Rpt.conf
Rpt.conf is where the majority of user-facing features, such as the node's CW and voice ID, DTMF commands and timers are set. There is a lot of capability here which can be difficult to grasp. Fortunately the default DIAL rpt.conf is well commented and will work fine for most node admins.
DTMF Commands
DTMF commands are placed in any one of three named stanzas. Function stanzas control access to DTMF commands that a user can issue from various control points.
- The fuctions stanza - to decode DTMF from the node's local receiver.
- The link_functions stanza - to decode DTMF from linked nodes.
- The phone_functions stanza - to decode DTMF from telephone connects.
A function stanza key/value pair has the following format:
dtmfcommand=functionclass,[functionmethod],[parameters] Where:
- dtmfcommand is a DTMF digit sequence minus the start character (usually *)
- functionclass is a string which defines what class of command; link, status or COP
- functionmethod defines the optional method number to use in the function class.
- functionoptions are one or more optional comma separated parameters which further define a command.
Status Commands
Status commands (functioncalss 'status') provide general information about the node.
Sample:
712 = status,12 ; Give Time of Day (local only)
Status | Description |
---|---|
1 | Force ID (global) |
2 | Give Time of Day (global) |
3 | Give software Version (global) |
4 | Give GPS location info |
5 | Speak the last (dtmf) user |
11 | Force ID (local only) |
12 | Give Time of Day (local only) |
Link Commands
Link commands (functioncalss 'link') connect to, disconnect from, monitor (Rx only) other nodes and give link status.
Sample:
3 = ilink,3 ; Connect specified link -- transceive
ilink | Description |
---|---|
1 | Disconnect specified link |
2 | Connect specified link -- monitor only |
3 | Connect specified link -- tranceive |
4 | Enter command mode on specified link |
5 | System status |
6 | Disconnect all links |
7 | Last Node to Key Up |
8 | Connect specified link -- local monitor only |
9 | Send Text Message (9,<destnodeno or 0 (for all)>,Message Text, etc. |
10 | Disconnect all RANGER links (except permalinks) |
11 | Disconnect a previously permanently connected link |
12 | Permanently connect specified link -- monitor only |
13 | Permanently connect specified link -- tranceive |
15 | Full system status (all nodes) |
16 | Reconnect links disconnected with "disconnect all links" |
17 | MDC test (for diag purposes) |
18 | Permanently Connect specified link -- local monitor only |
COP Commands
Control operator (functionclass 'cop') commands are privileged commands. Node admins may provide some of these to their user community based on personal preference.
Sample:
99 = cop,7 ; enable timeout timer
Some COP commands can take multiple parameters. For example this COP 48 would send #3#607 on command.
900 = cop,48,#,3,#,6,0,7
COP | Description |
---|---|
1 | System warm boot |
2 | System enable |
3 | System disable |
4 | Test Tone On/Off |
5 | Dump System Variables on Console (debug) |
6 | PTT (phone mode only) |
7 | Time out timer enable |
8 | Time out timer disable |
9 | Autopatch enable |
10 | Autopatch disable |
11 | Link enable |
12 | Link disable |
13 | Query System State |
14 | Change System State |
15 | Scheduler Enable |
16 | Scheduler Disable |
17 | User functions (time, id, etc) enable |
18 | User functions (time, id, etc) disable |
19 | Select alternate hang timer |
20 | Select standard hang timer |
21 | Enable Parrot Mode |
22 | Disable Parrot Mode |
23 | Birdbath (Current Parrot Cleanup/Flush) |
24 | Flush all telemetry |
25 | Query last node un-keyed |
26 | Query all nodes keyed/unkeyed |
27 | Reset DAQ minimum on a pin |
28 | Reset DAQ maximum on a pin |
30 | Recall Memory Setting in Attached Xcvr |
31 | Channel Selector for Parallel Programmed Xcvr |
32 | Touchtone pad test: command + Digit string + # to playback all digits pressed |
33 | Local Telemetry Output Enable |
34 | Local Telemetry Output Disable |
35 | Local Telemetry Output on Demand |
36 | Foreign Link Local Output Path Enable |
