#! /usr/bin/perl # testrotctld.pl - (C) 2008,2010 Nate Bargmann, n0nb@arrl.net # A Perl test script for the rotctld program. # # # It connects to the rotctld TCP port (default 4533) and queries the daemon # for some common rot information and sets some values. It also aims to # provide a bit of example code for Perl scripting. # # This program utilizes the Extended Response protocol of rotctld in line # response mode. See the rotctld(1) man page for details. ############################################################################# # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # See the file 'COPYING' in the main Hamlib distribution directory for the # complete text of the GNU Public License version 2. # ############################################################################# # Perl modules this script uses use warnings; use strict; use IO::Socket; use Getopt::Long; use Pod::Usage; # Global variables my $socket; my $host = 'localhost'; my $port = 4533; my %rot_state = (); # State of the rotor--position, etc. my %rot_caps = (); # Rotor capabilities from \dump_caps my $man = 0; my $help = 0; my $debug = 0; my $user_in; my $ret_val; # Error values returned from rotctld by Hamlib name my %errstr = ( RIG_OK => "0", # No error, operation completed successfully RIG_EINVAL => "-1", # invalid parameter RIG_ECONF => "-2", # invalid configuration (serial,..) RIG_ENOMEM => "-3", # memory shortage RIG_ENIMPL => "-4", # function not implemented, but will be RIG_ETIMEOUT => "-5", # communication timed out RIG_EIO => "-6", # IO error, including open failed RIG_EINTERNAL => "-7", # Internal Hamlib error, huh?! RIG_EPROTO => "-8", # Protocol error RIG_ERJCTED => "-9", # Command rejected by the rot RIG_ETRUNC => "-10", # Command performed, but arg truncated RIG_ENAVAIL => "-11", # function not available RIG_ENTARGET => "-12", # VFO not targetable RIG_BUSERROR => "-13", # Error talking on the bus RIG_BUSBUSY => "-14", # Collision on the bus RIG_EARG => "-15", # NULL RIG handle or any invalid pointer parameter in get arg RIG_EVFO => "-16", # Invalid VFO RIG_EDOM => "-17", # Argument out of domain of func # testctld specific error values from -100 onward CTLD_OK => "-100", # testrotctld -- No error CTLD_ENIMPL => "-103", # testrotctld -- %rot_caps reports backend function not implemented CTLD_EPROTO => "-108", # testrotctld -- Echoed command mismatch or other error ); # Error values returned from rotctld by Hamlib value my %errval = reverse %errstr; # Rotor '\move' command token values my %direct = ( UP => '2', DOWN => '4', LEFT => '8', CCW => '8', # Synonym for LEFT RIGHT => '16', CW => '16', # Synonym for RIGHT ); ############################################################################# # Main program # ############################################################################# # Parse command line options argv_opts(); # Create the new socket. # 'localhost' may be replaced by any hostname or IP address where a # rotctld instance is running. # Timeout is set to 5 seconds. $socket = new IO::Socket::INET (PeerAddr => $host, PeerPort => $port, Proto => 'tcp', Type => SOCK_STREAM, Timeout => 5 ) or die $@; print "Welcome to testrotctld.pl a program to test 'rotctld'\n"; print "Type '?' or 'help' for commands help.