I apologize if this doesn't make sense since I'm still a newbie with using a raspberry pi and this is my first time posting on StackOverflow.
I am making a web app that lets me stream video to and from a raspberry pi while also letting me send keycodes. The sent keycodes would ultimately let me control servos on a drone. After scouring the internet, I figured that the simplest way to stream 2-way video is by using uv4l so I have it installed along with uv4l-webrtc on my raspberry pi. I hooked up some GPIO pins to a flight controller and I am using pigpio to send PWM signals to it, which I then monitor using CleanFlight.
Right now, I can manipulate with keypresses the roll, pitch, etc. of the flight controller using a python script if I access the pi remotely using VNC, but I would like to ultimately be able to do this through my custom web page that is being served by the uv4l-server. I am trying to use the WebRTC Data Channels, but I'm having some trouble understanding what I would need to do to recognize the messages sent through the data channels. I know that the data channels are opened when a video call is initiated and I've tried the test in this link to see if I can indeed send keycodes to the pi (and I can).
My problem right now is that I have no idea where those sent messages go or how I can get them so I can incorporate them into my python script. Would I need to make a server that would listen for the keycodes being sent to the pi?
tl;dr I have a python script on a raspberry pi to control servos on a flight controller using keypresses and a separate webpage that streams video using WebRTC, but I have no idea how to combine them together using WebRTC data channels.
Thanks to @adminkiam for the solution. Here's a version of the python script that now listens to the socket. It's essentially a variation of this code by the person who made pigpio:
import socket import time import pigpio socket_path = '/tmp/uv4l.socket' try: os.unlink(socket_path) except OSError: if os.path.exists(socket_path): raise s = socket.socket(socket.AF_UNIX, socket.SOCK_SEQPACKET) ROLL_PIN = 13 PITCH_PIN = 14 YAW_PIN = 15 MIN_PW = 1000 MID_PW = 1500 MAX_PW = 2000 NONE = 0 LEFT_ARROW = 1 RIGHT_ARROW = 2 UP_ARROW = 3 DOWN_ARROW = 4 LESS_BTN = 5 GREATER_BTN = 6 print 'socket_path: %s' % socket_path s.bind(socket_path) s.listen(1) def getch(keyCode): key = NONE if keyCode == 188: key = LESS_BTN elif keyCode == 190: key = GREATER_BTN elif keyCode == 37: key = LEFT_ARROW elif keyCode == 39: key = RIGHT_ARROW elif keyCode == 38: key = UP_ARROW elif keyCode == 40: key = DOWN_ARROW return key def cleanup(): pi.set_servo_pulsewidth(ROLL_PIN, 0) pi.set_servo_pulsewidth(PITCH_PIN, 0) pi.set_servo_pulsewidth(YAW_PIN, 0) pi.stop() while True: print 'awaiting connection...' connection, client_address = s.accept() print 'client_address %s' % client_address try: print 'established connection with', client_address pi = pigpio.pi() rollPulsewidth = MID_PW pitchPulsewidth = MID_PW yawPulsewidth = MID_PW pi.set_servo_pulsewidth(ROLL_PIN, rollPulsewidth) pi.set_servo_pulsewidth(PITCH_PIN, pitchPulsewidth) pi.set_servo_pulsewidth(YAW_PIN, yawPulsewidth) while True: data = connection.recv(16) print 'received message"%s"' % data time.sleep(0.01) key = getch(int(data)) rollPW = rollPulsewidth pitchPW = pitchPulsewidth yawPW = yawPulsewidth if key == UP_ARROW: pitchPW = pitchPW + 10 if pitchPW > MAX_PW: pitchPW = MAX_PW elif key == DOWN_ARROW: pitchPW = pitchPW - 10 if pitchPW < MIN_PW: pitchPW = MIN_PW elif key == LEFT_ARROW: rollPW = rollPW - 10 if rollPW < MIN_PW: rollPW = MIN_PW elif key == RIGHT_ARROW: rollPW = rollPW + 10 if rollPW > MAX_PW: rollPW = MAX_PW elif key == GREATER_BTN: yawPW = yawPW + 10 if yawPW > MAX_PW: yawPW = MAX_PW elif key == LESS_BTN: yawPW = yawPW - 10 if yawPW < MIN_PW: yawPW = MIN_PW if rollPW != rollPulsewidth: rollPulsewidth = rollPW pi.set_servo_pulsewidth(ROLL_PIN, rollPulsewidth) if pitchPW != pitchPulsewidth: pitchPulsewidth = pitchPW pi.set_servo_pulsewidth(PITCH_PIN, pitchPulsewidth) if yawPW != yawPulsewidth: yawPulsewidth = yawPW pi.set_servo_pulsewidth(YAW_PIN, yawPulsewidth) if data: print 'echo data to client' connection.sendall(data) else: print 'no more data from', client_address break finally: # Clean up the connection cleanup() connection.close()