#!/usr/bin/env python3 # ############################################################################### # Copyright (C) 2016-2019 Cortney T. Buffington, N0MJS # Copyright (C) 2020-2021 Eric, KF7EEL, # # 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 application, in conjuction with it's rule file (rules.py) will work like a "conference bridge". This is similar to what most hams think of as a reflector. You define conference bridges and any system joined to that conference bridge will both receive traffic from, and send traffic to any other system joined to the same conference bridge. It does not provide end-to-end connectivity as each end system must individually be joined to a conference bridge (a name you create in the configuraiton file) to pass traffic. This program currently only works with group voice calls. ''' # Python modules we need import sys from bitarray import bitarray from time import time import importlib.util # 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, mk_aliases, download_burnlist from dmr_utils3.utils import bytes_3, int_id, get_alias from dmr_utils3 import decode, bptc, const import config import log from const import * from hashlib import sha256 # Stuff for socket reporting import pickle # REMOVE LATER from datetime import datetime # The module needs logging, but handlers, etc. are controlled by the parent import logging logger = logging.getLogger(__name__) import os, ast import json, requests # User for different functions that need to be running: APRS, Proxy, etc import threading # Hotspot Proxy stuff from hotspot_proxy_v2 import Proxy # Used for converting time from datetime import datetime import re from socket import gethostbyname # Does anybody read this stuff? There's a PEP somewhere that says I should do this. __author__ = 'Cortney T. Buffington, N0MJS, Eric Craw, KF7EEL, kf7eel@qsl.net' __copyright__ = 'Copyright (c) 2016-2019 Cortney T. Buffington, N0MJS and the K0USY Group, Copyright (c) 2020-2021, Eric Craw, KF7EEL' __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' ##import os, ast # Function to download rules def update_tg(CONFIG, mode, dmr_id, data): user_man_url = CONFIG['WEB_SERVICE']['URL'] shared_secret = str(sha256(CONFIG['WEB_SERVICE']['SHARED_SECRET'].encode()).hexdigest()) update_srv = { 'update_tg':CONFIG['WEB_SERVICE']['THIS_SERVER_NAME'], 'secret':shared_secret, 'dmr_id': dmr_id, ## 'ts1': data['ts1'], ## 'ts2': data['ts2'], 'mode': mode, 'data': data } ## print(rules_check) json_object = json.dumps(update_srv, indent = 4) try: req = requests.post(user_man_url, data=json_object, headers={'Content-Type': 'application/json'}) ## resp = json.loads(req.text) ## print(resp) ## return resp['rules'] except requests.ConnectionError: logger.error('Config server unreachable, defaulting to local config') ## return config.build_config(cli_file) def send_unit_table(CONFIG, _data): user_man_url = CONFIG['WEB_SERVICE']['URL'] shared_secret = str(sha256(CONFIG['WEB_SERVICE']['SHARED_SECRET'].encode()).hexdigest()) sms_data = { 'unit_table': CONFIG['WEB_SERVICE']['THIS_SERVER_NAME'], 'secret':shared_secret, 'data': str(_data), } json_object = json.dumps(sms_data, indent = 4) try: req = requests.post(user_man_url, data=json_object, headers={'Content-Type': 'application/json'}) ## resp = json.loads(req.text) ## print(resp) ## return resp['rules'] except requests.ConnectionError: logger.error('Config server unreachable') def ping(CONFIG): user_man_url = CONFIG['WEB_SERVICE']['URL'] shared_secret = str(sha256(CONFIG['WEB_SERVICE']['SHARED_SECRET'].encode()).hexdigest()) ping_data = { 'ping': CONFIG['WEB_SERVICE']['THIS_SERVER_NAME'], 'secret':shared_secret } ## print(rules_check) json_object = json.dumps(ping_data, indent = 4) try: req = requests.post(user_man_url, data=json_object, headers={'Content-Type': 'application/json'}) ## resp = json.loads(req.text) ## print(resp) ## return resp['rules'] except requests.ConnectionError: logger.error('Config server unreachable') ## return config.build_config(cli_file) # Function to download rules def download_rules(L_CONFIG_FILE, cli_file): user_man_url = L_CONFIG_FILE['WEB_SERVICE']['URL'] shared_secret = str(sha256(L_CONFIG_FILE['WEB_SERVICE']['SHARED_SECRET'].encode()).hexdigest()) rules_check = { 'get_rules':L_CONFIG_FILE['WEB_SERVICE']['THIS_SERVER_NAME'], 'secret':shared_secret } ## print(rules_check) json_object = json.dumps(rules_check, indent = 4) try: req = requests.post(user_man_url, data=json_object, headers={'Content-Type': 'application/json'}) resp = json.loads(req.text) ## print(resp) return resp['rules'] except requests.ConnectionError: logger.error('Config server unreachable, defaulting to local config') return config.build_config(cli_file) # Function to download config def download_config(L_CONFIG_FILE, cli_file): user_man_url = L_CONFIG_FILE['WEB_SERVICE']['URL'] shared_secret = str(sha256(L_CONFIG_FILE['WEB_SERVICE']['SHARED_SECRET'].encode()).hexdigest()) config_check = { 'get_config':L_CONFIG_FILE['WEB_SERVICE']['THIS_SERVER_NAME'], 'secret':shared_secret } json_object = json.dumps(config_check, indent = 4) try: req = requests.post(user_man_url, data=json_object, headers={'Content-Type': 'application/json'}) resp = json.loads(req.text) iterate_config = resp['peers'].copy() corrected_config = resp['config'].copy() corrected_config['SYSTEMS'] = {} corrected_config['LOGGER'] = {} iterate_config.update(resp['masters'].copy()) corrected_config['SYSTEMS'].update(iterate_config) corrected_config['LOGGER'].update(L_CONFIG_FILE['LOGGER']) ## corrected_config['WEB_SERVICE'].update(resp['config']['WEB_SERVICE']) corrected_config['WEB_SERVICE'] = {} corrected_config['WEB_SERVICE']['THIS_SERVER_NAME'] = L_CONFIG_FILE['WEB_SERVICE']['THIS_SERVER_NAME'] corrected_config['WEB_SERVICE']['URL'] = L_CONFIG_FILE['WEB_SERVICE']['URL'] corrected_config['WEB_SERVICE']['SHARED_SECRET'] = L_CONFIG_FILE['WEB_SERVICE']['SHARED_SECRET'] corrected_config['WEB_SERVICE']['REMOTE_CONFIG_ENABLED'] = L_CONFIG_FILE['WEB_SERVICE']['REMOTE_CONFIG_ENABLED'] corrected_config['WEB_SERVICE'].update(resp['config']['WEB_SERVICE']) corrected_config['GLOBAL']['TG1_ACL'] = config.acl_build(corrected_config['GLOBAL']['TG1_ACL'], 4294967295) corrected_config['GLOBAL']['TG2_ACL'] = config.acl_build(corrected_config['GLOBAL']['TG2_ACL'], 4294967295) corrected_config['GLOBAL']['REG_ACL'] = config.acl_build(corrected_config['GLOBAL']['REG_ACL'], 4294967295) corrected_config['GLOBAL']['SUB_ACL'] = config.acl_build(corrected_config['GLOBAL']['SUB_ACL'], 4294967295) ## corrected_config['SYSTEMS'] = {} for i in iterate_config: ## corrected_config['SYSTEMS'][i]['GROUP_HANGTIME'] = int(iterate_config[i]['GROUP_HANGTIME']) ## corrected_config['SYSTEMS'][i] = {} ## print(iterate_config[i]) if iterate_config[i]['MODE'] == 'MASTER' or iterate_config[i]['MODE'] == 'PROXY' or iterate_config[i]['MODE'] == 'OPENBRIDGE': ## print(iterate_config[i]) corrected_config['SYSTEMS'][i]['TG1_ACL'] = config.acl_build(iterate_config[i]['TG1_ACL'], 4294967295) corrected_config['SYSTEMS'][i]['TG2_ACL'] = config.acl_build(iterate_config[i]['TG2_ACL'], 4294967295) corrected_config['SYSTEMS'][i]['PASSPHRASE'] = bytes(iterate_config[i]['PASSPHRASE'], 'utf-8') if iterate_config[i]['MODE'] == 'OPENBRIDGE': ## corrected_config['SYSTEMS'][i]['NETWORK_ID'] = int(iterate_config[i]['NETWORK_ID']).to_bytes(4, 'big') corrected_config['SYSTEMS'][i]['NETWORK_ID'] = int(iterate_config[i]['NETWORK_ID']).to_bytes(4, 'big') corrected_config['SYSTEMS'][i]['PASSPHRASE'] = (iterate_config[i]['PASSPHRASE'] + b'\x00' * 30)[:20] #bytes(re.sub('', "b'|'", str(iterate_config[i]['PASSPHRASE'])).ljust(20, '\x00')[:20], 'utf-8') #bytes(iterate_config[i]['PASSPHRASE'].ljust(20,'\x00')[:20], 'utf-8') corrected_config['SYSTEMS'][i]['BOTH_SLOTS'] = iterate_config[i]['BOTH_SLOTS'] corrected_config['SYSTEMS'][i]['TARGET_SOCK'] = (gethostbyname(iterate_config[i]['TARGET_IP']), iterate_config[i]['TARGET_PORT']) corrected_config['SYSTEMS'][i]['ENCRYPTION_KEY'] = bytes(iterate_config[i]['ENCRYPTION_KEY'], 'utf-8') corrected_config['SYSTEMS'][i]['USE_ENCRYPTION'] = iterate_config[i]['USE_ENCRYPTION'] if iterate_config[i]['MODE'] == 'PEER' or iterate_config[i]['MODE'] == 'XLXPEER': ## print(iterate_config[i]) corrected_config['SYSTEMS'][i]['GROUP_HANGTIME'] = int(iterate_config[i]['GROUP_HANGTIME']) corrected_config['SYSTEMS'][i]['RADIO_ID'] = int(iterate_config[i]['RADIO_ID']).to_bytes(4, 'big') corrected_config['SYSTEMS'][i]['TG1_ACL'] = config.acl_build(iterate_config[i]['TG1_ACL'], 4294967295) corrected_config['SYSTEMS'][i]['TG2_ACL'] = config.acl_build(iterate_config[i]['TG2_ACL'], 4294967295) ## corrected_config['SYSTEMS'][i]['SUB_ACL'] = config.acl_build(iterate_config[i]['SUB_ACL'], 4294967295) corrected_config['SYSTEMS'][i]['MASTER_SOCKADDR'] = tuple(iterate_config[i]['MASTER_SOCKADDR']) corrected_config['SYSTEMS'][i]['SOCK_ADDR'] = tuple(iterate_config[i]['SOCK_ADDR']) corrected_config['SYSTEMS'][i]['PASSPHRASE'] = bytes((iterate_config[i]['PASSPHRASE']), 