X-Git-Url: http://dxcluster.org/gitweb/gitweb.cgi?a=blobdiff_plain;f=cmd%2Fmrtg.pl;h=b0757ecfa1407796bcd15cf2772e04ec5968350a;hb=40366277043476e66d0e5daed1a7f0b36803dfec;hp=03a9edae3e393f69a0b56e20839ede2330aee576;hpb=f560010fd287184ea755233f751adba83defccaa;p=spider.git
diff --git a/cmd/mrtg.pl b/cmd/mrtg.pl
index 03a9edae..b0757ecf 100644
--- a/cmd/mrtg.pl
+++ b/cmd/mrtg.pl
@@ -4,7 +4,29 @@
#
# Your mrtg binary must live in one of the standard places
#
-# you will need perl 5.6 (probably) to be able to run this command
+# The arguments (keywords) to the mrtg command are these
+#
+# a) content (you always get the node users and nodes and data in/out)
+# proc - get the processor usage
+# agw - include the AGW stats separately
+# totalspots - all spots
+# hfvhf - all spots split into HF and VHF
+# wwv - two graphs of WWV, one SFI and R other A and K
+# wcy - WCY A and K
+# pc92 - PC92 C and K, PC92 A and D
+# all - all of the above
+#
+# b) actions
+# test - do everything except check for and run mrtg
+# nomrtg - ditto (better name)
+# dataonly - only generate the data files for mrtg
+# cfgonly - only generate the mrtg.cfg file (like cfgmaker)
+# runmrtg - run mrtg, this is probably used with dataonly
+# - together with a home rolled mrtg.cfg
+#
+# Copyright (c) 2002 Dirk Koopman G1TLH
+#
+#
#
my ($self, $line) = @_;
@@ -12,58 +34,137 @@ my ($self, $line) = @_;
# create the arg list
my %want;
for (split /\s+/, $line) { $want{lc $_} = 1};
-
-return (1, "MRTG not installed") unless $want{test} || -e '/usr/bin/mrtg' || -e '/usr/local/bin/mrtg';
+$want{nomrtg} = 1 if $want{cfgonly} || $want{test};
+
+return (1, "MRTG not installed") unless $want{nomrtg} || -e '/usr/bin/mrtg' || -e '/usr/local/bin/mrtg';
my $mc = new Mrtg or return (1, "cannot initialise Mrtg $!");
-
+
+# do Data in / out totals
+my $din = $Msg::total_in;
+my $dout = $Msg::total_out;
+unless ($want{agw}) {
+ $din += $AGWMsg::total_in;
+ $dout += $AGWMsg::total_out;
+}
+
+$mc->cfgprint('msg', [], 64000,
+ "Cluster Data in and out of $main::mycall",
+ 'Bytes / Sec', 'Bytes In', 'Bytes Out') unless $want{dataonly};
+$mc->data('msg', $din, $dout, "Data in and out of $main::mycall") unless $want{cfgonly};
+
+# do AGW stats if they apply
+if ($want{agw}) {
+ $mc->cfgprint('agw', [], 64000,
+ "AGW Data in and out of $main::mycall",
+ 'Bytes / Sec', 'Bytes In', 'Bytes Out') unless $want{dataonly};
+ $mc->data('agw', $AGWMsg::total_in, $AGWMsg::total_out, "AGW Data in and out of $main::mycall") unless $want{cfgonly};
+}
+
+if (!$main::is_win && ($want{proc} || $want{all})) {
+ $ENV{COLUMNS} = 250;
+ my $secs;
+ my $f = new IO::File "ps ax -ocputime,args |";
+# dbg("$f");
+ if ($f) {
+ while (<$f>) {
+ chomp;
+ my $l = $_;
+# dbg($l);
+ next unless $l =~ m{cluster\.pl$};
+ next if $l =~ m{bash\s+\-c};
+ my @f = split /\s+/, $l;
+# dbg("$f[9]");
+ my ($d, $h, $m, $s) = $f[0] =~ /(?:(\d+)-)?(\d+):(\d\d):(\d\d)$/;
+ $d ||= 0;
+ $secs = ($d * 86400) + ($h * 3600) + ($m * 60) + $s;
+ last;
+ }
+ $f->close;
+ }
+ if ($secs) {
+ $mc->cfgprint('proc', [qw(noo perminute)], 5*60,
+ "Processor Usage",
+ 'Proc Secs / min', 'Proc Secs', 'Proc Secs') unless $want{dataonly};
+ $mc->data('proc', $secs, $secs, "Processor Usage") unless $want{cfgonly};
+ }
+}
+
# do the users and nodes
my $users = DXChannel::get_all_users();
my $nodes = DXChannel::get_all_nodes();
-$mc->cfgprint('users', $users, $nodes, [qw(gauge)], 500,
- "Users and Nodes on $main::mycall",
- 'Users / Nodes', 'Users', 'Nodes');
+$mc->cfgprint('users', [qw(unknaszero gauge)], 500,
+ "Users and Nodes on $main::mycall",
