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aprx.8.in
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.TH aprx 8 "@DATEVERSION@"
.SH NAME
.B Aprx-2
\- An APRS iGate application with integrated Digipeater.
.SH SYNOPSIS
.B aprx
.RB [ \-d [ d [ d ]]]
.RB [ \-e ]
.RB [ \-i ]
.RB [ \-v ]
.RB [ \-V ]
.RB [ \-l " \fIsyslogfacilityname\fR]"
.RB [ \-f " \fI@CFGFILE@\fR]"
.SH DESCRIPTION
The
.B aprx
program is a special purpose Ham-radio application supplying
infrastructure services for APRS protocol use.
.PP
A more detailed manual is available at:
.br
http://thelifeofkenneth.com/aprx/aprx-manual.pdf
.PP
.SH FEATURES
The Aprx begun as a receive-only APRS iGate application with minimum system
support technology requirements.
This version has also multi-port digipeater support, transmit iGate,
and experimental D-PRS-to-APRS RF/Rx-iGate.
.PP
.IP \(bu 3
The Aprx does not require machine to have any other software in it, than things
in UNIX standard libc. In particular no special AX.25 libraries at all, nor
widgets or even C++ runtime.
.IP \(bu 3
Important goal has been to keep R/W memory footprint as small as possible,
and on general purpose i386 Linux a single radio port iGate+digipeater is
now around 250 kB of R/W memory allocations.
.IP \(bu 3
Any UNIX (and UNIX like) platform should work for the Aprx, or be trivially ported.
.IP \(bu 3
The Aprx can listen "TNC2 monitor" and "KISS" speaking TNCs on any serial ports.
.IP \(bu 3
For Aprx the serial port can be ordinary host computer port, a USB serial port,
or remote port on a remote server behind the internet, like cisco router AUX
ports (port 4001, TCP STREAM without TELNET escapes.)
.IP \(bu 3
The Aprx does not require machine to have AX.25 protocol support internally!
(Thus this works also on e.g. Solaris and BSD machines without PF\_AX25 sockets.)
.IP \(bu 3
On Linux machine with kernel internal AX.25 protocol support,
the Aprx can listen on it with promiscuous mode and in order to use that,
the Aprx must be started as
.I root
user, and be configured to list interface callsigns that APRS packets are
coming in.
The AX.25 socket listening is not in itself configurable, it is always exists
in Linux systems, and related configuration parameters are ignored in other
platforms.
This socket listening does not need auxiliary "libax25" to function.
.IP \(bu 3
The Aprx program can be run without root privileges at least against remote
serial port servers. One must change local serial port ownership or
access-groups (if any are used) to userid that runs the program and possibly
do several changes of file paths in configuration file beginning
with its location (startup parameter).
How that is done is up to the user or system integrator of this program.
.IP \(bu 3
The Aprx connects with one callsign-ssid pair to APRS-IS core for all received
radio ports.
.IP \(bu 3
The Aprx Rx-iGate knows that messages with following tokens in AX.25 VIA
fields are not to be relayed into APRS-IS network:
.RS 9
.B "RFONLY, NOGATE, TCPIP, TCPXX"
.RE
.IP \(bu 3
The Aprx Rx-iGate knows that following source address prefixes are bogus and
thus messages with them are to be junked:
.RS 9
.B "WIDE, RELAY, TRACE, TCPIP, TCPXX, NOCALL, N0CALL"
.RE
.IP \(bu 3
The Aprx Rx-iGate Drops all
.I query
messages ("?").
.IP \(bu 3
The Aprx Rx-iGate opens up all 3rd party messages ("}"), and checks the internal
data if it is OK to be gated out to APRS-IS.
.IP \(bu 3
The Aprx has built-in "Erlang monitor" mechanism that telemeters each receiving
interface to APRS-IS. It can also syslog the interface specific channel occupancy,
and optionally can output to STDOUT.
.IP \(bu 3
The Aprx (since version 1.91) can do digipeater functions.
.IP \(bu 3
The Aprx (since version 1.99) does have experimental D-STAR D-PRS to APRS
gateway functionality. See the
.I aprx-manual.pdf
for details.
.IP \(bu 3
The Aprx can be run on systems without writable storage, even with very little
memory, like on NSLU2, and OpenWrt platforms.
