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#!/usr/bin/env python
#
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###############################################################################
# Copyright (C) 2016 Cortney T. Buffington, N0MJS <n0mjs@me.com>
#
# 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
###############################################################################
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# This is a sample applicaiton that dumps all raw AMBE+2 voice frame data
# It is useful for things like, decoding the audio stream with a DVSI dongle, etc.
from __future__ import print_function
from twisted . internet import reactor
from binascii import b2a_hex as h
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from bitstring import BitArray
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import sys , socket , ConfigParser , thread , traceback
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import cPickle as pickle
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from dmrlink import IPSC , NETWORK , networks , logger , int_id , hex_str_3 , hex_str_4 , get_info , talkgroup_ids , peer_ids , PATH , get_subscriber_info , reread_subscribers
from time import time , sleep , clock , localtime , strftime
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import csv
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import struct
from random import randint
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__author__ = ' Cortney T. Buffington, N0MJS '
__copyright__ = ' Copyright (c) 2013 - 2016 Cortney T. Buffington, N0MJS and the K0USY Group '
__credits__ = ' Adam Fast, KC0YLK; Dave Kierzkowski, KD8EYF; Robert Garcia, N5QM; Steve Zingman, N4IRS; Mike Zingman, N4IRR '
__license__ = ' GNU GPLv3 '
__maintainer__ = ' Cort Buffington, N0MJS '
__email__ = ' n0mjs@me.com '
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try :
from ipsc . ipsc_message_types import *
except ImportError :
sys . exit ( ' IPSC message types file not found or invalid ' )
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try :
from ipsc . ipsc_mask import *
except ImportError :
sys . exit ( ' IPSC mask values file not found or invalid ' )
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#
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# ambeIPSC class,
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#
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class ambeIPSC ( IPSC ) :
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_configFile = ' ambe_audio.cfg ' # Name of the config file to over-ride these default values
_debug = False # Debug output for each VOICE frame
_outToFile = False # Write each AMBE frame to a file called ambe.bin
_outToUDP = True # Send each AMBE frame to the _sock object (turn on/off DMRGateway operation)
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#_gateway = "192.168.1.184"
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_gateway = " 127.0.0.1 " # IP address of DMRGateway app
_gateway_port = 31000 # Port DMRGateway is listening on for AMBE frames to decode
_remote_control_port = 31002 # Port that ambe_audio is listening on for remote control commands
_ambeRxPort = 31003 # Port to listen on for AMBE frames to transmit to all peers
_gateway_dmr_id = 0 # id to use when transmitting from the gateway
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_tg_filter = [ 2 , 3 , 13 , 3174 , 3777215 , 3100 , 9 , 9998 , 3112 ] #set this to the tg to monitor
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_no_tg = - 99 # Flag (const) that defines a value for "no tg is currently active"
_busy_slots = [ 0 , 0 , 0 ] # Keep track of activity on each slot. Make sure app is polite
_sock = - 1 ; # Socket object to send AMBE to DMRGateway
lastPacketTimeout = 0 # Time of last packet. Used to trigger an artifical TERM if one was not seen
_transmitStartTime = 0 # Used for info on transmission duration
_start_seq = 0 # Used to maintain error statistics for a transmission
_packet_count = 0 # Used to maintain error statistics for a transmission
_seq = 0 # Transmit frame sequence number (auto-increments for each frame)
_f = None # File handle for debug AMBE binary output
