NAME
rigctld − Hamlib TCP rig control daemon
SYNOPSIS
rigctld [OPTION]...
DESCRIPTION
The rigctld program is a NEW Hamlib rig control daemon ready for testing that handles client requests via TCP sockets. This allows multiple user programs to share one radio (this needs testing). Multiple radios can be controlled on different TCP ports by use of multiple rigctld processes. The syntax of the commands are the same as rigctl. It is hoped that rigctld will be especially useful for client authors using languages such as Perl, Python, PHP, and others.
rigctld communicates to a client through a TCP socket using text commands shared with rigctl. The protocol is simple; commands are sent to rigctld on one line and rigctld responds to "get" commands with the requested values, one per line, when successful, otherwise, it responds with one line "RPRT x", where x is a negative number indicating the error code. Commands that do not return values respond with the line "RPRT x", where x is zero when successful, otherwise is a regative number indicating the error code. Each line is terminated with a newline ’\n’ character. This protocol is primarily for use by the NET rigctl (rig model 2)backend.
A separate Extended Response protocol extends the above behavior by echoing the received command string as a header, any returned values as a key: value pair, and the "RPRT x" string as the end of response marker which includes the Hamlib success or failure value. See the PROTOCOL section for details. Consider using this protocol for clients that will interact with rigctld directly through a TCP socket.
Keep in mind that Hamlib is BETA level software. While a lot of backend libraries lack complete rig support, the basic functions are usually well supported. The API may change without publicized notice, while an advancement of the minor version (e.g. 1.1.x to 1.2.x) indicates such a change.
Please report bugs and provide feedback at the e-mail address given in the REPORTING BUGS section. Patches and code enhancements are also welcome.
OPTIONS
This program follows the usual GNU command line syntax, with long options starting with two dashes (’-’).
Here is a
summary of the supported options:
−m, --model=id
Select radio model number. See the −l, --list option below.
−r, --rig-file=device
Use device as the file name of the port the radio is connected. Often a serial port, but could be a USB to serial adapter or USB port device. Typically /dev/ttyS0, /dev/ttyS1, /dev/ttyUSB0, etc. on Linux or COM1, COM2, etc. on Win32.
−p, --ptt-file=device
Use device as the file name of the Push-To-Talk device using a device file as described above.
−d, --dcd-file=device
Use device as the file name of the Data Carrier Detect device using a device file as described above.
−P, --ptt-type=type
Use type of Push-To-Talk device. Supported types are RIG (CAT command), DTR, RTS, PARALLEL, NONE.
−D, --dcd-type=type
Use type of Data Carrier Detect device. Supported types are RIG (CAT command), DSR, CTS, CD, PARALLEL, NONE.
−s, --serial-speed=baud
Set serial speed to baud rate. Uses maximum serial speed from rig backend capabilities (set by −m above) as the default.
−c, --civaddr=id
Use id as the CI-V address to communicate with the rig. Only useful for Icom rigs.
N.B.: The id is in decimal notation, unless prefixed by 0x for a hexadecimal value.
−T, --listen-addr=IPADDR
Use IPADDR as the listening IP address. The default is ANY.
−t, --port=number
Use number as the TCP listening port. The default is 4532.
N.B.: As rotctld’s default port is 4533, it is advisable to use even numbered ports for rigctld, e.g. 4532, 4534, 4536, etc.
−L, --show-conf
List all config parameters for the radio defined with -m above.
−C, --set-conf=parm=val[,parm=val]*
Set config parameter. e.g. --set-conf=stop_bits=2
Use -L option for a list.
−l, --list
List all model numbers defined in Hamlib and exit. As of 1.2.15.1 the list is sorted by model number.
N.B. In Linux the list can be scrolled back using Shift-PageUp/ Shift-PageDown, or using the scrollbars of a virtual terminal in X or the cmd window in Windows. The output can be piped to ’more’ or ’less’, e.g. ’rigctld −l | more’.
