direwolf/direwolf.conf.save

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#############################################################
# #
# Configuration file for Dire Wolf #
# #
# Linux version #
# #
#############################################################
#
# Consult the User Guide for more details on configuration options.
#
#
# These are the most likely settings you might change:
#
# (1) MYCALL - call sign and SSID for your station.
#
# Look for lines starting with MYCALL and
# change NOCALL to your own.
#
# (2) PBEACON - enable position beaconing.
#
# Look for lines starting with PBEACON and
# modify for your call, location, etc.
#
# (3) DIGIPEATER - configure digipeating rules.
#
# Look for lines starting with DIGIPEATER.
# Most people will probably use the given example.
# Just remove the "#" from the start of the line
# to enable it.
#
# (4) IGSERVER, IGLOGIN - IGate server and login
#
# Configure an IGate client to relay messages between
# radio and internet servers.
#
#
# The default location is "direwolf.conf" in the current working directory.
# On Linux, the user's home directory will also be searched.
# An alternate configuration file location can be specified with the "-c" command line option.
#
# As you probably guessed by now, # indicates a comment line.
#
# Remove the # at the beginning of a line if you want to use a sample
# configuration that is currently commented out.
#
# Commands are a keyword followed by parameters.
#
# Command key words are case insensitive. i.e. upper and lower case are equivalent.
#
# Command parameters are generally case sensitive. i.e. upper and lower case are different.
#
#############################################################
# #
# FIRST AUDIO DEVICE PROPERTIES #
# (Channel 0 + 1 if in stereo) #
# #
#############################################################
#
# Many people will simply use the default sound device.
# Some might want to use an alternative device by chosing it here.
#
# Linux ALSA is complicated. See User Guide for discussion.
# To use something other than the default, generally use plughw
# and a card number reported by "arecord -l" command. Example:
ADEVICE "Realtek High"
# Starting with version 1.0, you can also use "-" or "stdin" to
# pipe stdout from some other application such as a software defined
# radio. You can also specify "UDP:" and an optional port for input.
# Something different must be specified for output.
# ADEVICE - plughw:1,0
# ADEVICE UDP:7355 default
#
# Number of audio channels for this souncard: 1 or 2.
#
ACHANNELS 1
#ACHANNELS 2
#############################################################
# #
# SECOND AUDIO DEVICE PROPERTIES #
# (Channel 2 + 3 if in stereo) #
# #
#############################################################
#ADEVICE1 USB
#############################################################
# #
# THIRD AUDIO DEVICE PROPERTIES #
# (Channel 4 + 5 if in stereo) #
# #
#############################################################
#ADEVICE2 ...