_tx_tg = hex_str_3 ( 9998 ) # Hard code the destination TG. This ensures traffic will not show up on DMR-MARC
_tx_ts = 2 # Time Slot 2
_currentNetwork = " "
_dmrgui = ' '
###### DEBUGDEBUGDEBUG
#_d = None
###### DEBUGDEBUGDEBUG
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def __init__ ( self , * args , * * kwargs ) :
IPSC . __init__ ( self , * args , * * kwargs )
self . CALL_DATA = [ ]
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#
# Define default values for operation. These will be overridden by the .cfg file if found
#
self . _currentTG = self . _no_tg
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self . _currentNetwork = str ( args [ 0 ] )
self . readConfigFile ( self . _configFile , None , self . _currentNetwork )
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logger . info ( ' DMRLink ambe server ' )
if self . _gateway_dmr_id == 0 :
sys . exit ( " Error: gatewayDmrId must be set (greater than zero) " )
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#
# Open output sincs
#
if self . _outToFile == True :
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self . _f = open ( ' ambe.bin ' , ' wb ' )
logger . info ( ' Opening output file: ambe.bin ' )
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if self . _outToUDP == True :
self . _sock = socket . socket ( socket . AF_INET , socket . SOCK_DGRAM )
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logger . info ( ' Send UDP frames to DMR gateway {} : {} ' . format ( self . _gateway , self . _gateway_port ) )
###### DEBUGDEBUGDEBUG
#self._d = open('recordData.bin', 'wb')
###### DEBUGDEBUGDEBUG
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try :
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thread . start_new_thread ( self . remote_control , ( self . _remote_control_port , ) ) # Listen for remote control commands
thread . start_new_thread ( self . launchUDP , ( args [ 0 ] , ) ) # Package AMBE into IPSC frames and send to all peers
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except :
traceback . print_exc ( )
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logger . error ( " Error: unable to start thread " )
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# Utility function to convert bytes to string of hex values (for debug)
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def ByteToHex ( self , byteStr ) :
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return ' ' . join ( [ " %02X " % ord ( x ) for x in byteStr ] ) . strip ( )
#
# Now read the configuration file and parse out the values we need
#
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def defaultOption ( self , config , sec , opt , defaultValue ) :
try :
_value = config . get ( sec , opt ) . split ( None ) [ 0 ] # Get the value from the named section
except ConfigParser . NoOptionError as e :
try :
_value = config . get ( ' DEFAULTS ' , opt ) . split ( None ) [ 0 ] # Try the global DEFAULTS section
except ConfigParser . NoOptionError as e :
_value = defaultValue # Not found anywhere, use the default value
logger . info ( opt + ' = ' + str ( _value ) )
return _value
def readConfigFile ( self , configFileName , sec , networkName = ' DEFAULTS ' ) :
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config = ConfigParser . ConfigParser ( )
try :
config . read ( configFileName )
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if sec == None :
sec = self . defaultOption ( config , ' DEFAULTS ' , ' section ' , networkName )
if config . has_section ( sec ) == False :
logger . error ( ' Section ' + sec + ' was not found, using DEFAULTS ' )
sec = ' DEFAULTS '
self . _debug = bool ( self . defaultOption ( config , sec , ' debug ' , self . _debug ) == ' True ' )
self . _outToFile = bool ( self . defaultOption ( config , sec , ' outToFile ' , self . _outToFile ) == ' True ' )
self . _outToUDP = bool ( self . defaultOption ( config , sec , ' outToUDP ' , self . _outToUDP ) == ' True ' )
self . _gateway = self . defaultOption ( config , sec , ' gateway ' , self . _gateway )
self . _gateway_port = int ( self . defaultOption ( config , sec , ' toGatewayPort ' , self . _gateway_port ) )
self . _remote_control_port = int ( self . defaultOption ( config , sec , ' remoteControlPort ' , self . _remote_control_port ) )