−u, --dump-caps
Dump capabilities for the radio defined with −m above and exit.
−o, --vfo
Set vfo mode, requiring an extra VFO argument in front of each appropriate command (except \set_vfo!). Otherwise, ’currVFO’ is assumed when this option is not set and an extra VFO argument is not used. See \chk_vfo below.
−v, --verbose
Set verbose mode, cumulative (see DIAGNOSTICS below).
−h, --help
Show a summary of these options and exit.
−V, --version
Show the version of rigctld and exit.
N.B. Some options may not be implemented by a given backend and will return an error. This is most likely to occur with the −−set-conf and −−show-conf options.
Please note that the backend for the radio to be controlled, or the radio itself may not support some commands. In that case, the operation will fail with a Hamlib error code.
COMMANDS
Commands can be sent over the TCP socket either as a single char, or as a long command name plus the value(s) space separated on one ’\n’ terminated line. See PROTOCOL.
Since most of the Hamlib operations have a set and a get method, an upper case letter will be used for set methods whereas the corresponding lower case letter refers to the get method. Each operation also has a long name; prepend a backslash to send a long command name.
Example (Perl):
’print $socket "\\dump_caps\n";’ to
see what the radio’s backend can do
(N.B.: In Perl and many other languages a
’\’ will need to be escaped with a preceding
’\’ so that even though two backslash characters
appear in the code, only one will be passed to
rigctld. This is a possible bug, beware!).
Please note that the backend for the radio to be controlled, or the radio itself may not support some commands. In that case, the operation will fail with a Hamlib error message.
Here is a
summary of the supported commands (In the case of
"set" commands the quoted string is replaced by
the value in the description. In the case of "get"
commands the quoted string is the key name of the value
returned.):
F, set_freq ’Frequency’
Set ’Frequency’, in Hz.
f, get_freq
Get ’Frequency’, in Hz.
M, set_mode ’Mode’ ’Passband’
Set ’Mode’: USB, LSB, CW, CWR, RTTY, RTTYR, AM, FM, WFM, AMS, PKTLSB, PKTUSB, PKTFM, ECSSUSB, ECSSLSB, FAX, SAM, SAL, SAH, DSB.
Set ’Passband’ in Hz, or ’0’ for the Hamlib backend default.
N.B. Passing a ’?’ (query) as the first argument instead of ’Mode’ will return a space separated list of radio backend supported Modes. Use this to determine the supported Modes of a given radio backend.
m, get_mode
Get ’Mode’ ’Passband’.
Returns Mode as a string from set_mode above and Passband in Hz.
V, set_vfo ’VFO’
Set ’VFO’: VFOA, VFOB, VFOC, currVFO, VFO, MEM, Main, Sub, TX, RX.
In VFO mode only a single VFO parameter is required.
v, get_vfo
Get current ’VFO’.
Returns VFO as a string from set_vfo above.
J, set_rit ’RIT’
Set ’RIT’, in Hz, can be + or -.
A value of ’0’ resets RIT and *should* turn RIT off. If not, file a bug report against the Hamlib backend.
N.B This functionality is under transition and in the future will need to be activated with the set_func command.
j, get_rit
Get ’RIT’, in Hz.
Z, set_xit ’XIT’
Set ’XIT’, in Hz can be + or -.
A value of ’0’ resets XIT and *should* turn XIT off. If not, file a bug report against the Hamlib backend.
N.B This functionality is under transition and in the future will need to be activated with the set_func command.
z, get_xit
Get ’XIT’, in Hz.
T, set_ptt ’PTT’
Set ’PTT’, 0 (RX) or 1 (TX).
t, get_ptt
Get ’PTT’ status.
0x8b, get_dcd
Get ’DCD’ (squelch) status, 0 (Closed) or 1 (Open)
R, set_rptr_shift ’Rptr Shift’
Set ’Rptr Shift’: "+", "-" or something else for none.
r, get_rptr_shift
Get ’Rptr Shift’. Returns "+", "-" or "None".
