#!/usr/bin/env python3 # ############################################################################### # HBLink - Copyright (C) 2020 Cortney T. Buffington, N0MJS # GPS/Data - Copyright (C) 2020 Eric Craw, KF7EEL # Annotated modifications Copyright (C) 2021 Xavier FRS2013 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software Foundation, # Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ############################################################################### ''' This is a GPS and Data application. It decodes and reassambles DMR GPS packets and uploads them th APRS-IS. ''' # Python modules we need import sys from bitarray import bitarray from time import time from importlib import import_module from types import ModuleType # Twisted is pretty important, so I keep it separate from twisted.internet.protocol import Factory, Protocol from twisted.protocols.basic import NetstringReceiver from twisted.internet import reactor, task # Things we import from the main hblink module from hblink import HBSYSTEM, OPENBRIDGE, systems, hblink_handler, reportFactory, REPORT_OPCODES, config_reports, mk_aliases, acl_check from dmr_utils3.utils import bytes_3, int_id, get_alias from dmr_utils3 import decode, bptc, const import config import log import const # The module needs logging logging, but handlers, etc. are controlled by the parent import logging logger = logging.getLogger(__name__) # Other modules we need for data and GPS from bitarray import bitarray from binascii import b2a_hex as ahex import re ##from binascii import a2b_hex as bhex import aprslib import datetime from bitarray.util import ba2int as ba2num from bitarray.util import ba2hex as ba2hx import codecs import time #Needed for working with NMEA import pynmea2 # Modules for executing commands/scripts import os from gps_functions import cmd_list # Module for maidenhead grids try: import maidenhead as mh except: logger.info('Error importing maidenhead module, make sure it is installed.') # Module for sending email try: import smtplib except: logger.info('Error importing smtplib module, make sure it is installed.') #Modules for APRS settings import ast from pathlib import Path # Does anybody read this stuff? There's a PEP somewhere that says I should do this. __author__ = 'Cortney T. Buffington, N0MJS; Eric Craw, KF7EEL' __copyright__ = 'Copyright (c) 2020 Cortney T. Buffington' __credits__ = 'Colin Durbridge, G4EML, Steve Zingman, N4IRS; Mike Zingman, N4IRR; Jonathan Naylor, G4KLX; Hans Barthen, DL5DI; Torsten Shultze, DG1HT' __license__ = 'GNU GPLv3' __maintainer__ = 'Eric Craw, KF7EEL' __email__ = 'kf7eel@qsl.net' __status__ = 'pre-alpha' # Must have the following at line 1054 in bridge.py to forward group vcsbk, also there is a typo there: # self.group_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) ################################################################################################## # Headers for GPS by model of radio: # AT-D878 - Compressed UDP # MD-380 - Unified Data Transport hdr_type = '' btf = '' ssid = '' # From dmr_utils3, modified to decode entire packet. Works for 1/2 rate coded data. def decode_full(_data): binlc = bitarray(endian='big') binlc.extend([_data[136],_data[121],_data[106],_data[91], _data[76], _data[61], _data[46], _data[31]]) binlc.extend([_data[152],_data[137],_data[122],_data[107],_data[92], _data[77], _data[62], _data[47], _data[32], _data[17], _data[2] ]) binlc.extend([_data[123],_data[108],_data[93], _data[78], _data[63], _data[48], _data[33], _data[18], _data[3], _data[184],_data[169]]) binlc.extend([_data[94], _data[79], _data[64], _data[49], _data[34], _data[19], _data[4], _data[185],_data[170],_data[155],_data[140]]) binlc.extend([_data[65], _data[50], _data[35], _data[20], _data[5], _data[186],_data[171],_data[156],_data[141],_data[126],_data[111]]) binlc.extend([_data[36], _data[21], _data[6], _data[187],_data[172],_data[157],_data[142],_data[127],_data[112],_data[97], _data[82] ]) binlc.extend([_data[7], _data[188],_data[173],_data[158],_data[143],_data[128],_data[113],_data[98], _data[83]]) #This