self . _ambeRxPort = int ( self . defaultOption ( config , sec , ' fromGatewayPort ' , self . _ambeRxPort ) )
self . _gateway_dmr_id = int ( self . defaultOption ( config , sec , ' gatewayDmrId ' , self . _gateway_dmr_id ) )
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_tgs = self . defaultOption ( config , sec , ' tgFilter ' , str ( self . _tg_filter ) . strip ( ' [] ' ) )
self . _tg_filter = map ( int , _tgs . split ( ' , ' ) )
self . _tx_tg = hex_str_3 ( int ( self . defaultOption ( config , sec , ' txTg ' , int_id ( self . _tx_tg ) ) ) )
self . _tx_ts = int ( self . defaultOption ( config , sec , ' txTs ' , self . _tx_ts ) )
except ConfigParser . NoOptionError as e :
print ( ' Using a default value: ' , e )
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except :
traceback . print_exc ( )
sys . exit ( ' Configuration file \' ' + configFileName + ' \' is not a valid configuration file! Exiting... ' )
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def rewriteFrame ( self , _frame , _network , _newSlot , _newGroup , _newSouceID , _newPeerID ) :
_peerid = _frame [ 1 : 5 ] # int32 peer who is sending us a packet
_src_sub = _frame [ 6 : 9 ] # int32 Id of source
_burst_data_type = _frame [ 30 ]
########################################################################
# re-Write the peer radio ID to that of this program
_frame = _frame . replace ( _peerid , _newPeerID )
# re-Write the source subscriber ID to that of this program
_frame = _frame . replace ( _src_sub , _newSouceID )
# Re-Write the destination Group ID
_frame = _frame . replace ( _frame [ 9 : 12 ] , _newGroup )
# Re-Write IPSC timeslot value
_call_info = int_id ( _frame [ 17 : 18 ] )
if _newSlot == 1 :
_call_info & = ~ ( 1 << 5 )
elif _newSlot == 2 :
_call_info | = 1 << 5
_call_info = chr ( _call_info )
_frame = _frame [ : 17 ] + _call_info + _frame [ 18 : ]
_x = struct . pack ( " i " , self . _seq )
_frame = _frame [ : 20 ] + _x [ 1 ] + _x [ 0 ] + _frame [ 22 : ]
self . _seq = self . _seq + 1
# Re-Write DMR timeslot value
# Determine if the slot is present, so we can translate if need be
if _burst_data_type == BURST_DATA_TYPE [ ' SLOT1_VOICE ' ] or _burst_data_type == BURST_DATA_TYPE [ ' SLOT2_VOICE ' ] :
# Re-Write timeslot if necessary...
if _newSlot == 1 :
_burst_data_type = BURST_DATA_TYPE [ ' SLOT1_VOICE ' ]
elif _newSlot == 2 :
_burst_data_type = BURST_DATA_TYPE [ ' SLOT2_VOICE ' ]
_frame = _frame [ : 30 ] + _burst_data_type + _frame [ 31 : ]
if ( time ( ) - self . _busy_slots [ _newSlot ] ) > = 0.10 : # slot is not busy so it is safe to transmit
# Send the packet to all peers in the target IPSC
self . send_to_ipsc ( _frame )
else :
logger . info ( ' Slot {} is busy, will not transmit packet from gateway ' . format ( _newSlot ) )
########################################################################
# Read a record from the captured IPSC file looking for a payload type that matches the filter
def readRecord ( self , _file , _match_type ) :
_notEOF = True
# _file.seek(0)
while ( _notEOF ) :
_data = " "
_bLen = _file . read ( 4 )
if _bLen :
_len , = struct . unpack ( " i " , _bLen )
if _len > 0 :
_data = _file . read ( _len )
_payload_type = _data [ 30 ]
if _payload_type == _match_type :
return _data
else :
_notEOF = False
else :
_notEOF = False
return _data
# Read bytes from the socket with "timeout" I hate this code.
def readSock ( self , _sock , len ) :
counter = 0
while ( counter < 3 ) :
_ambe = _sock . recv ( len )
if _ambe : break
sleep ( 0.1 )
counter = counter + 1
return _ambe
# Concatenate 3 frames from the stream into a bit array and return the bytes
def readAmbeFrameFromUDP ( self , _sock ) :
_ambeAll = BitArray ( ) # Start with an empty array
for i in range ( 0 , 3 ) :
_ambe = self . readSock ( _sock , 7 ) # Read AMBE from the socket
if _ambe :
_ambe1 = BitArray ( ' 0x ' + h ( _ambe [ 0 : 49 ] ) )
_ambeAll + = _ambe1 [ 0 : 50 ] # Append the 49 bits to the string
else :
break
return _ambeAll . tobytes ( ) # Return the 49 * 3 as an array of bytes
# Set up the socket and run the method to gather the AMBE. Sending it to all peers
def launchUDP ( self , _network ) :
s = socket . socket ( ) # Create a socket object
s . bind ( ( ' ' , self . _ambeRxPort ) ) # Bind to the port
while ( 1 ) : # Forever!
s . listen ( 5 ) # Now wait for client connection.
