dahdi-linux/xpp/twinstar

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#! /usr/bin/perl -w
#
# Written by Oron Peled <oron@actcom.co.il>
# Copyright (C) 2007, Xorcom
# This program is free software; you can redistribute and/or
# modify it under the same terms as Perl itself.
#
# $Id$
#
use strict;
use File::Basename;
use Getopt::Std;
BEGIN { my $dir = dirname($0); unshift(@INC, "$dir", "$dir/perl_modules"); }
use Dahdi;
use Dahdi::Hardware;
use Dahdi::Span;
use Dahdi::Xpp;
use Dahdi::Xpp::Xbus;
use Dahdi::Xpp::Mpp;
$Getopt::Std::STANDARD_HELP_VERSION = 1;
$main::VERSION = '$Id$';
sub HELP_MESSAGE() {
eval(usage());
return 0;
}
sub usage {
die "Usage: $0 {status|jump|enable-wd|disable-wd|ports}\n";
}
our ($opt_v, $opt_x);
getopts('vx') || usage;
@ARGV == 1 or usage;
# Find USB bus toplevel
my $usb_top;
$usb_top = '/dev/bus/usb';
$usb_top = '/proc/bus/usb' unless -d $usb_top;
die "No USB toplevel found\n" unless -d $usb_top;
sub tws_devs() {
my @devs;
foreach my $dev (Dahdi::Hardware->device_list) {
next unless $dev->is_astribank;
next unless $dev->product =~ /116./;
push(@devs, $dev->hardware_name);
}
return @devs;
}
sub tws_usb_devfile($) {
my $name = shift || die;
# Remove prefix
if($name !~ s/usb://) {
die "$name is not a USB name\n";
}
return "$usb_top/$name";
}
sub tws_show(@) {
my @usb_devs = @_;
my $format = "%-15s %-10s %-15s %-10s %-10s\n";
printf $format, 'DEVICE', 'PORT', 'WATCHDOG', 'POWER0', 'POWER1';
foreach my $dev (@usb_devs) {
my $mppinfo = $dev->mppinfo;
if(!defined $mppinfo) {
printf STDERR "%s: no MPP information\n", $dev->hardware_name;
next;
}
if(!defined $mppinfo->{TWINSTAR_PORT}) {
printf STDERR "%s: no TWINSTAR_PORT information\n", $dev->hardware_name;
next;
}
my $power = $mppinfo->twinstar_power;
printf $format,
$dev->hardware_name,
$mppinfo->twinstar_port,
($mppinfo->twinstar_watchdog) ? "on" : "off",
($power->[0]) ? "yes" : "no",
($power->[1]) ? "yes" : "no";
}
}
sub tws_portnum($) {
my $dev = shift || die "Missing dev";
my $mppinfo = $dev->mppinfo;
if(!defined $mppinfo) {
printf STDERR "%s: no MPP information\n", $dev->hardware_name;
return undef;
}
return $mppinfo->twinstar_port;
}
sub tws_showports(@) {
my @usb_devs = @_;
foreach my $dev (@usb_devs) {
my $mppinfo = $dev->mppinfo;
if(!defined $mppinfo) {
printf STDERR "%s: no MPP information\n", $dev->hardware_name;
next;
}
if(!defined $mppinfo->{TWINSTAR_PORT}) {
printf STDERR "%s: no TWINSTAR_PORT information\n", $dev->hardware_name;
next;
}
printf "%s\n", $mppinfo->{TWINSTAR_PORT};
}
}
sub tws_watchdog($@) {
my $on = shift;
die "tws_watchdog() on/off?" unless defined $on;
my @usb_devs = @_;
foreach my $dev (@usb_devs) {
my $mppinfo = $dev->mppinfo;
if(!defined $mppinfo) {
printf STDERR "%s: no MPP information\n", $dev->hardware_name;
next;
}
$mppinfo->mpp_setwatchdog($on);
}
}
sub tws_jump(@) {
my @usb_devs = @_;
foreach my $dev (@usb_devs) {
my $mppinfo = $dev->mppinfo;
if(!defined $mppinfo) {
printf STDERR "%s: no MPP information\n", $dev->hardware_name;
next;
}
eval {
$mppinfo->mpp_jump;
};
warn $@ if $@;
}
}
sub dev_list() {
my @devs;
foreach my $dev (Dahdi::Hardware->device_list) {
next unless $dev->is_astribank;
next unless $dev->product =~ /116./;
Dahdi::Xpp::Mpp->mpp_addinfo($dev);
push(@devs, $dev);
}
return @devs;
}
my @usb_devices = dev_list();
if($ARGV[0] eq 'status') {
tws_show(@usb_devices);
} elsif($ARGV[0] eq 'jump') {
tws_jump(@usb_devices);
} elsif($ARGV[0] eq 'disable-wd') {
tws_watchdog(0, @usb_devices);
} elsif($ARGV[0] eq 'enable-wd') {
tws_watchdog(1, @usb_devices);
} elsif($ARGV[0] eq 'ports') {
tws_showports(@usb_devices);
} else {
usage;
}
__END__
=head1 NAME
twinstar - Control the Twinstar feature of a Xorcom Astribank
=head1 SYNOPSIS
twinstar {status|jump|enable-wd|disable-wd|ports}
=head1 DESCRIPTION
B<twinstar> is a tool to control the Twinstar (dual USB port) of a
Xorcom Astribank. There is a single and mandatory argument which is the
command to run. That command operates on all the Astribanks connected to
the system.
Technically all the commands are implemented using Dahdi::Xpp::Mpp which
in turn uses astribank_tool. Thus using thus tool will require root
permissions or otherwise read/write permissions to the USB device.
The twinstar may be in I<watchdog mode>, which means that it will jump
to the remote host if it loses contact with the local host. This can
happen if the machine is powered down or hangs or even if the xpp
drivers are unloaded. Which is why the standard twinstar scripts put the
Astribanks in twinstar mode on startup and remove it on normal shutdown.
An Astribank will only jump to the other host (either if asked
explicitly or by the watchdog) only if there is a different Astribank
connected to the other port and running. Which is why all of this has no
effect on systems that don't need this functionality.
The command are:
=head2 status
Shows the current status of all Astribanks. Note that it only shows
Astribanks whose current active USB port is the one connected to this
computer.
Example output:
DEVICE PORT WATCHDOG POWER0 POWER1
usb:001/010 0 on yes yes
usb:001/011 0 on yes yes
For each Astribank on the system that has Twinstar support we get:
=over 4
=item Device
The address of the device. This is the bus address, e.g. the address you
see in lsusb / dahdi_hardware.
=item Port
The active USB port on the Astribank. This should be always '0' on the
master and always 1 on the slave.
=item Watchdog
I<on> if the watchdog is triggered in the Atribank or I<off> otherwise.
=item Power0, Power1
Shows which ports of this Astribank are connected to a USB port of a
running computer. This only shows whether or not the USB host provides
power.
=back
=head2 ports
Shows the same 'Port' column of the B<status> command.
=head2 jump
Command all the Astribanks to jump to the other port. This works
regardless the watchdog mode is enabled or not. But requires that there
is power on the other port.
=head2 enable-wd
Enables watchdog mode.
=head2 disable-wd
Disables watchdog mode.
=head1 FILES
B<twinstar> mostly uses astribank_tool which in turn mostly uses USB
files under /dev/bus/usb .