O, set_rptr_offs ’Rptr Offset’
Set ’Rptr Offset’, in Hz.
o, get_rptr_offs
Get ’Rptr Offset’, in Hz.
C, set_ctcss_tone ’CTCSS Tone’
Set ’CTCSS Tone’, in tenths of Hz.
c, get_ctcss_tone
Get ’CTCSS Tone’, in tenths of Hz.
D, set_dcs_code ’DCS Code’
Set ’DCS Code’.
d, get_dcs_code
Get ’DCS Code’.
0x90, set_ctcss_sql ’CTCSS Sql’
Set ’CTCSS Sql’ tone, in tenths of Hz.
0x91, get_ctcss_sql
Get ’CTCSS Sql’ tone, in tenths of Hz.
0x92, set_dcs_sql ’DCS Sql’
Set ’DCS Sql’ code.
0x93, get_dcs_sql
Get ’DCS Sql’ code.
I, set_split_freq ’Tx Frequency’
Set ’TX Frequency’, in Hz.
i, get_split_freq
Get ’TX Frequency’, in Hz.
X, set_split_mode ’TX Mode’ ’TX Passband’
Set ’TX Mode’: AM, FM, CW, CWR, USB, LSB, RTTY, RTTYR, WFM, AMS, PKTLSB, PKTUSB, PKTFM, ECSSUSB, ECSSLSB, FAX, SAM, SAL, SAH, DSB.
The ’TX Passband’ is the exact passband in Hz, or ’0’ for the Hamlib backend default.
N.B. Passing a ’?’ (query) as the first argument instead of ’TX Mode’ will return a space separated list of radio backend supported TX Modes. Use this to determine the supported TX Modes of a given radio backend.
x, get_split_mode
Get ’TX Mode’ and ’TX Passband’.
Returns TX mode as a string from set_split_mode above and TX passband in Hz.
S, set_split_vfo ’Split’ ’TX VFO’
Set ’Split’ mode, ’0’ or ’1’, and ’TX VFO’ from set_vfo above.
s, get_split_vfo
Get ’Split’ mode, ’0’ or ’1’, and ’TX VFO’.
N, set_ts ’Tuning Step’
Set ’Tuning Step’, in Hz.
n, get_ts
Get ’Tuning Step’, in Hz.
U, set_func ’Func’ ’Func Status’
Set ’Func’ ’Func Status’.
Func is one of: FAGC, NB, COMP, VOX, TONE, TSQL, SBKIN, FBKIN, ANF, NR, AIP, APF, MON, MN, RF, ARO, LOCK, MUTE, VSC, REV, SQL, ABM, BC, MBC, RIT, AFC, SATMODE, SCOPE, RESUME, TBURST, TUNER, XIT.
Func Status argument is a non null value for "activate", "de-activate" otherwise, much as TRUE/FALSE definitions in C language (true is non-zero and false is zero).
N.B. Passing a ’?’ (query) as the first argument instead of ’Func’ will return a space separated list of radio backend supported Set functions. Use this to determine the supported functions of a given radio backend.
u, get_func ’Func’
Get ’Func Status’.
Returns ’Func Status’ as a non null value for the ’Func’ passed.
N.B. Passing a ’?’ (query) as the first argument instead of ’Func’ will return a space separated list of radio backend supported Get functions. Use this to determine the supported functions of a given radio backend.
L, set_level ’Level’ ’Level Value’
Set ’Level’ ’Level Value’.
Level is one of: PREAMP, ATT, VOX, AF, RF, SQL, IF, APF, NR, PBT_IN, PBT_OUT, CWPITCH, RFPOWER, MICGAIN, KEYSPD, NOTCHF, COMP, AGC, BKINDL, BAL, METER, VOXGAIN, ANTIVOX, SLOPE_LOW, SLOPE_HIGH, RAWSTR, SQLSTAT, SWR, ALC, STRENGTH.
The Level Value can be a float or an integer.