The experiments have shown that a single radio Tx-iGate+digipeater works
with less than 300 kB of writable RAM for the Aprx itself.
Additional memory is necessary for operating system services of TCP/IP
networking, and serial port drivers.
.PP
.SH OPTIONS
The
.B aprx
has following runtime options:
.TP
.B "\-i"
Keep the program foreground without debugging outputs.
.TP
.B "\-d"
Turn on verbose debugging, outputs data to STDOUT.
.TP
.B "\-dd"
the "more debug" mode shows also details of network interaction with
the APRS-IS network service.
.TP
.B "\-ddd"
the "even more debug" mode shows also detail classification of
every kind of frame received in KISS variants.
.TP
.B "\-e"
.I "Erlang output"
prints 10 minute and 60 minute traffic accumulation byte counts, and guestimates
on channel occupancy, alias "Erlang".
These outputs are sent to STDOUT, which system operator may choose to log elsewere.
This is independent if the "\-l" option below.
.TP
.BI "\-f " "@CFGFILE@"
Configuration file, given path is built-in default, and can be overridden by the program runner.
.TP
.BR "\-l" " \fIsyslogfacilityname\fR"
Defines
.RB syslog (3)
facility code used by the erlang reporter by defining its name.
Default value is:
.BR NONE ,
and accepted values are:
.BR LOG_DAEMON ,
.BR LOG_FTP ,
.BR LOG_LPR ,
.BR LOG_MAIL ,
.BR LOG_NEWS ,
.BR LOG_USER ,
.BR LOG_UUCP ,
.BR LOG_LOCAL0 ,
.BR LOG_LOCAL1 ,
.BR LOG_LOCAL2 ,
.BR LOG_LOCAL3 ,
.BR LOG_LOCAL4 ,
.BR LOG_LOCAL5 ,
.BR LOG_LOCAL6 ,
.BR LOG_LOCAL7 .
That list is subject to actual facility code set in the system,
and in any case if you specify a code that is not known, then the program
will complain during the startup, and report it.
This is independent of the "\-e" option above.
.TP
.B "\-v"
Verbose logging of received traffic to STDOUT.
Lines begin with reception timestamp (UNIX time_t seconds), then TAB,
and either data as is, or with prefix byte: "*" for "discarded due to data content",
or possibly "#" for "discarded due to APRS-IS being unreachable".
.TP
.B "\-V"
Print source version compiled to this binary, and exit.
.PP
.SS DEBUGGING SYSTEM
Use parameter set
.B "\-ddv"
(or
.BR "\-dddv" )
to test new configuration by running it synchronously to console.
.PP
.SS NORMAL OPERATION
Running the
.B aprx
program without any of option flags:
.BR "\-d" ,
.BR "\-v" ", or"
.B "\-e"
reads possibly given configuration, then automatically backgrounds the process, and writes
.IR pidfile .
When the process whose number written in
.I pidfile
is then sent a SIGTERM signal, it automatically shuts down itself, and removes the
.IR pidfile .
The
.I pidfile
can be runtime configured with the
.BI \-f " @CFGFILE@"
file, and it has default name of:
.IR "@VARRUN@/aprx.pid" .
.PP
.SH CONFIGURATION FILE
The configuration file is used to setup the program to do its job.
.PP
You can construct following configurations:
.PP
.IP \(bu 3
A
.I receive-only
iGate server.
.IP \(bu 3
A digipeater with bi-directional iGate server.
.IP \(bu 3
A
.I "single radio"
digipeater. (The most common type of digipeater.)
.IP \(bu 3
A
.I multi-interfaced
digipeater relaying traffic in between multiple radios. (On same or on separate frequencies.)
.IP \(bu 3
A
.I "viscuous digipeater,"
which relays a packet it heard from viscuous source after the viscuous delay,
.I unless it was heard more times than only once,
or it was heard from non-viscuous source before the viscuous one was digipeated.
This allows of making fill-in digipeaters that will not digipeat the packet,
if that same packet was heard twice or more before the viscuos delay expired.
.PP
In the configuration file a line ending backslash (\\) character concatenates
next input line into itself. Combined result can be up to 8000 bytes long.
This combination can be a bit surprising:
.RS 3em
.nf
\fC#beacon .... long text \\
continuation\fR
.fi
.RE
results in single long input line that begins with '#' (it is comment) and all
continuations following it have been folded in.