\n\n"; # Populate %rot_caps from \dump_caps $ret_val = dump_caps(); # Tell user what rotor rotctld is working with if ($ret_val eq $errstr{'RIG_OK'}) { print "Hamlib Model: " . $rot_caps{'Caps dump for model'} . "\t"; print "Common Name: " . $rot_caps{'Mfg name'} . ' ' . $rot_caps{'Model name'} . "\n\n\n"; } else { errmsg ($ret_val); } # Interactive loop do { print "rotctld command: "; chomp($user_in = <>); # P, \set_pos if ($user_in =~ /^(P|\\set_pos)\s+([-+]?([0-9]*\.)?[0-9]+)\s+([-+]?([0-9]*\.)?[0-9]+)\b$/) { if ($rot_caps{'Can set Position'} eq 'Y') { # Get the entered az and el values print "Az = $2, El = $4\n" if $debug; $ret_val = rot_cmd('set_pos', $2, $4); unless ($ret_val eq $errstr{'RIG_OK'}) { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # p, \get_pos elsif ($user_in =~ /^(p|\\get_pos)\b$/) { if ($rot_caps{'Can get Position'} eq 'Y') { # Query rot and process result $ret_val = rot_cmd('get_pos'); if ($ret_val eq $errstr{'RIG_OK'}) { print "Azimuth: " . $rot_state{Azimuth} . "\n"; print "Elevation: " . $rot_state{Elevation} . "\n\n"; } else { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # M, \move elsif ($user_in =~ /^(M|\\move)\s+([A-Z]+)\s+(\d+)\b$/) { if ($rot_caps{'Can Move'} eq 'Y') { # Get the entered mode and passband values print "Move = $direct{$2}, Speed = $3\n" if $debug; $ret_val = rot_cmd('move', $direct{$2}, $3); unless ($ret_val eq $errstr{'RIG_OK'}) { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # S, \stop elsif ($user_in =~ /^(S|\\stop)\b$/) { if ($rot_caps{'Can Stop'} eq 'Y') { print "Stop\n" if $debug; $ret_val = rot_cmd('stop'); # $vfo not used! unless ($ret_val eq $errstr{'RIG_OK'}) { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # K, \park elsif ($user_in =~ /^(K|\\park)\b$/) { if ($rot_caps{'Can Park'} eq 'Y') { print "Park\n" if $debug; $ret_val = rot_cmd('park'); unless ($ret_val eq $errstr{'RIG_OK'}) { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # R, \reset elsif ($user_in =~ /^(R|\\reset)\s+(\d)\b$/) { if ($rot_caps{'Can Reset'} eq 'Y') { print "Reset\n" if $debug; $ret_val = rot_cmd('reset', $2); unless ($ret_val eq $errstr{'RIG_OK'}) { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # _, \get_info elsif ($user_in =~ /^(_|\\get_info)\b$/) { if ($rot_caps{'Can get Info'} eq 'Y') { print "Get info\n" if $debug; $ret_val = rot_cmd('get_info'); if ($ret_val eq $errstr{'RIG_OK'}) { print "Info: " . $rot_state{Info} . "\n\n"; } else { errmsg ($ret_val); } } else { errmsg($errstr{'CTLD_ENIMPL'}); } } # L, \lonlat2loc elsif ($user_in =~ /^(L|\\lonlat2loc)\s+([-+]?([0-9]*\.)?[0-9]+)\s+([-+]?([0-9]*\.)?[0-9]+)\s+(\d+)\b$/) { print "Longitude = $2, Latitude = $4, Length = $6\n" if $debug; $ret_val = rot_cmd('lonlat2loc', $2, $4, $6); if ($ret_val eq $errstr{'RIG_OK'}) { print "Locator: " . $rot_state{Locator} . "\n\n"; } else { errmsg ($ret_val); } } # l, \loc2lonlat elsif ($user_in =~ /^(l|\\loc2lonlat)\s+([A-Za-z0-9]+)\b$/) { print "Locator = $2\n" if $debug; $ret_val = rot_cmd('loc2lonlat', $2); if ($ret_val eq $errstr{'RIG_OK'}) { print "Longitude: " . $rot_state{Longitude} . "\n"; print "Latitude: " . $rot_state{Latitude} . "\n\n"; } else { errmsg ($ret_val); } } # D, \dms2dec elsif ($user_in =~ /^(D|\\dms2dec)\s+[+-]?