is the rest of the Full LC data -- the RS1293 FEC that we don't need # This is extremely important for SMS and GPS though. binlc.extend([_data[68],_data[53],_data[174],_data[159],_data[144],_data[129],_data[114],_data[99],_data[84],_data[69],_data[54],_data[39]]) binlc.extend([_data[24],_data[145],_data[130],_data[115],_data[100],_data[85],_data[70],_data[55],_data[40],_data[25],_data[10],_data[191]]) return binlc n_packet_assembly = 0 packet_assembly = '' final_packet = '' #Convert DMR packet to binary from MMDVM packet and remove Slot Type and EMB Sync stuff to allow for BPTC 196,96 decoding def bptc_decode(_data): binary_packet = bitarray(decode.to_bits(_data[20:])) del binary_packet[98:166] return decode_full(binary_packet) # Placeholder for future header id def header_ID(_data): hex_hdr = str(ahex(bptc_decode(_data))) return hex_hdr[2:6] # Work in progress, used to determine data format ## pass def aprs_send(packet): if aprs_callsign == 'N0CALL': logger.info('APRS callsighn set to N0CALL, packet not sent.') pass else: AIS = aprslib.IS(aprs_callsign, passwd=aprs_passcode,host=aprs_server, port=aprs_port) AIS.connect() AIS.sendall(packet) AIS.close() logger.info('Packet sent to APRS-IS.') def dashboard_loc_write(call, lat, lon, time): pass ## #try: ## dash_entries = ast.literal_eval(os.popen('cat /tmp/gps_data_user_loc.txt').read()) ## # except: ## # dash_entries = [] ## dash_entries.insert(0, {'call': call, 'lat': lat, 'lon': lon, 'time':time}) ## with open("/tmp/gps_data_user_loc.txt", 'w') as user_loc_file: ## user_loc_file.write(str(dash_entries[:15])) ## user_loc_file.close() ## logger.info('User location saved for dashboard') ## #logger.info(dash_entries) def dashboard_bb_write(call, dmr_id, time, bulletin): pass ## #try: ## dash_bb = ast.literal_eval(os.popen('cat /tmp/gps_data_user_bb.txt').read()) ## # except: ## # dash_entries = [] ## dash_bb.insert(0, {'call': call, 'dmr_id': dmr_id, 'time': time, 'bulliten':bulletin}) ## with open("/tmp/gps_data_user_bb.txt", 'w') as user_bb_file: ## user_bb_file.write(str(dash_bb[:10])) ## user_bb_file.close() ## logger.info('User bulletin entry saved.') ## #logger.info(dash_bb) # Send email via SMTP function def send_email(to_email, email_subject, email_message): global smtp_server sender_address = email_sender account_password = email_password smtp_server = smtplib.SMTP_SSL(smtp_server, int(smtp_port)) smtp_server.login(sender_address, account_password) message = "From: " + aprs_callsign + " D-APRS Gateway\nTo: " + to_email + "\nContent-type: text/html\nSubject: " + email_subject + "\n\n" + '' + email_subject + '

 

' + email_message + '

 

This message was sent to you from a D-APRS gateway operated by ' + aprs_callsign + '. Do not reply as this gateway is only one way at this time.

' smtp_server.sendmail(sender_address, to_email, message) smtp_server.close() # Thanks for this forum post for this - https://stackoverflow.com/questions/2579535/convert-dd-decimal-degrees-to-dms-degrees-minutes-seconds-in-python def decdeg2dms(dd): is_positive = dd >= 0 dd = abs(dd) minutes,seconds = divmod(dd*3600,60) degrees,minutes = divmod(minutes,60) degrees = degrees if is_positive else -degrees return (degrees,minutes,seconds) def user_setting_write(dmr_id, setting, value): ## try: # Open file and load as dict for modification with open("./user_settings.txt", 