N.B. Passing a ’?’ (query) as the first argument instead of ’Level’ will return a space separated list of radio backend supported Set levels. Use this to determine the supported levels of a given radio backend.
l, get_level
Get ’Level’ ’Level Value’.
Returns Level as a string from set_level above and Level value as a float or integer.
N.B. Passing a ’?’ (query) as the first argument instead of ’Parm’ will return a space separated list of radio backend supported Set parameters. Use this to determine the supported parameters of a given radio backend.
P, set_parm ’Parm’ ’Parm Value’
Set ’Parm’ ’Parm Value’
Parm is one of: ANN, APO, BACKLIGHT, BEEP, TIME, BAT, KEYLIGHT.
p, get_parm ’Parm’
Get ’Parm Value’.
Returns ’Parm Value’ as a float or integer for the ’Parm’ passed.
N.B. Passing a ’?’ (query) as the first argument instead of ’Parm’ will return a space separated list of radio backend supported Get parameters. Use this to determine the supported parameters of a given radio backend.
B, set_bank ’Bank’
Set ’Bank’. Sets the current memory bank number.
E, set_mem ’Memory#’
Set ’Memory#’ channel number.
e, get_mem
Get ’Memory#’ channel number.
G, vfo_op ’Mem/VFO Op’
Perform ’Mem/VFO Op’.
Mem VFO operation is one of: CPY, XCHG, FROM_VFO, TO_VFO, MCL, UP, DOWN, BAND_UP, BAND_DOWN, LEFT, RIGHT, TUNE, TOGGLE.
N.B. Passing a ’?’ (query) as the first argument instead of ’Mem/VFO Op’ will return a space separated list of radio backend supported Set Mem/VFO Ops. Use this to determine the supported Mem/VFO Ops of a given radio backend.
g, scan ’Scan Fct’ ’Scan Channel’
Perform ’Scan Fct’ ’Scan Channel’.
Scan function/channel is one of: STOP, MEM, SLCT, PRIO, PROG, DELTA, VFO, PLT.
N.B. Passing a ’?’ (query) as the first argument instead of ’Scan Fct’ will return a space separated list of radio backend supported Scan Functions. Use this to determine the supported Scan Functions of a given radio backend.
H, set_channel ’Channel’
Set memory ’Channel’ data. Not implemented yet.
h, get_channel
Get memory ’Channel’ data. Not implemented yet.
A, set_trn ’Transceive’
Set ’Transceive’ mode (reporting event): OFF, RIG, POLL.
N.B. Passing a ’?’ (query) as the first argument instead of ’Transceive’ will return a space separated list of radio backend supported Scan Transceive modes. Use this to determine the supported Transceive modes of a given radio backend.
a, get_trn
Get ’Transceive’ mode (reporting event) as in set_trn above.
Y, set_ant ’Antenna’
Set ’Antenna’ number (0, 1, 2, ..).
y, get_ant
Get ’Antenna’ number (0, 1, 2, ..).
*, reset ’Reset’
Perform rig ’Reset’.
0 = None, 1 = Software reset, 2 = VFO reset, 4 = Memory Clear reset, 8 = Master reset. Since these values are defined as a bitmask in rig.h, it should be possible to AND these values together to do multiple resets at once, if the backend supports it or supports a reset action via rig control at all.
b, send_morse ’Morse’
Send ’Morse’ symbols.
0x87, set_powerstat ’Power Status’
Set power On/Off/Standby ’Power Status’.
0 = Power Off, 1 = Power On, 2 = Power Standby. Defined as a bitmask in rig.h.
0x88, get_powerstat
Get power On/Off/Standby ’Power Status’ as in set_powerstat above.
0x89, send_dtmf ’Digits’
Set DTMF ’Digits’.
0x8a, recv_dtmf
Get DTMF ’Digits’.
_, get_info
Get misc information about the rig (no VFO in ’VFO mode’ or value is passed).
