IN='http://us2.g-load.eu:9090/stream' OUT='fdcf:8538:9ad5:3333' IN='http://[fd51:9b17:dc40::2]:9090/stream' OUT='fd51:9b17:dc40:a55' #gen3 import argparse parser = argparse.ArgumentParser() parser.add_argument('--skip', type=int, default=0, help="skip x lines (unused)") parser.add_argument('--drawfirst', action='store_true', help="draw image first (unused)") parser.add_argument('--keepdrawing', action='store_true', help="keepdrawing, sleep for slp1") parser.add_argument('--slp', type=float, default=0.0001, help="sleep x seconds after each ping") parser.add_argument('--slp1', type=float, default=0.5, help="sleep x seconds after each frame") parser.add_argument('--rotate', type=int, default=0, help="rotate image for x deg") parser.add_argument('-i', '--image', type=str, default='1.png', help="input image") args = parser.parse_args() skip, slp, slp1, draw_img = args.skip, args.slp, args.slp1, args.drawfirst import struct class ICMP6: _ICMP_ECHO_REQUEST = 128 def __init__(self, destination, id, sequence, payload=None, payload_size=56, ttl=64, traffic_class=0): if payload is not None: payload_size = len(payload) else: payload = b'\x00'*payload_size self._destination = destination self._id = id & 0xffff self._sequence = sequence & 0xffff self._payload = payload self._payload_size = payload_size self._ttl = ttl self._traffic_class = traffic_class self._time = 0 def _checksum(self, data): ''' Compute the checksum of an ICMP packet. Checksums are used to verify the integrity of packets. ''' sum = 0 data += b'\x00' for i in range(0, len(data) - 1, 2): sum += (data[i] << 8) + data[i + 1] sum = (sum & 0xffff) + (sum >> 16) sum = ~sum & 0xffff return sum def _create_packet(self): ''' Build an ICMP packet from an identifier, a sequence number and a payload. This method returns the newly created ICMP header concatenated to the payload passed in parameters. ''' id, sequence, payload = self._id, self._sequence, self._payload checksum = 0 # Temporary ICMP header to compute the checksum header = struct.pack('!2B3H', self._ICMP_ECHO_REQUEST, 0, checksum, id, sequence) checksum = self._checksum(header + payload) # Definitive ICMP header header = struct.pack('!2B3H', self._ICMP_ECHO_REQUEST, 0, checksum, id, sequence) return header + payload #X=512 #Y=512 X=77 Y=58 X_OFFSET=512-X Y_OFFSET=512-Y Y_OFFSET=80 import socket, traceback, time from PIL import Image icmp6pkt = ICMP6(None, 0xad, 0, b'')._create_packet() import concurrent.futures def send_icmp_mt(addrs, workers=10): def sendto(addr): with socket.socket(socket.AF_INET6, socket.SOCK_DGRAM, socket.IPPROTO_ICMPV6) as s: s.sendto(icmp6pkt, (addr, 0)) time.sleep(slp) with concurrent.futures.ThreadPoolExecutor(max_workers=workers) as executor: for addr in addrs: executor.submit(sendto, addr) executor.shutdown(wait=True, cancel_futures=False) def send_icmp_st(addrs): try: for addr in addrs: with socket.socket(socket.AF_INET6, socket.SOCK_DGRAM, socket.IPPROTO_ICMPV6) as s: s.sendto(icmp6pkt, (addr, 0)) time.sleep(slp) except Exception: traceback.print_exc() send_icmp = send_icmp_st headers = {'User-Agent': 'curl/7.88.1)'} mkreq = lambda u: urllib.request.Request(u, data=None, headers=headers) timeout = 60 import urllib.request import contextlib import base64 import io import threading img = None imglock = threading.Lock() def get_bg(): global img while True: try: with contextlib.closing(urllib.request.urlopen(mkreq(IN), timeout=timeout)) as resp: for line in resp: if line.startswith(b'data:'): with imglock: imgn = Image.open(io.BytesIO(base64.b64decode(line[5:-1]))) assert imgn.size == (X, Y) #print(imgn.mode) if imgn.mode == 'RGB': img = imgn.convert(mode='RGBA') else: assert imgn.mode == 'RGBA' img.paste(imgn, (0, 0), imgn) except Exception: traceback.print_exc() print('get_bg exit') time.sleep(3) def start_bg_task(): threading.Thread(target=get_bg, daemon=True).start() while img is None: time.sleep(1) print('connection established') import random draw_seq = [(x, y) for x in range(X) for y in range(Y)] random.shuffle(draw_seq) #start_bg_task() ldraw = Image.new(mode="RGBA", size=(X, Y)) def draw(img): global ldraw send_icmp_q = [] #start = time.time() #print('draw 1 frame in ', end='') for x, y in draw_seq: newpix = img.getpixel((x, y)) r, g, b, a = newpix if a and newpix != ldraw.getpixel((x, y)): x += X_OFFSET y += Y_OFFSET send_icmp_q.append(f"{OUT}:{x:x}:{y:x}:11{r:02x}:{g:02x}{b:02x}") #startsend = time.time() send_icmp(send_icmp_q) ldraw = img.copy() #end = time.time() #print(f"{1000*(end-start):.1f}ms {1000*(end-startsend):.1f}ms") LANCZOS = Image.Resampling.LANCZOS if getattr(Image, 'Resampling', None) else Image.LANCZOS #to_draw = Image.open(args.image).convert('RGBA').rotate(args.rotate).resize((X, Y), LANCZOS) import pathlib print('loading...') bad_apple_frames = [ Image.open(_f).convert('RGBA').resize((X, Y)) for _f in sorted([f for f in pathlib.Path(f'ba_{X}x{Y}').iterdir()], key=lambda x: int(x.name.removesuffix('.png'))) ] print('loaded') while True: ldraw = Image.new(mode="RGBA", size=(X, Y)) start = time.time() frameskip = 12 rfc = random.randint(0, frameskip) fc = 0 fps = 24 spf = 1/fps for frame in bad_apple_frames: if not rfc % frameskip == 0: fc += 1 rfc += 1 continue draw(frame) fc += 1 rfc += 1 now = time.time() should_sleep = fc * spf - now + start if should_sleep <= 0: start = now fc = 0 print(f'cant keep up, running {-should_sleep*1000:.1f} ms behind') should_sleep = 0.1 time.sleep(should_sleep) print(f'played one round, sleeping for {slp1=}') time.sleep(slp1)