Presented line number of combined continuation is the line number of the
.I last
line segment in this type of multi-line input.
.PP
In the configuration file there is special treatment for quoted strings.
They are stripped of the outer quotes, and "\fC\\\fR" character is processed within
the source string to produce an output string.
The escapes are:
.TP
.B "\fC\\\\n"
Produces newline character (Control-J) on the output string.
.TP
.B "\fC\\\\r"
Produces carriage return character (Control-M) on the output string.
.TP
.B "\fC\\\\\\\\"
Places a back-slash on the output string.
.TP
.B "\fC\\\\""
.\" foo "
Places a double-quote on the output string.
.TP
.B "\fC\\\\'"
Places a single-quote on the output string.
.TP
.B "\fC\\\\xHH"
Lower-case "x" precedes two hex digits which ensemble is then converted to a single byte in the output string.
.PP
The complex encodings are for possible initstrings of the external devices,
and in particular for initstrings even a nul byte ( \\x00 ) is supported.
.PP
A configuration token without surrounding quotes does not understand the backslash escapes.
.PP
.nf
\fC
#
# Sample configuration file for the APRX -- an Rx-only APRS iGate with
# Digipeater functionality.
#
#
# Simple sample configuration file for the APRX-2
#
# 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
# - 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 to many
# 2) <logging> ** zero or one
# 3) <interface> ** one to many
# 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 login parameter:
# Station call\-id 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
#
# The passcode parameter:
# Unique code for your callsign to allow transmitting packets
# into the APRS-IS.
#
passcode \-1
# APRS-IS server name and portnumber.
# Every reconnect does re\-resolve the name to IP address.
# Some alternates are shown below, choose something local to you.
#
server rotate.aprs2.net 14580
#server noam.aprs2.net 14580
#server soam.aprs2.net 14580
#server euro.aprs2.net 14580
#server asia.aprs2.net 14580
#server aunz.aprs2.net 14580
# Some APRS\-IS servers tell every about 20 seconds to all contact
# ports that they are there and alive. Others are just silent.
# Recommended value 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
#filter "f/OH2XYZ\-3/50" # Friend-Range filter
</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 @VARRUN@/aprx.pid
#
#pidfile @VARRUN@/aprx.pid
# rflog defines a rotatable file into which all RF-received packets
# are logged.
#
#rflog @VARLOG@/aprx\-rf.log
# aprxlog defines a rotatable file into which most important
# events on APRS\-IS connection are logged, namely connects and
# disconnects.
#
#aprxlog @VARLOG@/aprx.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 can not be created,
# internal non-persistent in-memory storage will be used.
#
# Built-in default value is: @VARRUN@/aprx.state
#
#erlangfile @VARRUN@/aprx.state
# erlang\-loglevel is config file edition of the "\-l" option
# pushing erlang data to syslog(3).
# Valid values are (possibly) following: NONE, LOG_DAEMON,
# LOG_FTP, LOG_LPR, LOG_MAIL, LOG_NEWS, LOG_USER, LOG_UUCP,
# LOG_LOCAL0, LOG_LOCAL1, LOG_LOCAL2, LOG_LOCAL3, LOG_LOCAL4,
# LOG_LOCAL5, LOG_LOCAL6, LOG_LOCAL7. If the parameter value is
# not acceptable, list of accepted values are printed at startup.
#
#erlang\-loglevel NONE
# erlanglog defines a rotatable file into which erlang data
# is written in text form.
#
#erlanglog @VARLOG@/erlang.log
# erlang\-log1min option logs to syslog/file also 1 minute
# interval data from the program. (In addition to 10m and 60m.)
#
#erlang\-log1min
</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 # Either $mycall macro, or actual callsign
# #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) Gateway
#
#<interface>
# serial\-device /dev/ttyUSB0 19200 8n1 KISS
# #callsign $mycall # Either $mycall macro, or actual callsign
# #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 # Either $mycall macro, or actual callsign
# #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>
#
# *********** 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: ! = / @
# '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.
#
# 'exec' option defines program path for a program whose stdout is
# read up to first newline (which must be present), and then
# transmit as beacon content. No format helpers are supplied,
# although 'timefix' can be used.
# 'timeout' option is associated with 'exec', and defines when the
# exec must by latest produce the output, or the subprogram
# execution is killed. Default value is 10 seconds.
#
# 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" 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
#
#beacon file /tmp/wxbeacon.txt
#beacon srccall N0CALL\-3 raw "!0000.00NR00000.00E&aprx \- an Rx\-only iGate"
#beacon srccall N0CALL\-3 raw "!0000.00NI00000.00E&aprx \- an iGate"
#beacon srccall $mycall symbol "R&" lat "0000.00N" lon "00000.00E" \\
comment "aprx \- an Rx\-only iGate"
#beacon srccall $mycall symbol "I&" lat "0000.00N" lon "00000.00E" \\
comment "aprx iGate"
</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.