1, dump_caps
Not a real rig remote command, it just dumps capabilities, i.e. what the backend knows about this model, and what it can do. TODO: Ensure this is in a consistent format so it can be read into a hash, dictionary, etc. Bug reports requested.
N.B.: This command will produce many lines of output so be very careful if using a fixed length array! For example, running this command against the Dummy backend results in over 5kB of text output.
VFO parameter not used in ’VFO mode’.
2, power2mW ’Power [0.0..1.0]’ ’Frequency’ ’Mode’
Returns ’Power mW’
Converts a Power value in a range of 0.0 ... 1.0 to the real transmit power in milli-Watts (integer). The frequency and mode also need to be provided as output power may vary according to these values.
VFO parameter not used in ’VFO mode’.
4, mW2power ’Power mW’ ’Frequency’ ’Mode’
Returns ’Power [0.0..1.0]’
Converts the real transmit power in milli-Watts (integer) to a Power value in a range of 0.0 ... 1.0. The frequency and mode also need to be provided as output power may vary according to these values.
VFO parameter not used in ’VFO mode’.
w, send_cmd ’Cmd’
Send raw command string to rig.
For binary protocols enter values as \0xAA\0xBB. Expect a ’Reply’ from the rig which will likely be a binary block or an ASCII string.
chk_vfo
Returns "CHKVFO 1\n" (single line only) if rigctld was invoked with the -o or --vfo option, "CHKVFO 0\n" if not.
When in VFO mode the client will need to pass ’VFO’ as the first parameter to \set or \get commands. ’VFO’ is one of the strings defined for \set_vfo above.
PROTOCOL
Default Protocol
The rigctld protocol is intentionally simple. Commands are entered on a single line with any needed values. In Perl, reliable results are obtained by terminating each command string with a newline character, ’\n’.
Example set (Perl code):
print $socket
"F 14250000\n";
print $socket "\\set_mode LSB 2400\n"; # escape
leading ’\’
A one line response will be sent as a reply to set commands, "RPRT x\n" where x is the Hamlib error code with ’0’ indicating success of the command.
Responses from rigctld get commands are text values and match the same tokens used in the set commands. Each value is returned on its own line. On error the string "RPRT x\n" is returned where x is the Hamlib error code.
Example get (Perl code):
print $socket
"f\n";
"14250000\n"
Most get functions return one to three values. A notable exception is the \dump_caps function which returns many lines of key:value pairs.
This protocol is primarily used by the NET rigctl (rigctl model 2) backend which allows applications already written for Hamlib’s C API to take advantage of rigctld without the need of rewriting application code. An application’s user can select rig model 2 ("NET rigctl") and then set rig_pathname to "localhost:4532" or other network host:port (set by the -t option above).
Extended Response Protocol
An EXPERIMENTAL Extended Response protocol has been introduced into rigctld as of February 16, 2010. This protocol adds several rules to the strings returned by rigctld and adds a rule for the command syntax.
1. The command received by rigctld is echoed with its long command name followed by the value(s) (if any) received from the client terminated by the specified response separator as the record line of the response.
2. The last line of each block is the string "RPRT x\n" where x is the numeric return value of the Hamlib backend function that was called by the command.
3. Any records consisting of data values returned by the rig backend are prepended by a string immediately followed by a colon then a space and then the value terminated by the response separator. e.g. "Frequency: 14250000\n" when the command was prepended by ’+’.
4. All commands received will be acknowledged by rigctld with lines from rules 1 and 2. Lines from rule 3 are only returned when data values must be returned to the client.
An example response to a +\set_mode command sent from the shell prompt (note the prepended ’+’):
$ echo "+M
USB 2400" | nc −w 1 localhost 4532
set_mode: USB 2400
RPRT 0
In this case the long command name and values are returned on the first line and the second line contains the end of block marker and the numeric rig backend return value indicating success.
