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#
# Simple sample configuration file for the APRX-2 -- an APRS iGate and Digipeater
#
# This configuration is structured with Apache HTTPD style tags
# which then contain subsystem parameters.
#
#
# For simple case, you need to adjust 4 things:
# - Mycall parameter
# - passcode parameter in APRS-IS configuration
# - Select correct type of interface (ax25-device or serial-device)
# - Optionally set a beacon telling where this system is
# - Optionally enable digipeater with or without tx-igate
#
#
#
# Define the parameters in following order:
# 1) <aprsis> ** zero or one
# 2) <logging> ** zero or one
# 3) <interface> ** there can be multiple!
# 4) <beacon> ** zero to many
# 5) <telemetry> ** zero to many
# 6) <digipeater> ** zero to many (at most one for each Tx)
#
#
# Global macro for simplified callsign definition:
# Usable for 99+% of cases.
#
mycall N0CALL-1
#
# Global macro for simplified "my location" definition in
# place of explicit "lat nn lon mm" at beacons. Will also
# give "my location" reference for "filter m/100".
#
#myloc lat ddmm.mmN lon dddmm.mmE
<aprsis>
# The aprsis login parameter:
# Station callsignSSID used for relaying APRS frames into APRS-IS.
# Use this only to define other callsign for APRS\-IS login.
#
#login OTHERCALL-7 # login defaults to $mycall
#
# Passcode for your callsign:
# Unique code for your callsign to allow transmitting packets
# into the APRS-IS.
#
passcode -1
# APRS-IS server name and optional portnumber.
#
# WARNING: Do not change from default port number [14580]
# unless you are absolutely certain you want
# something else, and you allow that something
# else also affect your tx-igate behaviour!
#
server rotate.aprs2.net
#server euro.aprs2.net
#server asia.aprs2.net
#server noam.aprs2.net
#server soam.aprs2.net
#server aunz.aprs2.net
# Some APRS-IS servers tell every about 20 seconds to all contact
# ports that they are there and alive. Others are just silent.
# Default value is 3*"heartbeat" + some --> 120 (seconds)
#
#heartbeat-timeout 0 # Disabler of heartbeat timeout
# APRS-IS server may support some filter commands.
# See: http://www.aprs-is.net/javAPRSFilter.aspx
#
# You can define the filter as single long quoted string, or as
# many short segments with explaining comments following them.
#
# Usability of these filters for a Tx-iGate is dubious, but
# they exist in case you for example want to Tx-iGate packets
# from some source callsigns in all cases even when they are
# not in your local area.
#
#filter "possibly multiple filter specs in quotes"
#
#filter "m/100" # My-Range filter: positions within 100 km from my location
#filter "f/OH2XYZ-3/50" # Friend-Range filter: 50 km of friend's last beacon position