#
#<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
# # ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# # viscous\-delay 0 # no viscous delay for RF\->RF digipeat
# # ratelimit 120 # default: max 120 packets/minute
# </source>
#
# #<source> # Adding APRSIS source makes this tx-igate
# # source APRSIS
# # ratelimit 60 120 # default: average 60 packets/minute,
# # # burst max 120 packets/minute
# # 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.
# # filter t/m # Tx-iGate only messages sent to me by APRSIS
# #</source>
#
#</digipeater>
\fR
.fi
.PP
.SH GLOBAL MYCALL PARAMETER
In majority of usage models, system needs single configured callsign.
This is set by using the
.B mycall
configuration option, and latter referred to in configurations as
.B $mycall
parameter in place of callsigns.
.PP
.SH GLOBAL MYLOC PARAMETER
Usually multiple beacons, and simple filter rules are wanted to be using
same reference coordinate for this system.
This is set by using the
.B myloc
configuration option, and latter referred to in configurations as
.B $myloc
parameter in place of "lat nn lon mm" coordinate pair of beacons.
.SH APRSIS SECTION FOR APRSIS CONNECTIVITY
Settings in the
.B <aprsis>
section define connectivity with the APRS-IS network service.
.PP
Necessary option is
.IR server ,
and others are optional.
.PP
Available options are:
.IP "\fClogin $mycall\fR" 8em
The APRSIS network login.
Defaults to the
.B mycall
configuration entry.
.IP "\fCpasscode -1\fR" 8em
Defining a small integer in range of 0 to 32767 authenticating your login
to APRS-IS server. Ask for assistance from your APRS-IS managers, or calculate
it yourself with
.I aprspass
program. (Web search engines do find several of them.)
.IP "\fCserver \fIserver-name 14850\fR" 8em
Define which APRS-IS is being connected to.
Multiple definitions are used in round-robin style,
if the connection with the previous one fails for some reason.
.PP
.IP "\fCfilter \fI'filter specs in quotes'\fC # \fIcomments" 8em
Set filter adjunct definitions on APRS-IS server.
Multiple entries are catenated together in entry order,
when connecting to the server.
.PP
.SH LOGGING SECTION
The
.B <logging>
section defines miscellaneous file names and options for state tracking and logging use.
.PP
.IP "\fCpidfile \fI@VARRUN@/aprx.pid\fR" 8em
The 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: \fCpidfile @VARRUN@/aprx.pid
.IP "\fCrflog \fI@VARLOG@/aprx\-rf.log\fR" 8em
The
.I rflog
defines a rotatable file into which all RF-received packets are logged.
There is no default.
.IP "\fCaprxlog \fI@VARLOG@/aprx.log\fR" 8em
The
.I aprxlog
defines a rotatable file into which most important events on APRS-IS
connection are logged, namely connects and disconnects.
There is no default.
.IP "\fCerlangfile \fI@VARRUN@/aprx.state\fR" 8em
The
.I 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.
This file is around 0.7 MB per each interface talking APRS.
If this file is not defined and can not be created,
internal non-persistent in-memory storage will be used.
Built-in default value is: @VARRUN@/aprx.state
.IP "\fCerlang\-loglevel \fINONE\fR" 8em
The
.I erlang\-loglevel
is config file edition of the "\-l" option pushing erlang data to
.IR syslog (3).
Valid values are (possibly) following: NONE, LOG_DAEMON,
LOG_FTP, LOG_LPR, LOG_MAIL, LOG_NEWS, LOG_USER, LOG_UUCP,
LOG_LOCAL0, LOG_LOCAL1, LOG_LOCAL2, LOG_LOCAL3, LOG_LOCAL4,
LOG_LOCAL5, LOG_LOCAL6, LOG_LOCAL7.