'utf-8') corrected_config['SYSTEMS'][i]['CALLSIGN'] = bytes((iterate_config[i]['CALLSIGN']).ljust(8)[:8], 'utf-8') corrected_config['SYSTEMS'][i]['RX_FREQ'] = bytes((iterate_config[i]['RX_FREQ']).ljust(9)[:9], 'utf-8') corrected_config['SYSTEMS'][i]['TX_FREQ'] = bytes((iterate_config[i]['TX_FREQ']).ljust(9)[:9], 'utf-8') corrected_config['SYSTEMS'][i]['TX_POWER'] = bytes((iterate_config[i]['TX_POWER']).rjust(2,'0'), 'utf-8') corrected_config['SYSTEMS'][i]['COLORCODE'] = bytes((iterate_config[i]['COLORCODE']).rjust(2,'0'), 'utf-8') corrected_config['SYSTEMS'][i]['LATITUDE'] = bytes((iterate_config[i]['LATITUDE']).ljust(8)[:8], 'utf-8') corrected_config['SYSTEMS'][i]['LONGITUDE'] = bytes((iterate_config[i]['LONGITUDE']).ljust(9)[:9], 'utf-8') corrected_config['SYSTEMS'][i]['HEIGHT'] = bytes((iterate_config[i]['HEIGHT']).rjust(3,'0'), 'utf-8') corrected_config['SYSTEMS'][i]['LOCATION'] = bytes((iterate_config[i]['LOCATION']).ljust(20)[:20], 'utf-8') corrected_config['SYSTEMS'][i]['DESCRIPTION'] = bytes((iterate_config[i]['DESCRIPTION']).ljust(19)[:19], 'utf-8') corrected_config['SYSTEMS'][i]['SLOTS'] = bytes((iterate_config[i]['SLOTS']), 'utf-8') corrected_config['SYSTEMS'][i]['URL'] = bytes((iterate_config[i]['URL']).ljust(124)[:124], 'utf-8') corrected_config['SYSTEMS'][i]['SOFTWARE_ID'] = bytes(('Development').ljust(40)[:40], 'utf-8')#bytes(('HBNet V1.0').ljust(40)[:40], 'utf-8') corrected_config['SYSTEMS'][i]['PACKAGE_ID'] = bytes(('HBNet').ljust(40)[:40], 'utf-8') corrected_config['SYSTEMS'][i]['OPTIONS'] = b''.join([b'Type=HBNet;', bytes(iterate_config[i]['OPTIONS'], 'utf-8')]) if iterate_config[i]['MODE'] == 'PEER': corrected_config['SYSTEMS'][i].update({'STATS':{ 'CONNECTION': 'NO', # NO, RTPL_SENT, AUTHENTICATED, CONFIG-SENT, YES 'CONNECTED': None, 'PINGS_SENT': 0, 'PINGS_ACKD': 0, 'NUM_OUTSTANDING': 0, 'PING_OUTSTANDING': False, 'LAST_PING_TX_TIME': 0, 'LAST_PING_ACK_TIME': 0, }}) if iterate_config[i]['MODE'] == 'XLXPEER': corrected_config['SYSTEMS'][i].update({'XLXSTATS': { 'CONNECTION': 'NO', # NO, RTPL_SENT, AUTHENTICATED, CONFIG-SENT, YES 'CONNECTED': None, 'PINGS_SENT': 0, 'PINGS_ACKD': 0, 'NUM_OUTSTANDING': 0, 'PING_OUTSTANDING': False, 'LAST_PING_TX_TIME': 0, 'LAST_PING_ACK_TIME': 0, }}) corrected_config['SYSTEMS'][i]['USE_ACL'] = iterate_config[i]['USE_ACL'] corrected_config['SYSTEMS'][i]['SUB_ACL'] = config.acl_build(iterate_config[i]['SUB_ACL'], 16776415) return corrected_config # For exception, write blank dict except requests.ConnectionError: logger.error('Config server unreachable, defaulting to local config') return config.build_config(cli_file) # From hotspot_proxy2, FreeDMR def hotspot_proxy(listen_port, port_start, port_stop): Master = "127.0.0.1" ListenPort = listen_port DestportStart = port_start DestPortEnd = port_stop Timeout = 30 Stats = True Debug = False BlackList = [1234567] CONNTRACK = {} for port in range(DestportStart,DestPortEnd+1,1): CONNTRACK[port] = False reactor.listenUDP(ListenPort,Proxy(Master,ListenPort,CONNTRACK,BlackList,Timeout,Debug,DestportStart,DestPortEnd)) def loopingErrHandle(failure): logger.error('(GLOBAL) STOPPING REACTOR TO AVOID MEMORY LEAK: Unhandled error innowtimed loop.\n {}'.format(failure)) reactor.stop() def stats(): count = 0 nowtime = time() for port in CONNTRACK: if CONNTRACK[port]: count = count+1 totalPorts = DestPortEnd - DestportStart freePorts = totalPorts - count logger.info("{} ports out of {} in use ({} free)".format(count,totalPorts,freePorts)) if Stats == True: stats_task = task.LoopingCall(stats) statsa = stats_task.start(30) statsa.addErrback(loopingErrHandle) # Used to track if we have downloaded user custon rules user_rules = {} # Dictionary for dynamically mapping unit (subscriber) to a system. # This is for pruning unit-to-uint calls to not broadcast once the # target system for a unit is identified # format 'unit_id': ('SYSTEM', time) UNIT_MAP = {} BRIDGES = {} # Timed loop used for reporting HBP status # # REPORT BASED ON THE TYPE SELECTED IN THE MAIN CONFIG FILE def config_reports(_config, _factory): if True: #_config['REPORTS']['REPORT']: def reporting_loop(logger, _server): logger.debug('(REPORT) Periodic reporting loop started') _server.send_config() _server.send_bridge() logger.info('(REPORT) HBlink TCP reporting server configured') report_server = _factory(_config) report_server.clients = [] reactor.listenTCP(_config['REPORTS']['REPORT_PORT'], report_server) reporting = task.LoopingCall(reporting_loop, logger, report_server) reporting.start(_config['REPORTS']['REPORT_INTERVAL']) return report_server # Send data to all OBP connections that have an encryption key. Data such as subscribers are sent to other HBNet servers. def svrd_send_all(_svrd_data): _svrd_packet = SVRD for system in CONFIG['SYSTEMS']: if CONFIG['SYSTEMS'][system]['ENABLED']: if CONFIG['SYSTEMS'][system]['MODE'] == 'OPENBRIDGE': if CONFIG['SYSTEMS'][system]['ENCRYPTION_KEY'] != b'': systems[system].send_system(_svrd_packet + _svrd_data) # Send any data packets to connections with ALL_DATA specified in other options def mirror_traffic(_data): for system in CONFIG['SYSTEMS']: if CONFIG['SYSTEMS'][system]['ENABLED']: if CONFIG['SYSTEMS'][system]['MODE'] == 'OPENBRIDGE': print(CONFIG['SYSTEMS'][system]['OTHER_OPTIONS']) if 'MIRROR_ALL_TRAFFIC' in CONFIG['SYSTEMS'][system]['OTHER_OPTIONS']: print('mirrored to ' + system) print(_data) systems[system].send_system(SVRD + b'DATA' + _data) # Import Bridging rules # Note: A stanza *must* exist for any MASTER or CLIENT configured in the main # configuration file and listed as "active". It can be empty, # but it has to exist. def make_bridges(_rules): # Convert integer GROUP ID numbers from the config into hex strings # we need to send in the actual data packets. for _bridge in _rules: for _system in _rules[_bridge]: if _system['SYSTEM'] not in CONFIG['SYSTEMS']: sys.exit('ERROR: Conference bridge "{}" references a system named "{}" that is not enabled in the main configuration'.format(_bridge, _system['SYSTEM'])) _system['TGID'] = bytes_3(_system['TGID']) for i, e in enumerate(_system['ON']): _system['ON'][i] = bytes_3(_system['ON'][i]) for i, e in enumerate(_system['OFF']): _system['OFF'][i] = bytes_3(_system['OFF'][i]) _system['TIMEOUT'] = _system['TIMEOUT']*60 if _system['ACTIVE'] == True: _system['TIMER'] = time() + _system['TIMEOUT'] else: _system['TIMER'] = time() return _rules # Run this every minute for rule timer updates def rule_timer_loop(unit_flood_time): global UNIT_MAP logger.debug('(ROUTER) routerHBP Rule timer loop started') _now = time() #This is a good place to get and modify rules for users ## print(BRIDGES) for _bridge in BRIDGES: for _system in BRIDGES[_bridge]: if _system['TO_TYPE'] == 'ON': if _system['ACTIVE'] == True: if _system['TIMER'] < _now: _system['ACTIVE'] = False logger.info('(ROUTER) Conference Bridge TIMEOUT: DEACTIVATE System: %s, Bridge: %s, TS: %s, TGID: %s', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID'])) # Send not active POST #update_tg(CONFIG, 'off', 0, [{'SYSTEM':_system['SYSTEM']}, {'ts':_system['TS']}, {'tg': int_id(_system['TGID'])}]) ## print(_system) else: timeout_in = _system['TIMER'] - _now logger.info('(ROUTER) Conference Bridge ACTIVE (ON timer running): System: %s Bridge: %s, TS: %s, TGID: %s, Timeout in: %.2fs,', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID']), timeout_in) elif _system['ACTIVE'] == False: logger.debug('(ROUTER) Conference Bridge INACTIVE (no change): System: %s Bridge: %s, TS: %s, TGID: %s', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID'])) elif _system['TO_TYPE'] == 'OFF': if _system['ACTIVE'] == False: if _system['TIMER'] < _now: _system['ACTIVE'] = True logger.info('(ROUTER) Conference Bridge TIMEOUT: ACTIVATE System: %s, Bridge: %s, TS: %s, TGID: %s', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID'])) # POST ON ## update_tg(CONFIG, 'on', 0, [{'SYSTEM':_system['SYSTEM']}, {'ts':_system['TS']}, {'tg': int_id(_system['TGID'])}]) else: timeout_in = _system['TIMER'] - _now logger.info('(ROUTER) Conference Bridge INACTIVE (OFF timer running): System: %s Bridge: %s, TS: %s, TGID: %s, Timeout in: %.2fs,', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID']), timeout_in) elif _system['ACTIVE'] == True: logger.debug('(ROUTER) Conference Bridge ACTIVE (no change): System: %s Bridge: %s, TS: %s, TGID: %s', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID'])) # POST on ## print(_system) ## update_tg(CONFIG, 'on', 0, [{'SYSTEM':_system['SYSTEM']}, {'ts':_system['TS']}, {'tg': int_id(_system['TGID'])}]) else: logger.debug('(ROUTER) Conference Bridge NO ACTION: System: %s, Bridge: %s, TS: %s, TGID: %s', _system['SYSTEM'], _bridge, _system['TS'], int_id(_system['TGID'])) for unit in UNIT_MAP: svrd_send_all(b'UNIT' + unit) _then = _now - unit_flood_time remove_list = [] for unit in UNIT_MAP: if UNIT_MAP[unit][1] < (_then): remove_list.append(unit) for unit in remove_list: del UNIT_MAP[unit] send_unit_table(CONFIG, UNIT_MAP) logger.debug('Removed unit(s) %s from UNIT_MAP', remove_list) if CONFIG['REPORTS']['REPORT']: report_server.send_clients(b'bridge updated') # run this every 10 seconds to trim orphaned stream ids def stream_trimmer_loop(): print(UNIT_MAP) ping(CONFIG) logger.debug('(ROUTER) Trimming inactive stream IDs from system lists') _now = time() for system in systems: # HBP systems, master and peer if CONFIG['SYSTEMS'][system]['MODE'] != 'OPENBRIDGE': for slot in range(1,3): _slot = systems[system].STATUS[slot] # RX slot check if _slot['RX_TYPE'] != HBPF_SLT_VTERM and _slot['RX_TIME'] < _now - 5: _slot['RX_TYPE'] = HBPF_SLT_VTERM logger.info('(%s) *TIME OUT* RX STREAM ID: %s SUB: %s TGID %s, TS %s, Duration: %.2f', \ system, int_id(_slot['RX_STREAM_ID']), int_id(_slot['RX_RFS']), int_id(_slot['RX_TGID']), slot, _slot['RX_TIME'] - _slot['RX_START']) if CONFIG['REPORTS']['REPORT']: systems[system]._report.send_bridgeEvent('GROUP VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(system, int_id(_slot['RX_STREAM_ID']), int_id(_slot['RX_PEER']), int_id(_slot['RX_RFS']), slot, int_id(_slot['RX_TGID']), _slot['RX_TIME'] - _slot['RX_START']).encode(encoding='utf-8', errors='ignore')) # TX slot check if _slot['TX_TYPE'] != HBPF_SLT_VTERM and _slot['TX_TIME'] < _now - 5: _slot['TX_TYPE'] = HBPF_SLT_VTERM logger.info('(%s) *TIME OUT* TX STREAM ID: %s SUB: %s TGID %s, TS %s, Duration: %.2f', \ system, int_id(_slot['TX_STREAM_ID']), int_id(_slot['TX_RFS']), int_id(_slot['TX_TGID']), slot, _slot['TX_TIME'] - _slot['TX_START']) if CONFIG['REPORTS']['REPORT']: systems[system]._report.send_bridgeEvent('GROUP VOICE,END,TX,{},{},{},{},{},{},{:.2f}'.format(system, int_id(_slot['TX_STREAM_ID']), int_id(_slot['TX_PEER']), int_id(_slot['TX_RFS']), slot, int_id(_slot['TX_TGID']), _slot['TX_TIME'] - _slot['TX_START']).encode(encoding='utf-8', errors='ignore')) # OBP systems # We can't delete items from a dicationry that's being iterated, so we have to make a temporarly list of entrys to remove later if CONFIG['SYSTEMS'][system]['MODE'] == 'OPENBRIDGE': remove_list = [] for stream_id in systems[system].STATUS: if systems[system].STATUS[stream_id]['LAST'] < _now - 5: remove_list.append(stream_id) for stream_id in remove_list: if stream_id in systems[system].STATUS: _stream = systems[system].STATUS[stream_id] _sysconfig = CONFIG['SYSTEMS'][system] if systems[system].STATUS[stream_id]['ACTIVE']: logger.info('(%s) *TIME OUT* STREAM ID: %s SUB: %s PEER: %s TYPE: %s DST ID: %s TS 1 Duration: %.2f', \ system, int_id(stream_id), get_alias(int_id(_stream['RFS']), subscriber_ids), get_alias(int_id(_sysconfig['NETWORK_ID']), peer_ids), _stream['TYPE'], get_alias(int_id(_stream['DST']), talkgroup_ids), _stream['LAST'] - _stream['START']) if CONFIG['REPORTS']['REPORT']: if _stream['TYPE'] == 'GROUP': systems[system]._report.send_bridgeEvent('GROUP VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(system, int_id(stream_id), int_id(_sysconfig['NETWORK_ID']), int_id(_stream['RFS']), 1, int_id(_stream['DST']), _stream['LAST'] - _stream['START']).encode(encoding='utf-8', errors='ignore')) elif _stream['TYPE'] == 'UNIT': systems[system]._report.send_bridgeEvent('UNIT VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(system, int_id(stream_id), int_id(_sysconfig['NETWORK_ID']), int_id(_stream['RFS']), 1, int_id(_stream['DST']), _stream['LAST'] - _stream['START']).encode(encoding='utf-8', errors='ignore')) removed = systems[system].STATUS.pop(stream_id) else: logger.error('(%s) Attemped to remove OpenBridge Stream ID %s not in the Stream ID list: %s', system, int_id(stream_id), [id for id in systems[system].STATUS]) class routerOBP(OPENBRIDGE): def __init__(self, _name, _config, _report): OPENBRIDGE.__init__(self, _name, _config, _report) self.name = _name self.STATUS = {} # list of self._targets for unit (subscriber, private) calls self._targets = [] def svrd_received(self, _mode, _data): print(UNIT_MAP) logger.info('SVRD Received. Mode: ' + str(_mode) + ' Data: ' + str(_data)) if _mode == b'UNIT': UNIT_MAP[_data] = (self._system, time()) ## def mmdvm_cmd(self, _cmd): ## print('---') ## print(_cmd) ## print('---') ## pass def group_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data): pkt_time = time() dmrpkt = _data[20:53] _bits = _data[15] # Is this a new call stream? if (_stream_id not in self.STATUS): # This is a new call stream self.STATUS[_stream_id] = { 'START': pkt_time, 'CONTENTION':False, 'RFS': _rf_src, 'TYPE': 'GROUP', 'DST': _dst_id, 'ACTIVE': True } # If we can, use the LC from the voice header as to keep all options intact if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD: decoded = decode.voice_head_term(dmrpkt) self.STATUS[_stream_id]['LC'] = decoded['LC'] # If we don't have a voice header then don't wait to decode the Embedded LC # just make a new one from the HBP header. This is good enough, and it saves lots of time else: self.STATUS[_stream_id]['LC'] = LC_OPT + _dst_id + _rf_src logger.info('(%s) *GROUP CALL START* OBP STREAM ID: %s SUB: %s (%s) PEER: %s (%s) TGID %s (%s), TS %s', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('GROUP VOICE,START,RX,{},{},{},{},{},{}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id)).encode(encoding='utf-8', errors='ignore')) self.STATUS[_stream_id]['LAST'] = pkt_time for _bridge in BRIDGES: for _system in BRIDGES[_bridge]: if (_system['SYSTEM'] == self._system and _system['TGID'] == _dst_id and _system['TS'] == _slot and _system['ACTIVE'] == True): for _target in BRIDGES[_bridge]: if (_target['SYSTEM'] != self._system) and (_target['ACTIVE']): _target_status = systems[_target['SYSTEM']].STATUS _target_system = self._CONFIG['SYSTEMS'][_target['SYSTEM']] if _target_system['MODE'] == 'OPENBRIDGE': # Is this a new call stream on the target? if (_stream_id not in _target_status): # This is a new call stream on the target _target_status[_stream_id] = { 'START': pkt_time, 'CONTENTION':False, 'RFS': _rf_src, 'TYPE': 'GROUP', 'DST': _dst_id, 'ACTIVE': True } # Generate LCs (full and EMB) for the TX stream dst_lc = b''.join([self.STATUS[_stream_id]['LC'][0:3], _target['TGID'], _rf_src]) _target_status[_stream_id]['H_LC'] = bptc.encode_header_lc(dst_lc) _target_status[_stream_id]['T_LC'] = bptc.encode_terminator_lc(dst_lc) _target_status[_stream_id]['EMB_LC'] = bptc.encode_emblc(dst_lc) logger.info('(%s) Conference Bridge: %s, Call Bridged to OBP System: %s TS: %s, TGID: %s', self._system, _bridge, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) if CONFIG['REPORTS']['REPORT']: systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,START,TX,{},{},{},{},{},{}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID'])).encode(encoding='utf-8', errors='ignore')) # Record the time of this packet so we can later identify a stale stream _target_status[_stream_id]['LAST'] = pkt_time # Clear the TS bit -- all OpenBridge streams are effectively on TS1 _tmp_bits = _bits & ~(1 << 7) # Assemble transmit HBP packet header _tmp_data = b''.join([_data[:8], _target['TGID'], _data[11:15], _tmp_bits.to_bytes(1, 'big'), _data[16:20]]) # MUST TEST FOR NEW STREAM AND IF SO, RE-WRITE THE LC FOR THE TARGET # MUST RE-WRITE DESTINATION TGID IF DIFFERENT # if _dst_id != rule['DST_GROUP']: dmrbits = bitarray(endian='big') dmrbits.frombytes(dmrpkt) # Create a voice header packet (FULL LC) if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD: dmrbits = _target_status[_stream_id]['H_LC'][0:98] + dmrbits[98:166] + _target_status[_stream_id]['H_LC'][98:197] # Create a voice terminator packet (FULL LC) elif _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VTERM: dmrbits = _target_status[_stream_id]['T_LC'][0:98] + dmrbits[98:166] + _target_status[_stream_id]['T_LC'][98:197] if CONFIG['REPORTS']['REPORT']: call_duration = pkt_time - _target_status[_stream_id]['START'] _target_status[_stream_id]['ACTIVE'] = False systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,END,TX,{},{},{},{},{},{},{:.2f}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID']), call_duration).encode(encoding='utf-8', errors='ignore')) # Create a Burst B-E packet (Embedded LC) elif _dtype_vseq in [1,2,3,4]: dmrbits = dmrbits[0:116] + _target_status[_stream_id]['EMB_LC'][_dtype_vseq] + dmrbits[148:264] dmrpkt = dmrbits.tobytes() _tmp_data = b''.join([_tmp_data, dmrpkt]) else: # BEGIN CONTENTION HANDLING # # The rules for each of the 4 "ifs" below are listed here for readability. The Frame To Send is: # From a different group than last RX from this HBSystem, but it has been less than Group Hangtime # From a different group than last TX to this HBSystem, but it has been less than Group Hangtime # From the same group as the last RX from this HBSystem, but from a different subscriber, and it has been less than stream timeout # From the same group as the last TX to this HBSystem, but from a different subscriber, and it has been less than stream timeout # The "continue" at the end of each means the next iteration of the for loop that tests for matching rules # if ((_target['TGID'] != _target_status[_target['TS']]['RX_TGID']) and ((pkt_time - _target_status[_target['TS']]['RX_TIME']) < _target_system['GROUP_HANGTIME'])): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed to TGID %s, target active or in group hangtime: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_target['TGID']), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['RX_TGID'])) continue if ((_target['TGID'] != _target_status[_target['TS']]['TX_TGID']) and ((pkt_time - _target_status[_target['TS']]['TX_TIME']) < _target_system['GROUP_HANGTIME'])): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed to TGID%s, target in group hangtime: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_target['TGID']), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['TX_TGID'])) continue if (_target['TGID'] == _target_status[_target['TS']]['RX_TGID']) and ((pkt_time - _target_status[_target['TS']]['RX_TIME']) < STREAM_TO): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed to TGID%s, matching call already active on target: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_target['TGID']), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['RX_TGID'])) continue if (_target['TGID'] == _target_status[_target['TS']]['TX_TGID']) and (_rf_src != _target_status[_target['TS']]['TX_RFS']) and ((pkt_time - _target_status[_target['TS']]['TX_TIME']) < STREAM_TO): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed for subscriber %s, call route in progress on target: HBSystem: %s, TS: %s, TGID: %s, SUB: %s', self._system, int_id(_rf_src), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['TX_TGID']), int_id(_target_status[_target['TS']]['TX_RFS'])) continue # Is this a new call stream? if (_target_status[_target['TS']]['TX_STREAM_ID'] != _stream_id): # Record the DST TGID and Stream ID _target_status[_target['TS']]['TX_START'] = pkt_time _target_status[_target['TS']]['TX_TGID'] = _target['TGID'] _target_status[_target['TS']]['TX_STREAM_ID'] = _stream_id _target_status[_target['TS']]['TX_RFS'] = _rf_src _target_status[_target['TS']]['TX_PEER'] = _peer_id # Generate LCs (full and EMB) for the TX stream dst_lc = b''.join([self.STATUS[_stream_id]['LC'][0:3], _target['TGID'], _rf_src]) _target_status[_target['TS']]['TX_H_LC'] = bptc.encode_header_lc(dst_lc) _target_status[_target['TS']]['TX_T_LC'] = bptc.encode_terminator_lc(dst_lc) _target_status[_target['TS']]['TX_EMB_LC'] = bptc.encode_emblc(dst_lc) logger.debug('(%s) Generating TX FULL and EMB LCs for HomeBrew destination: System: %s, TS: %s, TGID: %s', self._system, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) logger.info('(%s) Conference Bridge: %s, Call Bridged to HBP System: %s TS: %s, TGID: %s', self._system, _bridge, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) if CONFIG['REPORTS']['REPORT']: systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,START,TX,{},{},{},{},{},{}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID'])).encode(encoding='utf-8', errors='ignore')) # Set other values for the contention handler to test next time there is a frame to forward _target_status[_target['TS']]['TX_TIME'] = pkt_time _target_status[_target['TS']]['TX_TYPE'] = _dtype_vseq # Handle any necessary re-writes for the destination if _system['TS'] != _target['TS']: _tmp_bits = _bits ^ 1 << 7 else: _tmp_bits = _bits # Assemble transmit HBP packet header _tmp_data = b''.join([_data[:8], _target['TGID'], _data[11:15], _tmp_bits.to_bytes(1, 'big'), _data[16:20]]) # MUST TEST FOR NEW STREAM AND IF SO, RE-WRITE THE LC FOR THE TARGET # MUST RE-WRITE DESTINATION TGID IF DIFFERENT # if _dst_id != rule['DST_GROUP']: dmrbits = bitarray(endian='big') dmrbits.frombytes(dmrpkt) # Create a voice header packet (FULL LC) if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD: dmrbits = _target_status[_target['TS']]['TX_H_LC'][0:98] + dmrbits[98:166] + _target_status[_target['TS']]['TX_H_LC'][98:197] # Create a voice terminator packet (FULL LC) elif _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VTERM: dmrbits = _target_status[_target['TS']]['TX_T_LC'][0:98] + dmrbits[98:166] + _target_status[_target['TS']]['TX_T_LC'][98:197] if CONFIG['REPORTS']['REPORT']: call_duration = pkt_time - _target_status[_target['TS']]['TX_START'] systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,END,TX,{},{},{},{},{},{},{:.2f}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID']), call_duration).encode(encoding='utf-8', errors='ignore')) # Create a Burst B-E packet (Embedded LC) elif _dtype_vseq in [1,2,3,4]: dmrbits = dmrbits[0:116] + _target_status[_target['TS']]['TX_EMB_LC'][_dtype_vseq] + dmrbits[148:264] dmrpkt = dmrbits.tobytes() _tmp_data = b''.join([_tmp_data, dmrpkt, b'\x00\x00']) # Add two bytes of nothing since OBP doesn't include BER & RSSI bytes #_data[53:55] # Transmit the packet to the destination system systems[_target['SYSTEM']].send_system(_tmp_data) #logger.debug('(%s) Packet routed by bridge: %s to system: %s TS: %s, TGID: %s', self._system, _bridge, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) # Final actions - Is this a voice terminator? if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM): call_duration = pkt_time - self.STATUS[_stream_id]['START'] logger.info('(%s) *GROUP CALL END* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) TGID %s (%s), TS %s, Duration: %.2f', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot, call_duration) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('GROUP VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id), call_duration).encode(encoding='utf-8', errors='ignore')) self.STATUS[_stream_id]['ACTIVE'] = False logger.debug('(%s) OpenBridge sourced call stream end, remove terminated Stream ID: %s', self._system, int_id(_stream_id)) def unit_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data): global UNIT_MAP pkt_time = time() dmrpkt = _data[20:53] _bits = _data[15] # Make/update this unit in the UNIT_MAP cache UNIT_MAP[_rf_src] = (self.name, pkt_time) # Send update to all OpenBridge connections ## svrd_send_all(b'UNIT' + _rf_src) # + b'TIME' + pkt_time) # Is this a new call stream? if (_stream_id not in self.STATUS): # This is a new call stream self.STATUS[_stream_id] = { 'START': pkt_time, 'CONTENTION':False, 'RFS': _rf_src, 'TYPE': 'UNIT', 'DST': _dst_id, 'ACTIVE': True } # Create a destination list for the call: if _dst_id in UNIT_MAP: if UNIT_MAP[_dst_id][0] != self._system: self._targets = [UNIT_MAP[_dst_id][0]] else: self._targets = [] logger.error('UNIT call to a subscriber on the same system, send nothing') else: self._targets = list(UNIT) self._targets.remove(self._system) # This is a new call stream, so log & report logger.info('(%s) *UNIT CALL START* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) UNIT: %s (%s), TS: %s, FORWARD: %s', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot, self._targets) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('UNIT VOICE,START,RX,{},{},{},{},{},{},{}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id), self._targets).encode(encoding='utf-8', errors='ignore')) # Record the time of this packet so we can later identify a stale stream self.STATUS[_stream_id]['LAST'] = pkt_time for _target in self._targets: _target_status = systems[_target].STATUS _target_system = self._CONFIG['SYSTEMS'][_target] if self._CONFIG['SYSTEMS'][_target]['MODE'] == 'OPENBRIDGE': if (_stream_id not in _target_status): # This is a new call stream on the target _target_status[_stream_id] = { 'START': pkt_time, 'CONTENTION':False, 'RFS': _rf_src, 'TYPE': 'UNIT', 'DST': _dst_id, 'ACTIVE': True } logger.info('(%s) Unit call bridged to OBP System: %s TS: %s, TGID: %s', self._system, _target, _slot if _target_system['BOTH_SLOTS'] else 1, int_id(_dst_id)) if CONFIG['REPORTS']['REPORT']: systems[_target]._report.send_bridgeEvent('UNIT VOICE,START,TX,{},{},{},{},{},{}'.format(_target, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id)).encode(encoding='utf-8', errors='ignore')) # Record the time of this packet so we can later identify a stale stream _target_status[_stream_id]['LAST'] = pkt_time # Clear the TS bit and follow propper OBP definition, unless "BOTH_SLOTS" is set. This only works for unit calls. if _target_system['BOTH_SLOTS']: _tmp_bits = _bits else: _tmp_bits = _bits & ~(1 << 7) # Assemble transmit HBP packet _tmp_data = b''.join([_data[:15], _tmp_bits.to_bytes(1, 'big'), _data[16:20]]) _data = b''.join([_tmp_data, dmrpkt]) if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM): _target_status[_stream_id]['ACTIVE'] = False else: # BEGIN STANDARD CONTENTION HANDLING # # The rules for each of the 4 "ifs" below are listed here for readability. The Frame To Send is: # From a different group than last RX from this HBSystem, but it has been less than Group Hangtime # From a different group than last TX to this HBSystem, but it has been less than Group Hangtime # From the same group as the last RX from this HBSystem, but from a different subscriber, and it has been less than stream timeout # From the same group as the last TX to this HBSystem, but from a different subscriber, and it has been less than stream timeout # The "continue" at the