#!/usr/bin/env python3 # -*- coding: utf-8 -*- """ Created on Fri Dec 25 21:25:14 2020 @author: DJ2LS # GET COMMANDS # "command" : "..." # SET COMMANDS # "command" : "..." # "parameter" : " ..." # DATA COMMANDS # "command" : "..." # "type" : "..." # "dxcallsign" : "..." # "data" : "..." """ import socketserver import threading import logging import json import asyncio import time import static import data_handler import helpers import sys, os class CMDTCPRequestHandler(socketserver.BaseRequestHandler): def handle(self): print("Client connected...") # loop through socket buffer until timeout is reached. then close buffer socketTimeout = time.time() + 10 while socketTimeout > time.time(): time.sleep(0.01) encoding = 'utf-8' #data = str(self.request.recv(1024), 'utf-8') data = bytes() # we need to loop through buffer until end of chunk is reached or timeout occured while True and socketTimeout > time.time(): chunk = self.request.recv(1024) # .strip() data += chunk if chunk.endswith(b'\n'): break data = data[:-1] # remove b'\n' data = str(data, 'utf-8') #print(data) if len(data) > 0: socketTimeout = time.time() + static.SOCKET_TIMEOUT # convert data to json object # we need to do some error handling in case of socket timeout try: received_json = json.loads(data) except json.decoder.JSONDecodeError as e: print("++++++++++++ START OF JSON ERROR +++++++++++++++++++++++") print(e) print("-----------------------------------") print(data) print("++++++++++++ END OF JSON ERROR +++++++++++++++++++++++++") try: # CQ CQ CQ ----------------------------------------------------- if received_json["command"] == "CQCQCQ": socketTimeout = 0 #asyncio.run(data_handler.transmit_cq()) CQ_THREAD = threading.Thread(target=data_handler.transmit_cq, args=[], name="CQ") CQ_THREAD.start() # PING ---------------------------------------------------------- if received_json["type"] == 'PING' and received_json["command"] == "PING": # send ping frame and wait for ACK print(received_json) dxcallsign = received_json["dxcallsign"] #asyncio.run(data_handler.transmit_ping(dxcallsign)) PING_THREAD = threading.Thread(target=data_handler.transmit_ping, args=[dxcallsign], name="CQ") PING_THREAD.start() if received_json["type"] == 'ARQ' and received_json["command"] == "OPEN_DATA_CHANNEL": static.ARQ_READY_FOR_DATA = False static.TNC_STATE = 'BUSY' dxcallsign = received_json["dxcallsign"] static.DXCALLSIGN = bytes(dxcallsign, 'utf-8') static.DXCALLSIGN_CRC8 = helpers.get_crc_8(static.DXCALLSIGN) asyncio.run(data_handler.arq_open_data_channel()) if received_json["type"] == 'ARQ' and received_json["command"] == "sendFile":# and static.ARQ_READY_FOR_DATA == True: # and static.ARQ_STATE == 'CONNECTED' : static.TNC_STATE = 'BUSY' #on a new transmission we reset the timer static.ARQ_START_OF_TRANSMISSION = int(time.time()) dxcallsign = received_json["dxcallsign"] mode = int(received_json["mode"]) n_frames = int(received_json["n_frames"]) filename = received_json["filename"] filetype = received_json["filetype"] data = received_json["data"] checksum = received_json["checksum"] static.DXCALLSIGN = bytes(dxcallsign, 'utf-8') static.DXCALLSIGN_CRC8 = helpers.get_crc_8(static.DXCALLSIGN) dataframe = '{"filename": "'+ filename + '", "filetype" : "' + filetype + '", "data" : "' + data + '", "checksum" : "' + checksum + '"}' #data_out = bytes(received_json["data"], 'utf-8') data_out = bytes(dataframe, 'utf-8') #ARQ_DATA_THREAD = threading.Thread(target=data_handler.arq_transmit, args=[data_out], name="ARQ_DATA") #ARQ_DATA_THREAD.start() ARQ_DATA_THREAD = threading.Thread(target=data_handler.open_dc_and_transmit, args=[data_out, mode, n_frames], name="ARQ_DATA") ARQ_DATA_THREAD.start() # asyncio.run(data_handler.arq_transmit(data_out)) # SETTINGS AND STATUS --------------------------------------------- if received_json["type"] == 'SET' and received_json["command"] == 'MYCALLSIGN': callsign = received_json["parameter"] if bytes(callsign, encoding) == b'': self.request.sendall(b'INVALID CALLSIGN') else: static.MYCALLSIGN = bytes(callsign, encoding) static.MYCALLSIGN_CRC8 = helpers.get_crc_8(static.MYCALLSIGN) logging.info("CMD | MYCALLSIGN: " + str(static.MYCALLSIGN)) if received_json["type"] == 'SET' and received_json["command"] == 'MYGRID': mygrid = received_json["parameter"] if bytes(mygrid, encoding) == b'': self.request.sendall(b'INVALID GRID') else: static.MYGRID = bytes(mygrid, encoding) logging.info("CMD | MYGRID: " + str(static.MYGRID)) if received_json["type"] == 'GET' and received_json["command"] == 'STATION_INFO': output = { "COMMAND": "STATION_INFO", "MY_CALLSIGN": str(static.MYCALLSIGN, encoding), "DX_CALLSIGN": str(static.DXCALLSIGN, encoding), "DX_GRID": str(static.DXGRID, encoding), "EOF" : "EOF", } jsondata = json.dumps(output) self.request.sendall(bytes(jsondata, encoding)) if received_json["type"] == 'GET' and received_json["command"] == 'TNC_STATE': #print(static.SCATTER) output = { "COMMAND": "TNC_STATE", "PTT_STATE": str(static.PTT_STATE), "CHANNEL_STATE": str(static.CHANNEL_STATE), "TNC_STATE": str(static.TNC_STATE), "ARQ_STATE": str(static.ARQ_STATE), "AUDIO_RMS": str(static.AUDIO_RMS), "BER": str(static.BER), "SNR": str(static.SNR), "FREQUENCY" : str(static.HAMLIB_FREQUENCY), "MODE" : str(static.HAMLIB_MODE), "BANDWITH" : str(static.HAMLIB_BANDWITH), "FFT" : str(static.FFT), "SCATTER" : static.SCATTER, "RX_BUFFER_LENGTH": str(len(static.RX_BUFFER)), "TX_N_MAX_RETRIES": str(static.TX_N_MAX_RETRIES), "ARQ_TX_N_FRAMES_PER_BURST": str(static.ARQ_TX_N_FRAMES_PER_BURST), "ARQ_TX_N_BURSTS": str(static.ARQ_TX_N_BURSTS), "ARQ_TX_N_CURRENT_ARQ_FRAME": str(int.from_bytes(bytes(static.ARQ_TX_N_CURRENT_ARQ_FRAME), "big")), "ARQ_TX_N_TOTAL_ARQ_FRAMES": str(int.from_bytes(bytes(static.ARQ_TX_N_TOTAL_ARQ_FRAMES), "big")), "ARQ_RX_FRAME_N_BURSTS": str(static.ARQ_RX_FRAME_N_BURSTS), "ARQ_RX_N_CURRENT_ARQ_FRAME": str(static.ARQ_RX_N_CURRENT_ARQ_FRAME), "ARQ_N_ARQ_FRAMES_PER_DATA_FRAME": str(static.ARQ_N_ARQ_FRAMES_PER_DATA_FRAME), "STATIONS" : [], "EOF" : "EOF", } for i in range(0, len(static.HEARD_STATIONS)): output["STATIONS"].append({"DXCALLSIGN": str(static.HEARD_STATIONS[i][0], 'utf-8'),"DXGRID": str(static.HEARD_STATIONS[i][1], 'utf-8'), "TIMESTAMP": static.HEARD_STATIONS[i][2], "DATATYPE": static.HEARD_STATIONS[i][3], "SNR": static.HEARD_STATIONS[i][4]}) jsondata = json.dumps(output) #print(len(jsondata)) self.request.sendall(bytes(jsondata, encoding)) if received_json["type"] == 'GET' and received_json["command"] == 'FFT': output = { "FFT" : str(static.FFT) } jsondata = json.dumps(output) self.request.sendall(bytes(jsondata, encoding)) #if received_json["type"] == 'GET' and received_json["command"] == 'SCATTER': # # print(static.SCATTER) # output = { # "COMMAND" : "SCATTER", # "DATA" : static.SCATTER # } # print(output) # jsondata = json.dumps(output) # self.request.sendall(bytes(jsondata, encoding)) if received_json["type"] == 'GET' and received_json["command"] == 'DATA_STATE': output = { "COMMAND": "DATA_STATE", "RX_BUFFER_LENGTH": str(len(static.RX_BUFFER)), "TX_N_MAX_RETRIES": str(static.TX_N_MAX_RETRIES), "ARQ_TX_N_FRAMES_PER_BURST": str(static.ARQ_TX_N_FRAMES_PER_BURST), "ARQ_TX_N_BURSTS": str(static.ARQ_TX_N_BURSTS), "ARQ_TX_N_CURRENT_ARQ_FRAME": str(int.from_bytes(bytes(static.ARQ_TX_N_CURRENT_ARQ_FRAME), "big")), "ARQ_TX_N_TOTAL_ARQ_FRAMES": str(int.from_bytes(bytes(static.ARQ_TX_N_TOTAL_ARQ_FRAMES), "big")), "ARQ_RX_FRAME_N_BURSTS": str(static.ARQ_RX_FRAME_N_BURSTS), "ARQ_RX_N_CURRENT_ARQ_FRAME": str(static.ARQ_RX_N_CURRENT_ARQ_FRAME), "ARQ_N_ARQ_FRAMES_PER_DATA_FRAME": str(static.ARQ_N_ARQ_FRAMES_PER_DATA_FRAME), "EOF" : "EOF", } jsondata = json.dumps(output) self.request.sendall(bytes(jsondata, encoding)) if received_json["type"] == 'GET' and received_json["command"] == 'HEARD_STATIONS': # print("HEARD STATIONS COMMAND!") data = {"COMMAND": "HEARD_STATIONS", "STATIONS" : []} for i in range(0, len(static.HEARD_STATIONS)): data["STATIONS"].append({"DXCALLSIGN": str(static.HEARD_STATIONS[i][0], 'utf-8'),"DXGRID": str(static.HEARD_STATIONS[i][1], 'utf-8'), "TIMESTAMP": static.HEARD_STATIONS[i][2], "DATATYPE": static.HEARD_STATIONS[i][3], "SNR": static.HEARD_STATIONS[i][4]}) # print(static.HEARD_STATIONS[i][1]) #data.append({"EOF" : "EOF"}) jsondata = json.dumps(data) self.request.sendall(bytes(jsondata, encoding)) if received_json["type"] == 'GET' and received_json["command"] == 'RX_BUFFER': data = data.split('GET:RX_BUFFER:') bufferposition = int(data[1]) - 1 if bufferposition == -1: if len(static.RX_BUFFER) > 0: self.request.sendall(static.RX_BUFFER[-1]) if bufferposition <= len(static.RX_BUFFER) > 0: self.request.sendall(bytes(static.RX_BUFFER[bufferposition])) if received_json["type"] == 'SET' and received_json["command"] == 'DEL_RX_BUFFER': static.RX_BUFFER = [] #exception, if JSON cant be decoded except Exception as e: print("############ START OF ERROR #####################") print("SOCKET COMMAND ERROR: " + data) print(e) exc_type, exc_obj, exc_tb = sys.exc_info() fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] print(exc_type, fname, exc_tb.tb_lineno) print("############ END OF ERROR #######################") print("Client disconnected...") def start_cmd_socket(): try: logging.info("SRV | STARTING TCP/IP SOCKET FOR CMD ON PORT: " + str(static.PORT)) socketserver.TCPServer.allow_reuse_address = True # https://stackoverflow.com/a/16641793 cmdserver = socketserver.TCPServer((static.HOST, static.PORT), CMDTCPRequestHandler) cmdserver.serve_forever() finally: cmdserver.server_close()