#############################################################
# #
# CHANNEL 0 PROPERTIES #
# #
#############################################################
CHANNEL 0
#
# The following MYCALL, MODEM, PTT, etc. configuration items
# apply to the most recent CHANNEL.
#
#
# Station identifier for this channel.
# Multiple channels can have the same or different names.
#
# It can be up to 6 letters and digits with an optional ssid.
# The APRS specification requires that it be upper case.
#
# Example (don't use this unless you are me): MYCALL WB2OSZ-5
#
MYCALL WB2OSZ-14
#
# Pick a suitable modem speed based on your situation.
# 1200 Most common for VHF/UHF. Default if not specified.
# 300 Low speed for HF SSB.
# 9600 High speed - Can't use Microphone and Speaker connections.
#
# In the simplest form, just specify the speed.
#
MODEM 1200
#MODEM 300
#MODEM 9600
#
# These are the defaults should be fine for most cases. In special situations,
# you might want to specify different AFSK tones or the baseband mode which does
# not use AFSK.
#
#MODEM 1200 1200:2200
#MODEM 300 1600:1800
#MODEM 9600 0:0
#
#
# On HF SSB, you might want to use multiple demodulators on slightly different
# frequencies to compensate for stations off frequency. Here we have 7 different
# demodulators at 30 Hz intervals. This takes a lot of CPU power so you will
# probably need to reduce the audio sampling rate with the /n option.
#MODEM 300 1600:1800 7@30 /4
#
# Uncomment line below to enable the DTMF decoder for this channel.
#
DTMF
#
# If not using a VOX circuit, the transmitter Push to Talk (PTT)
# control is usually wired to a serial port with a suitable interface circuit.
# DON'T connect it directly!
#
# For the PTT command, specify the device and either RTS or DTR.
# RTS or DTR may be preceded by "-" to invert the signal.
# Both can be used for interfaces that want them driven with opposite polarity.
#
# COM1 can be used instead of /dev/ttyS0, COM2 for /dev/ttyS1, and so on.
#
#PTT COM1 RTS
PTT COM1 RTS -DTR
#PTT /dev/ttyUSB0 RTS
#
# On Linux, you can also use general purpose I/O pins if
# your system is configured for user access to them.
# This would apply mostly to microprocessor boards, not a regular PC.
# See separate Raspberry Pi document for more details.
# The number may be preceded by "-" to invert the signal.
#
#PTT GPIO 25
# The Data Carrier Detect (DCD) signal can be sent to the same places
# as the PTT signal. This could be used to light up an LED like a normal TNC.
#DCD COM1 -DTR
#DCD GPIO 24
#############################################################
# #
# CHANNEL 1 PROPERTIES #
# #
#############################################################
#CHANNEL 1
#
# Specify MYCALL, MODEM, PTT, etc. configuration items for
# CHANNEL 1. Repeat for any other channels.
#CHANNEL 2
#DTMF
#############################################################
# #
# TEXT TO SPEECH COMMAND FILE #
# #
#############################################################
#SPEECH dwespeak.sh
#############################################################
# #
# VIRTUAL TNC SERVER PROPERTIES #
# #
#############################################################
#
# Dire Wolf acts as a virtual TNC and can communicate with
# client applications by different protocols:
#
# - the "AGW TCPIP Socket Interface" - default port 8000
# - KISS protocol over TCP socket - default port 8001
# - KISS TNC via pseudo terminal (-p command line option)
#
AGWPORT 8000
KISSPORT 8001
#
# It is sometimes possible to recover frames with a bad FCS.
# This applies to all channels.
#
# 0 [NONE] - Don't try to repair.
# 1 [SINGLE] - Attempt to fix single bit error. (default)
# 2 [DOUBLE] - Also attempt to fix two adjacent bits.
# ... see User Guide for more values and in-depth discussion.
#
#FIX_BITS 0
#
#############################################################
# #
# BEACONING PROPERTIES #
# #
#############################################################
GPSNMEA COM22
TBEACON delay=0:30 every=0:20 SYMBOL=car FREQ=146.955 OFFSET=-0.600 TONE=74.4
#
# Beaconing is configured with these two commands:
#
# PBEACON - for a position report (usually yourself)
# OBEACON - for an object report (usually some other entity)
#
# Each has a series of keywords and values for options.
# See User Guide for details.
#
# Example:
#
# This results in a broadcast once every 10 minutes.
# Every half hour, it can travel via two digipeater hops.
# The others are kept local.
#
#PBEACON delay=1 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA" via=WIDE1-1,WIDE2-1
#PBEACON delay=11 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA"
#PBEACON delay=21 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA"
# With UTM coordinates instead of latitude and longitude.
#PBEACON delay=1 every=10 overlay=S symbol="digi" zone=19T easting=307477 northing=4720178
#
# When the destination field is set to "SPEECH" the information part is
# converted to speech rather than transmitted as a data frame.
#
#CBEACON dest="SPEECH" info="Club meeting tonight at 7 pm."