'r') as f: ## if f.read() == '{}': ## user_dict = {} user_dict = ast.literal_eval(f.read()) logger.info('Current settings: ' + str(user_dict)) if dmr_id not in user_dict: user_dict[dmr_id] = [{'call': str(get_alias((dmr_id), subscriber_ids))}, {'ssid': ''}, {'icon': ''}, {'comment': ''}] if setting.upper() == 'ICON': user_dict[dmr_id][2]['icon'] = value if setting.upper() == 'SSID': user_dict[dmr_id][1]['ssid'] = value if setting.upper() == 'COM': user_comment = user_dict[dmr_id][3]['comment'] = value[0:35] f.close() logger.info('Loaded user settings. Preparing to write...') # Write modified dict to file with open("./user_settings.txt", 'w') as user_dict_file: user_dict_file.write(str(user_dict)) user_dict_file.close() logger.info('User setting saved') f.close() packet_assembly = '' ## except: ## logger.info('No data file found, creating one.') ## #Path('./user_settings.txt').mkdir(parents=True, exist_ok=True) ## Path('./user_settings.txt').touch() # Process SMS, do something bases on message def process_sms(_rf_src, sms): if sms == 'ID': logger.info(str(get_alias(int_id(from_id), subscriber_ids)) + ' - ' + str(int_id(from_id))) elif sms == 'TEST': logger.info('It works!') elif '@ICON' in sms: user_setting_write(int_id(_rf_src), re.sub(' .*|@','',sms), re.sub('@ICON| ','',sms)) elif '@SSID' in sms: user_setting_write(int_id(_rf_src), re.sub(' .*|@','',sms), re.sub('@SSID| ','',sms)) elif '@COM' in sms: user_setting_write(int_id(_rf_src), re.sub(' .*|@','',sms), re.sub('@COM |@COM','',sms)) elif '@BB' in sms: dashboard_bb_write(get_alias(int_id(_rf_src), subscriber_ids), int_id(_rf_src), time.strftime('%H:%M:%S - %m/%d/%y'), re.sub('@BB|@BB ','',sms)) elif '@' and ' E-' in sms: email_message = re.sub('.*@|.* E-', '', sms) to_email = re.sub(' E-.*', '', sms) email_subject = 'New message from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) logger.info('Email to: ' + to_email) logger.info('Message: ' + email_message) try: send_email(to_email, email_subject, email_message) logger.info('Email sent.') except: logger.info('Failed to send email.') elif '@MH' in sms: grid_square = re.sub('@MH ', '', sms) if len(grid_square) < 6: pass else: lat = decdeg2dms(mh.to_location(grid_square)[0]) lon = decdeg2dms(mh.to_location(grid_square)[1]) if lon[0] < 0: lon_dir = 'W' if lon[0] > 0: lon_dir = 'E' if lat[0] < 0: lat_dir = 'S' if lat[0] > 0: lat_dir = 'N' #logger.info(lat) #logger.info(lat_dir) aprs_lat = str(str(re.sub('\..*|-', '', str(lat[0]))) + str(re.sub('\..*', '', str(lat[1])) + '.')).zfill(5) + ' ' + lat_dir aprs_lon = str(str(re.sub('\..*|-', '', str(lon[0]))) + str(re.sub('\..*', '', str(lon[1])) + '.')).zfill(6) + ' ' + lon_dir logger.info('Latitude: ' + str(aprs_lat)) logger.info('Longitude: ' + str(aprs_lon)) # 14FRS2013 simplified and moved settings retrieval user_settings = ast.literal_eval(os.popen('cat ./user_settings.txt').read()) if int_id(_rf_src) not in user_settings: ssid = str(user_ssid) icon_table = '/' icon_icon = '[' comment = aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) else: if user_settings[int_id(_rf_src)][1]['ssid'] == '': ssid = user_ssid if user_settings[int_id(_rf_src)][3]['comment'] == '': comment = aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) if user_settings[int_id(_rf_src)][2]['icon'] == '': icon_table = '/' icon_icon = '[' if user_settings[int_id(_rf_src)][2]['icon'] != '': icon_table = user_settings[int_id(_rf_src)][2]['icon'][0] icon_icon = user_settings[int_id(_rf_src)][2]['icon'][1] if user_settings[int_id(_rf_src)][1]['ssid'] != '': ssid = user_settings[int_id(_rf_src)][1]['ssid'] if user_settings[int_id(_rf_src)][3]['comment'] != '': comment = user_settings[int_id(_rf_src)][3]['comment'] aprs_loc_packet = str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + ssid + '>APHBL3,TCPIP*:/' + str(datetime.datetime.utcnow().strftime("%H%M%Sh")) + str(aprs_lat) + icon_table + str(aprs_lon) + icon_icon + '/' + str(comment) logger.info(aprs_loc_packet) logger.info('User comment: ' + comment) logger.info('User SSID: ' + ssid) logger.info('User icon: ' + icon_table + icon_icon) try: aprslib.parse(aprs_loc_packet) aprs_send(aprs_loc_packet) dashboard_loc_write(str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + ssid, aprs_lat, aprs_lon, time.strftime('%H:%M:%S - %m/%d/%y')) #logger.info('Sent manual position to APRS') except: logger.info('Exception. Not uploaded') packet_assembly = '' elif 'A-' in sms and '@' in sms: #Example SMS text: @ARMDS A-This is a test. aprs_dest = re.sub('@| A-.*','',sms) aprs_msg = re.sub('@.* A-|','',sms) logger.info('APRS message to ' + aprs_dest.upper() + '. Message: ' + aprs_msg) user_settings = ast.literal_eval(os.popen('cat ./user_settings.txt').read()) if int_id(_rf_src) in user_settings and user_settings[int_id(_rf_src)][1]['ssid'] != '': ssid = user_settings[int_id(_rf_src)][1]['ssid'] else: ssid = user_ssid aprs_msg_pkt = str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + str(ssid) + '>APHBL3,TCPIP*::' + str(aprs_dest).ljust(9).upper() + ':' + aprs_msg[0:73] logger.info(aprs_msg_pkt) try: aprslib.parse(aprs_msg_pkt) aprs_send(aprs_msg_pkt) #logger.info('Packet sent.') except: logger.info('Error uploading MSG packet.') try: if sms in cmd_list: logger.info('Executing command/script.') os.popen(cmd_list[sms]).read() packet_assembly = '' except: logger.info('Exception. Command possibly not in list, or other error.') packet_assembly = '' else: pass ########### class DATA_SYSTEM(HBSYSTEM): ## global n_packet_assembly, packet_assembly def __init__(self, _name, _config, _report): HBSYSTEM.__init__(self, _name, _config, _report) def dmrd_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _call_type, _frame_type, _dtype_vseq, _stream_id, _data): # Capture data headers global n_packet_assembly, hdr_type #logger.info(_dtype_vseq) logger.info(time.strftime('%H:%M:%S - %m/%d/%y')) #logger.info('Special debug for developement:') #logger.info(ahex(bptc_decode(_data))) #logger.info(hdr_type) #logger.info((ba2num(bptc_decode(_data)[8:12]))) if int_id(_dst_id) == data_id: #logger.info(type(_seq)) if type(_seq) is bytes: pckt_seq = int.from_bytes(_seq, 'big') else: pckt_seq = _seq # Try to classify header # UDT header has DPF of 0101, which is 5. # If 5 is at position 3, then this should be a UDT header for MD-380 type radios. # Coordinates are usually in the very next block after the header, we will discard the rest. #logger.info(ahex(bptc_decode(_data)[0:10])) if _call_type == call_type and header_ID(_data)[3] == '5' and ba2num(bptc_decode(_data)[69:72]) == 0 and ba2num(bptc_decode(_data)[8:12]) == 0 or (_call_type == 'vcsbk' and header_ID(_data)[3] == '5' and ba2num(bptc_decode(_data)[69:72]) == 0 and ba2num(bptc_decode(_data)[8:12]) == 0): global udt_block logger.info('MD-380 type UDT header detected. Very next packet should be location.') hdr_type = '380' if _dtype_vseq == 6 and hdr_type == '380' or _dtype_vseq == 'group' and hdr_type == '380': udt_block = 1 if _dtype_vseq == 7 and hdr_type == '380': udt_block = udt_block - 1 if udt_block == 0: logger.info('MD-380 type packet. This should contain the GPS location.') logger.info('Packet: ' + str(ahex(bptc_decode(_data)))) if ba2num(bptc_decode(_data)[1:2]) == 1: lat_dir = 'N' if ba2num(bptc_decode(_data)[1:2]) == 0: lat_dir = 'S' if ba2num(bptc_decode(_data)[2:3]) == 1: lon_dir = 'E' if ba2num(bptc_decode(_data)[2:3]) == 0: lon_dir = 'W' lat_deg = ba2num(bptc_decode(_data)[11:18]) lon_deg = ba2num(bptc_decode(_data)[38:46]) lat_min = ba2num(bptc_decode(_data)[18:24]) lon_min = ba2num(bptc_decode(_data)[46:52]) lat_min_dec = str(ba2num(bptc_decode(_data)[24:38])).zfill(4) lon_min_dec = str(ba2num(bptc_decode(_data)[52:66])).zfill(4) aprs_lat = str(str(lat_deg) + str(lat_min) + '.' + str(lat_min_dec)[0:2]).zfill(7) + lat_dir aprs_lon = str(str(lon_deg) + str(lon_min) + '.' + str(lon_min_dec)[0:2]).zfill(8) + lon_dir # Form APRS packet #logger.info(aprs_loc_packet) logger.info('Lat: ' + str(aprs_lat) + ' Lon: ' + str(aprs_lon)) # 14FRS2013 simplified and moved settings retrieval user_settings = ast.literal_eval(os.popen('cat ./user_settings.txt').read()) if int_id(_rf_src) not in user_settings: ssid = str(user_ssid) icon_table = '/' icon_icon = '[' comment = aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) else: if user_settings[int_id(_rf_src)][1]['ssid'] == '': ssid = user_ssid if user_settings[int_id(_rf_src)][3]['comment'] == '': comment = aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) if user_settings[int_id(_rf_src)][2]['icon'] == '': icon_table = '/' icon_icon = '[' if user_settings[int_id(_rf_src)][2]['icon'] != '': icon_table = user_settings[int_id(_rf_src)][2]['icon'][0] icon_icon = user_settings[int_id(_rf_src)][2]['icon'][1] if user_settings[int_id(_rf_src)][1]['ssid'] != '': ssid = user_settings[int_id(_rf_src)][1]['ssid'] if user_settings[int_id(_rf_src)][3]['comment'] != '': comment = user_settings[int_id(_rf_src)][3]['comment'] aprs_loc_packet = str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + ssid + '>APHBL3,TCPIP*:/' + str(datetime.datetime.utcnow().strftime("%H%M%Sh")) + str(aprs_lat) + icon_table + str(aprs_lon) + icon_icon + '/' + str(comment) logger.info(aprs_loc_packet) logger.info('User comment: ' + comment) logger.info('User SSID: ' + ssid) logger.info('User icon: ' + icon_table + icon_icon) # Attempt to prevent malformed packets from being uploaded. try: aprslib.parse(aprs_loc_packet) float(lat_deg) < 91 float(lon_deg) < 121 aprs_send(aprs_loc_packet) dashboard_loc_write(str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + ssid, aprs_lat, aprs_lon, time.strftime('%H:%M:%S - %m/%d/%y')) #logger.info('Sent APRS packet') except: logger.info('Error. Failed to send packet. Packet may be malformed.') udt_block = 1 hdr_type = '' else: pass #NMEA type packets for Anytone like radios. #if _call_type == call_type or (_call_type == 'vcsbk' and pckt_seq > 3): #int.from_bytes(_seq, 'big') > 3 ): # 14FRS2013 contributed improved header filtering, KF7EEL added conditions to allow both call types at the same time if _call_type == call_type or (_call_type == 'vcsbk' and pckt_seq > 3 and call_type != 'unit') or (_call_type == 'group' and pckt_seq > 3 and call_type != 'unit') or (_call_type == 'group' and pckt_seq > 3 and call_type == 'both') or (_call_type == 'vcsbk' and pckt_seq > 3 and call_type == 'both') or (_call_type == 'unit' and pckt_seq > 3 and call_type == 'both'): #int.from_bytes(_seq, 'big') > 3 ): global packet_assembly, btf if _dtype_vseq == 6 or _dtype_vseq == 'group': global btf, hdr_start hdr_start = str(header_ID(_data)) logger.info('Header from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) + '. DMR ID: ' + str(int_id(_rf_src))) logger.info(ahex(bptc_decode(_data))) logger.info('Blocks to follow: ' + str(ba2num(bptc_decode(_data)[65:72]))) btf = ba2num(bptc_decode(_data)[65:72]) # Try resetting packet_assembly packet_assembly = '' # Data blocks at 1/2 rate, see https://github.com/g4klx/MMDVM/blob/master/DMRDefines.h for data types. _dtype_seq defined here also if _dtype_vseq == 7: btf = btf - 1 logger.info('Block #: ' + str(btf)) #logger.info(_seq) logger.info('Data