_sock , addr = s . accept ( ) # Establish connection with client.
if int_id ( self . _tx_tg ) > 0 : # Test if we are allowed to transmit
self . playbackFromUDP ( _sock , _network )
else :
self . transmitDisabled ( _sock , _network ) #tg is zero, so just eat the network trafic
_sock . close ( )
# This represents a full transmission (HEAD, VOICE and TERM)
def playbackFromUDP ( self , _sock , _network ) :
_delay = 0.055 # Yes, I know it should be 0.06, but there seems to be some latency, so this is a hack
_src_sub = hex_str_3 ( self . _gateway_dmr_id ) # DMR ID to sign this transmission with
_src_peer = NETWORK [ _network ] [ ' LOCAL ' ] [ ' RADIO_ID ' ] # Use this peers ID as the source repeater
logger . info ( ' Transmit from gateway to TG {} : ' . format ( int_id ( self . _tx_tg ) ) )
try :
try :
_t = open ( ' template.bin ' , ' rb ' ) # Open the template file. This was recorded OTA
_tempHead = [ 0 ] * 3 # It appears that there 3 frames of HEAD (mostly the same)
for i in range ( 0 , 3 ) :
_tempHead [ i ] = self . readRecord ( _t , BURST_DATA_TYPE [ ' VOICE_HEAD ' ] )
_tempVoice = [ 0 ] * 6
for i in range ( 0 , 6 ) : # Then there are 6 frames of AMBE. We will just use them in order
_tempVoice [ i ] = self . readRecord ( _t , BURST_DATA_TYPE [ ' SLOT2_VOICE ' ] )
_tempTerm = self . readRecord ( _t , BURST_DATA_TYPE [ ' VOICE_TERM ' ] )
_t . close ( )
except IOError :
logger . error ( ' Can not open template.bin file ' )
return
logger . debug ( ' IPSC templates loaded ' )
_eof = False
self . _seq = randint ( 0 , 32767 ) # A transmission uses a random number to begin its sequence (16 bit)
for i in range ( 0 , 3 ) : # Output the 3 HEAD frames to our peers
self . rewriteFrame ( _tempHead [ i ] , _network , self . _tx_ts , self . _tx_tg , _src_sub , _src_peer )
#self.group_voice(_network, _src_sub, self._tx_tg, True, '', hex_str_3(0), _tempHead[i])
sleep ( _delay )
i = 0 # Initialize the VOICE template index
while ( _eof == False ) :
_ambe = self . readAmbeFrameFromUDP ( _sock ) # Read the 49*3 bit sample from the stream
if _ambe :
i = ( i + 1 ) % 6 # Round robbin with the 6 VOICE templates
_frame = _tempVoice [ i ] [ : 33 ] + _ambe + _tempVoice [ i ] [ 52 : ] # Insert the 3 49 bit AMBE frames
self . rewriteFrame ( _frame , _network , self . _tx_ts , self . _tx_tg , _src_sub , _src_peer )
#self.group_voice(_network, _src_sub, self._tx_tg, True, '', hex_str_3(0), _frame)
sleep ( _delay ) # Since this comes from a file we have to add delay between IPSC frames
else :
_eof = True # There are no more AMBE frames, so terminate the loop
self . rewriteFrame ( _tempTerm , _network , self . _tx_ts , self . _tx_tg , _src_sub , _src_peer )
#self.group_voice(_network, _src_sub, self._tx_tg, True, '', hex_str_3(0), _tempTerm)
except IOError :
logger . error ( ' Can not transmit to peers ' )
logger . info ( ' Transmit complete ' )
def transmitDisabled ( self , _sock , _network ) :
_eof = False
logger . debug ( ' Transmit disabled begin ' )
while ( _eof == False ) :
if self . readAmbeFrameFromUDP ( _sock ) :
pass
else :
_eof = True # There are no more AMBE frames, so terminate the loop
logger . debug ( ' Transmit disabled end ' )