+ 'Users / Nodes', 'Users', 'Nodes') unless $want{dataonly};
+$mc->data('users', $users, $nodes, 'Users / Nodes') unless $want{cfgonly};
# do the total users and nodes
if ($want{totalusers} || $want{all}) {
$nodes = Route::Node::count();
$users = Route::User::count();
- $mc->cfgprint('totalusers', $users, $nodes, [qw(gauge)], 10000,
- 'Total Users and Nodes in the Visible Cluster Network',
- 'Users / Nodes', 'Users', 'Nodes');
+ $mc->cfgprint('totalusers', [qw(unknaszero gauge)], 10000,
+ 'Total Users and Nodes in the Visible Cluster Network',
+ 'Users / Nodes', 'Users', 'Nodes') unless $want{dataonly};
+ $mc->data('totalusers', $users, $nodes, 'Total Users and Nodes in the Visible Cluster Network') unless $want{cfgonly};
}
# do the total spots
if ($want{totalspots} || $want{all}) {
- $mc->cfgprint('totalspots', $Spot::totalspots, $Spot::totalspots, [qw(unknaszero gauge noi)], 1000, 'Total Spots',
- 'Spots', 'Spots', 'Spots');
+ $mc->cfgprint('totalspots', [qw(unknaszero gauge noi)], 1000, 'Total Spots',
+ 'Spots / min', 'Spots', 'Spots') unless $want{dataonly};
+ $mc->data('totalspots', int ($Spot::totalspots/5+0.5), int($Spot::totalspots/5+0.5), 'Total Spots') unless $want{cfgonly};
$Spot::totalspots = 0;
}
# do the HF and VHF spots
if ($want{hfvhf} || $want{all}) {
- $mc->cfgprint('hfspots', $Spot::hfspots, $Spot::vhfspots, [qw(unknaszero gauge)], 1000, 'HF and VHF+ Spots',
- 'Spots', 'HF', 'VHF');
+ $mc->cfgprint('hfspots', [qw(unknaszero gauge)], 1000, 'HF and VHF+ Spots',
+ 'Spots / min', 'HF', 'VHF') unless $want{dataonly};
+ $mc->data('hfspots', int($Spot::hfspots/5+0.5), int($Spot::vhfspots/5+0.5), 'HF and VHF+ Spots') unless $want{cfgonly};
$Spot::hfspots = $Spot::vhfspots = 0;
}
# wwv stuff
if ($want{wwv} || $want{all}) {
- $mc->cfgprint('wwvsfi', $Geomag::r || $WCY::r, $Geomag::sfi || $WCY::sfi, [qw(gauge)], 1000, 'WWV SFI and R',
- 'SFI / R', 'SFI', 'R');
- $mc->cfgprint('wwvka', $Geomag::a, $Geomag::k, [qw(gauge)], 1000, 'WWV A and K',
- 'A / K', 'A', 'K');
+ $mc->cfgprint('wwvsfi', [qw(gauge)], 1000, 'WWV SFI and R', 'SFI / R', 'SFI', 'R') unless $want{dataonly};
+ $mc->data('wwvsfi', ($Geomag::sfi || $WCY::sfi), ($Geomag::r || $WCY::r), 'WWV SFI and R') unless $want{cfgonly};
+ $mc->cfgprint('wwvka', [qw(gauge)], 1000, 'WWV A and K',
+ 'A / K', 'A', 'K') unless $want{dataonly};
+ $mc->data('wwvka', $Geomag::a, $Geomag::k, 'WWV A and K') unless $want{cfgonly};
}
# WCY stuff
if ($want{wcy} || $want{all}) {
- $mc->cfgprint('wcyka', $WCY::a, $WCY::k, [qw(gauge)], 1000, 'WCY A and K',
- 'A / K', 'A', 'K');
+ $mc->cfgprint('wcyka', [qw(gauge)], 1000, 'WCY A and K',
+ 'A / K', 'A', 'K') unless $want{dataonly};
+ $mc->data('wcyka', $WCY::a, $WCY::k, 'WCY A and K') unless $want{cfgonly};
+}
+
+if ($want{pc92} || $want{all}) {
+
+ $mc->cfgprint('pc92ck', [], 1024000,
+ "PC92 C and K records into $main::mycall",
+ 'Bytes / Sec', 'C', 'K') unless $want{dataonly};
+ $mc->data('pc92ck', $DXProt::pc92Cin, $DXProt::pc92Kin, "PC92 C and K into $main::mycall") unless $want{cfgonly};
+# $DXProt::pc92Cin = $DXProt::pc92Kin = 0;
+
+ $mc->cfgprint('pc92ad', [], 1024000,
+ "PC92 A and D records into $main::mycall",
+ 'Bytes / Sec', 'A', 'D') unless $want{dataonly};
+ $mc->data('pc92ad', $DXProt::pc92Ain, $DXProt::pc92Din, "PC92 A and D into $main::mycall") unless $want{cfgonly};
+# $DXProt::pc92Ain = $DXProt::pc92Din = 0;
+
}
#
# do the mrtg thing
#
-my @out = $mc->run unless $want{test};
+
+my @out;
+{
+local %ENV;
+$ENV{LANG} = 'C';
+@out = $mc->run unless $want{nomrtg};
+}
return (1, @out);