37 | Foreign Link Local Output Path Disable |
38 | Foreign Link Local Output Path Follows Local Telemetry |
39 | Foreign Link Local Output Path on Demand |
42 | Echolink announce node # only |
43 | Echolink announce node Callsign only |
44 | Echolink announce node # & Callsign |
45 | Link Activity timer enable |
46 | Link Activity timer disable |
47 | Reset "Link Config Changed" Flag |
48 | Send Page Tone (Tone specs separated by parenthesis) |
49 | Disable incoming connections (control state noice) |
50 | Enable incoming connections (control state noicd) |
51 | Enable sleep mode |
52 | Disable sleep mode |
53 | Wake up from sleep |
54 | Go to sleep |
55 | Parrot Once if parrot mode is disabled |
56 | Rx CTCSS Enable |
57 | Rx CTCSS Disable |
58 | Tx CTCSS On Input only Enable |
59 | Tx CTCSS On Input only Disable |
60 | Send MDC-1200 Burst (cop,60,type,UnitID[,DestID,SubCode])
Type is 'I' for PttID, 'E' for Emergency, and 'C' for Call (SelCall or Alert), or 'SX' for STS (ststus), where X is 0-F. DestID and subcode are only specified for the 'C' type message. UnitID is the local systems UnitID. DestID is the MDC1200 ID of the radio being called, and the subcodes are as follows: Subcode '8205' is Voice Selective Call for Spectra ('Call') Subcode '8015' is Voice Selective Call for Maxtrac ('SC') or Astro-Saber('Call') Subcode '810D' is Call Alert (like Maxtrac 'CA') |
61 | Send Message to USB to control GPIO pins (cop,61,GPIO1=0[,GPIO4=1].....) |
62 | Send Message to USB to control GPIO pins, quietly (cop,62,GPIO1=0[,GPIO4=1].....) |
63 | Send pre-configred APRSTT notification (cop,63,CALL[,OVERLAYCHR]) |
64 | Send pre-configred APRSTT notification, quietly (cop,64,CALL[,OVERLAYCHR]) |
65 | Send POCSAG page (equipped channel types only) |
Remote Base Commands
Remote base commands (functionclass 'remote') provide remote base control. This stanza is named by the remote base Remote Base Functions key/value pair.
remote | Description |
---|---|
1 | Retrieve Memory |
2 | Set freq. |
3 | Set tx PL tone |
4 | Set rx PL tone |
5 | Long status query |
99,CALLSIGN,LICENSETAG | Remote Base login |
100 | Rx PL off |
101 | Rx PL on |
102 | Tx PL off |
103 | Tx PL on |
104 | Low Power |
105 | Medium Power |
106 | High Power |
107 | Bump -20 |
108 | Bump -100 |
109 | Bump -500 |
110 | Bump +20 |
111 | Bump +100 |
112 | Bump +500 |
113 | Scan - slow |
114 | Scan - quick |
115 | Scan - fast |
116 | Scan + slow |
117 | Scan + quick |
118 | Scan + fast |
119 | Tune |
140 | Short status query |
210 | Send a * |
211 | Send a # |
Not all commands above are supported by all radios. For example radios which don't support SSB, would not be able to be placed in LSB or USB mode.
Remote Base Login
When authlevel= is greater than zero, remote 99 is used to define a different dtmf sequence for each user authorized to use the remote base. The remote base will announce the callsign as access is granted.
Sample:
9139583 = remote,99,WB6NIL,G ; grant access to Jim (general) 9148351 = remote,99,WA6ZFT,E ; grant access to Steve (extra)
When the remote base is disconnected from the originating node, the user will be logged out.
The LICENSETAG argument is used to enforce tx frequency limits. Need info [txlimits].
Settings to name other Stanzas
Within the node stanza, some key=value pairs point to other stanzas. This allows nodes on the same Asterisk/app_rpt server to have the same settings (without duplicate entries) or different settings in some cases. For example the phone patch command may be *6 on one node, yet *61 on another.
For example:
[1000] functions=functionsVHF [1001] functions=functionsVHF [1002] functions=functionsUHF [functionsVHF] ; Two meter Autopatch up is *6 6=autopatchup,noct=1,farenddisconnect=1,dialtime=20000 0=autopatchdn ; Autopatch down [functionsUHF] ; 440 Autopatch up is *61 61=autopatchup,noct=1,farenddisconnect=1,dialtime=20000 ; Autopatch up 0=autopatchdn ; Autopatch down
- controlstates=
- functions=
- link_functions=
- macro=
- phone_functions=
- telemetry=
- wait_times=
Node Number Stanza
The node number stanza is the first stanza in rpt.conf.