# Debug method used to test the AMBE code.
def playbackFromFile ( self , _fileName ) :
_r = open ( _fileName , ' rb ' )
_eof = False
host = socket . gethostbyname ( socket . gethostname ( ) ) # Get local machine name
_sock = socket . socket ( socket . AF_INET , socket . SOCK_STREAM )
_sock . connect ( ( host , self . _ambeRxPort ) )
while ( _eof == False ) :
for i in range ( 0 , 3 ) :
_ambe = _r . read ( 7 )
if _ambe :
_sock . send ( _ambe )
else :
_eof = True
sleep ( 0.055 )
logger . info ( ' File playback complete ' )
def dumpTemplate ( self , _fileName ) :
_file = open ( _fileName , ' rb ' )
_eof = False
while ( _eof == False ) :
_data = " "
_bLen = _file . read ( 4 )
if _bLen :
_len , = struct . unpack ( " i " , _bLen )
if _len > 0 :
_data = _file . read ( _len )
self . dumpIPSCFrame ( _data )
else :
_eof = True
logger . info ( ' File dump complete ' )
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#************************************************
# CALLBACK FUNCTIONS FOR USER PACKET TYPES
#************************************************
#
def group_voice ( self , _network , _src_sub , _dst_sub , _ts , _end , _peerid , _data ) :
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#self.dumpIPSCFrame(_data)
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# THIS FUNCTION IS NOT COMPLETE!!!!
_payload_type = _data [ 30 : 31 ]
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# _ambe_frames = _data[33:52]
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_ambe_frames = BitArray ( ' 0x ' + h ( _data [ 33 : 52 ] ) )
_ambe_frame1 = _ambe_frames [ 0 : 49 ]
_ambe_frame2 = _ambe_frames [ 50 : 99 ]
_ambe_frame3 = _ambe_frames [ 100 : 149 ]
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_tg_id = int_id ( _dst_sub )
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_ts = 2 if _ts else 1
self . _busy_slots [ _ts ] = time ( )
###### DEBUGDEBUGDEBUG
# if _tg_id == 2:
# __iLen = len(_data)
# self._d.write(struct.pack("i", __iLen))
# self._d.write(_data)
# else:
# self.rewriteFrame(_data, _network, 1, 9)
###### DEBUGDEBUGDEBUG
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if _tg_id in self . _tg_filter : #All TGs
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_dst_sub = get_info ( int_id ( _dst_sub ) , talkgroup_ids )
if _payload_type == BURST_DATA_TYPE [ ' VOICE_HEAD ' ] :
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if self . _currentTG == self . _no_tg :
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_src_sub = get_subscriber_info ( _src_sub )
logger . info ( ' Voice Transmission Start on TS {} and TG {} ( {} ) from {} ' . format ( _ts , _dst_sub , _tg_id , _src_sub ) )
self . _sock . sendto ( ' reply log2 {} {} ' . format ( _src_sub , _tg_id ) , ( self . _dmrgui , 34003 ) )
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self . _currentTG = _tg_id
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self . _transmitStartTime = time ( )
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self . _start_seq = int_id ( _data [ 20 : 22 ] )
self . _packet_count = 0
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else :
if self . _currentTG != _tg_id :
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if time ( ) > self . lastPacketTimeout :
self . _currentTG = self . _no_tg #looks like we never saw an EOT from the last stream
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logger . warning ( ' EOT timeout ' )
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else :
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logger . warning ( ' Transmission in progress, will not decode stream on TG {} ' . format ( _tg_id ) )
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if self . _currentTG == _tg_id :
if _payload_type == BURST_DATA_TYPE [ ' VOICE_TERM ' ] :
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_source_packets = ( int_id ( _data [ 20 : 22 ] ) - self . _start_seq ) - 3 # the 3 is because the start and end are not part of the voice but counted in the RTP
if self . _packet_count > _source_packets :
self . _packet_count = _source_packets
if _source_packets > 0 :
_lost_percentage = 100.0 - ( ( self . _packet_count / float ( _source_packets ) ) * 100.0 )
else :
_lost_percentage = 0.0