(\d+)\s+(\d+)\s+(([0-9]*\.)?[0-9]+)\s+(\d)\b$/) { print "Degrees = $2, Minutes = $3, Seconds = $4, S/W = $6\n" if $debug; $ret_val = rot_cmd('dms2dec', $2, $3, $4, $6); if ($ret_val eq $errstr{'RIG_OK'}) { print "Decimal Degrees: " . $rot_state{'Dec Degrees'} . "\n\n"; } else { errmsg ($ret_val); } } # d, \dec2dms elsif ($user_in =~ /^(d|\\dec2dms)\s+([-+]?([0-9]*\.)?[0-9]+)\b$/) { print "Decimal Degrees = $2\n" if $debug; $ret_val = rot_cmd('dec2dms', $2); if ($ret_val eq $errstr{'RIG_OK'}) { print "Degrees: " . $rot_state{Degrees} . "\n"; print "Minutes: " . $rot_state{Minutes} . "\n"; print "Seconds: " . $rot_state{Seconds} . "\n"; print "South/West: " . $rot_state{'S/W'} . "\n\n"; } else { errmsg ($ret_val); } } # E, \dmmm2dec elsif ($user_in =~ /^(E|\\dmmm2dec)\s+[+-]?(\d+)\s+(([0-9]*\.)?[0-9]+)\s+(\d)\b$/) { print "Degrees = $2, Minutes = $3, S/W = $5\n" if $debug; $ret_val = rot_cmd('dmmm2dec', $2, $3, $5); if ($ret_val eq $errstr{'RIG_OK'}) { print "Decimal Degrees: " . $rot_state{'Dec Deg'} . "\n\n"; } else { errmsg ($ret_val); } } # e, \dec2dmmm elsif ($user_in =~ /^(e|\\dec2dmmm)\s+([-+]?([0-9]*\.)?[0-9]+)\b$/) { print "Decimal Degrees = $2\n" if $debug; $ret_val = rot_cmd('dec2dmmm', $2); if ($ret_val eq $errstr{'RIG_OK'}) { print "Degrees: " . $rot_state{Degrees} . "\n"; print "Decimal Minutes: " . $rot_state{'Dec Minutes'} . "\n"; print "South/West: " . $rot_state{'S/W'} . "\n\n"; } else { errmsg ($ret_val); } } # B, \qrb elsif ($user_in =~ /^(B|\\qrb)\s+([-+]?([0-9]*\.)?[0-9]+)\s+([-+]?([0-9]*\.)?[0-9]+)\s+([-+]?([0-9]*\.)?[0-9]+)\s+([-+]?([0-9]*\.)?[0-9]+)\b$/) { print "Lon 1 = $2, Lat 1 = $4, Lon 2 = $6, Lat 2 = $8\n" if $debug; $ret_val = rot_cmd('qrb', $2, $4, $6, $8); if ($ret_val eq $errstr{'RIG_OK'}) { print "Distance (km): " . $rot_state{'QRB Distance'} . "\n"; print "Azimuth (Deg): " . $rot_state{'QRB Azimuth'} . "\n\n"; } else { errmsg ($ret_val); } } # A, \a_sp2a_lp elsif ($user_in =~ /^(A|\\a_sp2a_lp)\s+([-+]?([0-9]*\.)?[0-9]+)\b$/) { print "Short Path Degrees = $2\n" if $debug; $ret_val = rot_cmd('a_sp2a_lp', $2); if ($ret_val eq $errstr{'RIG_OK'}) { print "Long Path Degrees: " . $rot_state{'Long Path Deg'} . "\n\n"; } else { errmsg ($ret_val); } } # a, \d_sp2d_lp elsif ($user_in =~ /^(a|\\d_sp2d_lp)\s+([-+]?([0-9]*\.)?[0-9]+)\b$/) { print "Short Path km = $2\n" if $debug; $ret_val = rot_cmd('d_sp2d_lp', $2); if ($ret_val eq $errstr{'RIG_OK'}) { print "Long Path km: " . $rot_state{'Long Path km'} . "\n\n"; } else { errmsg ($ret_val); } } # 1, \dump_caps elsif ($user_in =~ /^(1|\\dump_caps)\b$/) { $ret_val = dump_caps(); if ($ret_val eq $errstr{'RIG_OK'}) { print "Model: " . $rot_caps{'Caps dump for model'} . "\n"; print "Manufacturer: " . $rot_caps{'Mfg name'} . "\n"; print "Name: " . $rot_caps{'Model name'} . "\n\n"; } else { errmsg ($ret_val); } } # ?, help elsif ($user_in =~ /^\?|^help\b$/) { print <) { # rotctld terminates each line with '\n' chomp; push @lines, $_; return @lines if $_ =~ /^RPRT/; } } # Builds the %rot_state hash from the lines returned by rotctld which are of the # form "Azimuth: 90.000000, elevation: 45.000000", etc. sub get_state { my ($key, $val); foreach (@_) { ($key, $val) = split(/: /, $_); $rot_state{$key} = $val; } } # Parse the (large) \dump_caps command response into %rot_caps. # TODO: process all lines of output sub get_caps { my ($key, $val); foreach (@_) { if (($_ =~ /^Caps .