If the parameter value is not acceptable, list of accepted
values are printed at startup.
.IP "\fCerlanglog \fI@VARLOG@/erlang.log\fR" 8em
The erlanglog defines a rotatable file into which erlang data
is written in text form.
There is no default.
.IP "\fCerlang\-log1min\fR" 8em
The
.I erlang\-log1min
option logs to syslog/file also 1 minute interval data from the program.
(In addition to 10m and 60m.)
Default is off.
.PP
.SH INTERFACE SECTIONS FOR RADIO PORTS
The
.B <interface>
sections define connections to radio modems.
Several different styles are available:
.IP \(bu 2
Local serial ports in the machine
.RB ( "device\-serial /dev/ttyS0 " "\fIspeed encapsulation\fR)"
.IP \(bu 2
Local USB serial ports in the machine
.RB ( "device\-serial /dev/ttyUSB0 " "\fIspeed encapsulation\fR)"
.IP \(bu 2
Remote served serial ports over a TCP stream.
Implemented to talk with Cisco AUX ports on "range 4000"
(TCP STREAM, no TELNET escapes)
.RB ( "tcp\-device 12.34.56.78 4001 " "\fIencapsulation\fR)"
.IP \(bu 2
Linux internal AX.25 network attached devices
.RB ( "ax25\-device CALLSIGN\-1" )
are only available when running on a Linux system.
On a non-Linux system it connects to a null interface, never
getting anything and can always sink everything.
.PP
The serial port name tells what kind of port is in question,
and while port baud-rate (9600) and character settings (8n1)
must always be set, they are ignored for the remote connection.
.PP
Following
.I speed
modes are available:
.br
.B " " 1200,
.I 1800,
.B 2400, 4800, 9600, 19200,
.I 38400, 57600,
.br
.I " " 115200, 230400, 460800, 500000, 576000
.br
Likely available speeds are in bold, other supported values
are listed in italics.
.PP
Following
.I encapsulation
modes are available:
.TP 10em
.B TNC2
is capable only to monitor the packets reported by TNC2 type
debug output, and Rx-iGate, but they are not acceptable as
source for a <digipeater>.
.TP 10em
.B DPRS
is special mode for gateway from D-STAR D-PRS to APRS.
This must always have a callsign definition for the gateway.
.TP 10em
.B KISS
Basic KISS encapsulation.
No checksums.
Will autodetect (sometimes) packets with SMACK or FLEXNET characteristics.
.TP 10em
.B SMACK
.IR "Stuttgart Modified Amateurradio-CRC-KISS" ,
which runs CRC-16 checksum on KISS datastream much in the same
way as HDLC has CCITT-CRC checksum on it.
.TP 10em
.B FLEXNET
.IR "FLEXNET"
which runs a CRC checksum of its own polynomial on KISS datastream
much in the same way as HDLC has CCITT-CRC checksum on it.
.TP 10em
.B BPQCRC
XOR "checksum" on dataframes.
Also known as "XKISS", and "XORSUM".
This detects single bit failure, but weakly any multibit failures.
Extra 0x00 bytes have no effect on checksum, etc.
.PP
On
.BI "<kiss\-subif " "tncid" ">"
sub-options the parameter is
.IR tncid ,
which sets up KISS multiplexer parameter so that subsequent
options applies only on designated KISS sub-port.
.PP
The
.I callsign
option sets port specific callsign when relaying to APRS-IS.
.PP
The
.I "telem\-to\-is true"
option can be used to disable (by explicitly setting it to 'false')
radio interface telemetry transmission to APRS-IS.
By default it is on.
This is separate from <telemetry> sections, which send telemetry
to RF interfaces.
.PP
.nf
\fC<interface>
serial\-device /dev/ttyUSB1 19200 8n1 KISS
tx\-ok false # receive only (default)
callsign OH2XYZ\-R2 # KISS subif 0
initstring "...." # initstring option
timeout 900 # 900 seconds of no Rx
</interface>
<interface>
serial\-device /dev/ttyUSB1 19200 8n1 SMACK
tx\-ok false # receive only (default)
callsign OH2XYZ\-R2 # KISS subif 0
initstring "...." # initstring option
timeout 900 # 900 seconds of no Rx
</interface>
<interface>
serial\-device /dev/ttyUSB2 19200 8n1 KISS
initstring "...."