_duration = ( time ( ) - self . _transmitStartTime )
logger . info ( ' Voice Transmission End {:.2f} seconds loss rate: {:.2f} % ( {} / {} ) ' . format ( _duration , _lost_percentage , _source_packets - self . _packet_count , _source_packets ) )
self . _sock . sendto ( " reply log " +
strftime ( " % m/ %d / % y % H: % M: % S " , localtime ( self . _transmitStartTime ) ) +
' {} {} " {} " ' . format ( get_subscriber_info ( _src_sub ) , _ts , _dst_sub ) +
' {:.2f} % ' . format ( _lost_percentage ) +
' {:.2f} s ' . format ( _duration ) , ( self . _dmrgui , 34003 ) )
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self . _currentTG = self . _no_tg
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if _payload_type == BURST_DATA_TYPE [ ' SLOT1_VOICE ' ] :
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self . outputFrames ( _ambe_frames , _ambe_frame1 , _ambe_frame2 , _ambe_frame3 )
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self . _packet_count + = 1
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if _payload_type == BURST_DATA_TYPE [ ' SLOT2_VOICE ' ] :
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self . outputFrames ( _ambe_frames , _ambe_frame1 , _ambe_frame2 , _ambe_frame3 )
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self . _packet_count + = 1
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self . lastPacketTimeout = time ( ) + 10
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else :
if _payload_type == BURST_DATA_TYPE [ ' VOICE_HEAD ' ] :
_dst_sub = get_info ( int_id ( _dst_sub ) , talkgroup_ids )
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logger . warning ( ' Ignored Voice Transmission Start on TS {} and TG {} ' . format ( _ts , _dst_sub ) )
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def outputFrames ( self , _ambe_frames , _ambe_frame1 , _ambe_frame2 , _ambe_frame3 ) :
if self . _debug == True :
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logger . debug ( _ambe_frames )
logger . debug ( ' Frame 1: ' , self . ByteToHex ( _ambe_frame1 . tobytes ( ) ) )
logger . debug ( ' Frame 2: ' , self . ByteToHex ( _ambe_frame2 . tobytes ( ) ) )
logger . debug ( ' Frame 3: ' , self . ByteToHex ( _ambe_frame3 . tobytes ( ) ) )
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if self . _outToFile == True :
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self . _f . write ( _ambe_frame1 . tobytes ( ) )
self . _f . write ( _ambe_frame2 . tobytes ( ) )
self . _f . write ( _ambe_frame3 . tobytes ( ) )
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if self . _outToUDP == True :
self . _sock . sendto ( _ambe_frame1 . tobytes ( ) , ( self . _gateway , self . _gateway_port ) )
self . _sock . sendto ( _ambe_frame2 . tobytes ( ) , ( self . _gateway , self . _gateway_port ) )
self . _sock . sendto ( _ambe_frame3 . tobytes ( ) , ( self . _gateway , self . _gateway_port ) )
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def private_voice ( self , _network , _src_sub , _dst_sub , _ts , _end , _peerid , _data ) :
print ( ' private voice ' )
# __iLen = len(_data)
# self._d.write(struct.pack("i", __iLen))
# self._d.write(_data)
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#
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# Remote control thread
# Use netcat to dynamically change ambe_audio without a restart
# echo -n "tgs=x,y,z" | nc 127.0.0.1 31002
# echo -n "reread_subscribers" | nc 127.0.0.1 31002
# echo -n "reread_config" | nc 127.0.0.1 31002
# echo -n "txTg=##" | nc 127.0.0.1 31002
# echo -n "txTs=#" | nc 127.0.0.1 31002
# echo -n "section=XX" | nc 127.0.0.1 31002
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#
def remote_control ( self , port ) :
s = socket . socket ( ) # Create a socket object
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s . bind ( ( ' ' , port ) ) # Bind to the port
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s . listen ( 5 ) # Now wait for client connection.
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logger . info ( ' Remote control is listening on {} : {} ' . format ( socket . getfqdn ( ) , port ) )
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while True :
c , addr = s . accept ( ) # Establish connection with client.