block from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) + '. DMR ID: ' + str(int_id(_rf_src)) + '. Destination: ' + str(int_id(_dst_id))) logger.info(ahex(bptc_decode(_data))) if _seq == 0: n_packet_assembly = 0 packet_assembly = '' #if btf < btf + 1: # 14FRS2013 removed condition, works great! n_packet_assembly = n_packet_assembly + 1 packet_assembly = packet_assembly + str(bptc_decode(_data)) #str((decode_full_lc(b_packet)).strip('bitarray(')) # Use block 0 as trigger. $GPRMC must also be in string to indicate NMEA. # This triggers the APRS upload if btf == 0: final_packet = str(bitarray(re.sub("\)|\(|bitarray|'", '', packet_assembly)).tobytes().decode('utf-8', 'ignore')) sms_hex = str(ba2hx(bitarray(re.sub("\)|\(|bitarray|'", '', packet_assembly)))) sms_hex_string = re.sub("b'|'", '', str(sms_hex)) #NMEA GPS sentence if '$GPRMC' in final_packet or '$GNRMC' in final_packet: logger.info(final_packet + '\n') # Eliminate excess bytes based on NMEA type # GPRMC if 'GPRMC' in final_packet: logger.info('GPRMC location') #nmea_parse = re.sub('A\*.*|.*\$', '', str(final_packet)) nmea_parse = re.sub('A\*.*|.*\$|\n.*', '', str(final_packet)) # GNRMC if 'GNRMC' in final_packet: logger.info('GNRMC location') nmea_parse = re.sub('.*\$|\n.*|V\*.*', '', final_packet) loc = pynmea2.parse(nmea_parse, check=False) logger.info('Latitude: ' + str(loc.lat) + str(loc.lat_dir) + ' Longitude: ' + str(loc.lon) + str(loc.lon_dir) + ' Direction: ' + str(loc.true_course) + ' Speed: ' + str(loc.spd_over_grnd) + '\n') try: # Begin APRS format and upload # Disable opening file for reading to reduce "collision" or reading and writing at same time. # 14FRS2013 simplified and moved settings retrieval user_settings = ast.literal_eval(os.popen('cat ./user_settings.txt').read()) if int_id(_rf_src) not in user_settings: ssid = str(user_ssid) icon_table = '/' icon_icon = '[' comment = aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) else: if user_settings[int_id(_rf_src)][1]['ssid'] == '': ssid = user_ssid if user_settings[int_id(_rf_src)][3]['comment'] == '': comment = aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) if user_settings[int_id(_rf_src)][2]['icon'] == '': icon_table = '/' icon_icon = '[' if user_settings[int_id(_rf_src)][2]['icon'] != '': icon_table = user_settings[int_id(_rf_src)][2]['icon'][0] icon_icon = user_settings[int_id(_rf_src)][2]['icon'][1] if user_settings[int_id(_rf_src)][1]['ssid'] != '': ssid = user_settings[int_id(_rf_src)][1]['ssid'] if user_settings[int_id(_rf_src)][3]['comment'] != '': comment = user_settings[int_id(_rf_src)][3]['comment'] aprs_loc_packet = str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + ssid + '>APHBL3,TCPIP*:/' + str(datetime.datetime.utcnow().strftime("%H%M%Sh")) + str(loc.lat[0:7]) + str(loc.lat_dir) + icon_table + str(loc.lon[0:8]) + str(loc.lon_dir) + icon_icon + str(round(loc.true_course)).zfill(3) + '/' + str(round(loc.spd_over_grnd)).zfill(3) + '/' + str(comment) logger.info(aprs_loc_packet) logger.info('User comment: ' + comment) logger.info('User SSID: ' + ssid) logger.info('User icon: ' + icon_table + icon_icon) except: logger.info('Error or user settings file not found, proceeding with default settings.') aprs_loc_packet = str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + str(user_ssid) + '>APHBL3,TCPIP*:/' + str(datetime.datetime.utcnow().strftime("%H%M%Sh")) + str(loc.lat[0:7]) + str(loc.lat_dir) + '/' + str(loc.lon[0:8]) + str(loc.lon_dir) + '[' + str(round(loc.true_course)).zfill(3) + '/' + str(round(loc.spd_over_grnd)).zfill(3) + '/' + aprs_comment + ' DMR ID: ' + str(int_id(_rf_src)) try: # Try parse of APRS packet. If it fails, it will not upload to APRS-IS