[1999] ; Replace with your assigned node number
The node number stanza contains the following key/value pairs.
althangtime=
This controls the length of the repeater hang time when the alternate hang timer is selected with a control operator function. It is specified in milliseconds.
Sample:
althangtime=4000 ; 4 seconds
beaconing=
When set to 1 will send the repeater ID at the idtime interval regardless of whether there was repeater activity or not. This feature appears to be required in the UK, but is probably illegal in the US.
Sample:
beaconing=1 ;Set to 1 to beacon. Defaults to 0
callerid=
This setting allows the autopatch on the node to be identified with a specific caller ID. The default setting is as follows
callerid="Repeater" <0000000000>
Note: The value in quotes is the name of the autopatch caller, and the numbers in angle brackets are the originating telephone number to use.
connpgm= and discpgm=
Runs user defined scripts. Example from https://www.qsl.net/k0kn/swissarmy_debian
# Place these lines in rpt.conf for each node: # connpgm=/home/kyle/swissarmy 1 # discpgm=/home/kyle/swissarmy 0
context=
This setting directs the autopatch for the node to use a specific context in extensions.conf for outgoing autopatch calls. The default is to specify a context name of radio.
context=radio
controlstates=
This setting defines the name of the variable named control state stanza. Control states are an optional feature which allows groups of control operator commands to be executed all at once. To use control states, define an entry in your node stanzas to point to a dedicated control state stanza like this:
controlstates = controlstates ; points to control state stanza [controlstates] 0 = rptena,lnkena,apena,totena,ufena,noicd ; Normal operation 1 = rptena,lnkena,apdis,totdis,ufena,noice ; Net and news operation 2 = rptena,lnkdis,apdis,totena,ufdis,noice ; Repeater only operation
The control state stanza describes these mnemonics.
duplex=
The duplex key/value pairs sets the duplex mode for desired radio operation. Duplex mode 2 is the default if none specified.
Duplex Mode | Description |
---|---|
0 | Half duplex with no telemetry tones or hang time. Special Case: Full duplex if linktolink is set to yes. This mode is preferred when interfacing with an external multiport repeater controller. Comment out idrecording and idtalkover to suppress IDs. |
1 | Half duplex with telemetry tones and hang time. Does not repeat audio. This mode is preferred when interfacing a simplex node. |
2 | Full Duplex with telemetry tones and hang time. This mode is preferred when interfacing a repeater. |
3 | Full Duplex with telemetry tones and hang time, but no repeated audio. See details |
4 | Full Duplex with telemetry tones and hang time. Repeated audio only when the autopatch is down. |
Sample:
duplex = 0 ; 0 = Half duplex with no telemetry tones or hang time.
endchar=
This setting allows the end character used by some control functions to be changed. By default this is a #. The endchar value must not be the same as the funcchar default or overridden value.
erxgain=
Echolink receive gain adjustment in +/- db-volts. Used to balance Echolink recieve audio on an app_rpt node.
erxgain = -3
See Echolink How to
etxgain=
Echolink transmit gain adjustment in +/- db-volts. Used to balance Echolink transmit audio on an app_rpt node.
etxgain = 3
See Echolink How to
funcchar=
This setting can be used to change the default function starting character of * to something else. Please note that the new value chosen must not be the same as the default or overridden value for endchar=.
functions=
This names (points to) the function stanza.
Sample:
functions = functionsUHF ; pointer to 440 repeater functions stanza
GUI
Key | Valid Values | Default |
---|---|---|
guilinkdefault | 0 = telemetry output off, 1 = telemetry output on, 2 = timed telemetry output on command execution and for a short time thereafter, 3 = follow local telemetry mode | 1 |
guilinkdynamic | 0 = disallow users to change the gui telemetry setting with a COP command, 1 = Allow users to change the setting with a COP command | 1 |
Function Classes
Function classes are names for categories of functions. There are several function classes defined. They are described in the table below:
Class | Description |
---|---|
cop | Control operator commands |
ilink | Internet linking commands |
status | User Status Commands |
autopatchup | Autopatch up commands |
autopatchdn | Autopatch down commands |
remote | Remote base commands |
macro | Command Macros |
Most of the above command classes require a function method and possibly one or more additional command parameters. Function methods are discussed next.
