media: ipu3.rst: Format media-ctl and yavta commands as code blocks

Fix improper line breaks and format all example yavta and media-ctl
commands as code blocks to improve readability.

Signed-off-by: Jordan Hand <jorhand@linux.microsoft.com>
Signed-off-by: Sakari Ailus <sakari.ailus@linux.intel.com>
Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>

diff --git a/Documentation/admin-guide/media/ipu3.rst b/Documentation/admin-guide/media/ipu3.rst
index 9361c34f123e60528b75f106991dcbcb3f9eba65..a4cd489fc5dc77d641467fe986c7797f2be5d024 100644 (file)
--- a/Documentation/admin-guide/media/ipu3.rst
+++ b/Documentation/admin-guide/media/ipu3.rst
@@ -89,41 +89,41 @@ Let us take the example of ov5670 sensor connected to CSI2 port 0, for a
 Using the media contorller APIs, the ov5670 sensor is configured to send
 frames in packed raw Bayer format to IPU3 CSI2 receiver.
 
-# This example assumes /dev/media0 as the CIO2 media device
-
-export MDEV=/dev/media0
-
-# and that ov5670 sensor is connected to i2c bus 10 with address 0x36
-
-export SDEV=$(media-ctl -d $MDEV -e "ov5670 10-0036")
+.. code-block:: none
 
-# Establish the link for the media devices using media-ctl [#f3]_
-media-ctl -d $MDEV -l "ov5670:0 -> ipu3-csi2 0:0[1]"
+    # This example assumes /dev/media0 as the CIO2 media device
+    export MDEV=/dev/media0
 
-# Set the format for the media devices
-media-ctl -d $MDEV -V "ov5670:0 [fmt:SGRBG10/2592x1944]"
+    # and that ov5670 sensor is connected to i2c bus 10 with address 0x36
+    export SDEV=$(media-ctl -d $MDEV -e "ov5670 10-0036")
 
-media-ctl -d $MDEV -V "ipu3-csi2 0:0 [fmt:SGRBG10/2592x1944]"
+    # Establish the link for the media devices using media-ctl [#f3]_
+    media-ctl -d $MDEV -l "ov5670:0 -> ipu3-csi2 0:0[1]"
 
-media-ctl -d $MDEV -V "ipu3-csi2 0:1 [fmt:SGRBG10/2592x1944]"
+    # Set the format for the media devices
+    media-ctl -d $MDEV -V "ov5670:0 [fmt:SGRBG10/2592x1944]"
+    media-ctl -d $MDEV -V "ipu3-csi2 0:0 [fmt:SGRBG10/2592x1944]"
+    media-ctl -d $MDEV -V "ipu3-csi2 0:1 [fmt:SGRBG10/2592x1944]"
 
 Once the media pipeline is configured, desired sensor specific settings
 (such as exposure and gain settings) can be set, using the yavta tool.
 
 e.g
 
-yavta -w 0x009e0903 444 $SDEV
-
-yavta -w 0x009e0913 1024 $SDEV
+.. code-block:: none
 
-yavta -w 0x009e0911 2046 $SDEV
+    yavta -w 0x009e0903 444 $SDEV
+    yavta -w 0x009e0913 1024 $SDEV
+    yavta -w 0x009e0911 2046 $SDEV
 
 Once the desired sensor settings are set, frame captures can be done as below.
 
 e.g
 
-yavta --data-prefix -u -c10 -n5 -I -s2592x1944 --file=/tmp/frame-#.bin \
-      -f IPU3_SGRBG10 $(media-ctl -d $MDEV -e "ipu3-cio2 0")
+.. code-block:: none
+
+    yavta --data-prefix -u -c10 -n5 -I -s2592x1944 --file=/tmp/frame-#.bin \
+          -f IPU3_SGRBG10 $(media-ctl -d $MDEV -e "ipu3-cio2 0")
 
 With the above command, 10 frames are captured at 2592x1944 resolution, with
 sGRBG10 format and output as IPU3_SGRBG10 format.
@@ -269,21 +269,21 @@ all the video nodes setup correctly.
 
 Let us take "ipu3-imgu 0" subdev as an example.
 
-media-ctl -d $MDEV -r
-
-media-ctl -d $MDEV -l "ipu3-imgu 0 input":0 -> "ipu3-imgu 0":0[1]
-
-media-ctl -d $MDEV -l "ipu3-imgu 0":2 -> "ipu3-imgu 0 output":0[1]
-
-media-ctl -d $MDEV -l "ipu3-imgu 0":3 -> "ipu3-imgu 0 viewfinder":0[1]
+.. code-block:: none
 
-media-ctl -d $MDEV -l "ipu3-imgu 0":4 -> "ipu3-imgu 0 3a stat":0[1]
+    media-ctl -d $MDEV -r
+    media-ctl -d $MDEV -l "ipu3-imgu 0 input":0 -> "ipu3-imgu 0":0[1]
+    media-ctl -d $MDEV -l "ipu3-imgu 0":2 -> "ipu3-imgu 0 output":0[1]
+    media-ctl -d $MDEV -l "ipu3-imgu 0":3 -> "ipu3-imgu 0 viewfinder":0[1]
+    media-ctl -d $MDEV -l "ipu3-imgu 0":4 -> "ipu3-imgu 0 3a stat":0[1]
 
 Also the pipe mode of the corresponding V4L2 subdev should be set as desired
 (e.g 0 for video mode or 1 for still mode) through the control id 0x009819a1 as
 below.
 