*:/) or ($_ =~ /^Model .*:/) or ($_ =~ /^Mfg .*:/) or ($_ =~ /^Can .*:/) ) { ($key, $val) = split(/:\s+/, $_); $rot_caps{$key} = $val; } } } # Extract the Hamlib error value returned with the last line from rotctld sub get_errno { chomp @_; my @errno = split(/ /, $_[0]); return $errno[1]; } # FIXME: Better argument handling sub errmsg { unless (($_[0] eq $errstr{'CTLD_EPROTO'}) or ($_[0] eq $errstr{'CTLD_ENIMPL'})) { print "rotctld returned Hamlib $errval{$_[0]}\n\n"; } elsif ($_[0] eq $errstr{'CTLD_EPROTO'}) { print "Echoed command mismatch\n\n"; } elsif ($_[0] eq $errstr{'CTLD_ENIMPL'}) { print "Function not yet implemented in Hamlib rot backend\n\n"; } } # Parse the command line for supported options. Print help text as needed. sub argv_opts { # Parse options and print usage if there is a syntax error, # or if usage was explicitly requested. GetOptions('help|?' => \$help, man => \$man, "port=i" => \$port, "host=s" => \$host, debug => \$debug ) or pod2usage(2); pod2usage(1) if $help; pod2usage(-verbose => 2) if $man; } # POD for pod2usage __END__ =head1 NAME testctld.pl - A test and example program for 'rotctld' written in Perl. =head1 SYNOPSIS testctld.pl [options] Options: --host Hostname or IP address of target 'rotctld' process --port TCP Port of target 'rotctld' process --help Brief help message --man Full documentation --debug Enable debugging output =head1 DESCRIPTION B provides a set of functions to interactively test the Hamlib I TCP/IP network daemon. It also aims to be an example of programming code to control a rotor via TCP/IP in Hamlib. =head1 OPTIONS =over 8 =item B<--host> Hostname or IP address of the target I process. Default is I which should resolve to 127.0.0.1 if I is configured correctly. =item B<--port> TCP port of the target I process. Default is 4533. Multiple instances of I will require unique port numbers. =item B<--help> Prints a brief help message and exits. =item B<--man> Prints this manual page and exits. =item B<--debug> Enables debugging output to the console. =back =head1 COMMANDS Commands are the same as described in the rotctld(1) man page. This is only a brief summary. P, \set_pos Set the rotor's Azimuth and Elevation p, \get_pos Get the rotor's Azimuth and Elevation M. \move Move Up, Down, Left, Right at Speed S, \stop Stop rotation K, \park Set the rotor to the park position R, \reset Reset the rotor _, \get_info Get the rotor Model Name 1, \dump_caps Get the rot capabilities and display select values These commands are for the locator support API. L, \lonlat2loc Convert Longitude and Latitude to Maidenhead square l, \loc2lonlat Convert Maidenhead square to Longitude and Latitude D, \dms2dec Convert Degrees, Minutes, Seconds to Decimal Degrees d, \dec2dms Convert Decimal Degrees to Degrees, Minutes, Seconds E, \dmmm2dec Convert Degrees, Decimal Minutes to Decimal Degrees e, \dec2dmmm Convert Decimal Degrees to Degrees, Decimal Minutes B, \qrb Compute distance and azimuth between Lon 1, Lat 1, and Lon 2, Lat 2 A, \a_sp2a_lp Compute Long Path Azimuth from Short Path Azimuth a, \d_sp2d_lp Compute Long Path Distance from Short Path Distance =cut