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lazycast: A Simple Wireless Display Receiver

Description

lazycast is a simple wifi display receiver. It was originally targeted Raspberry Pi (as display) and Windows 8.1/10 (as source), but it might also work on other Linux platforms and Miracast sources. (For other Linux systems, skip the preparation section. For video playback from Android sources, modify the player_select option in d2.py.) For Windows 10 systems, the Miracast over Infrastructure (MICE) feature is also supported, which may provide better user experiences. In general, lazycast does not require re-compilation of wpa_supplicant to support various p2p functionalities, and should work on an "out of the box" Raspberry Pi.

OS

Select "Raspberry Pi OS (Legacy, 32-bit) A port of Debian Bullseye with security updates and desktop environment" when flashing the SD card. Debian Bookworm seems to cause some issues.

On a fresh OS, install cmake:

sudo apt install cmake

Clone the Raspberry Pi userland repo and run buildme:

git clone https://github.com/raspberrypi/userland
cd userland
./buildme

Replace vc4-kms-v3d with vc4-fkms-v3d in /boot/config.txt:

sudo sed -i 's/vc4-kms-v3d/vc4-fkms-v3d/g' /boot/config.txt

Then reboot:

sudo reboot

(You can see this post for more details.)

Build Binaries

Install packages (for compiling the players):

sudo apt install libx11-dev libasound2-dev libavformat-dev libavcodec-dev python3-evdev

Compile libraries on Pi:

cd /opt/vc/src/hello_pi/libs/ilclient/
sudo make
cd /opt/vc/src/hello_pi/hello_video
sudo make

Clone this repo (to a desired directory):

cd ~/
git clone https://github.com/homeworkc/lazycast

Go to the lazycast directory and then make:

cd lazycast
make

Usage

Run ./all.sh to start lazycast receiver. Wait until the "The display is ready" message. The name of the display will appear after this message. Then, search for this name on the source device you want to cast. The default PIN number is 31415926.

It is recommended to stop casting by the controls on the source (e.g., the PC) side.

Tips

Set the resolution on the source side. lazycast advertises all possible resolutions regardless of the current rendering resolution. Therefore, you may want to change the resolution (on the source) to match the actual resolution of the display connecting to Pi.

Modify parameters in the "settings" section in d2.py to change the sound output port (hdmi/3.5mm) and preferred player.

The maximum resolutions supported are 1920x1080p60 and 1920x1200p30. The GPU on Pi may struggle to handle 1920x1080p60, which results in high latency. In this case, reduce the FPS to 1920x1080p50.

To change the default PIN number, replace the string 31415926 in all.sh to another 8-digit number.

You can hide Pi's cursor by using unclutter -idle 3. See this post.

After Pi connects to the source, it has an IP address of 192.168.173.1 and this connection can be reused for other purposes like SSH. On the other hand, since they are under the same subnet, precautions should be taken to prevent unauthorized access to Pi by anyone who knows the PIN number.

Two in-house players are written for Raspberry Pi 3. VLC, omxplayer or gstreamer can be used instead on other platforms. (See here for details of installing gstreamer.)

It is very important that no background WiFi scanning occurs during casting. On Raspberry Pi, lazycast will automatically disable lxpanel during casting (in order to stop the lxplug-network plugin from scanning the network), and re-enable lxpanel after the casting is terminated. You may want to disable wlan0 completely (sudo ifconfig wlan0 down) especially if wlan0 is not currently connected to any network (and periodic scanning will be triggered in such a case). You can double-check that no background WiFi scanning happens by running iw event in a second terminal (and no event should be shown). This post has more information.

To redirect mouse and keyboard inputs on Pi, first install evdev (pip install evdev) and then set enable_mouse_keyboard to 1 in d2.py. You also need to allow mouse and keyboard inputs on the PC.

Known issues

lazycast tries to remember the pairing credentials so that entering the PIN is only needed once for each device. However, this feature does not seem to work properly all the time with recent Raspbian images. Therefore, re-pairing may be needed after every Raspberry Pi reboot. Try clearing the 'lazycast' information on the source device before re-pairing if you run into pairing problems.