An example response to a \get_mode query:
$ echo
"+\get_mode" | nc −w 1 localhost 4532
get_mode:
Mode: USB
Passband: 2400
RPRT 0
In this case, as no value is passed to rigctld, the first line consists only of the long command name. The final line shows that the command was processed successfully by the rig backend.
Invoking the Extended Response protocol requires prepending a command with a punctuation character. As shown in the examples above, prepending a ’+’ character to the command results in the responses being separated by a newline character (’\n’). Any other punctuation character recognized by the C ispunct() function except ’\’, ’?’, or ’_’ will cause that character to become the response separator and the entire response will be on one line.
Separator character summary:
’+’ |
Each record of the response is appended with a newline (’\n’). |
’;’, ’|’, or ’,’
Each record of the response is appended by the given character resulting in entire response on one line.
Common record separators for text representations of spreadsheet data, etc.
’?’ |
Reserved for ’help’ in rigctl short command | ||
’_’ |
Reserved for \get_info short command | ||
’#’ |
Reserved for comments when reading a command file script |
Other punctuation characters have not been tested! Use at your own risk.
For example, invoking a ;\get_mode query with a leading ’;’ returns:
get_mode:;Mode: USB;Passband: 2400;RPRT 0
Or, using the pipe character ’|’ returns:
get_mode:|Mode: USB|Passband: 2400|RPRT 0
And a \set_mode command prepended with a ’|’ returns:
set_mode: USB 2400|RPRT 0
Such a format will allow reading a response as a single event using a preferred response separator. Other punctuation characters have not been tested!
The following
commands have been tested with the Extended Response
protocol and the included testctld.pl script:
\set_freq \get_freq \set_split_freq \get_split_freq
\set_mode \get_mode \set_split_mode \get_split_mode
\set_vfo \get_vfo \set_split_vfo \get_split_vfo
\set_rit \get_rit
\set_xit \get_xit
\set_ptt \get_ptt
\power2mW \mW2power
\dump_caps
EXAMPLES
Start rigctld for a Yaesu FT-920 using a USB-to-serial adapter and backgrounding:
$ rigctld -m 114 -r /dev/ttyUSB1 &
Start rigctld for a Yaesu FT-920 using a USB to serial adapter while setting baud rate and stop bits, and backgrounding:
$ rigctld -m 114 -r /dev/ttyUSB1 -s 4800 -C stop_bits=2 &
Start rigctld for an Elecraft K3 using COM2 on Win32:
$ rigctld -m 229 -r COM2
Connect to the already running rigctld, and set current frequency to 14.266 MHz with a 1 second read timeout using the default protocol from the shell prompt:
$ echo "\set_freq 14266000" | nc -w 1 localhost 4532
Connect to a running rigctld with rigctl on the local host:
$ rigctl -m2
DIAGNOSTICS
The -v, --verbose, option allows different levels of diagnostics to be output to stderr and correspond to -v for BUG, -vv for ERR, -vvv for WARN, -vvvv for VERBOSE, or -vvvvv for TRACE.
A given verbose level is useful for providing needed debugging information to the email address below. For example, TRACE output shows all of the values sent to and received from the radio which is very useful for radio backend library development and may be requested by the developers. See the README.betatester and README.developer files for more information.
SECURITY
No authentication whatsoever; DO NOT leave this TCP port open wide to the Internet. Please ask if stronger security is needed or consider using an SSH tunnel.
As rigctld does not need any greater permissions than rigctl, it is advisable to not start rigctld as root or another system user account in order to limit any vulnerability.
BUGS
The daemon is not detaching and backgrounding itself.
Much testing needs to be done.
REPORTING BUGS
Report bugs to <hamlib-developer [AT] lists.net>.
We are already aware of the bugs in the previous section :-)
AUTHORS
Written by Stephane Fillod, Nate Bargmann, and the Hamlib Group
COPYRIGHT
Copyright
© 2000-2010 Stephane Fillod
Copyright © 2011-2013 Nate Bargmann
Copyright © 2000-2010 the Hamlib Group.
This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.