Function Methods
Function methods are numbers which identify a specific function to execute within a function class. Function Methods are optional and in some cases should be omitted (Such as with the autopatchup method) A complete and up-to-date description of all functon methods can be found in the app_rpt.c source file. Some function methods are shown below as an example below:
1 - Force ID (global) 2 - Give Time of Day (global) 3 - Give software Version (global) 11 - Force ID (local only) 12 - Give Time of Day (local only)
Function Options
Some Function Methods can take function options. These are specified after the Function Method separated with commas. Not all commands require or take Function options. An example of a method which can accept Function Options is the autopatchup method.
Putting it all Together
A small excerpt from the function stanza of rpt.conf is hown below.
[functions] 1=ilink,1 ; Specific link disconnect 6=autopatchup,noct=1,farenddisconnect=1,dialtime=2000 ; Autopatch up
The above example contains DTMF functions with all of the parameters discussed on previous pages.
In the above example:
- *1 followed by a node number disconnects a specific link. The function class is ilink and the function method is 1
- *6 followed by a phone number brings up the autopatch with the function options specified. Note that there is no function method defined, but there are function options present.
hangtime=
This controls the length of the repeater hang time. It is specified in milliseconds.
Sample:
hangtime = 1000 ;Set hang time for 1 second
holdofftelem=
This node stanza configuration key forces all telemetry to be held off until a local user on the receiver or a remote user over a link unkeys. There is one exception to this behavior: When an ID needs to be sent and there is activity coming from a linked node.
Sample:
holdofftelem = 1 ;Set to 1 to hold off. Default is 0
telemdefault=
telemdefault = 0 = telemetry output off, 1 = telemetry output on, 2 = timed telemetry output on command execution and for a short time thereafter. Default is 1
telemdynamic=
telemdynamic = 0 = disallow users to change the local telemetry setting with a COP command, 1 = Allow users to change the setting with a COP command. Default is 1
phonelinkdefault=
phonelinkdefault = 0 = telemetry output off, 1 = telemetry output on, 2 = timed telemetry output on command execution and for a short time thereafter, 3 = follow local telemetry mode Default is 1
phonelinkdynamic=
phonelinkdynamic = 0 = disallow users to change phone telemetry setting with a COP command, 1 = Allow users to change the setting with a COP command Default is 1
idrecording=
The identifier message is stored in the node stanza using the idrecording key. It can be changed to a different call sign by changing the value to something different. The value can be either a morse code identification string prefixed with |i, or the name of a sound file containing a voice identification message. When using a sound file, the default path for the sound file is /var/lib/asterisk/sounds.
Sample:
idrecording = |iwa6zft/r ; Morse Code ID
or
idrecording = /var/lib/asterisk/sounds/myid ; Voice ID
Note: ID recording files must have extension gsm,ulaw,pcm, or wav. The extension is left off when it is defined as the example shows above. File extensions are used by Asterisk to determine how to decode the file. All ID recording files should be sampled at 8KHz. See Recording audio files
idtalkover=
The ID talkover message is stored in the node stanza using the idtalkover setting. The purpose of idtalkover is to specify an alternate ID to use when the ID must be sent over the top of a user transmission, This can be a shorter voice ID or an ID in morse code. The value can be either a morse code identification string prefixed with |i, or the name of a sound file containing a voice identification message. When using a sound file, the default path for the sound file is /var/lib/asterisk/sounds. Example usages are as follows:
Sample:
idtalkover = |iwa6zft/r ; Morse Code ID
or
idtalkover = /var/lib/asterisk/sounds/myid ; Voice ID
Note: ID recording files must have extension gsm,ulaw,pcm, or wav. The extension is left off when it is defined as the example shows above. File extensions are used by Asterisk to determine how to decode the file. All ID recording files should be sampled at 8KHz. See Recording audio files
inxlat=
The inxlat setting allows complete remapping of the funcchar and endchar digits to different digits or digit sequences. inxlat acts on the digits received by the radio receiver on the node.
