「V4l2loopback」の版間の差分
(英語版から) |
(冒頭を同期) |
||
7行目: | 7行目: | ||
{{Related articles end}} |
{{Related articles end}} |
||
− | + | プロジェクトの[https://github.com/umlaeute/v4l2loopback リポジトリ]より: |
|
+ | :v4l2loopback - V4L2 ループバックデバイスを作成するためのカーネルモジュール |
||
− | :v4l2loopback - a kernel module to create V4L2 loopback devices |
||
+ | :このモジュールにより、"仮想ビデオデバイス"を作成することができます。通常の (v4l2) アプリケーションは仮想ビデオデバイスを通常のビデオデバイスかのように読み取りますが、ビデオはキャプチャカードなどから読み取られずに他のアプリケーションによって生成されます。 |
||
− | :This module allows you to create "virtual video devices". Normal (v4l2) applications will read these devices as if they were ordinary video devices, but the video will not be read from e.g. a capture card but instead it is generated by another application. |
||
== インストール == |
== インストール == |
2023年6月29日 (木) 19:20時点における版
関連記事
プロジェクトのリポジトリより:
- v4l2loopback - V4L2 ループバックデバイスを作成するためのカーネルモジュール
- このモジュールにより、"仮想ビデオデバイス"を作成することができます。通常の (v4l2) アプリケーションは仮想ビデオデバイスを通常のビデオデバイスかのように読み取りますが、ビデオはキャプチャカードなどから読み取られずに他のアプリケーションによって生成されます。
インストール
Install the v4l2loopback-dkms package and the headers for the target kernel/kernels (see Dynamic Kernel Module Support#Installation). For example, for the default linux kernel this would be linux-headers. Other kernels have their own respective headers packages.
Command line utilities are provided by v4l2loopback-utils and v4l-utils.
Many of the use case examples in this article also use ffmpeg.
カーネルモジュールをロードする
The v4l2loopback
kernel module can be loaded via the Dynamic Kernel Module Support:
# modprobe v4l2loopback
v4l2-ctl
can be used to list all video devices, where the new v4l2loopback
device should appear:
$ v4l2-ctl --list-devices
v4l2loopback
can be loaded with various options for device creation:
# modprobe v4l2loopback video_nr=9 card_label=Video-Loopback exclusive_caps=1
This should create /dev/video9
as a loopback device. exclusive_caps=1
is neccessary for some Chromium/WebRTC based application like jitsi-meet-desktop-binAUR or zoomAUR. More options can be found in the official documentation.
If the module is already loaded, the above command has likely no effect. The module first has to be unloaded, before loaded again:
# modprobe -r v4l2loopback
See Kernel module#Manual module handling for more details.
It is possible to create multiple loopback devices by using the devices
argument. Options for the every device are specified by using a comma. The following command creates three loopback devices, /dev/video8
, /dev/video9
and the first available /dev/videoX
, all with exclusive_caps
enabled.
# modprobe v4l2loopback devices=3 video_nr=8,9 exclusive_caps=1,1,1 card_label="Loopback-1,Loopback-2,Loopback-3"
Restarting the system will unload the module, but is possible to load the modules automatically at boot with custom device options, which is useful if one loopback device is used for an internal webcam. See Kernel module#Automatic module loading and the official documentation for details.
v4l2loopback のビデオフィードを見る
A loopback video device at /dev/video0
can be viewed for testing with ffplay
(part of ffmpeg), mpv, or gst-launch
(part of gstreamer):
$ ffplay /dev/video0
$ mpv av://v4l2:/dev/video0
$ gst-launch-1.0 -v v4l2src device=/dev/video0 ! glimagesink
As noted in #Loading the kernel module, when exclusive_caps=1
is used Chromium and applications like jitsi-meet-desktop-binAUR and zoomAUR should be able to use the loopback device as a virtual webcam, while a video stream is piped into them. In a browser the virtual webcam can be tested on webcamtests.com.
See also Webcam setup#Applications.
使用方法
Generally, FFmpeg is very convenient in combination with v4l2loopback, because it can transcode various input streams to the widely supported yuv420p pixel format and pipe the output to a v4l2loopback device by using the ffmpeg
arguments -vf format=yuv420p -f v4l2
. See the examples below in this article.
FFmpeg can also use the v4l2loopback device as an input stream. See FFmpeg#Recording webcam.
GStreamer can also use v4l2loopback devices as sources and sinks.
Further examples can be found at the official v4l2loopback wiki.
スクリーンキャスト
Below are examples how to implement screen sharing by streaming the screen to a v4l2 loopback device, which can be used as a virtual webcam.
FFmpeg を使って X11 をキャストする
FFmpeg can be used to select a region on a X11 display and then stream it to a v4l2 loopback device:
$ ffmpeg -f x11grab -select_region 1 -show_region 1 -framerate 25 -i $DISPLAY -vf format=yuv420p -f v4l2 /dev/video0
See the x11grab docs for a description of all the arguments.
wf-recorder を使って Wayland をキャストする
Install wf-recorder (or wf-recorder-gitAUR). To start recording the screen with wf-recorder
and stream it to a v4l2 loopback device use:
$ wf-recorder --muxer=v4l2 --codec=rawvideo --file=/dev/video0 -x yuv420p
If you encounter Unknown V4L2 pixel format equivalent for rgb0
run wf-recorder
with --force-yuv
or -t
to force conversion of the data to yuv format, before sending it to the GPU. [1]
特定の領域のみをスクリーンキャストする
As explained above, wf-recorder
is able to record only a portion of the screen by first selecting a region with slurp. To use this functionality for sharing a specific region/application window through a virtual video device, start recording the screen with the following modified command:
$ wf-recorder -g "$(slurp)" --muxer=v4l2 --codec=rawvideo --file=/dev/video0 -x yuv420p
gPhoto でフォトカメラをウェブカメラとして使う
If gPhoto is installed and working with your camera, you can use gphoto2
and FFmpeg to pipe the liveview stream of the camera to a v4l2 loopback device:
$ gphoto2 --stdout --capture-movie | ffmpeg -i - -vf format=yuv420p -f v4l2 /dev/video0
For troubleshooting refer to gPhoto#Troubleshooting. This should work with all cameras, which have the liveview functionality listed on the official gPhoto website.
ネットワークストリームをウェブカメラとして使う
FFmpeg can be used to capture a network stream and pipe it to a v4l2 loopback device:
$ ffmpeg -i http://ip_address:port/video -vf format=yuv420p -f v4l2 /dev/video0
Android デバイスをウェブカメラとして使う
On Android IP Webcam can be used to broadcast a network video stream. Then the command above can be used to pipe it into a v4l2 loopback device and use it like a webcam. IP Webcam defaults to port 8080.
Depending on the network connection, the network stream over WiFi might have a lot of latency and could be stuttering. If you have Android Debug Bridge configured with your computer and the Android device, it is possible to tunnel the stream over a USB cable using adb forward
, which provides a more stable connection:
$ adb wait-for-usb-device && adb forward tcp:8080 tcp:8080 && ffmpeg -i http://127.0.0.1:8080/video -vf format=yuv420p -f v4l2 /dev/video0
トラブルシューティング
Firefox
If Firefox is unable to read the video stream and prints a message like AbortError: Starting video failed
, try preloading v4l2compat.so:
$ LD_PRELOAD=/usr/lib/v4l1compat.so firefox
ioctl(VIDIOC_G_FMT)
If you get a ioctl(VIDIOC_G_FMT)
error, when trying to use the video device with ffmpeg
, try unloading and reloading the kernel module. [2]