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logger . info ( ' Got connection from {} ' . format ( addr ) )
self . _dmrgui = addr [ 0 ]
_tmp = c . recv ( 1024 )
_tmp = _tmp . split ( None ) [ 0 ] #first get rid of whitespace
_cmd = _tmp . split ( ' = ' ) [ 0 ]
logger . info ( ' Command: " {} " ' . format ( _cmd ) )
if _cmd :
if _cmd == ' reread_subscribers ' :
reread_subscribers ( )
elif _cmd == ' reread_config ' :
self . readConfigFile ( self . _configFile , None , self . _currentNetwork )
elif _cmd == ' txTg ' :
self . _tx_tg = hex_str_3 ( int ( _tmp . split ( ' = ' ) [ 1 ] ) )
print ( ' New txTg = ' + str ( int_id ( self . _tx_tg ) ) )
elif _cmd == ' txTs ' :
self . _tx_ts = int ( _tmp . split ( ' = ' ) [ 1 ] )
print ( ' New txTs = ' + str ( self . _tx_ts ) )
elif _cmd == ' section ' :
self . readConfigFile ( self . _configFile , _tmp . split ( ' = ' ) [ 1 ] )
elif _cmd == ' gateway_dmr_id ' :
self . _gateway_dmr_id = int ( _tmp . split ( ' = ' ) [ 1 ] )
print ( ' New gateway_dmr_id = ' + str ( self . _gateway_dmr_id ) )
elif _cmd == ' gateway_peer_id ' :
peerID = int ( _tmp . split ( ' = ' ) [ 1 ] )
NETWORK [ _network ] [ ' LOCAL ' ] [ ' RADIO_ID ' ] = hex_str_3 ( peerID )
print ( ' New peer_id = ' + str ( peerID ) )
elif _cmd == ' restart ' :
reactor . callFromThread ( reactor . stop )
elif _cmd == ' playbackFromFile ' :
self . playbackFromFile ( ' ambe.bin ' )
elif _cmd == ' tgs ' :
_args = _tmp . split ( ' = ' ) [ 1 ]
self . _tg_filter = map ( int , _args . split ( ' , ' ) )
logger . info ( ' New TGs= {} ' . format ( self . _tg_filter ) )
elif _cmd == ' dump_template ' :
self . dumpTemplate ( ' PrivateVoice.bin ' )
elif _cmd == ' get_info ' :
self . _sock . sendto ( ' reply dmr_info {} {} {} {} ' . format ( self . _currentNetwork ,
int_id ( NETWORK [ self . _currentNetwork ] [ ' LOCAL ' ] [ ' RADIO_ID ' ] ) ,
self . _gateway_dmr_id ,
get_subscriber_info ( hex_str_3 ( self . _gateway_dmr_id ) ) ) , ( self . _dmrgui , 34003 ) )
elif _cmd == ' eval ' :
_sz = len ( _tmp ) - 5
_evalExpression = _tmp [ - _sz : ]
_evalResult = eval ( _evalExpression )
print ( " eval of {} is {} " . format ( _evalExpression , _evalResult ) )
self . _sock . sendto ( ' reply eval {} ' . format ( _evalResult ) , ( self . _dmrgui , 34003 ) )
elif _cmd == ' exec ' :
_sz = len ( _tmp ) - 5
_evalExpression = _tmp [ - _sz : ]
exec ( _evalExpression )
print ( " exec of {} " . format ( _evalExpression ) )
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else :
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logger . error ( ' Unknown command ' )
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c . close ( ) # Close the connection
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#************************************************
# Debug: print IPSC frame on console
#************************************************
def dumpIPSCFrame ( self , _frame ) :
_packettype = int_id ( _frame [ 0 : 1 ] ) # int8 GROUP_VOICE, PVT_VOICE, GROUP_DATA, PVT_DATA, CALL_MON_STATUS, CALL_MON_RPT, CALL_MON_NACK, XCMP_XNL, RPT_WAKE_UP, DE_REG_REQ