Player2 seems to have a double-free bug which causes it to crash when playing some videos. Currently a workaround (that constantly monitors the liveliness of player2) is implemented.

Latency: Limited by the implementation of the rtp player used. (In VLC, latency can be reduced from 1200 to 300ms by lowering the network cache value.)

Due to the overcrowded nature of the wifi spectrum and the use of unreliable rtp transmission, you may experience some video glitching/audio stuttering. The in-house players employ several mechanisms to conceal transmission error, but it may still be noticeable in challenging wireless environments. Interference from other devices may cause disconnections.

Devices may not fully support backchannel control and some keystrokes/clicks will behave differently.

HDCP(content protection): Neither the key nor the hardware is available on Pi and therefore is not supported.

Start on boot

Append this line to /etc/xdg/lxsession/LXDE-pi/autostart:

@lxterminal -l --working-directory=<absolute path of lazycast> -e ./all.sh

For example, if lazycast is placed under ~/ (which is /home/pi/, if your username is pi), append the following line to the file:

@lxterminal -l --working-directory=/home/pi/lazycast -e ./all.sh

Miracast over Infrastructure

For Windows 10 sources, Miracast over Infrastructure (MICE) is a feature that allows transmission of screen data over Ethernet or secure wifi networks. The spec of Miracast over Infrastructure (MICE) is available here. Compared to wifi p2p, it allows stabler connection and lower latency. Although MICE relies on Ethernet or secure wifi network almost entirely, in the device discovery phase, it still requires a wifi p2p device to broadcast beacon and probe response frames to the source. (However, it might be possible to use two Pis so that one of the two does not need to have wifi hardware or be physically close to the source. One Pi would be used to trasmit the beacon while the other (that runs ./project.py) is used to project. For such setting to work, the variable hostname in mice.py must be set to the hostname of the machine running project.py. In the future, it might be possible to emulate a wifi card by HW/SW on the source so that wifi p2p will not be necessary.)

Currently, this feature is tested to be working with a Windows 10 PC and a Pi (with manually assigned IPs) connected via Ethernet. More tests might be needed, especially for different DHCP, DNS and firewall configurations. Ports used include but are not limited to UDP 53 (DNS), UDP 5353 (mDNS), TCP 7236 and TCP 7250. Also, the encryption feature is not implemented yet so it should only be used over trusted networks and it should not be used for sensitive data. MICE works in ipv6 networks but currently only ipv4 is implemented.

Preparation

Install avahi-utils:

sudo apt install avahi-utils

Make sure the Windows 10 PC is on the same network as the Pi. You can try pinging the Pi from the PC.
NetworkManager is not required for this version of MICE. However, using MICE will disable the built-in WiFi UI. (To restore the built-in WiFi UI after MICE, either run resetwpa.sh or simply reboot.)

Usage

Make sure there is no p2p interface that has already been created and all.sh is not running. (Make sure all.sh does not start on boot and then simply reboot.)

Run ./mice.sh.

Use the "Connect" tab in Windows 10 and try to connect to the hostname of Pi (e.g., raspberrypi). Windows may try to connect using the traditional method first and therefore may ask for PIN. In that case, simply cancel the connecting process and try again. Since no encryption is implemented at the moment, the prompt for PIN should not appear using MICE.

Windows 10 assigns the name of the display differently when using MICE. If the monitor connected to the Pi is successfully detected by the PC, the name of the display (e.g., raspberrypi) will be changed to the name of the monitor. If the detection fails, the name of the display will be changed to "Device". After disconnection, the name of the display will be changed back to the hostname of Pi (e.g., raspberrypi).

If you wish to run MICE and wifi p2p simultaneously, set the parameter concurrent to 1 in newmice.py and only uses mice.sh. When there are multiple IPs assigned to the Pi and mDNS does not seem to be working, manually set the ipstr variable in newmice.py to the target IP of Pi and a PC will try to connect to this IP directly.

Others

Some parts of the video player1 are modified from the codes on https://github.com/Apress/raspberry-pi-gpu-audio-video-prog. Many thanks to the author of "Raspberry Pi GPU Audio Video Programming" and, by extension, authors of omxplayer.
Using any part of the codes in this project in commercial products is prohibited.