Format: inxlat = funchars,endchars,passchars,dialtone
where:
- funcchars is the digit or digit sequence to replace funcchar
- endchars is the digit or digit sequence to replace endchar
- passchars are the digits to pass through (can be used to block certain digits)
- dialtone is optional. Set to Y for dial tone on successful funcchars.
Sample:
inxlat = #56,#57,0123456789ABCD ; string xlat from radio port to sys
link_functions=
This names (points to) the link_functions stanza.
The link_functions setting directs the node to use a particular function stanza for functions dialed by users accessing the node via a link from another node. The traditional default is to point it to a function stanza named "functions".
Sample:
link_functions = functions ; pointer to the Link Function stanza
linkmongain=
Link Monitor Gain adjusts the audio level of monitored nodes when a signal from another node or the local receiver is received. If linkmongain is set to a negative number the monitored audio will decrease by the set amount in db. If linkmongain set to a positive number monitored audio will increase by the set amount in db. The value of linkmongain is in db. The default value is 0 db.
Sample:
linkmongain = -20 ; reduce link volume 20dB
linktolink=
When operating in duplex mode 0, this forces the radio interface to operate in full duplex mode, but keeps all the other duplex mode 0 semantics. This is used when a radio interface is connected to a multiport analog repeater controller. The linktolink= key can take two values: yes or no.
Sample:
linktolink = yes ; set to yes to enable. Default is no.
linkunkeyct=
The linkunkeyct setting selects the courtesy tone to send when a connected remote node unkeys. The default is no courtesy tone when a remote node unkeys.
Sample:
linkunkeyct = ct8 ; use courtesy tone 8
macro=
The marco key/value points to by the Macro Stanza key/value pair. Macros are DTMF shortcuts.
Sample:
macro=macro ; use stanza names 'macros' [macro] 1 = *32000*32001 ; connect to nodes 2000 and 2001
nounkeyct=
The nounkeyct node stanza key completely disables the courtesy tone. This is useful for eliminating TX time in applications using simplex uplinks to repeaters on the repeater pair itself. This practice is strongly discouraged.
Sample:
nounkeyct = yes ; :(
politeid=
The politeid setting specified the number of milliseconds prior to the end of the id cycle where the controller will attempt to play the ID in the tail when a user unkeys. If the controller does not get a chance to send the ID in the tail, the ID will be played over the top of the user transmission. Optional, default 30000.
Sample:
politeid = 30000 ; 30 seconds
propagate_dtmf=
Takes either yes or no. When set to yes, DTMF will be regenerated from out-of-band signalling or from from the receiver dtmf decoder whenever a function start character is NOT detected and command decoding has not begun. When set to no, no tones will be regenerated. The default for this setting is no. This setting is meant to be used in conjunction with linktolink, inxlat, and outxlat when interfacing a radio port to a multiport analog repeater controller on an RF-linked system.
Sample:
propagate_dtmf = no
Note: There is a separate setting propagate_phonedtmf for use by dial-in (phone and dphone) users.
remotect=
The remotect setting allows the selection of the remote linked courtesy tone so that the users can tell there is a remote base connected locally.
Sample:
remotect = ct3 ; use courtesy tone 3
rxburstfreq=
If rx tone burst operation is desired, specify the frequency in hertz of the desired tone burst. Setting to 0 (or not specifying) indicates no tone burst operation.
Sample:
rxburstfreq = 1000
rxburstthreshold=
In rx toneburst mode, specifies the minimum signal to noise ratio in db that qualifies a valid tone. Defaults to 16 (db).
rxbursttime=
For rx toneburst operation, specifies minimum amount of time that tone needs to be valid for recognition (in milliseconds). Defaults to 250.
rxchannel=
The rxchannel key/value pair selects the radio interface. There must be one (and only one) rxchannel per node. The selections are:
Value | Description |
---|---|
dahdi/pseudo | No radio, used for hubs |
SimpleUSB/usb_1999 | SimpleUSB (limited DSP) |
Radio/usb_1999 | USBRadio (full DSP) |
voter/1990 | RTCM |
Pi/1 | Raspberry Pi PiTA |
Dahdi/1 | PCI Quad card |
Beagle/1 | BeagleBoard |
USRP/127.0.0.1:34001:32001 | GNU Radio interface USRP |
Sample:
rxchannel = dahdi/pseudo ; No radio (hub)
Note: This is selecting what is known as (in Asterisk terminology) the channel driver.
scheduler=
This setting defines the scheduler stanza. The scheduler is used to execute commands at a particular time.
