-# Copyright (c) 2009,2010 Zmanda, Inc. All Rights Reserved.
+# Copyright (c) 2009-2012 Zmanda, Inc. All Rights Reserved.
#
# This library is free software; you can redistribute it and/or modify it
# under the terms of the GNU Lesser General Public License version 2.1 as
# as values. Each slot's hash has keys
# state - SLOT_FULL/SLOT_EMPTY/SLOT_UNKNOWN
# device_status - the status of the device
+# device_error - the error message of the device
# f_type - The f_type of the header
# label - volume label, if known
# barcode - volume barcode, if available
}
# status-interval, eject-delay, unload-delay
- for my $propname qw(status-interval eject-delay unload-delay) {
+ for my $propname (qw(status-interval eject-delay unload-delay)) {
next unless exists $config->{'properties'}->{$propname};
if (@{$config->{'properties'}->{$propname}->{'values'}} > 1) {
return Amanda::Changer->make_error("fatal", undef,
@check_order = (@{$self->{'driveorder'}});
} else {
# the constructor should detect this circumstance
- die "invalid drive_choice";
+ confess "invalid drive_choice";
}
my %checked;
step check_device => sub {
my $device_name = $self->{'drive2device'}->{$drive};
- die "drive $drive not found in drive2device" unless $device_name; # shouldn't happen
+ confess "drive $drive not found in drive2device" unless $device_name; # shouldn't happen
$self->_debug("polling '$device_name' to see if it's ready");
} elsif ($device->status & $DEVICE_STATUS_VOLUME_UNLABELED) {
$label = undef;
} else {
- return $self->make_error("fatal", $params{'res_cb'},
- message => "while waiting for '$device_name' to become ready: "
- . $device->error_or_status());
+ $label = undef;
}
# success!
# update metadata with this new information
$state->{'slots'}->{$slot}->{'state'} = Amanda::Changer::SLOT_FULL;
$state->{'slots'}->{$slot}->{'device_status'} = $device->status;
+ $state->{'slots'}->{$slot}->{'device_error'} = $device->error;
if (defined $device->{'volume_header'}) {
$state->{'slots'}->{$slot}->{'f_type'} = $device->{'volume_header'}->{type};
} else {
}
$state->{'slots'}->{$slot}->{'label'} = $label;
if ($state->{'slots'}->{$slot}->{'barcode'}) {
- $state->{'bc2lb'}->{$state->{'slots'}->{$slot}->{'barcode'}} = $label;
+ my $barcode = $state->{'slots'}->{$slot}->{'barcode'};
+ my $old_label = $state->{'bc2lb'}->{$barcode};
+ if ($label ne $old_label) {
+ $self->_debug("make_res: slot $slot");
+ $self->_debug("update label '$label' for barcode '$barcode', old label was '$old_label'");
+ }
+ $state->{'bc2lb'}->{$barcode} = $label;
}
return $self->make_error("failed", $params{'res_cb'},
# update metadata with this new information
$state->{'slots'}->{$slot}->{'state'} = Amanda::Changer::SLOT_FULL;
$state->{'slots'}->{$slot}->{'device_status'} = $device->status;
+ $state->{'slots'}->{$slot}->{'device_error'} = $device->error;
if (defined $device->{'volume_header'}) {
$state->{'slots'}->{$slot}->{'f_type'} = $device->{'volume_header'}->{type};
} else {
$state->{'drives'}->{$drive}->{'label'} = $label;
$state->{'drives'}->{$drive}->{'state'} = Amanda::Changer::SLOT_FULL;
$state->{'drives'}->{$drive}->{'barcode'} = $state->{'slots'}->{$slot}->{'barcode'};
- #$state->{'slots'}->{$slot}->{'device_status'} = 9;
- if ($label and $state->{'slots'}->{$slot}->{'barcode'}) {
- $state->{'bc2lb'}->{$state->{'slots'}->{$slot}->{'barcode'}} = $label;
+ $state->{'slots'}->{$slot}->{'device_status'} = $device->status;
+ my $barcode = $state->{'slots'}->{$slot}->{'barcode'};
+ if ($label and $barcode) {
+ my $old_label = $state->{'bc2lb'}->{$barcode};
+ if (defined $old_label and $old_label ne $label) {
+ $self->_debug("load drive $drive slot $slot");
+ $self->_debug("update label '$label' for barcode '$barcode', old label was '$old_label'");
+ }
+ $state->{'bc2lb'}->{$barcode} = $label;
}
if ($params{'set_current'}) {
- $self->_debug("setting current slot to $slot");
+ $self->_debug("setting current slot to $slot");
$state->{'current_slot'} = $slot;
}
$state->{'drives'}->{$drive}->{'label'} = $label;
if (defined $slot) {