</aprsis>
<logging>
# pidfile is UNIX way to tell that others that this program is
# running with given process-id number. This has compiled-in
# default value of: pidfile /var/run/aprx.pid
#
pidfile /var/run/aprx.pid
# rflog defines a rotatable file into which all RF-received packets
# are logged. The host system can rotate it at any time without
# need to signal the aprx that the file has been moved.
#
rflog /var/log/aprx/aprx-rf.log
# aprxlog defines a rotatable file into which most important
# events on APRS-IS connection are logged, namely connects and
# disconnects. The host system can rotate it at any time without
# need to signal the aprx that the file has been moved.
#
aprxlog /var/log/aprx/aprx.log
# dprslog defines a rotatable file into which most important
# events on DPRS receiver gateways are logged.
# The host system can rotate it at any time without need to
# signal the aprx that the file has been moved.
#
#dprslog /var/log/aprx/dprs.log
# erlangfile defines a mmap():able binary file, which stores
# running sums of interfaces upon which the channel erlang
# estimator runs, and collects data.
# Depending on the system, it may be running on a filesystem
# that actually retains data over reboots, or it may not.
# With this backing store, the system does not loose cumulating
# erlang data over the current period, if the restart is quick,
# and does not stradle any exact minute.
# (Do restarts at 15 seconds over an even minute..)
# This file is around 0.7 MB per each interface talking APRS.
# If this file is not defined and it can not be created,
# internal non-persistent in-memory storage will be used.
#
# Built-in default value is: /var/run/aprx.state
#
#erlangfile /var/run/aprx.state
</logging>
# *********** Multiple <interface> definitions can follow *********
# ax25-device Lists AX.25 ports by their callsigns that in Linux
# systems receive APRS packets. If none are defined,
# or the system is not Linux, the AX.25 network receiver
# is not enabled. Used technologies need at least
# Linux kernel 2.4.x
#
# tx-ok Boolean telling if this device is able to transmit.
#
#<interface>
# ax25-device $mycall
# #tx-ok false # transmitter enable defaults to false
# #telem-to-is true # set to 'false' to disable
#</interface>
#
# The TNC serial options. Parameters are:
# - /dev/ttyUSB1 -- tty device
# - 19200 -- baud rate, supported ones are:
# 1200, 2400, 4800, 9600, 19200, 38400
# - 8n1 -- 8-bits, no parity, one stop-bit,
# no other supported modes
# - "KISS" - plain basic KISS mode
# - "XORSUM" alias "BPQCRC" - KISS with BPQ "CRC" byte
# - "SMACK" alias "CRC16" - KISS with real CRC
# - "FLEXNET" - KISS with real CRC
# - "TNC2" - TNC2 monitor format
# - "DPRS" - DPRS (RX) GW
#
#<interface>
# serial-device /dev/ttyUSB0 19200 8n1 KISS
# #callsign $mycall # callsign defaults to $mycall
# #tx-ok false # transmitter enable defaults to false
# #telem-to-is true # set to 'false' to disable
#</interface>
#<interface>
# serial-device /dev/ttyUSB1 19200 8n1 TNC2
# #callsign $mycall # callsign defaults to $mycall
# #tx-ok false # TNC2 monitor can not have transmitter
# #telem-to-is true # set to 'false' to disable
#</interface>
#<interface>
# serial-device /dev/ttyUSB1 19200 8n1 DPRS
# callsign dprsgwcallsign # must define actual callsign
# #tx-ok false # DPRS monitor can not do transmit
# #telem-to-is true # set to 'false' to disable
#</interface>
#
# tcp-device behaves identically to local serial port, but allows
# access to remote TCP/IP sockets. A common application is remote
# KISS modems connected to Ethernet-to-serial adapters from suppliers
# such as Lantronix.
# It's important that this remote socket is a raw TCP socket and not
# handle any byte codes as command escapes.
#
# tcp-device hostname portnumber mode
# - hostname may be a domain name, IPv4 address, or a IPv6 address
# - portnumber is any valid TCP port (1-65535)
# - mode is the same as serial-device (KISS, TNC2, etc.)
#
#<interface>
# tcp-device 192.0.2.10 10001 KISS
# #callsign $mycall # callsign defaults to $mycall
# #tx-ok false # transmitter enable defaults to false
# #telem-to-is true # set to 'false' to disable
#</interface>
<interface>
tcp-device 127.0.0.1 10001 KISS
callsign $mycall
tx-ok true
telem-to-is true # set to 'false' to disable
</interface>
# *********** Multiple <beacon> definitions can follow *********
<beacon>
#
# Beacons are sent out to radio transmitters AND/OR APRSIS.
# Default is "both", other modes are settable.
#
#beaconmode { aprsis | both | radio }
#
# Beacons are sent from a circullar transmission queue, total cycle time
# of that queue is 20 minutes by default, and beacons are "evenly"
# distributed along it. Actual intervals are randomized to be anything
# in between 80% and 100% of the cycle-size / number-of-beacons.
# First beacon is sent out 30 seconds after system start.
# Tune the cycle-size to be suitable to your number of defined beacons.
#
#cycle-size 20m
#
# Basic beaconed thing is positional message of type "!":
#
#beacon symbol "R&" lat "0000.00N" lon "00000.00E" comment "Rx-only iGate"
#beacon symbol "R&" $myloc comment "Rx-only iGate"
#
#Following are basic options:
# 'symbol' no default, must be defined!
# 'lat' coordinate latitude: ddmm.mmN (no default!)
# 'lon' coordinate longitude: dddmm.mmE (no default!)
# '$myloc' coordinate values taken from global 'myloc' entry,
# and usable in place of explicit 'lat'+'lon'.
# 'comment' optional tail part of the item, default is nothing
#
# Sample symbols:
# R& is for "Rx-only iGate"
# I& is for "Tx-iGate"
# /# is for "Digipeater"
# I# is for "Tx-iGate + Digipeater""
#
#Additional options are:
# 'srccall' parameter sets claimed origination address.
# 'dstcall' sets destination address, default "APRXnn"
# 'interface' parameter picks an interface (must be "tx-ok true" type)
# 'via' sets radio distribution pattern, default: none.
# 'timefix' On APRS messages with HMS timestamp (hour:min:sec), the
# system fixes appropriate field with transmit time timestamp.
#
# Message type is by default '!', which is positional no timestamp format.
# Other possible formats are definable with options:
# 'type' Single character setting type: ! = / @, default: !
# 'item' Defines a name of Item (')') type beacons.
# 'object' Defines a name of Object (';') type beacons.
#
# 'file' option tells a file at which a _raw_ APRS message content is
# expected to be found as first line of text. Line ending newline
# is removed, and no escapes are supported. The timefix is
# available, though probably should not be used.
# No \-processing is done on read text line.
#
# 'exec' option tells a computer program which returns to stdout _raw_ APRS
# message content without newline. The timefix is
# available, though probably should not be used.
# No \-processing is done on read text line.
#
# The parameter sets can vary:
# a) 'srccall nnn-n dstcall "string" symbol "R&" lat "ddmm.mmN" lon "dddmm.mmE" [comment "any text"]
# b) 'srccall nnn-n dstcall "string" symbol "R&" $myloc [comment "any text"]
# c) 'srccall nnn-n dstcall "string" raw "string"'
#
# The a) form flags on some of possible syntax errors in parameters.
# It will also create only "!" type messages. The dest parameter
# defaults to "APRS", but can be used to give other destinations.
# The via parameter can be used to add other keywords, like "NOGATE".
#
# Writing correct RAW format beacon message is very hard,
# which is evidenced by the frequency of bad syntax texts
# people so often put there... If you can not be persuaded
# not to do it, then at least VERIFY the beacon result on
# web service like findu.com, or aprs.fi
#
# Do remember that the \ -character has special treatment in the
# Aprx configuration parser. If you want a '\' on APRS content,
# then you encode it on configuration file as: '\\'
#
# Stranger combinations with explicite "transmit this to interface X":
#
#beacon file /tmp/wxbeacon.txt
#beacon interface N0CALL-3 srccall N0CALL-3 \
# raw "!0000.00NR00000.00E&Rx-only iGate"
#beacon interface N0CALL-3 srccall N0CALL-3 \
# raw "!0000.00NI00000.00E&Tx-iGate"
#beacon interface $mycall symbol "R&" $myloc \
# comment "Rx-only iGate"
#beacon interface $mycall symbol "I&" $myloc \
# comment "Tx-iGate"
#beacon exec /usr/bin/telemetry.pl
#beacon timeout 20 exec /usr/bin/telemetry.pl
#beacon interface N0CALL-3 srccall N0CALL-3 \
# timeout 20 exec /usr/bin/telemetry.pl
#
beaconmode aprsis
cycle-size 55m
beacon symbol "R&" $myloc comment "LoRa-APRS 433.775MHz/125kHz/SF12"
</beacon>
# *********** <telemetry> definition(s) follow *********
#
# The system will always send telemetry for all of its interfaces
# to APRSIS, but there is an option to define telemetry to be sent
# to radio channel by using following sections for each transmitter
# that is wanted to send out the telemetry.
#
# transmitter - callsign referring to <interface>
# via - optional via-path, only 1 callsign!
# source - one or more of <interface> callsigns for which
# the telemetry transmission is wanted for
#
#<telemetry>
# transmitter $mycall
# via TRACE1-1
# source $mycall
#</telemetry>
# *********** <digipeater> definition(s) follow *********
#
# The digipeater definitions tell transmitters that receive
# AX.25 packets from possibly multiple sources, and then what
# to do on the AX.25 headers of those messages.
#
# There is one transmitter per digipeater -- and inversely, there
# can be at most one digipeater for each transmitter.
#
# In each digipeater there is at least one <source>, usually same
# as the transmitter. You may use same <source> on multiple
# <digipeater>s. Using multiple instances of same <source> on
# a single <digipeater> does not crash the system, but it can cause
# packet duplication in case of non-APRS protocols (like AX.25 CONS)
#
# Use only at most two levels of viscous-delay in your <digipeater>.
# Immediate sending is by "0", and a delayed sending is any value
# from 1 to 9. This system does not correctly support other than
# immediate sending and one level of delay.
#
# Note: In order to igate correct when multiple receivers and
# transmitters are used on single channel, the <interface>
# definitions of each radio port must have associated
# "igate-group N" parameter which has N of value 1 to 3.
# See the aprx-manual.pdf for details.
# (Default software compilation allows you to have up to
# three channels of APRS operation.)
#
#<digipeater>
# transmitter $mycall
# #ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# #srcratelimit 10 20 # Example: by sourcecall:
# # average 10 packets/minute,
# # burst max 20 packets/minute
#
# <source>
# source $mycall
# # #relay-type digipeated # default mode is "digipeated"
# # viscous-delay 0 # no viscous delay for RF->RF digipeating
# # ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# ## filter a/la/lo/la/lo # service area filter
# ## filter -b/CALL # always block these
# </source>
#
# # Diversity receiver which combines to the primary
# # Tx/Rx transmitter. There can be as many of these
# # as you can connect on this machine.
# #<source>
# # source RXPORT-1
# # #relay-type digipeated # default mode is "digipeated"
# # viscous-delay 0 # no viscous delay for RF->RF digipeating
# # ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# ## filter a/la/lo/la/lo # service area filter
# ## filter -b/CALL # always block these
# </source>
#
# #<source> # APRSIS source adds a TX-IGATE behaviour
# # source APRSIS
# # relay-type third-party # Must define this for APRSIS source!
# # viscous-delay 5 # Recommendation: 5 seconds delay to give
# # # RF delivery time make itself known.
# # ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# ## filter a/la/lo/la/lo # service area filter
# ## filter -b/CALL # always block these
# #</source>
#
# #<source> # DPRS source adds a DPRS->APRS RF gate
# # interface DPRS
# # ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# # relay-type third-party # Must define this for DPRS source!
# #</source>
#</digipeater>
<digipeater>
transmitter $mycall
<source>
source $mycall
relay-type digipeated # default mode is "digipeated"
viscous-delay 5 # no viscous delay for RF->RF digipeating
ratelimit 10 20
filter t/m
</source>
<source> # APRSIS source adds a TX-IGATE behaviour
source APRSIS
relay-type third-party # Must define this for APRSIS source!
ratelimit 4 30
filter t/m
</source>
</digipeater>