Sample:
scheduler = schedule ; name scheduler to 'schedule' [schedule] ...
sleeptime=
This sets the inactivity period in seconds for no signal on the repeater receiver before the system goes to sleep.
Sample:
sleeptime = 300 ; go to sleep after 5 mins of no activity
startup_macro=
The startup_macro is executed once on system startup. Each node can have one startup macro defined in its node stanza.
Sample:
startup_macro = *31000*31001*31002 ; Connect to 1000, 1001 and 1002 at startup
tailmessagelist=
The tailmessagelist setting allows a comma separated list of audio files to be specified for the tail message function. The tail messages will rotate from one to the next until the end of the list is reached at which point the first message in the list will be selected. If no absolute path name is specified, the directory var/lib/asterisk/sounds will be searched for the sound file. The file extension should be omitted.
Sample:
tailmessagelist = welcome,clubmeeting,wx ; rotate 3 tail messages
Note: ID recording files must have extension gsm,ulaw,pcm, or wav. The extension is left off when it is defined as the example shows above. File extensions are used by Asterisk to determine how to decode the file. All ID recording files should be sampled at 8KHz. See Recording audio files
tailmessagetime=
This sets the amount of time in milliseconds between tail messages. Tail Messages are played when a user unkeys on the repeater input at the point where the hang timer expires after the courtesy tone is sent.
Sample:
tailmessagetime = 900000 ; 15 minutes between tail messages
tailsquashedtime=
If a tail message is "squashed" by a user keying up over the top of it, a separate time value can be loaded to make the tail message be retried at a shorter time interval than the standard tailmessagetime= setting. The tailsquashedtime= setting takes a value in milliseconds.
Sample:
tailsquashedtime = 300000 ; 5 minutes
totime=
This defines the time out timer interval. The value is in milliseconds.
Sample:
totime = 180000 ; 3 minutes
unlinkedct=
The unlinkedct setting selects the courtesy tone to be used when the system has no remote nodes connected and is operating as a standalone repeater.
Sample:
unlinkedct = ct2 ; use courtesy tone 2
wait-times=
Wait-times points to the Wait Times Stanza.
Sample:
wait-times = wait-times ; name wait-times to 'wait-times'
Functions Stanza
The functions stanza is a named stanza pointed to by the function= key/value pair. Functions within this stanza are used to decode DTMF commands when accessing the node from its receiver. This stanza is typically named 'functions'.
Sample:
functions = functions ; name the functions stanza 'functions' [functions] ...
See DTMF Commands for the list of functions available.
Link Functions Stanza
The link functions stanza is a named stanza pointed to by the link_function= key/value pair. Functions within this stanza are used decode DTMF commands when accessing the node via a link from another node. The traditional usage is to point link_functions= to the same stanza as named by functions= thereby having functions from a linked node and from the local node the same.
Sample:
functions = functions ; name the functions stanza 'functions' link_functions = functions ; use the same stanza [functions] ...
If a different set of either limited or more capable functions is desired:
functions = functions ; name the functions stanza 'functions' link_functions = my_link_functions ; use a different stanza [functions] ... [my_link_functions] ...
See DTMF Commands for the list of functions available.
Phone Functions Stanza
The phone functions stanza is a named stanza pointed to by the phone_function= key/value pair. Functions within this stanza are used decode DTMF commands when accessing the node from a telephone. The traditional usage is to point phone_functions= to the same stanza as named by functions= thereby having functions from a phone and from the local node the same.
Sample:
functions = functions ; name the functions stanza 'functions' phone_functions = functions ; use the same stanza [functions] ...
If a different set of either limited or more capable functions is desired:
functions = functions ; name the functions stanza 'functions' phone_functions = my_phone_functions ; use a different stanza [functions] ... [my_phone_functions] ...
See DTMF Commands for the list of functions available.
Macro Stanza
The marco stanza is named stanza pointed to by the macro= key/value pair. Macros are DTMF shortcuts.
Sample:
macro=macro ; use stanza names 'macros' [macro] 1 = *32000*32001 ; connect to nodes 2000 and 2001
Remote Base Stanza
Here are key/value pairs required to configure a remote base.
authlevel=
The authlevel= key is used to enable or disable login requirements for a remote base.