end of each means the next iteration of the for loop that tests for matching rules # ''' if ((_dst_id != _target_status[_slot]['RX_TGID']) and ((pkt_time - _target_status[_slot]['RX_TIME']) < _target_system['GROUP_HANGTIME'])): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed to TGID %s, target active or in group hangtime: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_dst_id), _target, _slot, int_id(_target_status[_slot]['RX_TGID'])) continue if ((_dst_id != _target_status[_slot]['TX_TGID']) and ((pkt_time - _target_status[_slot]['TX_TIME']) < _target_system['GROUP_HANGTIME'])): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed to TGID%s, target in group hangtime: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_dst_id), _target, _slot, int_id(_target_status[_slot]['TX_TGID'])) continue ''' if (_dst_id == _target_status[_slot]['RX_TGID']) and ((pkt_time - _target_status[_slot]['RX_TIME']) < STREAM_TO): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed to TGID%s, matching call already active on target: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_dst_id), _target, _slot, int_id(_target_status[_slot]['RX_TGID'])) continue if (_dst_id == _target_status[_slot]['TX_TGID']) and (_rf_src != _target_status[_slot]['TX_RFS']) and ((pkt_time - _target_status[_slot]['TX_TIME']) < STREAM_TO): if self.STATUS[_stream_id]['CONTENTION'] == False: self.STATUS[_stream_id]['CONTENTION'] = True logger.info('(%s) Call not routed for subscriber %s, call route in progress on target: HBSystem: %s, TS: %s, TGID: %s, SUB: %s', self._system, int_id(_rf_src), _target, _slot, int_id(_target_status[_slot]['TX_TGID']), int_id(_target_status[_slot]['TX_RFS'])) continue # Record target information if this is a new call stream? if (_stream_id not in self.STATUS): # Record the DST TGID and Stream ID _target_status[_slot]['TX_START'] = pkt_time _target_status[_slot]['TX_TGID'] = _dst_id _target_status[_slot]['TX_STREAM_ID'] = _stream_id _target_status[_slot]['TX_RFS'] = _rf_src _target_status[_slot]['TX_PEER'] = _peer_id logger.info('(%s) Unit call bridged to HBP System: %s TS: %s, UNIT: %s', self._system, _target, _slot, int_id(_dst_id)) if CONFIG['REPORTS']['REPORT']: systems[_target]._report.send_bridgeEvent('UNIT VOICE,START,TX,{},{},{},{},{},{}'.format(_target, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id)).encode(encoding='utf-8', errors='ignore')) # Set other values for the contention handler to test next time there is a frame to forward _target_status[_slot]['TX_TIME'] = pkt_time _target_status[_slot]['TX_TYPE'] = _dtype_vseq #send the call: systems[_target].send_system(_data) if _target_system['MODE'] == 'OPENBRIDGE': if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM): if (_stream_id in _target_status): _target_status.pop(_stream_id) # Final actions - Is this a voice terminator? if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM): self._targets = [] call_duration = pkt_time - self.STATUS[_stream_id]['START'] logger.info('(%s) *UNIT CALL END* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) UNIT %s (%s), TS %s, Duration: %.2f', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot, call_duration) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('UNIT VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id), call_duration).encode(encoding='utf-8', errors='ignore')) def dmrd_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _call_type, _frame_type, _dtype_vseq, _stream_id, _data): if _call_type == 'group': self.group_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) elif _call_type == 'unit': self.unit_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) elif _call_type == 'vcsbk': self.group_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) logger.debug('CSBK recieved, forwarded to destination TG.') else: logger.error('Unknown call type recieved -- not processed') class routerHBP(HBSYSTEM): def __init__(self, _name, _config, _report): HBSYSTEM.__init__(self, _name, _config, _report) ## print(_config) self.name = _name # list of self._targets for unit (subscriber, private) calls self._targets = [] # Status information for the system, TS1 & TS2 # 1 & 2 are "timeslot" # In TX_EMB_LC, 2-5 are burst B-E self.STATUS = { 1: { 'RX_START': time(), 'TX_START': time(), 'RX_SEQ': 0, 'RX_RFS': b'\x00', 'TX_RFS': b'\x00', 'RX_PEER': b'\x00', 'TX_PEER': b'\x00', 'RX_STREAM_ID': b'\x00', 'TX_STREAM_ID': b'\x00', 'RX_TGID': b'\x00\x00\x00', 'TX_TGID': b'\x00\x00\x00', 'RX_TIME': time(), 'TX_TIME': time(), 'RX_TYPE': HBPF_SLT_VTERM, 'TX_TYPE': HBPF_SLT_VTERM, 'RX_LC': b'\x00', 'TX_H_LC': b'\x00', 'TX_T_LC': b'\x00', 'TX_EMB_LC': { 1: b'\x00', 2: b'\x00', 3: b'\x00', 4: b'\x00', } }, 2: { 'RX_START': time(), 'TX_START': time(), 'RX_SEQ': 0, 'RX_RFS': b'\x00', 'TX_RFS': b'\x00', 'RX_PEER': b'\x00', 'TX_PEER': b'\x00', 'RX_STREAM_ID': b'\x00', 'TX_STREAM_ID': b'\x00', 'RX_TGID': b'\x00\x00\x00', 'TX_TGID': b'\x00\x00\x00', 'RX_TIME': time(), 'TX_TIME': time(), 'RX_TYPE': HBPF_SLT_VTERM, 'TX_TYPE': HBPF_SLT_VTERM, 'RX_LC': b'\x00', 'TX_H_LC': b'\x00', 'TX_T_LC': b'\x00', 'TX_EMB_LC': { 1: b'\x00', 2: b'\x00', 3: b'\x00', 4: b'\x00', } } } def group_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data): global UNIT_MAP pkt_time = time() dmrpkt = _data[20:53] _bits = _data[15] # Make/update an entry in the UNIT_MAP for this subscriber UNIT_MAP[_rf_src] = (self.name, pkt_time) # Update other servers via OBP ## svrd_send_all(b'UNIT' + _rf_src) # + b'TIME' + pkt_time) # Is this a new call stream? if (_stream_id != self.STATUS[_slot]['RX_STREAM_ID']): if (self.STATUS[_slot]['RX_TYPE'] != HBPF_SLT_VTERM) and (pkt_time < (self.STATUS[_slot]['RX_TIME'] + STREAM_TO)) and (_rf_src != self.STATUS[_slot]['RX_RFS']): logger.warning('(%s) Packet received with STREAM ID: %s SUB: %s PEER: %s TGID %s, SLOT %s collided with existing call', self._system, int_id(_stream_id), int_id(_rf_src), int_id(_peer_id), int_id(_dst_id), _slot) return # This is a new call stream # Send subscriber ID over OBP svrd_send_all(b'UNIT' + _rf_src) self.STATUS[_slot]['RX_START'] = pkt_time logger.info('(%s) *GROUP CALL START* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) TGID %s (%s), TS %s', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('GROUP VOICE,START,RX,{},{},{},{},{},{}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id)).encode(encoding='utf-8', errors='ignore')) # If we can, use the LC from the voice header as to keep all options intact if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD: decoded = decode.voice_head_term(dmrpkt) self.STATUS[_slot]['RX_LC'] = decoded['LC'] # If we don't have a voice header then don't wait to decode it from the Embedded LC # just make a new one from the HBP header. This is good enough, and it saves lots of time else: self.STATUS[_slot]['RX_LC'] = LC_OPT + _dst_id + _rf_src # Download rules if _rf_src not in user_rules: user_rules[_rf_src] = self.name if _rf_src in user_rules: ## print('in') if user_rules[_rf_src] != self.name: user_rules[_rf_src] = self.name ## print('updated') ## print(user_rules) for _bridge in BRIDGES: ## print(BRIDGES) ## print(_bridge) # Match bridge name here for _system in BRIDGES[_bridge]: ## print(_system) # Modify rule here for indiv system if (_system['SYSTEM'] == self._system and _system['TGID'] == _dst_id and _system['TS'] == _slot and _system['ACTIVE'] == True): for _target in BRIDGES[_bridge]: if _target['SYSTEM'] != self._system: if _target['ACTIVE']: _target_status = systems[_target['SYSTEM']].STATUS _target_system = self._CONFIG['SYSTEMS'][_target['SYSTEM']] if _target_system['MODE'] == 'OPENBRIDGE': # Is this a new call stream on the target? if (_stream_id not in _target_status): # This is a new call stream on the target _target_status[_stream_id] = { 'START': pkt_time, 'CONTENTION':False, 'RFS': _rf_src, 'TYPE': 'GROUP', 'DST': _dst_id, 'ACTIVE': True, } # Generate LCs (full and EMB) for the TX stream dst_lc = b''.join([self.STATUS[_slot]['RX_LC'][0:3], _target['TGID'], _rf_src]) _target_status[_stream_id]['H_LC'] = bptc.encode_header_lc(dst_lc) _target_status[_stream_id]['T_LC'] = bptc.encode_terminator_lc(dst_lc) _target_status[_stream_id]['EMB_LC'] = bptc.encode_emblc(dst_lc) logger.info('(%s) Conference Bridge: %s, Call Bridged to OBP System: %s TS: %s, TGID: %s', self._system, _bridge, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) if CONFIG['REPORTS']['REPORT']: systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,START,TX,{},{},{},{},{},{}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID'])).encode(encoding='utf-8', errors='ignore')) # Record the time of this packet so we can later identify a stale stream _target_status[_stream_id]['LAST'] = pkt_time # Clear the TS bit -- all OpenBridge streams are effectively on TS1 _tmp_bits = _bits & ~(1 << 7) # Assemble transmit HBP packet header _tmp_data = b''.join([_data[:8], _target['TGID'], _data[11:15], _tmp_bits.to_bytes(1, 'big'), _data[16:20]]) # MUST TEST FOR NEW STREAM AND IF SO, RE-WRITE THE LC FOR THE TARGET # MUST