#
# Modify for your particular situation before removing
# the # comment character from the beginning of appropriate lines above.
#
#############################################################
# #
# DIGIPEATER PROPERTIES #
# #
#############################################################
#
# For most common situations, use something like this by removing
# the "#" from the beginning of the line below.
#
DIGIPEAT 0 0 ^WIDE[3-7]-[1-7]$|^TEST$ ^WIDE[12]-[12]$ TRACE
# See User Guide for more explanation of what this means and how
# it can be customized for your particular needs.
# Filtering can be used to limit was is digipeated.
# For example, only weather weather reports, received on channel 0,
# will be retransmitted on channel 1.
#
#FILTER 0 1 t/wn
#############################################################
# #
# INTERNET GATEWAY #
# #
#############################################################
# First you need to specify the name of a Tier 2 server.
# The current preferred way is to use one of these regional rotate addresses:
# noam.aprs2.net - for North America
# soam.aprs2.net - for South America
# euro.aprs2.net - for Europe and Africa
# asia.aprs2.net - for Asia
# aunz.aprs2.net - for Oceania
IGSERVER noam.aprs2.net
# You also need to specify your login name and passcode.
# Contact the author if you can't figure out how to generate the passcode.
IGLOGIN WB2OSZ-14 17845
# That's all you need for a receive only IGate which relays
# messages from the local radio channel to the global servers.
# Some might want to send an IGate client position directly to a server
# without sending it over the air and relying on someone else to
# forward it to an IGate server. This is done by using sendto=IG rather
# than a radio channel number. Overlay R for receive only, T for two way.
PBEACON sendto=IG delay=1:00 every=60:00 symbol="igate" overlay=R lat=42^37.14N long=071^20.83W
#PBEACON sendto=IG delay=0:30 every=60:00 symbol="igate" overlay=T lat=42^37.14N long=071^20.83W
# To relay messages from the Internet to radio, you need to add
# one more option with the transmit channel number and a VIA path.
IGTXVIA 0 WIDE1-1
# You might want to apply a filter for what packets will be obtained from the server.
# Read about filters here: http://www.aprs-is.net/javaprsfilter.aspx
# Example, positions and objects within 50 km of my location:
IGFILTER m/100
# That is known as a server-side filter. It is processed by the IGate server.
# You can also apply local filtering to limit what will be transmitted on the
# RF side. For example, transmit only "messages" on channel 0 and weather
# reports on channel 1.
filter 0 ig t/p
#FILTER IG 0 t/m
#FILTER IG 1 t/wn
# Finally, we don't want to flood the radio channel.
# The IGate function will limit the number of packets transmitted
# during 1 minute and 5 minute intervals. If a limit would
# be exceeded, the packet is dropped and message is displayed in red.
IGTXLIMIT 20 100
#############################################################
# #
# APRStt GATEWAY #
# #
#############################################################
#
# Dire Wolf can receive DTMF (commonly known as Touch Tone)
# messages and convert them to packet objects.
#
# See separate "APRStt-Implementation-Notes" document for details.
#
#
# Sample gateway configuration based on:
#
# http://www.aprs.org/aprstt/aprstt-coding24.txt
# http://www.aprs.org/aprs-jamboree-2013.html
#
# Define specific points.
TTPOINT B01 37^55.37N 81^7.86W
TTPOINT B7495088 42.605237 -71.34456
TTPOINT B934 42.605237 -71.34456
TTPOINT B901 42.661279 -71.364452
TTPOINT B902 42.660411 -71.364419
TTPOINT B903 42.659046 -71.364452
TTPOINT B904 42.657578 -71.364602
# For location at given bearing and distance from starting point.
TTVECTOR B5bbbddd 37^55.37N 81^7.86W 0.01 mi
# For location specified by x, y coordinates.
TTGRID Byyyxxx 37^50.00N 81^00.00W 37^59.99N 81^09.99W
# UTM location for Lowell-Dracut-Tyngsborough State Forest.
TTUTM B6xxxyyy 19T 10 300000 4720000
# Location for the corral.
TTCORRAL 37^55.50N 81^7.00W 0^0.02N
# Compact messages - Fixed locations xx and object yyy where
# Object numbers 100 - 199 = bicycle
# Object numbers 200 - 299 = fire truck
# Others = dog
TTMACRO xx1yy B9xx*AB166*AA2B4C5B3B0A1yy
TTMACRO xx2yy B9xx*AB170*AA3C4C7C3B0A2yy
TTMACRO xxyyy B9xx*AB180*AA3A6C4A0Ayyy
TTMACRO z Cz
# Receive on channel 0, Transmit object reports on channel 1 with optional via path.
#TTOBJ 0 1 WIDE1-1
# Advertise gateway position with beacon.
# OBEACON DELAY=0:15 EVERY=10:00 VIA=WIDE1-1 OBJNAME=WB2OSZ-tt SYMBOL=APRStt LAT=42^37.14N LONG=71^20.83W COMMENT="APRStt Gateway"