- authlevel=0 Disables all access control (not recommended, unsecured)
- authlevel=1 Enables access control, and waits for key up before prompting for the access code
- authlevel=2 Enables access control, and prompts for the access code at the time of connection
Sample:
autllevel = 0 ; allow all comers
civaddr=
civaddr= is used with ICOM band radios to set the CIV address. The value is a 2 digit hexadecimal number. If this key is not specified, then the CIV address will be set to the default of 88.
Sample:
civaddr = 98 ; set CIV to 98
Remote Base functions=
functions= is a pointer to a remote base function stanza.
Sample:
functions = functions-remote ; name the functions stanza 'functions-remote' [functions-remote] ...
See Remote Base Functions Stanza.
ioaddr=
ioaddr= refers to a parallel port I/O address. It is specified as a hexadecimal number with a 0x prefix. The parallel port is used when the Doug Hall RBI-1 interface is employed.
Sample:
ioaddr = 0x378 ; set RB-1 address
ioport=
ioport= sets the serial port. On Linux Systems, these are typically path names to special files in the /dev directory.
Sample:
ioport = /dev/ttyS1 ; Linux com1
Remote Base phone_functions=
phone_functions= is a pointer to a remote base phone function stanza. It is equivalent to phone_functions in the Phone Functions Stanza but provides a separate set of commands.
Sample:
phone_functions = functions-remote
remote=
remote= sets the type of radio. It also ensures that the node will be defined as a remote base node and not a standard node.
Sample:
remote = xcat ; set xcat interface
Radio | Value | Comments |
---|---|---|
Dumb | y | Use for single channel remote base radios |
FT-897 | ft897 | Must specify serial port using ioport= |
TMG-707 | kenwood | Must specify serial port using ioport= |
IC-706 | ic706 | Must specify serial port using ioport=. Must specify civaddr using civaddr= |
TM-271 | tm271 | Must specify serial port using ioport= |
Syntor Xcat | xcat | Must specify serial port using ioport=. Must specify civaddr using civaddr= |
remote_inact_timeout=
Specifies the amount of time without keying from the link. Set to 0 to disable timeout.
Sample:
remote_inact_timeout = 0 ; do not time out
remote_timeout=
Session time out for remote base. Set to 0 to disable.
Sample:
remote_timeout = 0 ; do not timeout
remote_timeout_warning=
remote_timeout_freq=
Remote Base rxchannel=
This should contain the name of a usb radio interface which has been defined in usbradio.conf or a zaptel interface number if using a Quad Radio PCI Card.
Sample:
rxchannel = usbRadio/usb1
Sample Remote Configuration
[1234] ; Rx audio/signaling channel rxchannel = Radio/usb ; Serial port for control ioport = /dev/ttyS1 ; Radio Type remote = ft897 ; Function list from link functions = functions-remote ; Function list from phone phone_functions = functions-remote ; Authorization level authlevel = 0
Nodes Stanza
The [nodes] stanza is a list of nodes, their IP addresses, port and "NONE" for non-remote base nodes. The nodes stanza is used to identify which node is mapped to which Internet call and to determine the destination to send the call to. If you are using automatic update for Allstar link (public) nodes, no Allstar link nodes should be defined here. Only place a definition for your local nodes, and private (off of allstar link) nodes or nodes behind the same NAT router here.
Sample:
[nodes] 1000 = radio@127.0.0.1/1000,NONE ; Private hub on this server 1001 = radio@host.domain.com/1001,NONE ; Private node on another server 2501 = radio@127.0.0.1/2501,NONE ; Public node on this server 2502 = radio@127.0.0.1/2502,NONE ; Another public node on this server 2503 = radio@192.168.1.20:4570/2503,NONE ; Public node behind the same NAT router
The [nodes] stanza performs a function similar to an OS hosts file. When looking up node information, app_rpt looks in the [nodes] stanza first then searches (what could be called the Allstar DNS) the /var/lib/asterisk/rpt_extnodes file.
Telemetry Stanza
This stanza is named by the telemetry= key/value pair. Telemetry entries can be shared across all nodes on the Asterisk/app_rpt server, or defined for each node. Can be a tone sequence, morse string, or a file as follows:
- |t - Tone escape sequence:
- Tone sequences consist of 1 or more 4-tuple entries (freq1, freq2, duration, amplitude). Single frequencies are created by setting freq1 or freq2 to zero.