timeout 900 # 900 seconds of no Rx
<kiss\-subif 0>
callsign OH2XYZ\-2
tx\-ok true # This is our transmitter
</kiss\-subif>
<kiss\-subif 1>
callsign OH2XYZ\-R3 # This is receiver
tx\-ok false # receive only (default)
</kiss\-subif>
</interface>
<interface>
tcp\-device 172.168.1.1 4001 KISS
tx\-ok false # receive only (default)
callsign OH2XYZ\-R4 # KISS subif 0
initstring "...." # initstring option
timeout 900 # 900 seconds of no Rx
</interface>
<interface>
ax25\-device OH2XYZ\-6 # Works only on Linux systems
tx\-ok true # This is also transmitter
</interface>
<interface> # \fBRX-IGATE ONLY, NOT USABLE AS DIGIPEATER SOURCE\fR\fC
serial\-device /dev/ttyUSB1 19200 8n1 TNC2
callsign OH2XYZ\-R6 # TNC2 has no sub-ports
initstring "...." # initstring option
timeout 900 # 900 seconds of no Rx
</interface>
.fi
.SH BEACON DEFINITIONS
The beacons are defined using
.B <beacon>
configuration sections.
.PP
Because classical beacon definitions are highly error\-prone, this program
has a new way to define them:
.IP \(bu 2
The new way to define beacons:
.nf
\fCbeacon symbol "R&" lat "0000.00N" lon "00000.00E" \\\fR
\fC comment "aprx \- iGate" \fR
.fi
.IP \(bu 2
Semi-clasical definition of raw APRS packet:
.nf
\fCbeacon raw "!0000.00NR00000.00E&aprx \- iGate"\fR
.fi
.IP \(bu 2
Load beacon text from a file, path data is configurable:
.nf
\fCbeacon file \fR\fI/path/to/file\fR
.fi
.IP \(bu 2
Run a program to produce beacon data in raw format:
.nf
\fCbeacon exec \fR\fI/path/to/file\fR\fC timeout \fR\fI10\fR
.fi
.PP
The fields and parameters:
.TP 12em
.B interface
An
.I optional
"interface" parameter tells that this beacon shall be sent only to
interface whose callsign is named.
Default is to send to all interfaces that have "tx\-ok true" setting.
.TP 12em
.B type
An
.I optional
one character string parameter, with one of following
contents: "!", "=", "/", "@", ";" and ")".
.TP 12em
.B srccall
An
.I optional
"srccall" parameter tells callsign which is claimed as this particular
beacon source.
It must be valid AX.25 callsign in text format.
When this "srccall" parameter is not given, value of "mycall" configuration
entry is used.
.TP 12em
.B dstcall
An
.I optional
"dstcall" parameter has built-in software version dependent value,
but it can be used to define another value.
.TP 12em
.B via
An
.I optional
"via" parameter defaults to nothing, but can be used to define additional
"VIA" path tokens, for example: "WIDE1\-1".
.TP 12em
.B item
An
.I optional
"item" parameter is for defining a name for an item type APRS packet.
.TP 12em
.B object
An
.I optional
"object" parameter is for defining a name for an object type APRS packet.
.TP 12em
.B symbol
A
.I mandatory
"symbol" parameter is two character code, which for Rx-only iGate is pair: "R&"
.TP 12em
.B lat
This
.I mandatory
parameter defines
.I latitude
coordinate (that is: north/south.)
It is expected to be of format: "ddmm.mmN" where "dd" defines
.I two digits
of
.I degrees
of latitude, and "mm.mm" defines two digits + decimal dot + two digits of
.I minutes
of latitude.
Then comes literal "N" or "S" indicating hemisphere.
.TP 12em
.B lon
This
.I mandatory
parameter defines
.I longitude
coordinate (that is: east/west.)
It is expected to be of format: "dddmm.mmE" where "ddd" defines
.I three digits
of
.I degrees
of longitude, and "mm.mm" defines two digits + decimal dot + two digits of
.I minutes
of longitude.
Then comes literal "E" or "W" indicating hemisphere.
.TP 12em
.B comment
This
.I optional
parameter defines commentary text tail on the beacon packet.
If you need characters outside US-ASCII character set, use of UTF-8 encoded
UNICODE character set is recommended.
.TP 12em
.B raw
This
.I alternate