DMRlink/bridge.py

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#!/usr/bin/env python
#
# This work is licensed under the Creative Commons Attribution-ShareAlike
# 3.0 Unported License.To view a copy of this license, visit
# http://creativecommons.org/licenses/by-sa/3.0/ or send a letter to
# Creative Commons, 444 Castro Street, Suite 900, Mountain View,
# California, 94041, USA.
# This is a sample application to bridge traffic between IPSC networks. it uses
# one required (bridge_rules.py) and one optional (known_bridges.py) additional
# configuration files. Both files have their own documentation for use.
#
# "bridge_rules" contains the IPSC network, Timeslot and TGID matching rules to
# determine which voice calls are bridged between IPSC networks and which are
# not.
#
# "known_bridges" contains DMR radio ID numbers of known bridges. This file is
# used when you want bridge.py to be "polite" or serve as a backup bridge. If
# a known bridge exists in either a source OR target IPSC network, then no
# bridging between those IPSC networks will take place. This behavior is
# dynamic and updates each keep-alive interval (main configuration file).
# For faster failover, configure a short keep-alive time and a low number of
# missed keep-alives before timout. I recommend 5 sec keep-alive and 3 missed.
# That gives a worst-case scenario of 15 seconds to fail over. Recovery will
# typically happen with a single "blip" in the transmission up to about 5
# seconds.
#
# While this file is listed as Beta status, K0USY Group depends on this code
# for the bridigng of it's many repeaters. We consider it reliable, but you
# get what you pay for... as usual, no guarantees.
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from __future__ import print_function
from twisted.internet import reactor
from twisted.internet import task
from binascii import b2a_hex as h
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import sys
from dmrlink import IPSC, NETWORK, networks, send_to_ipsc, dmr_nat, logger, hex_str_3, hex_str_4, int_id
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__author__ = 'Cortney T. Buffington, N0MJS'
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__copyright__ = 'Copyright (c) 2013, 2014 Cortney T. Buffington, N0MJS and the K0USY Group'
__credits__ = 'Adam Fast, KC0YLK, Dave K, and he who wishes not to be named'
__license__ = 'Creative Commons Attribution-ShareAlike 3.0 Unported'
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__version__ = '0.27b'
__maintainer__ = 'Cort Buffington, N0MJS'
__email__ = 'n0mjs@me.com'
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__status__ = 'beta'
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BURST_DATA_TYPE = {
'VOICE_HEAD': '\x01',
'VOICE_TERM': '\x02',
'SLOT1_VOICE': '\x0A',
'SLOT2_VOICE': '\x8A'
}
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# Notes and pieces of next steps...
# RPT_WAKE_UP = b'\x85' + NETWORK[_network]['LOCAL']['RADIO_ID] + b'\x00\x00\x00\x01' + b'\x01' + b'\x01'
# TS1 = 0, TS2 = 1
# Import Bridging rules
# Note: A stanza *must* exist for any IPSC configured in the main
# configuration file and listed as "active". It can be empty,
# but it has to exist.
#
try:
from bridge_rules import RULES
logger.info('Bridge rules file found and rules imported')
except ImportError:
sys.exit('Bridging rules file not found or invalid')
# Convert integer GROUP ID numbers from the config into hex strings
# we need to send in the actual data packets.
#
for _ipsc in RULES:
for _rule in RULES[_ipsc]['GROUP_VOICE']:
_rule['SRC_GROUP'] = hex_str_3(_rule['SRC_GROUP'])
_rule['DST_GROUP'] = hex_str_3(_rule['DST_GROUP'])
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_rule['SRC_TS'] = _rule['SRC_TS'] - 1
_rule['DST_TS'] = _rule['DST_TS'] - 1
# Import List of Bridges
# This is how we identify known bridges. If one of these is present
# and it's mode byte is set to bridge, we don't
#
try:
from known_bridges import BRIDGES
logger.info('Known bridges file found and bridge ID list imported ')
except ImportError:
logger.critical('\'known_bridges.py\' not found - backup bridge service will not be enabled')
BRIDGES = []