- |m - Morse escape sequence:
- Sends Morse code at the telemetry amplitude and telemetry frequency as defined in the [morse] section. Follow with an alphanumeric string.
- |i - Morse ID escape sequence:
- Sends Morse code at the ID amplitude and ID frequency as defined in the [morse] section. Follow with an alphanumeric string.
- Path to sound file:
- Specify the path to a sound file on the server. Do not include file extension.
Sample:
[telemetry] ct1=|t(350,0,100,2048)(500,0,100,2048)(660,0,100,2048) ct2=|t(660,880,150,2048) ct3=|t(440,0,150,4096) ct4=|t(550,0,150,2048) ct4=|t(2475,0,250,768) ct5=|t(660,0,150,2048) ct6=|t(880,0,150,2048) ct7=|t(660,440,150,2048) ct8=|t(700,1100,150,2048) ct9=|t(1633,0,50,1000)(0,0,30,0)(1209,0,50,1000); ;remotetx=|t(1633,0,50,3000)(0,0,80,0)(1209,0,50,3000); remotetx=|t(880,0,150,2048) remotemon=|t(1209,0,50,2048) cmdmode=|t(900,903,200,2048) functcomplete=|t(1000,0,100,2048)(0,0,100,0)(1000,0,100,2048) patchup=rpt/callproceeding patchdown=rpt/callterminated What the numbers mean, (000,000,010,000) | | | |-------amplitude | | |-------------duration | |-------------------Tone 2 |-------------------------Tone 1
Morse Stanza
Morse code parameters, these are common to all nodes on a given Asterisk/app_rpt server.
Sample:
[morse] speed = 20 ; Approximate speed in WPM frequency = 900 ; Morse Telemetry Frequency amplitude = 4096 ; Morse Telemetry Amplitude idfrequency = 746 ; Morse ID Frequency idamplitude = 768 ; Morse ID Amplitude
Wait Times Stanza
This stanza is named by the wait-times= key/value pair. The wait time stanza is used to set delay time between various node actions and their response. Values are in milliseconds.
Sample:
wait-times = wait-times ; name the stanza 'wait-times' [wait-times] telemwait = 2000 idwait = 500 unkeywait = 2000 calltermwait = 2000
Remote Base Memory Stanza
Remote base memories are in the format of:
memory = rxfreq,plfreq,txpower,offset,tone
Sample:
[memory] 00 = 146.580,100.0,m 01 = 147.030,103.5,m+t 02 = 147.240,103.5,m+t 03 = 147.765,79.7,m-t 04 = 146.460,100.0,m 05 = 146.550,100.0,m
Control States Stanza
There are several predefined nmemonics (keywords) used in the control state stanza to enable and disable the various features of the controller. These nmemonics correspond to the control operator command to be executed and most of these are the same groups of letters sent back when a single control operator command is executed on the controller.
Nmemonic | Description | COP Method |
---|---|---|
rptena | Repeater Enable | 2 |
rptdis | Repeater Disable | 3 |
totena | Timeout Timer Enable | 7 |
totdis | Timeout Timer Disable | 8 |
apena | Autopatch Enable | 9 |
apdis | Autopatch Disable | 10 |
lnkena | Link Enable | 11 |
lnkdis | Link Disable | 12 |
skena | Scheduler Enable | 15 |
skdis | Scheduler Disable | 16 |
ufena | User Functions Enable | 17 |
ufdis | User Functions Disable | 18 |
atena | Alternate Hangtime Enable | 19 |
atdis | Alternate Hangtime Disable | 20 |
noice | No Incoming Connections Enable | 49 |
noicd | No Incoming Connections Disable | 50 |
slpen | Sleep Mode Enable | 51 |
slpds | Sleep Mode Disable | 52 |
Schedule Stanza
The scheduler can execute commands at certain times. For example for a net on Tuesday nights at 8 PM.
Sample:
scheduler=schedule ; name the stanza 'schedule' [schedule] ;dtmf_function = m h dom mon dow ; ala cron, star is implied 2 = 00 00 * * * ; at midnight every day, execute macro 2.