#!/usr/bin/env python2.7 import socket import time import rfm69 from rfm69 import Rfm69 import xx2262 import it32 import threading PORT = 5052 rfm = Rfm69(1, 24) rfm.SetParams( Freq = 868.300, #MHz center frequency ModulationType = rfm69.FSK, #modulation Datarate = 9.992, #kbit/s baudrate Deviation = 19.042, #kHz frequency deviation -> OBW = 48 kHz, h = 3.81 SyncPattern = [0xc6, 0x26, 0xc6, 0x26], #syncword Bandwidth = 100, #kHz bandwidth (101.5) RssiThresh = -100, #-100 dB RSSI threshold Preamble = 1700 ) connections = [] def maxPrint(frame): x = {} x['cnt'] = frame[1] x['flag'] = hex(frame[2]) x['type'] = hex(frame[3]) x['src'] = hex(frame[4] << 16 | frame[5] << 8 | frame[6]) x['dst'] = hex(frame[7] << 16 | frame[8] << 8 | frame[9]) x['grp'] = frame[10] x['pay'] = [] for i in range(frame[0] - 10): x['pay'].append(frame[i + 11]) info = "" if x['type'] == '0x42': info = str(x['pay'][0] / 2.0) + ' / ' + str(x['pay'][1] / 10.0) print(x['src'] + "->" + x['dst'] + " type " + x['type'] + ':', x['pay'], info) class Connection(threading.Thread): def __init__(self, sock, rfm): self._socket = sock self._rfm = rfm self.__housecode = "0000" self.__rxflags = 0 threading.Thread.__init__(self) def sendHost(self, line): #print("TO FHEM: " + line) self._socket.send(line + "\n") def sendRF(self, symbolTime, data): self._rfm.SetParams(Datarate = 1E3/symbolTime) self._rfm.SendPacket(data) def run(self): while True: data = self._socket.recv(1024) if not data: break lines = str.splitlines(data) for line in lines: print("FROM FHEM: " + line) if line == 'V': self.sendHost("V 1.0 CULEMU") elif line[:1] == "X": line = line[1:] if len(line) > 0: self.__rxflags = int(line, 16) else: self.sendHost("X" + format(self.__rxflags, "02X") + format(900, "05d")) pass elif line[:2] == "is": self.sendHost(line) line = line[2:] if len(line) == 12: frame = xx2262.MakeFrame(line, 5) self.sendRF(375, frame) elif len(line) == 32: frame = it32.MakeFrame(line, 5) self.sendRF(275, frame) elif line[:3] == "T01": if len(line) > 3: self.__housecode = line[3:] else: self.sendHost(self.__housecode) elif line[:2] == "Zr": pass elif line[:2] == "Zs": line = line[2:] frame = bytearray.fromhex(line) #maxPrint(frame) rfm.WhitenTI(frame) self._rfm.SendPacket(frame) print("TX!") else: self.sendHost("? (? is unknown) Use one of C F R T V W X e f l t x Z") print "destroy connection" connections.remove(self) del self class CulEmu(threading.Thread): def __init__(self, rfm, port): self._rfm = rfm self._sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self._sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self._sock.bind(('', port)) self._sock.listen(4) threading.Thread.__init__(self) def run(self): while True: conn, addr = self._sock.accept() print "New connection from", addr c = Connection(conn, self._rfm) c.start() connections.append(c) def sendHost(self, s): for c in connections: c.sendHost(s) rxevent = threading.Event() rxmutex = threading.Lock() rxbuf = [] cul = CulEmu(rfm, PORT) cul.daemon = True cul.start() class RxThread(threading.Thread): def __init__(self, rfm): self.__rfm = rfm threading.Thread.__init__(self) def callback(self): lfsr = 0x1ff frame = rfm.ReadFifoWait(1) len = frame[0] ^ 0xFF #invert due to whitening frame += rfm.ReadFifoWait(len) rxmutex.acquire() rxbuf.append(frame) rxmutex.release() rxevent.set() return def run(self): while True: rxevent.wait() left = True while left: rxmutex.acquire() rxevent.clear() frame = rxbuf.pop(0) left = len(rxbuf) > 0 rxmutex.release() rfm.WhitenTI(frame) s = "Z" for b in frame: s += format(b, "02X") s += "20" cul.sendHost(s) #maxPrint(frame) if not left: break rxthread = RxThread(rfm) rxthread.daemon = True rxthread.start() while True: data = rfm.StartRx(rxthread.callback)