# The class methods we override, including __init__ will be different
# depending on whether or not there is a known_bridges.py file, and
# hence whether or not we will implement backup/polite bridging or
# not (standard bridging). So, we test to see if the known bridges
# data structure "BRIDGES" was imported and had entries or not. If
# it did not import or did not have any entries, standard bridging
# is used.
#
if BRIDGES:
logger.info('Initializing class methods for backup/polite bridging')
class bridgeIPSC(IPSC):
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def __init__(self, *args, **kwargs):
IPSC.__init__(self, *args, **kwargs)
self.BRIDGE = False
self.ACTIVE_CALLS = []
logger.info('(%s) Initializing bridge status as: %s', self._network, self.BRIDGE)
# Setup the backup/polite bridging maintenance loop (based on keep-alive timer)
def startProtocol(self):
IPSC.startProtocol(self)
self._bridge_presence = task.LoopingCall(self.bridge_presence_loop)
self._bridge_presence_loop = self._bridge_presence.start(self._local['ALIVE_TIMER'])
# This is the backup/polite bridge maintenance loop
def bridge_presence_loop(self):
_temp_bridge = True
for peer in BRIDGES:
_peer = hex_str_4(peer)
if _peer in self._peers.keys() and (self._peers[_peer]['MODE_DECODE']['TS_1'] or self._peers[_peer]['MODE_DECODE']['TS_2']):
_temp_bridge = False
logger.debug('(%s) Peer %s is an active bridge', self._network, int_id(_peer))
if _peer == self._master['RADIO_ID'] \
and self._master['STATUS']['CONNECTED'] \
and (self._master['MODE_DECODE']['TS_1'] or self._master['MODE_DECODE']['TS_2']):
_temp_bridge = False
logger.debug('(%s) Master %s is an active bridge',self._network, int_id(_peer))
if self.BRIDGE != _temp_bridge:
logger.info('(%s) Changing bridge status to: %s', self._network, _temp_bridge )
self.BRIDGE = _temp_bridge
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#************************************************
# CALLBACK FUNCTIONS FOR USER PACKET TYPES
#************************************************
#
def group_voice(self, _network, _src_sub, _dst_group, _ts, _end, _peerid, _data):
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logger.debug('(%s) Group Voice Packet Received From: %s, IPSC Peer %s, Destination %s', _network, int_id(_src_sub), int_id(_peerid), int_id(_dst_group))
if _ts not in self.ACTIVE_CALLS:
self.ACTIVE_CALLS.append(_ts)
# send repeater wake up, but send them when a repeater is likely not TXing check time since end (see below)
if _end:
self.ACTIVE_CALLS.remove(_ts)
# flag the time here so we can test to see if the last call ended long enough ago to send a wake-up
# timer = time()
for rule in RULES[_network]['GROUP_VOICE']:
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_target = rule['DST_NET']
# Matching for rules is against the Destination Group in the SOURCE packet (SRC_GROUP)
if rule['SRC_GROUP'] == _dst_group and rule['SRC_TS'] == _ts and (self.BRIDGE == True or networks[_target].BRIDGE == True):
_tmp_data = _data
# Re-Write the IPSC SRC to match the target network's ID
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_tmp_data = _tmp_data.replace(_peerid, NETWORK[_target]['LOCAL']['RADIO_ID'])
# Re-Write the destination Group ID
_tmp_data = _tmp_data.replace(_dst_group, rule['DST_GROUP'])
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# Re-Write IPSC timeslot value
_call_info = int_id(_data[17:18])
if rule['DST_TS'] == 0:
_call_info &= ~(1 << 5)
elif rule['DST_TS'] == 1:
_call_info |= 1 << 5
_call_info = chr(_call_info)
_tmp_data = _tmp_data[:17] + _call_info + _tmp_data[18:]
# Re-Write DMR timeslot value
# Determine if the slot is present, so we can translate if need be
_burst_data_type = _data[30]
if _burst_data_type == BURST_DATA_TYPE['SLOT1_VOICE'] or _burst_data_type == BURST_DATA_TYPE['SLOT2_VOICE']:
_slot_valid = True
else:
_slot_valid = False
# Re-Write timeslot if necessary...
if _slot_valid:
if rule['DST_TS'] == 0:
_burst_data_type = BURST_DATA_TYPE['SLOT1_VOICE']
elif rule['DST_TS'] == 1:
_burst_data_type = BURST_DATA_TYPE['SLOT2_VOICE']
_tmp_data = _tmp_data[:30] + _burst_data_type + _tmp_data[31:]
# Calculate and append the authentication hash for the target network... if necessary
if NETWORK[_target]['LOCAL']['AUTH_ENABLED']:
_tmp_data = self.hashed_packet(NETWORK[_target]['LOCAL']['AUTH_KEY'], _tmp_data)
# Send the packet to all peers in the target IPSC
send_to_ipsc(_target, _tmp_data)
else:
logger.info('Initializing class methods for standard bridging')
class bridgeIPSC(IPSC):
def __init__(self, *args, **kwargs):
IPSC.__init__(self, *args, **kwargs)
self.ACTIVE_CALLS = []
#************************************************
# CALLBACK FUNCTIONS FOR USER PACKET TYPES
#************************************************
#
def group_voice(self, _network, _src_sub, _dst_group, _ts, _end, _peerid, _data):
if _ts not in self.ACTIVE_CALLS:
self.ACTIVE_CALLS.append(_ts)
# send repeater wake up, but send them when a repeater is likely not TXing check time since end (see below)
if _end:
self.ACTIVE_CALLS.remove(_ts)
# flag the time here so we can test to see if the last call ended long enough ago to send a wake-up
# timer = time()
for rule in RULES[_network]['GROUP_VOICE']:
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_target = rule['DST_NET']
# Matching for rules is against the Destination Group in the SOURCE packet (SRC_GROUP)
if rule['SRC_GROUP'] == _dst_group and rule['SRC_TS'] == _ts:
_tmp_data = _data
# Re-Write the IPSC SRC to match the target network's ID
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_tmp_data = _tmp_data.replace(_peerid, NETWORK[_target]['LOCAL']['RADIO_ID'])
# Re-Write the destination Group ID
_tmp_data = _tmp_data.replace(_dst_group, rule['DST_GROUP'])
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# Re-Write IPSC timeslot value
_call_info = int_id(_data[17:18])
if rule['DST_TS'] == 0:
_call_info &= ~(1 << 5)
elif rule['DST_TS'] == 1:
_call_info |= 1 << 5
_call_info = chr(_call_info)
_tmp_data = _tmp_data[:17] + _call_info + _tmp_data[18:]
# Re-Write DMR timeslot value
# Determine if the slot is present, so we can translate if need be
_burst_data_type = _data[30]
if _burst_data_type == BURST_DATA_TYPE['SLOT1_VOICE'] or _burst_data_type == BURST_DATA_TYPE['SLOT2_VOICE']:
_slot_valid = True
else:
_slot_valid = False
# Re-Write timeslot if necessary...
if _slot_valid:
if rule['DST_TS'] == 0:
_burst_data_type = BURST_DATA_TYPE['SLOT1_VOICE']
elif rule['DST_TS'] == 1:
_burst_data_type = BURST_DATA_TYPE['SLOT2_VOICE']
_tmp_data = _tmp_data[:30] + _burst_data_type + _tmp_data[31:]
# Calculate and append the authentication hash for the target network... if necessary
if NETWORK[_target]['LOCAL']['AUTH_ENABLED']:
_tmp_data = self.hashed_packet(NETWORK[_target]['LOCAL']['AUTH_KEY'], _tmp_data)
# Send the packet to all peers in the target IPSC
send_to_ipsc(_target, _tmp_data)
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if __name__ == '__main__':
logger.info('DMRlink \'bridge.py\' (c) 2013, 2014 N0MJS & the K0USY Group - SYSTEM STARTING...')
for ipsc_network in NETWORK:
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if NETWORK[ipsc_network]['LOCAL']['ENABLED']:
networks[ipsc_network] = bridgeIPSC(ipsc_network)
reactor.listenUDP(NETWORK[ipsc_network]['LOCAL']['PORT'], networks[ipsc_network])
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reactor.run()