RE-WRITE DESTINATION TGID IF DIFFERENT # if _dst_id != rule['DST_GROUP']: dmrbits = bitarray(endian='big') dmrbits.frombytes(dmrpkt) # Create a voice header packet (FULL LC) if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD: dmrbits = _target_status[_stream_id]['H_LC'][0:98] + dmrbits[98:166] + _target_status[_stream_id]['H_LC'][98:197] # Create a voice terminator packet (FULL LC) elif _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VTERM: dmrbits = _target_status[_stream_id]['T_LC'][0:98] + dmrbits[98:166] + _target_status[_stream_id]['T_LC'][98:197] if CONFIG['REPORTS']['REPORT']: call_duration = pkt_time - _target_status[_stream_id]['START'] _target_status[_stream_id]['ACTIVE'] = False systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,END,TX,{},{},{},{},{},{},{:.2f}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID']), call_duration).encode(encoding='utf-8', errors='ignore')) # Create a Burst B-E packet (Embedded LC) elif _dtype_vseq in [1,2,3,4]: dmrbits = dmrbits[0:116] + _target_status[_stream_id]['EMB_LC'][_dtype_vseq] + dmrbits[148:264] dmrpkt = dmrbits.tobytes() _tmp_data = b''.join([_tmp_data, dmrpkt]) else: # BEGIN STANDARD CONTENTION HANDLING # # The rules for each of the 4 "ifs" below are listed here for readability. The Frame To Send is: # From a different group than last RX from this HBSystem, but it has been less than Group Hangtime # From a different group than last TX to this HBSystem, but it has been less than Group Hangtime # From the same group as the last RX from this HBSystem, but from a different subscriber, and it has been less than stream timeout # From the same group as the last TX to this HBSystem, but from a different subscriber, and it has been less than stream timeout # The "continue" at the end of each means the next iteration of the for loop that tests for matching rules # if ((_target['TGID'] != _target_status[_target['TS']]['RX_TGID']) and ((pkt_time - _target_status[_target['TS']]['RX_TIME']) < _target_system['GROUP_HANGTIME'])): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed to TGID %s, target active or in group hangtime: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_target['TGID']), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['RX_TGID'])) continue if ((_target['TGID'] != _target_status[_target['TS']]['TX_TGID']) and ((pkt_time - _target_status[_target['TS']]['TX_TIME']) < _target_system['GROUP_HANGTIME'])): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed to TGID%s, target in group hangtime: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_target['TGID']), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['TX_TGID'])) continue if (_target['TGID'] == _target_status[_target['TS']]['RX_TGID']) and ((pkt_time - _target_status[_target['TS']]['RX_TIME']) < STREAM_TO): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed to TGID%s, matching call already active on target: HBSystem: %s, TS: %s, TGID: %s', self._system, int_id(_target['TGID']), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['RX_TGID'])) continue if (_target['TGID'] == _target_status[_target['TS']]['TX_TGID']) and (_rf_src != _target_status[_target['TS']]['TX_RFS']) and ((pkt_time - _target_status[_target['TS']]['TX_TIME']) < STREAM_TO): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed for subscriber %s, call route in progress on target: HBSystem: %s, TS: %s, TGID: %s, SUB: %s', self._system, int_id(_rf_src), _target['SYSTEM'], _target['TS'], int_id(_target_status[_target['TS']]['TX_TGID']), int_id(_target_status[_target['TS']]['TX_RFS'])) continue # Is this a new call stream? if (_stream_id != self.STATUS[_slot]['RX_STREAM_ID']): # Record the DST TGID and Stream ID _target_status[_target['TS']]['TX_START'] = pkt_time _target_status[_target['TS']]['TX_TGID'] = _target['TGID'] _target_status[_target['TS']]['TX_STREAM_ID'] = _stream_id _target_status[_target['TS']]['TX_RFS'] = _rf_src _target_status[_target['TS']]['TX_PEER'] = _peer_id # Generate LCs (full and EMB) for the TX stream dst_lc = self.STATUS[_slot]['RX_LC'][0:3] + _target['TGID'] + _rf_src _target_status[_target['TS']]['TX_H_LC'] = bptc.encode_header_lc(dst_lc) _target_status[_target['TS']]['TX_T_LC'] = bptc.encode_terminator_lc(dst_lc) _target_status[_target['TS']]['TX_EMB_LC'] = bptc.encode_emblc(dst_lc) logger.debug('(%s) Generating TX FULL and EMB LCs for HomeBrew destination: System: %s, TS: %s, TGID: %s', self._system, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) logger.info('(%s) Conference Bridge: %s, Call Bridged to HBP System: %s TS: %s, TGID: %s', self._system, _bridge, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) if CONFIG['REPORTS']['REPORT']: systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,START,TX,{},{},{},{},{},{}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID'])).encode(encoding='utf-8', errors='ignore')) # Set other values for the contention handler to test next time there is a frame to forward _target_status[_target['TS']]['TX_TIME'] = pkt_time _target_status[_target['TS']]['TX_TYPE'] = _dtype_vseq # Handle any necessary re-writes for the destination if _system['TS'] != _target['TS']: _tmp_bits = _bits ^ 1 << 7 else: _tmp_bits = _bits # Assemble transmit HBP packet header _tmp_data = b''.join([_data[:8], _target['TGID'], _data[11:15], _tmp_bits.to_bytes(1, 'big'), _data[16:20]]) dmrbits = bitarray(endian='big') dmrbits.frombytes(dmrpkt) # Create a voice header packet (FULL LC) if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD: dmrbits = _target_status[_target['TS']]['TX_H_LC'][0:98] + dmrbits[98:166] + _target_status[_target['TS']]['TX_H_LC'][98:197] # Create a voice terminator packet (FULL LC) elif _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VTERM: dmrbits = _target_status[_target['TS']]['TX_T_LC'][0:98] + dmrbits[98:166] + _target_status[_target['TS']]['TX_T_LC'][98:197] if CONFIG['REPORTS']['REPORT']: call_duration = pkt_time - _target_status[_target['TS']]['TX_START'] systems[_target['SYSTEM']]._report.send_bridgeEvent('GROUP VOICE,END,TX,{},{},{},{},{},{},{:.2f}'.format(_target['SYSTEM'], int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _target['TS'], int_id(_target['TGID']), call_duration).encode(encoding='utf-8', errors='ignore')) # Create a Burst B-E packet (Embedded LC) elif _dtype_vseq in [1,2,3,4]: dmrbits = dmrbits[0:116] + _target_status[_target['TS']]['TX_EMB_LC'][_dtype_vseq] + dmrbits[148:264] dmrpkt = dmrbits.tobytes() _tmp_data = b''.join([_tmp_data, dmrpkt, _data[53:55]]) # Transmit the packet to the destination system systems[_target['SYSTEM']].send_system(_tmp_data) #logger.debug('(%s) Packet routed by bridge: %s to system: %s TS: %s, TGID: %s', self._system, _bridge, _target['SYSTEM'], _target['TS'], int_id(_target['TGID'])) if _target_system['MODE'] == 'OPENBRIDGE': if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM) and (self.STATUS[_slot]['RX_TYPE'] != HBPF_SLT_VTERM): if (_stream_id in _target_status): _target_status.pop(_stream_id) # Final actions - Is this a voice terminator? if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM) and (self.STATUS[_slot]['RX_TYPE'] != HBPF_SLT_VTERM): call_duration = pkt_time - self.STATUS[_slot]['RX_START'] logger.info('(%s) *GROUP CALL END* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) TGID %s (%s), TS %s, Duration: %.2f', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot, call_duration) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('GROUP VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id), call_duration).encode(encoding='utf-8', errors='ignore')) # # Begin in-band signalling for call end. This has nothign to do with routing traffic directly. # # Iterate the rules dictionary for _bridge in BRIDGES: for _system in BRIDGES[_bridge]: if _system['SYSTEM'] == self._system: ## # Insert POST for TG timer update? ## print(_system) ## print() ## print(datetime.fromtimestamp(_system['TIMER']).strftime('%H:%M:%S - %m/%d/%y')) # TGID matches a rule source, reset its timer if _slot == _system['TS'] and _dst_id == _system['TGID'] and ((_system['TO_TYPE'] == 'ON' and (_system['ACTIVE'] == True)) or (_system['TO_TYPE'] == 'OFF' and _system['ACTIVE'] == False)): _system['TIMER'] = pkt_time + _system['TIMEOUT'] logger.info('(%s) Transmission match for Bridge: %s. Reset timeout to %s', self._system, _bridge, _system['TIMER']) # TGID matches an ACTIVATION trigger if (_dst_id in _system['ON'] or _dst_id in _system['RESET']) and _slot == _system['TS']: # POST update TG for self care update_tg(CONFIG, 'on', int(str(int_id(self.STATUS[2]['RX_PEER']))[:7]), [{'SYSTEM':_system['SYSTEM']}, {'ts1':int_id(self.STATUS[1]['RX_TGID'])}, {'ts2':int_id(self.STATUS[2]['RX_TGID'])}]) ## print(datetime.fromtimestamp(_system['TIMER']).strftime('%H:%M:%S - %m/%d/%y')) ## update_tg(CONFIG, mode, dmr_id, data) # Set the matching rule as ACTIVE if _dst_id in _system['ON']: if _system['ACTIVE'] == False: _system['ACTIVE'] = True _system['TIMER'] = pkt_time + _system['TIMEOUT'] logger.info('(%s) Bridge: %s, connection changed to