_peerid = int_id ( _frame [ 1 : 5 ] ) # int32 peer who is sending us a packet
_ipsc_seq = int_id ( _frame [ 5 : 6 ] ) # int8 looks like a sequence number for a packet
_src_sub = int_id ( _frame [ 6 : 9 ] ) # int32 Id of source
_dst_sub = int_id ( _frame [ 9 : 12 ] ) # int32 Id of destination
_call_type = int_id ( _frame [ 12 : 13 ] ) # int8 Priority Voice/Data
_call_ctrl_info = int_id ( _frame [ 13 : 17 ] ) # int32
_call_info = int_id ( _frame [ 17 : 18 ] ) # int8 Bits 6 and 7 defined as TS and END
# parse out the RTP values
_rtp_byte_1 = int_id ( _frame [ 18 : 19 ] ) # Call Ctrl Src
_rtp_byte_2 = int_id ( _frame [ 19 : 20 ] ) # Type
_rtp_seq = int_id ( _frame [ 20 : 22 ] ) # Call Seq No
_rtp_tmstmp = int_id ( _frame [ 22 : 26 ] ) # Timestamp
_rtp_ssid = int_id ( _frame [ 26 : 30 ] ) # Sync Src Id
_payload_type = _frame [ 30 ] # int8 VOICE_HEAD, VOICE_TERM, SLOT1_VOICE, SLOT2_VOICE
_ts = bool ( _call_info & TS_CALL_MSK )
_end = bool ( _call_info & END_MSK )
if _payload_type == BURST_DATA_TYPE [ ' VOICE_HEAD ' ] :
print ( ' HEAD: ' , h ( _frame ) )
if _payload_type == BURST_DATA_TYPE [ ' VOICE_TERM ' ] :
_ipsc_rssi_threshold_and_parity = int_id ( _frame [ 31 ] )
_ipsc_length_to_follow = int_id ( _frame [ 32 : 34 ] )
_ipsc_rssi_status = int_id ( _frame [ 34 ] )
_ipsc_slot_type_sync = int_id ( _frame [ 35 ] )
_ipsc_data_size = int_id ( _frame [ 36 : 38 ] )
_ipsc_data = _frame [ 38 : 38 + ( _ipsc_length_to_follow * 2 ) - 4 ]
_ipsc_full_lc_byte1 = int_id ( _frame [ 38 ] )
_ipsc_full_lc_fid = int_id ( _frame [ 39 ] )
_ipsc_voice_pdu_service_options = int_id ( _frame [ 40 ] )
_ipsc_voice_pdu_dst = int_id ( _frame [ 41 : 44 ] )
_ipsc_voice_pdu_src = int_id ( _frame [ 44 : 47 ] )
print ( ' {} {} {} {} {} {} {} {} {} {} {} ' . format ( _ipsc_rssi_threshold_and_parity , _ipsc_length_to_follow , _ipsc_rssi_status , _ipsc_slot_type_sync , _ipsc_data_size , h ( _ipsc_data ) , _ipsc_full_lc_byte1 , _ipsc_full_lc_fid , _ipsc_voice_pdu_service_options , _ipsc_voice_pdu_dst , _ipsc_voice_pdu_src ) )
print ( ' TERM: ' , h ( _frame ) )
if _payload_type == BURST_DATA_TYPE [ ' SLOT1_VOICE ' ] :
_rtp_len = _frame [ 31 : 32 ]
_ambe = _frame [ 33 : 52 ]
print ( ' SLOT1: ' , h ( _frame ) )
if _payload_type == BURST_DATA_TYPE [ ' SLOT2_VOICE ' ] :
_rtp_len = _frame [ 31 : 32 ]
_ambe = _frame [ 33 : 52 ]
print ( ' SLOT2: ' , h ( _frame ) )
print ( " pt= {:02X} pid= {} seq= {:02X} src= {} dst= {} ct= {:02X} uk= {} ci= {} rsq= {} " . format ( _packettype , _peerid , _ipsc_seq , _src_sub , _dst_sub , _call_type , _call_ctrl_info , _call_info , _rtp_seq ) )
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if __name__ == ' __main__ ' :
logger . info ( ' DMRlink \' ambe_audio.py \' (c) 2015 N0MJS & the K0USY Group - SYSTEM STARTING... ' )
for ipsc_network in NETWORK :
if NETWORK [ ipsc_network ] [ ' LOCAL ' ] [ ' ENABLED ' ] :
networks [ ipsc_network ] = ambeIPSC ( ipsc_network )
reactor . listenUDP ( NETWORK [ ipsc_network ] [ ' LOCAL ' ] [ ' PORT ' ] , networks [ ipsc_network ] , interface = NETWORK [ ipsc_network ] [ ' LOCAL ' ] [ ' IP ' ] )
reactor . run ( )