626172a16b
Source files in libcamera start by a comment block header, which
includes the file name and a one-line description of the file contents.
While the latter is useful to get a quick overview of the file contents
at a glance, the former is mostly a source of inconvenience. The name in
the comments can easily get out of sync with the file name when files
are renamed, and copy & paste during development have often lead to
incorrect names being used to start with.
Readers of the source code are expected to know which file they're
looking it. Drop the file name from the header comment block.
The change was generated with the following script:
----------------------------------------
dirs="include/libcamera src test utils"
declare -rA patterns=(
['c']=' \* '
['cpp']=' \* '
['h']=' \* '
['py']='# '
['sh']='# '
)
for ext in ${!patterns[@]} ; do
files=$(for dir in $dirs ; do find $dir -name "*.${ext}" ; done)
pattern=${patterns[${ext}]}
for file in $files ; do
name=$(basename ${file})
sed -i "s/^\(${pattern}\)${name} - /\1/" "$file"
done
done
----------------------------------------
This misses several files that are out of sync with the comment block
header. Those will be addressed separately and manually.
Signed-off-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
Reviewed-by: Daniel Scally <dan.scally@ideasonboard.com>
182 lines
3.7 KiB
Bash
Executable file
182 lines
3.7 KiB
Bash
Executable file
#!/bin/bash
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# SPDX-License-Identifier: GPL-2.0-or-later
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# Copyright (C) 2018, Google Inc.
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#
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# Author: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
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#
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# Capture raw frames from cameras based on the Intel IPU3
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#
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# The scripts makes use of the following tools, which are expected to be
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# executable from the system-wide path or from the local directory:
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#
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# - media-ctl (from v4l-utils git://linuxtv.org/v4l-utils.git)
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# - raw2pnm (from nvt https://github.com/intel/nvt.git)
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# - yavta (from git://git.ideasonboard.org/yavta.git)
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# Locate the sensor entity
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find_sensor() {
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local bus
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local sensor_name=$1
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bus=$(grep "$sensor_name" /sys/class/video4linux/v4l-subdev*/name | cut -d ' ' -f 2)
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if [[ -z $bus ]]; then
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echo "Sensor '$sensor_name' not found." >&2
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exit 1
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fi
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echo "$sensor_name $bus"
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}
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# Locate the media device
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find_media_device() {
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local mdev
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for mdev in /dev/media* ; do
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media-ctl -d $mdev -p | grep -q "^driver[ \t]*ipu3-cio2$" && break
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mdev=
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done
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if [[ -z $mdev ]] ; then
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echo "IPU3 media device not found." >&2
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exit 1
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fi
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echo $mdev
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}
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# Locate the CSI2 and CIO2 and get the sensor format
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parse_pipeline() {
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local cio2_queue
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local resolution
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local sensor=$1
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read cio2_queue bus_format sensor_size <<< $($mediactl -p | awk "
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/^- entity [0-9]*:/ {
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sensor=0;
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}
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/^- entity [0-9]*: $sensor/ {
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sensor=1;
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}
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/^[ \t]*(stream:0)?\[fmt:/ {
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if (sensor) {
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gsub(\".*fmt:\", \"\");
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gsub(\"[] ].*\", \"\");
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sub(\"/\", \" \");
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sub(\"@[0-9]+/[0-9]+\", \"\");
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format=\$0;
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}
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}
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/^[ \t]*->/ {
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if (sensor)
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cio2=substr(\$3, 0, 1);
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}
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END {
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print cio2 \" \" format;
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}
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")
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ipu3_csi2="ipu3-csi2 $cio2_queue"
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ipu3_capture="ipu3-cio2 $cio2_queue"
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sensor_width=$(echo $sensor_size | cut -d 'x' -f 1)
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sensor_height=$(echo $sensor_size | cut -d 'x' -f 2)
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echo "Using device $mdev with IPU3 CIO2 queue $cio2_queue"
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}
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# Configure the pipeline
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configure_pipeline() {
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local format="fmt:$bus_format/$sensor_size"
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echo "Configuring pipeline for $sensor in $format"
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$mediactl -r
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$mediactl -l "\"$sensor\":0 -> \"$ipu3_csi2\":0[1]"
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$mediactl -l "\"$ipu3_csi2\":1 -> \"$ipu3_capture\":0[1]"
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$mediactl -V "\"$sensor\":0 [$format]"
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$mediactl -V "\"$ipu3_csi2\":1 [$format]"
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}
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# Capture frames
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capture_frames() {
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local file_op
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local frame_count=$1
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local ipu3_format=IPU3_${bus_format/_1X10/}
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local save_file=$2
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if [[ $save_file -eq 1 ]]; then
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file_op="--file=/tmp/frame-#.bin"
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fi
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yavta -c$frame_count -n5 -I -f $ipu3_format -s $sensor_size $file_op \
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$($mediactl -e "$ipu3_capture")
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}
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# Convert captured files to ppm
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convert_files() {
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local frame_count=$1
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local format=${bus_format/_1X10/}
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local padded_width=$(expr \( $sensor_width + 49 \) / 50 \* 50)
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echo "Converting ${sensor_width}x${sensor_height} (${padded_width}x${sensor_height})"
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for i in `seq -f '%06.0f' 0 $(($frame_count - 1))`; do
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ipu3-unpack /tmp/frame-$i.bin /tmp/frame-$i.raw
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raw2pnm -x$padded_width -y$sensor_height -f$format /tmp/frame-$i.raw /tmp/frame-$i.ppm
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done
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}
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# Print usage message
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usage() {
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echo "Usage: $1 [options] sensor-name"
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echo "Supported options:"
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echo "-c,--count n Number of frame to capture"
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echo "--no-save Do not save captured frames to disk"
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}
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# Parse command line arguments
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frame_count=10
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save_file=1
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while (( "$#" )) ; do
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case $1 in
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-c|--count)
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frame_count=$2
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shift 2
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;;
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--no-save)
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save_file=0
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shift
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;;
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-*)
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echo "Unsupported option $1" >&2
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usage $0
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exit 1
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;;
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*)
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break
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;;
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esac
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done
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if [[ $# -ne 1 ]] ; then
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usage $0
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exit 1
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fi
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sensor_name=$1
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sensor=$(find_sensor $sensor_name) || exit
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mdev=$(find_media_device) || exit
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mediactl="media-ctl -d $mdev"
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parse_pipeline $sensor
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configure_pipeline
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capture_frames $frame_count $save_file
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[[ $save_file -eq 1 ]] && convert_files $frame_count
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