internal subdevice state,
setting the sink pad format of the CSID subdevice will propagate
this format to the source pads. However, since the CSID hardware
can demux the input stream into several streams each of which can
be a different format, in that case each source pad's
format must be set individually, e.g.:
media-ctl -V '"msm_csid0":1[fmt:SRGGB10/3840x2160]'
media-ctl -V '"msm_csid0":2[fmt:SRGGB10/960x540]'
Milen Mitkov (4):
media: camss: sm8250: Virtual channels for CSID
media: camss: vfe: Reserve VFE lines on stream start and link to CSID
media: camss: vfe-480: Multiple outputs support for SM8250
media: camss: sm8250: Pipeline starting and stopping for multiple
virtual channels
.../platform/qcom/camss/camss-csid-gen2.c | 54 ++++++++++------
.../media/platform/qcom/camss/camss-csid.c | 44 +++++++++----
.../media/platform/qcom/camss/camss-csid.h | 11 +++-
.../media/platform/qcom/camss/camss-vfe-480.c | 61 ++++++++++++-------
drivers/media/platform/qcom/camss/camss-vfe.c | 7 +++
.../media/platform/qcom/camss/camss-video.c | 21 ++++++-
drivers/media/platform/qcom/camss/camss.c | 2 +-
7 files changed, 140 insertions(+), 60 deletions(-)