- delete $state->{'slots'}->{$slot}->{'unkknown_state'};
$state->{'slots'}->{$slot}->{'state'} = Amanda::Changer::SLOT_FULL;
$state->{'slots'}->{$slot}->{'device_status'} = "".$dev->status;
+ if ($dev->status != $DEVICE_STATUS_SUCCESS) {
+ $state->{'slots'}->{$slot}->{'device_error'} = $dev->error;
+ } else {
+ $state->{'slots'}->{$slot}->{'device_error'} = undef;
+ }
my $volume_header = $dev->volume_header;
if (defined $volume_header) {
$state->{'slots'}->{$slot}->{'f_type'} = "".$volume_header->{type};
$state->{'slots'}->{$slot}->{'label'} = $label;
}
if (defined $barcode) {
+ if (defined $state->{'bc2lb'}->{$barcode} and
+ $state->{'bc2lb'}->{$barcode} ne $label) {
+ my $old_label = $state->{'bc2lb'}->{$barcode};
+ $self->_debug("update barcode '$barcode' to label '$label', old label was '$old_label'");
+ }
$state->{'bc2lb'}->{$barcode} = $label;
}
while (my ($sl, $inf) = each %{$state->{'slots'}}) {
if ($inf->{'label'} and $inf->{'label'} eq $label) {
delete $inf->{'device_status'};
+ delete $inf->{'device_error'};
delete $inf->{'f_type'};
delete $inf->{'label'};
}
if (!defined $state->{'slots'}->{$slot}->{'barcode'}) {
$state->{'slots'}->{$slot}->{'label'} = undef;
$state->{'slots'}->{$slot}->{'device_status'} = undef;
+ $state->{'slots'}->{$slot}->{'device_error'} = undef;
$state->{'slots'}->{$slot}->{'f_type'} = undef;
if (defined $state->{'slots'}->{$slot}->{'loaded_in'}) {
my $drive = $state->{'slots'}->{$slot}->{'loaded_in'};
$i->{'slot'} = $slot_name;
$i->{'state'} = $slot->{'state'};
$i->{'device_status'} = $slot->{'device_status'};
+ $i->{'device_error'} = $slot->{'device_error'};
$i->{'f_type'} = $slot->{'f_type'};
$i->{'label'} = $slot->{'label'};
$i->{'barcode'} = $slot->{'barcode'}
$new_slots->{$slot} = {
state => Amanda::Changer::SLOT_EMPTY,
device_status => undef,
+ device_error => undef,
f_type => undef,
label => undef,
barcode => undef,
$new_slots->{$slot} = {
state => Amanda::Changer::SLOT_FULL,
device_status => $state->{'slots'}->{$slot}->{device_status},
+ device_error => $state->{'slots'}->{$slot}->{device_error},
f_type => $state->{'slots'}->{$slot}->{f_type},
label => $label,
barcode => $info->{'barcode'},
$new_slots->{$slot} = {
state => Amanda::Changer::SLOT_FULL,
device_status => undef,
+ device_error => undef,
f_type => undef,
label => undef,
barcode => undef,
$state->{'slots'}->{$info->{'orig_slot'}} = {
state => $info->{'state'},
device_status => $old_state->{'device_status'},
+ device_error => $old_state->{'device_error'},
f_type => $old_state->{'f_type'},
label => $info->{'label'},
barcode => $info->{'barcode'},
synchronized($self->{'lock'}, $status_cb, sub {
my ($status_cb) = @_;
+ my ($counter) = 120;
+
+ my $sys_cb;
+ my $run_mtx = make_cb(run_mtx => sub {
+ my @nobarcode = ('nobarcode') if $self->{'ignore_barcodes'};
+ $self->_run_system_command($sys_cb,
+ $self->{'mtx'}, "-f", $self->{'device_name'}, @nobarcode,
+ 'status');
+ });
- my $sys_cb = make_cb(sys_cb => sub {
+ $sys_cb = make_cb(sys_cb => sub {
my ($exitstatus, $output) = @_;
if ($exitstatus != 0) {
my $err = $output;
# if it's a regular SCSI error, just show the sense key
my ($sensekey) = ($err =~ /mtx: Request Sense: Sense Key=(.*)\n/);
$err = "SCSI error; Sense Key=$sensekey" if $sensekey;
+ $counter--;
+ if ($sensekey eq "Not Ready" and $counter > 0) {
+ debug("$output");
+ return Amanda::MainLoop::call_after(1000, $run_mtx);
+ }
return $status_cb->("error from mtx: " . $err, {});
} else {
my %status;
for my $line (split '\n', $output) {
+ debug("mtx: $line");
my ($slot, $ie, $slinfo);
# drives (data transfer elements)
}
});
- my @nobarcode = ('nobarcode') if $self->{'ignore_barcodes'};
- $self->_run_system_command($sys_cb,
- $self->{'mtx'}, "-f", $self->{'device_name'}, @nobarcode, 'status');
+ $run_mtx->();
});
}
my ($readfd, $writefd) = POSIX::pipe();
if (!defined($writefd)) {
- die("Error creating pipe: $!");
+ confess("Error creating pipe: $!");
}
my $pid = fork();
if (!defined($pid) or $pid < 0) {
- die("Can't fork to run changer script: $!");
+ confess("Can't fork to run changer script: $!");
}
if (!$pid) {