aprslib.parse(aprs_loc_packet) # Float values of lat and lon. Anything that is not a number will cause it to fail. float(loc.lat) float(loc.lon) aprs_send(aprs_loc_packet) dashboard_loc_write(str(get_alias(int_id(_rf_src), subscriber_ids)) + '-' + ssid, str(loc.lat[0:7]) + str(loc.lat_dir), str(loc.lon[0:8]) + str(loc.lon_dir), time.strftime('%H:%M:%S - %m/%d/%y')) except: logger.info('Failed to parse packet. Packet may be deformed. Not uploaded.') #final_packet = '' # Get callsign based on DMR ID # End APRS-IS upload # Assume this is an SMS message elif '$GPRMC' not in final_packet or '$GNRMC' not in final_packet: #### # Motorola type SMS header ## if '824a' in hdr_start or '024a' in hdr_start: ## logger.info('\nMotorola type SMS') ## sms = codecs.decode(bytes.fromhex(''.join(sms_hex[74:-8].split('00'))), 'utf-8') ## logger.info('\n\n' + 'Received SMS from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) + ', DMR ID: ' + str(int_id(_rf_src)) + ': ' + str(sms) + '\n') ## process_sms(_rf_src, sms) ## packet_assembly = '' ## # ETSI? type SMS header ## elif '0244' in hdr_start or '8244' in hdr_start: ## logger.info('ETSI? type SMS') ## sms = codecs.decode(bytes.fromhex(''.join(sms_hex[64:-8].split('00'))), 'utf-8') ## logger.info('\n\n' + 'Received SMS from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) + ', DMR ID: ' + str(int_id(_rf_src)) + ': ' + str(sms) + '\n') ## #logger.info(final_packet) ## #logger.info(sms_hex[64:-8]) ## process_sms(_rf_src, sms) ## packet_assembly = '' #### ## else: logger.info('\nSMS detected. Attempting to parse.') #logger.info(final_packet) logger.info(sms_hex) ## logger.info(type(sms_hex)) logger.info('Attempting to find command...') ## sms = codecs.decode(bytes.fromhex(''.join(sms_hex[:-8].split('00'))), 'utf-8', 'ignore') sms = codecs.decode(bytes.fromhex(''.join(sms_hex_string[:-8].split('00'))), 'utf-8', 'ignore') msg_found = re.sub('.*\n', '', sms) logger.info('\n\n' + 'Received SMS from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) + ', DMR ID: ' + str(int_id(_rf_src)) + ': ' + str(msg_found) + '\n') process_sms(_rf_src, msg_found) #packet_assembly = '' pass #logger.info(bitarray(re.sub("\)|\(|bitarray|'", '', str(bptc_decode(_data)).tobytes().decode('utf-8', 'ignore')))) #logger.info('\n\n' + 'Received SMS from ' + str(get_alias(int_id(_rf_src), subscriber_ids)) + ', DMR ID: ' + str(int_id(_rf_src)) + ': ' + str(sms) + '\n') # Reset the packet assembly to prevent old data from returning. # 14FRS2013 moved variable reset hdr_start = '' n_packet_assembly = 0 packet_assembly = '' btf = 0 #logger.info(_seq) #packet_assembly = '' #logger.info(_dtype_vseq) #logger.info(ahex(bptc_decode(_data)).decode('utf-8', 'ignore')) #logger.info(bitarray(re.sub("\)|\(|bitarray|'", '', str(bptc_decode(_data)).tobytes().decode('utf-8', 'ignore')))) else: pass #************************************************ # MAIN PROGRAM LOOP STARTS HERE #************************************************ if __name__ == '__main__': #global aprs_callsign, aprs_passcode, aprs_server, aprs_port, user_ssid, aprs_comment, call_type, data_id import argparse import sys import os import signal from dmr_utils3.utils import try_download, mk_id_dict # Change the current directory to the location of the application os.chdir(os.path.dirname(os.path.realpath(sys.argv[0]))) # Check if user_settings (for APRS settings of users) exists. Creat it if not. if Path('./user_settings.txt').is_file(): pass else: Path('./user_settings.txt').touch() with open("./user_settings.txt", 'w') as user_dict_file: user_dict_file.write("{1: [{'call': 'N0CALL'}, {'ssid': ''}, {'icon': ''}, {'comment': ''}]}") user_dict_file.close() ## # Check to see if dashboard files exist ## if