state: %s', self._system, _bridge, _system['ACTIVE']) # Cancel the timer if we've enabled an "OFF" type timeout if _system['TO_TYPE'] == 'OFF': _system['TIMER'] = pkt_time logger.info('(%s) Bridge: %s set to "OFF" with an on timer rule: timeout timer cancelled', self._system, _bridge) # Reset the timer for the rule if _system['ACTIVE'] == True and _system['TO_TYPE'] == 'ON': _system['TIMER'] = pkt_time + _system['TIMEOUT'] logger.info('(%s) Bridge: %s, timeout timer reset to: %s', self._system, _bridge, _system['TIMER'] - pkt_time) # TGID matches an DE-ACTIVATION trigger if (_dst_id in _system['OFF'] or _dst_id in _system['RESET']) and _slot == _system['TS']: # Set the matching rule as ACTIVE if _dst_id in _system['OFF']: if _system['ACTIVE'] == True: _system['ACTIVE'] = False logger.info('(%s) Bridge: %s, connection changed to state: %s', self._system, _bridge, _system['ACTIVE']) # POST off update_tg(CONFIG, 'off', 0, [{'SYSTEM':_system['SYSTEM']}, {'ts':_system['TS']}, {'tg': int_id(_system['TGID'])}]) ## update_tg(CONFIG, 'on', int(str(int_id(self.STATUS[2]['RX_PEER']))[:7]), [{'SYSTEM':_system['SYSTEM']}, {'ts1':int_id(self.STATUS[1]['RX_TGID'])}, {'ts2':int_id(self.STATUS[2]['RX_TGID'])}]) # Cancel the timer if we've enabled an "ON" type timeout if _system['TO_TYPE'] == 'ON': _system['TIMER'] = pkt_time logger.info('(%s) Bridge: %s set to ON with and "OFF" timer rule: timeout timer cancelled', self._system, _bridge) # Reset the timer for the rule if _system['ACTIVE'] == False and _system['TO_TYPE'] == 'OFF': _system['TIMER'] = pkt_time + _system['TIMEOUT'] logger.info('(%s) Bridge: %s, timeout timer reset to: %s', self._system, _bridge, _system['TIMER'] - pkt_time) # Cancel the timer if we've enabled an "ON" type timeout if _system['ACTIVE'] == True and _system['TO_TYPE'] == 'ON' and _dst_group in _system['OFF']: _system['TIMER'] = pkt_time logger.info('(%s) Bridge: %s set to ON with and "OFF" timer rule: timeout timer cancelled', self._system, _bridge) # # END IN-BAND SIGNALLING # # Mark status variables for use later self.STATUS[_slot]['RX_PEER'] = _peer_id self.STATUS[_slot]['RX_SEQ'] = _seq self.STATUS[_slot]['RX_RFS'] = _rf_src self.STATUS[_slot]['RX_TYPE'] = _dtype_vseq self.STATUS[_slot]['RX_TGID'] = _dst_id self.STATUS[_slot]['RX_TIME'] = pkt_time self.STATUS[_slot]['RX_STREAM_ID'] = _stream_id def unit_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data): global UNIT_MAP pkt_time = time() dmrpkt = _data[20:53] _bits = _data[15] # Make/update this unit in the UNIT_MAP cache UNIT_MAP[_rf_src] = (self.name, pkt_time) # Update other servers via OBP ## svrd_send_all(b'UNIT' + _rf_src) # + b'TIME' + pkt_time) # Is this a new call stream? if (_stream_id != self.STATUS[_slot]['RX_STREAM_ID']): # Collision in progress, bail out! if (self.STATUS[_slot]['RX_TYPE'] != HBPF_SLT_VTERM) and (pkt_time < (self.STATUS[_slot]['RX_TIME'] + STREAM_TO)) and (_rf_src != self.STATUS[_slot]['RX_RFS']): logger.warning('(%s) Packet received with STREAM ID: %s SUB: %s PEER: %s UNIT %s, SLOT %s collided with existing call', self._system, int_id(_stream_id), int_id(_rf_src), int_id(_peer_id), int_id(_dst_id), _slot) return # Create a destination list for the call: if _dst_id in UNIT_MAP: if UNIT_MAP[_dst_id][0] != self._system: self._targets = [UNIT_MAP[_dst_id][0]] else: self._targets = [] logger.error('UNIT call to a subscriber on the same system, send nothing') else: self._targets = list(UNIT) self._targets.remove(self._system) # This is a new call stream, so log & report svrd_send_all(b'UNIT' + _rf_src) self.STATUS[_slot]['RX_START'] = pkt_time logger.info('(%s) *UNIT CALL START* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) UNIT: %s (%s), TS: %s, FORWARD: %s', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot, self._targets) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('UNIT VOICE,START,RX,{},{},{},{},{},{},{}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id), self._targets).encode(encoding='utf-8', errors='ignore')) for _target in self._targets: _target_status = systems[_target].STATUS _target_system = self._CONFIG['SYSTEMS'][_target] if self._CONFIG['SYSTEMS'][_target]['MODE'] == 'OPENBRIDGE': if (_stream_id not in _target_status): # This is a new call stream on the target _target_status[_stream_id] = { 'START': pkt_time, 'CONTENTION':False, 'RFS': _rf_src, 'TYPE': 'UNIT', 'DST': _dst_id, 'ACTIVE': True } logger.info('(%s) Unit call bridged to OBP System: %s TS: %s, UNIT: %s', self._system, _target, _slot if _target_system['BOTH_SLOTS'] else 1, int_id(_dst_id)) if CONFIG['REPORTS']['REPORT']: systems[_target]._report.send_bridgeEvent('UNIT VOICE,START,TX,{},{},{},{},{},{}'.format(_target, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id)).encode(encoding='utf-8', errors='ignore')) # Record the time of this packet so we can later identify a stale stream _target_status[_stream_id]['LAST'] = pkt_time # Clear the TS bit and follow propper OBP definition, unless "BOTH_SLOTS" is set. This only works for unit calls. if _target_system['BOTH_SLOTS']: _tmp_bits = _bits else: _tmp_bits = _bits & ~(1 << 7) # Assemble transmit HBP packet _tmp_data = b''.join([_data[:15], _tmp_bits.to_bytes(1, 'big'), _data[16:20]]) _data = b''.join([_tmp_data, dmrpkt]) if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM): _target_status[_stream_id]['ACTIVE'] = False else: # BEGIN STANDARD CONTENTION HANDLING # # The rules for each of the 4 "ifs" below are listed here for readability. The Frame To Send is: # From a different group than last RX from this HBSystem, but it has been less than Group Hangtime # From a different group than last TX to this HBSystem, but it has been less than Group Hangtime # From the same group as the last RX from this HBSystem, but from a different subscriber, and it has been less than stream timeout # From the same group as the last TX to this HBSystem, but from a different subscriber, and it has been less than stream timeout # The "continue" at the end of each means the next iteration of the for loop that tests for matching rules # ''' if ((_dst_id != _target_status[_slot]['RX_TGID']) and ((pkt_time - _target_status[_slot]['RX_TIME']) < _target_system['GROUP_HANGTIME'])): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed to destination %s, target active or in group hangtime: HBSystem: %s, TS: %s, DEST: %s', self._system, int_id(_dst_id), _target, _slot, int_id(_target_status[_slot]['RX_TGID'])) continue if ((_dst_id != _target_status[_slot]['TX_TGID']) and ((pkt_time - _target_status[_slot]['TX_TIME']) < _target_system['GROUP_HANGTIME'])): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed to destination %s, target in group hangtime: HBSystem: %s, TS: %s, DEST: %s', self._system, int_id(_dst_id), _target, _slot, int_id(_target_status[_slot]['TX_TGID'])) continue ''' if (_dst_id == _target_status[_slot]['RX_TGID']) and ((pkt_time - _target_status[_slot]['RX_TIME']) < STREAM_TO): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed to destination %s, matching call already active on target: HBSystem: %s, TS: %s, DEST: %s', self._system, int_id(_dst_id), _target, _slot, int_id(_target_status[_slot]['RX_TGID'])) continue if (_dst_id == _target_status[_slot]['TX_TGID']) and (_rf_src != _target_status[_slot]['TX_RFS']) and ((pkt_time - _target_status[_slot]['TX_TIME']) < STREAM_TO): if _frame_type == HBPF_DATA_SYNC and _dtype_vseq == HBPF_SLT_VHEAD and self.STATUS[_slot]['RX_STREAM_ID'] != _stream_id: logger.info('(%s) Call not routed for subscriber %s, call route in progress on target: HBSystem: %s, TS: %s, DEST: %s, SUB: %s', self._system, int_id(_rf_src), _target, _slot, int_id(_target_status[_slot]['TX_TGID']), int_id(_target_status[_slot]['TX_RFS'])) continue # Record target information if this is a new call stream? if (_stream_id != self.STATUS[_slot]['RX_STREAM_ID']): # Record the DST TGID and Stream ID _target_status[_slot]['TX_START'] = pkt_time _target_status[_slot]['TX_TGID'] = _dst_id _target_status[_slot]['TX_STREAM_ID'] = _stream_id _target_status[_slot]['TX_RFS'] = _rf_src _target_status[_slot]['TX_PEER'] = _peer_id logger.info('(%s) Unit call bridged to HBP System: %s TS: %s, UNIT: %s', self._system, _target, _slot, int_id(_dst_id)) if CONFIG['REPORTS']['REPORT']: systems[_target]._report.send_bridgeEvent('UNIT VOICE,START,TX,{},{},{},{},{},{}'.format(_target, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id)).encode(encoding='utf-8', errors='ignore')) # Set other values for the contention handler to test next time there is a frame to forward _target_status[_slot]['TX_TIME'] = pkt_time _target_status[_slot]['TX_TYPE'] = _dtype_vseq #send the call: systems[_target].send_system(_data) # Final actions - Is this a voice terminator? if (_frame_type == HBPF_DATA_SYNC) and (_dtype_vseq == HBPF_SLT_VTERM) and (self.STATUS[_slot]['RX_TYPE'] != HBPF_SLT_VTERM): self._targets = [] call_duration = pkt_time - self.STATUS[_slot]['RX_START'] logger.info('(%s) *UNIT CALL END* STREAM ID: %s SUB: %s (%s) PEER: %s (%s) UNIT %s (%s), TS %s, Duration: %.2f', \ self._system, int_id(_stream_id), get_alias(_rf_src, subscriber_ids), int_id(_rf_src), get_alias(_peer_id, peer_ids), int_id(_peer_id), get_alias(_dst_id, talkgroup_ids), int_id(_dst_id), _slot, call_duration) if CONFIG['REPORTS']['REPORT']: self._report.send_bridgeEvent('UNIT VOICE,END,RX,{},{},{},{},{},{},{:.2f}'.format(self._system, int_id(_stream_id), int_id(_peer_id), int_id(_rf_src), _slot, int_id(_dst_id), call_duration).encode(encoding='utf-8', errors='ignore')) # Mark status variables for use later self.STATUS[_slot]['RX_PEER'] = _peer_id self.STATUS[_slot]['RX_SEQ'] = _seq self.STATUS[_slot]['RX_RFS'] = _rf_src self.STATUS[_slot]['RX_TYPE'] = _dtype_vseq self.STATUS[_slot]['RX_TGID'] = _dst_id self.STATUS[_slot]['RX_TIME'] = pkt_time self.STATUS[_slot]['RX_STREAM_ID'] = _stream_id def dmrd_received(self, _peer_id, _rf_src, _dst_id, _seq, _slot, _call_type, _frame_type, _dtype_vseq, _stream_id, _data): if _call_type == 'group': self.group_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) mirror_traffic(_data) elif _call_type == 'unit': if self._system not in UNIT: logger.error('(%s) *UNIT CALL NOT FORWARDED* UNIT calling is disabled for this system (INGRESS)', self._system) else: self.unit_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) mirror_traffic(_data) elif _call_type == 'vcsbk': self.group_received(_peer_id, _rf_src, _dst_id, _seq, _slot, _frame_type, _dtype_vseq, _stream_id, _data) logger.debug('CSBK recieved, forwarded to destination TG.') mirror_traffic(_data) else: logger.error('Unknown call type recieved -- not processed') mirror_traffic(_data) # # Socket-based reporting section # class bridgeReportFactory(reportFactory): def send_bridge(self): serialized = pickle.dumps(BRIDGES, protocol=2) #.decode("utf-8", errors='ignore') self.send_clients(REPORT_OPCODES['BRIDGE_SND']+serialized) def send_bridgeEvent(self, _data): if isinstance(_data, str): _data = _data.decode('utf-8', error='ignore') self.send_clients(REPORT_OPCODES['BRDG_EVENT']+_data) #************************************************ # MAIN PROGRAM LOOP STARTS HERE #************************************************ if __name__ == '__main__': import argparse import sys import os import signal ## global unit_flood_time # Change the current directory to the location of the application os.chdir(os.path.dirname(os.path.realpath(sys.argv[0]))) # 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 hbnet.cfg)') parser.add_argument('-r', '--rules', action='store', dest='RULES_FILE', help='/full/path/to/rules.file (usually rules.py)') 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__))+'/hbnet.cfg' # Call the external routine to build the configuration dictionary LOCAL_CONFIG = config.build_config(cli_args.CONFIG_FILE) if LOCAL_CONFIG['WEB_SERVICE']['REMOTE_CONFIG_ENABLED']: CONFIG = download_config(LOCAL_CONFIG, cli_args.CONFIG_FILE) ## print(CONFIG['SYSTEMS']) ## print('enabled') else: CONFIG = config.build_config(cli_args.CONFIG_FILE) # Ensure we have a path for the rules file, if one wasn't specified, then use the default (top of file) if not cli_args.RULES_FILE: cli_args.RULES_FILE = os.path.dirname(os.path.abspath(__file__))+'/rules.py' # 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) 2020, 2021\n\tKF7EEL - Eric, kf7eel@qsl.net - All rights reserved.\n') logger.info('\n\nCopyright (c) 2013, 2014, 2015, 2016, 2018, 2019, 2020\n\tThe Regents of the K0USY Group. All rights reserved.\n') logger.debug('(GLOBAL) Logging system started, anything from here on gets logged') # Set up the signal handler def sig_handler(_signal, _frame): logger.info('(GLOBAL) SHUTDOWN: CONFBRIDGE IS TERMINATING WITH SIGNAL %s', str(_signal)) hblink_handler(_signal, _frame) logger.info('(GLOBAL) 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.SIGINT, signal.SIGTERM]: 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, bridgeReportFactory) else: report_server = None logger.info('(REPORT) TCP Socket reporting not configured') # HBlink instance creation logger.info('(GLOBAL) HBNet \'hbnet.py\' -- SYSTEM STARTING...') # Generate list of Enabled MODE: PROXY masters proxy_master_list = [] for i in CONFIG['SYSTEMS']: if CONFIG['SYSTEMS'][i]['ENABLED'] == True: if CONFIG['SYSTEMS'][i]['MODE'] == 'PROXY': proxy_master_list.append(i) # Start proxy as a thread (if enabled in config) for each set of MASTERs for m in proxy_master_list: if CONFIG['SYSTEMS'][m]['EXTERNAL_PROXY_SCRIPT'] == False: proxy_thread = threading.Thread(target=hotspot_proxy, args=(CONFIG['SYSTEMS'][m]['EXTERNAL_PORT'],CONFIG['SYSTEMS'][m]['INTERNAL_PORT_START'],CONFIG['SYSTEMS'][m]['INTERNAL_PORT_STOP'],)) proxy_thread.daemon = True proxy_thread.start() logger.info('Started thread for PROXY for MASTER set: ' + m) #Build Master configs from list for i in proxy_master_list: n_systems = CONFIG['SYSTEMS'][i]['INTERNAL_PORT_STOP'] - CONFIG['SYSTEMS'][i]['INTERNAL_PORT_START'] n_count = 0 while n_count < n_systems: CONFIG['SYSTEMS'].update({i + '-' + str(n_count): { 'MODE': 'MASTER', 'ENABLED': True, 'STATIC_APRS_POSITION_ENABLED': CONFIG['SYSTEMS'][i]['STATIC_APRS_POSITION_ENABLED'], 'USE_USER_MAN': CONFIG['SYSTEMS'][i]['USE_USER_MAN'], 'REPEAT': CONFIG['SYSTEMS'][i]['REPEAT'], 'MAX_PEERS': 1, 'IP': '127.0.0.1', 'PORT': CONFIG['SYSTEMS'][i]['INTERNAL_PORT_START'] + n_count, 'PASSPHRASE': CONFIG['SYSTEMS'][i]['PASSPHRASE'], 'GROUP_HANGTIME': CONFIG['SYSTEMS'][i]['GROUP_HANGTIME'], 'USE_ACL': CONFIG['SYSTEMS'][i]['USE_ACL'], 'REG_ACL': CONFIG['SYSTEMS'][i]['REG_ACL'], 'SUB_ACL': CONFIG['SYSTEMS'][i]['SUB_ACL'], 'TG1_ACL': CONFIG['SYSTEMS'][i]['TG1_ACL'], 'TG2_ACL': CONFIG['SYSTEMS'][i]['TG2_ACL'] }}) CONFIG['SYSTEMS'][i + '-' + str(n_count)].update({'PEERS': {}}) systems[i + '-' + str(n_count)] = routerHBP(i + '-' + str(n_count), CONFIG, report_server) n_count = n_count + 1 # Remove original MASTER stanza to prevent errors CONFIG['SYSTEMS'].pop(i) logger.info('Generated MASTER instances for proxy set: ' + i) # Attempt to use downloaded rules if LOCAL_CONFIG['WEB_SERVICE']['REMOTE_CONFIG_ENABLED']: try: remote_config = download_rules(LOCAL_CONFIG, cli_args.CONFIG_FILE) # Build the routing rules file BRIDGES = make_bridges(remote_config[1]) #make_bridges(rules_module.BRIDGES) # Get rule parameter for private calls UNIT = remote_config[0] unit_flood_time = CONFIG['OTHER']['UNIT_TIME'] except: logger.error('Control server unreachable or other error. Using local config.') spec = importlib.util.spec_from_file_location("module.name", cli_args.RULES_FILE) rules_module = importlib.util.module_from_spec(spec) try: spec.loader.exec_module(rules_module) logger.info('(ROUTER) Routing bridges file found and bridges imported: %s', cli_args.RULES_FILE) except (ImportError, FileNotFoundError): sys.exit('(ROUTER) TERMINATING: Routing bridges file not found or invalid: {}'.format(cli_args.RULES_FILE)) # Build the routing rules file BRIDGES = make_bridges(rules_module.BRIDGES) # Get rule parameter for private calls UNIT = rules_module.UNIT unit_flood_time = rules_module.FLOOD_TIMEOUT else: spec = importlib.util.spec_from_file_location("module.name", cli_args.RULES_FILE) rules_module = importlib.util.module_from_spec(spec) try: spec.loader.exec_module(rules_module) logger.info('(ROUTER) Routing bridges file found and bridges imported: %s', cli_args.RULES_FILE) except (ImportError, FileNotFoundError): sys.exit('(ROUTER) TERMINATING: Routing bridges file not found or invalid: {}'.format(cli_args.RULES_FILE)) spec = importlib.util.spec_from_file_location("module.name", cli_args.RULES_FILE) ## print('--------') ## print(rules_module.BRIDGES) # Build the routing rules file BRIDGES = make_bridges(rules_module.BRIDGES) # Get rule parameter for private calls UNIT = rules_module.UNIT unit_flood_time = rules_module.FLOOD_TIMEOUT for system in CONFIG['SYSTEMS']: if CONFIG['SYSTEMS'][system]['ENABLED']: if CONFIG['SYSTEMS'][system]['MODE'] == 'OPENBRIDGE': systems[system] = routerOBP(system, CONFIG, report_server) else: systems[system] = routerHBP(system, CONFIG, report_server) reactor.listenUDP(CONFIG['SYSTEMS'][system]['PORT'], systems[system], interface=CONFIG['SYSTEMS'][system]['IP']) logger.debug('(GLOBAL) %s instance created: %s, %s', CONFIG['SYSTEMS'][system]['MODE'], system, systems[system]) def loopingErrHandle(failure): logger.error('(GLOBAL) STOPPING REACTOR TO AVOID MEMORY LEAK: Unhandled error in timed loop.\n %s', failure) reactor.stop() # Initialize the rule timer -- this if for user activated stuff rule_timer_task = task.LoopingCall(rule_timer_loop, unit_flood_time) rule_timer = rule_timer_task.start(60) rule_timer.addErrback(loopingErrHandle) # Initialize the stream trimmer stream_trimmer_task = task.LoopingCall(stream_trimmer_loop) stream_trimmer = stream_trimmer_task.start(5) stream_trimmer.addErrback(loopingErrHandle) logger.info('UNIT calls will be bridged to: ' + str(UNIT)) # Download burn list if LOCAL_CONFIG['WEB_SERVICE']['REMOTE_CONFIG_ENABLED']: with open(CONFIG['WEB_SERVICE']['BURN_FILE'], 'w') as f: f.write(str(download_burnlist(CONFIG))) reactor.run()