-yavta -w "0x009819A1 1" /dev/v4l-subdev7
+.. code-block:: none
+
+    yavta -w "0x009819A1 1" /dev/v4l-subdev7
 
 Certain hardware blocks in ImgU pipeline can change the frame resolution by
 cropping or scaling, these hardware blocks include Input Feeder(IF), Bayer Down
@@ -371,30 +371,32 @@ v4l2n command can be used. This helps process the raw Bayer frames and produces
 the desired results for the main output image and the viewfinder output, in NV12
 format.
 
-v4l2n --pipe=4 --load=/tmp/frame-#.bin --open=/dev/video4
---fmt=type:VIDEO_OUTPUT_MPLANE,width=2592,height=1944,pixelformat=0X47337069
---reqbufs=type:VIDEO_OUTPUT_MPLANE,count:1 --pipe=1 --output=/tmp/frames.out
---open=/dev/video5
---fmt=type:VIDEO_CAPTURE_MPLANE,width=2560,height=1920,pixelformat=NV12
---reqbufs=type:VIDEO_CAPTURE_MPLANE,count:1 --pipe=2 --output=/tmp/frames.vf
---open=/dev/video6
---fmt=type:VIDEO_CAPTURE_MPLANE,width=2560,height=1920,pixelformat=NV12
---reqbufs=type:VIDEO_CAPTURE_MPLANE,count:1 --pipe=3 --open=/dev/video7
---output=/tmp/frames.3A --fmt=type:META_CAPTURE,?
---reqbufs=count:1,type:META_CAPTURE --pipe=1,2,3,4 --stream=5
+.. code-block:: none
+
+    v4l2n --pipe=4 --load=/tmp/frame-#.bin --open=/dev/video4
+          --fmt=type:VIDEO_OUTPUT_MPLANE,width=2592,height=1944,pixelformat=0X47337069 \
+          --reqbufs=type:VIDEO_OUTPUT_MPLANE,count:1 --pipe=1 \
+          --output=/tmp/frames.out --open=/dev/video5 \
+          --fmt=type:VIDEO_CAPTURE_MPLANE,width=2560,height=1920,pixelformat=NV12 \
+          --reqbufs=type:VIDEO_CAPTURE_MPLANE,count:1 --pipe=2 \
+          --output=/tmp/frames.vf --open=/dev/video6 \
+          --fmt=type:VIDEO_CAPTURE_MPLANE,width=2560,height=1920,pixelformat=NV12 \
+          --reqbufs=type:VIDEO_CAPTURE_MPLANE,count:1 --pipe=3 --open=/dev/video7 \
+          --output=/tmp/frames.3A --fmt=type:META_CAPTURE,? \
+          --reqbufs=count:1,type:META_CAPTURE --pipe=1,2,3,4 --stream=5
 
 You can also use yavta [#f2]_ command to do same thing as above:
 
 .. code-block:: none
 
-       yavta --data-prefix -Bcapture-mplane -c10 -n5 -I -s2592x1944 \
-       --file=frame-#.out-f NV12 /dev/video5 & \
-       yavta --data-prefix -Bcapture-mplane -c10 -n5 -I -s2592x1944 \
-       --file=frame-#.vf -f NV12 /dev/video6 & \
-       yavta --data-prefix -Bmeta-capture -c10 -n5 -I \
-       --file=frame-#.3a /dev/video7 & \
-       yavta --data-prefix -Boutput-mplane -c10 -n5 -I -s2592x1944 \
-       --file=/tmp/frame-in.cio2 -f IPU3_SGRBG10 /dev/video4
+    yavta --data-prefix -Bcapture-mplane -c10 -n5 -I -s2592x1944 \
+          --file=frame-#.out-f NV12 /dev/video5 & \
+    yavta --data-prefix -Bcapture-mplane -c10 -n5 -I -s2592x1944 \
+          --file=frame-#.vf -f NV12 /dev/video6 & \
+    yavta --data-prefix -Bmeta-capture -c10 -n5 -I \
+          --file=frame-#.3a /dev/video7 & \
+    yavta --data-prefix -Boutput-mplane -c10 -n5 -I -s2592x1944 \
+          --file=/tmp/frame-in.cio2 -f IPU3_SGRBG10 /dev/video4
 
 where /dev/video4, /dev/video5, /dev/video6 and /dev/video7 devices point to
 input, output, viewfinder and 3A statistics video nodes respectively.
@@ -408,7 +410,9 @@ as below.
 Main output frames
 ~~~~~~~~~~~~~~~~~~
 
-raw2pnm -x2560 -y1920 -fNV12 /tmp/frames.out /tmp/frames.out.ppm
+.. code-block:: none
+
+    raw2pnm -x2560 -y1920 -fNV12 /tmp/frames.out /tmp/frames.out.ppm
 
 where 2560x1920 is output resolution, NV12 is the video format, followed
 by input frame and output PNM file.
@@ -416,7 +420,9 @@ by input frame and output PNM file.
 Viewfinder output frames
 ~~~~~~~~~~~~~~~~~~~~~~~~
 
-raw2pnm -x2560 -y1920 -fNV12 /tmp/frames.vf /tmp/frames.vf.ppm
+.. code-block:: none
+
+    raw2pnm -x2560 -y1920 -fNV12 /tmp/frames.vf /tmp/frames.vf.ppm
 
 where 2560x1920 is output resolution, NV12 is the video format, followed
 by input frame and output PNM file.