Path('/tmp/gps_data_user_loc.txt').is_file(): ## pass ## else: ## Path('/tmp/gps_data_user_loc.txt').touch() ## with open("/tmp/gps_data_user_loc.txt", 'w') as user_loc_file: ## user_loc_file.write("[]") ## user_loc_file.close() ## if Path('/tmp/gps_data_user_bb.txt').is_file(): ## pass ## else: ## Path('/tmp/gps_data_user_bb.txt').touch() ## with open("/tmp/gps_data_user_bb.txt", 'w') as user_bb_file: ## user_bb_file.write("[]") ## user_bb_file.close() # CLI argument parser - handles picking up the config file from the command line, and sending a "help" message parser = argparse.ArgumentParser() parser.add_argument('-c', '--config', action='store', dest='CONFIG_FILE', help='/full/path/to/config.file (usually gps_data.cfg)') parser.add_argument('-l', '--logging', action='store', dest='LOG_LEVEL', help='Override config file logging level.') cli_args = parser.parse_args() # Ensure we have a path for the config file, if one wasn't specified, then use the default (top of file) if not cli_args.CONFIG_FILE: cli_args.CONFIG_FILE = os.path.dirname(os.path.abspath(__file__))+'/gps_data.cfg' # Call the external routine to build the configuration dictionary CONFIG = config.build_config(cli_args.CONFIG_FILE) data_id = int(CONFIG['GPS_DATA']['DATA_DMR_ID']) # Group call or Unit (private) call call_type = CONFIG['GPS_DATA']['CALL_TYPE'] # APRS-IS login information aprs_callsign = CONFIG['GPS_DATA']['APRS_LOGIN_CALL'] aprs_passcode = int(CONFIG['GPS_DATA']['APRS_LOGIN_PASSCODE']) aprs_server = CONFIG['GPS_DATA']['APRS_SERVER'] aprs_port = int(CONFIG['GPS_DATA']['APRS_PORT']) user_ssid = CONFIG['GPS_DATA']['USER_APRS_SSID'] aprs_comment = CONFIG['GPS_DATA']['USER_APRS_COMMENT'] # EMAIL variables email_sender = CONFIG['GPS_DATA']['EMAIL_SENDER'] email_password = CONFIG['GPS_DATA']['EMAIL_PASSWORD'] smtp_server = CONFIG['GPS_DATA']['SMTP_SERVER'] smtp_port = CONFIG['GPS_DATA']['SMTP_PORT'] # Start the system logger if cli_args.LOG_LEVEL: CONFIG['LOGGER']['LOG_LEVEL'] = cli_args.LOG_LEVEL logger = log.config_logging(CONFIG['LOGGER']) logger.info('\n\nCopyright (c) 2013, 2014, 2015, 2016, 2018, 2019\n\tThe Regents of the K0USY Group. All rights reserved.\n GPS and Data decoding by Eric, KF7EEL') logger.debug('Logging system started, anything from here on gets logged') # Set up the signal handler def sig_handler(_signal, _frame): logger.info('SHUTDOWN: >>>GPS and Data Decoder<<< IS TERMINATING WITH SIGNAL %s', str(_signal)) hblink_handler(_signal, _frame) logger.info('SHUTDOWN: ALL SYSTEM HANDLERS EXECUTED - STOPPING REACTOR') reactor.stop() # Set signal handers so that we can gracefully exit if need be for sig in [signal.SIGTERM, signal.SIGINT]: signal.signal(sig, sig_handler) # Create the name-number mapping dictionaries peer_ids, subscriber_ids, talkgroup_ids = mk_aliases(CONFIG) # INITIALIZE THE REPORTING LOOP if CONFIG['REPORTS']['REPORT']: report_server = config_reports(CONFIG, reportFactory) else: report_server = None logger.info('(REPORT) TCP Socket reporting not configured') # HBlink instance creation logger.info('HBlink \'gps_data.py\' -- SYSTEM STARTING...') for system in CONFIG['SYSTEMS']: if CONFIG['SYSTEMS'][system]['ENABLED']: if CONFIG['SYSTEMS'][system]['MODE'] == 'OPENBRIDGE': systems[system] = OPENBRIDGE(system, CONFIG, report_server) else: systems[system] = DATA_SYSTEM(system, CONFIG, report_server) reactor.listenUDP(CONFIG['SYSTEMS'][system]['PORT'], systems[system], interface=CONFIG['SYSTEMS'][system]['IP']) logger.debug('%s instance created: %s, %s', CONFIG['SYSTEMS'][system]['MODE'], system, systems[system]) reactor.run() # John 3:16 - For God so loved the world, that he gave his only Son, # that whoever believes in him should not perish but have eternal life.