s390-tools/mkdump.pl

580 lines
13 KiB
Perl

#!/usr/bin/perl
########################################################################
#
# mkdump.pl - Preparing disks for use as S/390 dump device
#
# Copyright (c) 2011 Tim Hardeck, SUSE LINUX Products GmbH
# Copyright (c) 2017 SUSE LINUX GmbH, Nuernberg, Germany.
# Based on mkdump.sh (c) 2004 Hannes Reinecke, SuSE AG
#
# License:
#
# 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
#
########################################################################
use strict;
use warnings;
use Fcntl;
use Getopt::Long;
my $VERSION = "2.0.3";
my $BLKID = "/sbin/blkid";
my $PARTED = "/usr/sbin/parted";
my $FDASD = "/sbin/fdasd";
my $DASDVIEW = "/sbin/dasdview";
my $DASDFMT = "/sbin/dasdfmt";
my $ZIPL = "/sbin/zipl";
my $UDEVADM = "/sbin/udevadm";
my $ZGETDUMP = "/sbin/zgetdump";
# temporary DASD device configuration file for Zipl
my $MDPATH = "/tmp/mvdump.conf";
# zFCP dump dir, without a leading '/'
my $ZFCP_DUMP_DIR = "mydumps";
my $OPT_DEBUG = 0;
my $OPT_FORCE = 0;
my $OPT_VERBOSE = 0;
sub cleanup
{
# DASD
if (-e $MDPATH) {
system("rm -f $MDPATH");
}
}
sub exit_with
{
my $message = shift();
my $exitcode = shift();
print STDERR "$message Exiting...\n";
cleanup();
# fdasd isn't able to create volume label interactively
# could be fixed with a reformat
if ($exitcode == 65280) {
$exitcode = 12;
}
# bigger exit codes are not supported
if ($exitcode > 255) {
$exitcode = 255;
}
exit($exitcode);
}
sub run_cmd
{
my $cmd = shift();
my $output = "";
if (! $OPT_DEBUG) {
my ($app) = $cmd =~ /\/(\w+) /;
# run command
$output = `$cmd`;
my $exit_code = $?;
# wait for udev to finish processing
system("$UDEVADM settle");
# only print output in case of an error or in verbose mode
if ($output and ($exit_code != 0 or $OPT_VERBOSE)) {
print("$output\n");
}
if ($exit_code != 0) {
exit_with("$app failed with exit code $exit_code", $exit_code);
}
} else {
# only print the command in debug mode
print("\`$cmd\`\n");
}
return($output);
}
sub check_paths
{
for my $path ($BLKID, $PARTED, $FDASD, $DASDVIEW, $DASDFMT, $ZIPL, $UDEVADM, $ZGETDUMP) {
unless ( -x $path) {
exit_with("Command $path is not available.", 13);
}
}
}
sub read_file
{
my $path = shift();
open(my $file, "<", "$path") or exit_with("Unable to access $path: $!.", 15);
my @content = <$file>;
close($file);
# no need for arrays in case of single lines
if (@content > 1) {
return @content;
} else {
chomp($content[0]);
return($content[0]);
}
}
sub is_dasd
{
# remove leading /dev/
my $device = substr(shift(), 5);
if (-r "/sys/block/$device/device/discipline") {
return(1);
} else {
return(0);
}
}
sub is_zfcp
{
# remove leading /dev/
my $device = substr(shift(), 5);
my $devpath = "/sys/block/$device/device";
unless (-r "$devpath/hba_id" or -r "$devpath/type") {
return(0);
}
my $devtype = read_file("$devpath/type");
# SCSI type '0' means disk
if ($devtype == 0) {
return(1);
} else {
return(0);
}
}
sub get_partition_num
{
# remove leading /dev/
my $device = substr(shift, 5);
my $part_num = grep(/\s+$device\d+/, read_file("/proc/partitions"));
return($part_num);
}
sub print_device
{
my $device = shift();
my $only_dump_disks = shift();
my $devpath = "/sys/block/" . substr($device, 5);
my $output = $device;
my $dump_device = 0;
my $size = int(read_file("$devpath/size") / 2048); # 512 Byte blocks
# size can't be read this way in case of unformatted devices
if ($size != 0) {
$output .= "\t${size}MB";
} else {
$output .= "\tunknown";
}
if (is_dasd($device)) {
my ($busid) = readlink("$devpath/device") =~ /(\w\.\w\.\w{4})/;
$output .= "\t$busid";
# check for dump record and list multi volumes
my $zgetdump_output = `$ZGETDUMP -d $device 2>&1`;
my @dump_devs = $zgetdump_output =~ /(\w\.\w\.\w{4})/g;
if (@dump_devs) {
$dump_device = 1;
$output .= "\tdumpdevice";
# no need to output the dump ids for a single device
if (@dump_devs > 1) {
for my $id (@dump_devs) {
$output .= "|$id";
}
}
} else {
# check for single volume dump devices
if ($zgetdump_output =~ /Single-volume DASD dump tool/) {
$dump_device = 1;
$output .= "\tdumpdevice";
}
}
} else {
my $adapter = read_file("$devpath/device/hba_id");
my $wwpn = read_file("$devpath/device/wwpn");
my $lun = read_file("$devpath/device/fcp_lun");
$output .= "\t$adapter\t$wwpn\t$lun";
# check for dump record
my $zgetdump = `$ZGETDUMP -d $device 2>&1`;
if ($? == 0) {
my ($dsize) = ($zgetdump =~ /Maximum dump size\.:\s+([0-9]+) MB/m);
$dsize = $size unless (defined($dsize));
$output = "$device\t${dsize}MB\t$adapter\t$wwpn\t$lun\tdumpdevice";
$dump_device = 1;
}
}
if ($only_dump_disks) {
if ($dump_device) {
print("$output\n");
}
} else {
print("$output\n");
}
}
sub list_free_disks
{
my $devices_ref = shift();
my $type = shift();
if (@$devices_ref) {
for my $device (@$devices_ref) {
print_device($device);
}
} else {
print STDERR "No free $type devices available!\n";
}
}
sub list_dump_disks
{
my @devices = @_;
if (@devices) {
for my $device (@devices) {
print_device($device, 1);
}
} else {
print STDERR "No dump devices available!\n";
}
}
sub determine_free_disks
{
my @dasd;
my @zfcp;
my @devices;
# gather block devices
my $path="/sys/block/";
opendir(DIR, $path) or exit_with("Unable to find $path: $!", 15);
while (defined(my $file = readdir(DIR))) {
# no need to add other devices then dasd* or sd*
if ($file =~ /^dasd[a-z]+$/ or $file =~ /^sd[a-z]+$/) {
push(@devices, $file);
}
}
closedir(DIR);
for my $entry (@devices) {
# only allow disks, no partitions
my ($device) = $entry =~ /^([a-z]+)$/;
next unless ($device);
$device = "/dev/$device";
# determine if the block device could be accessed exclusively
if(-b $device and sysopen(my $blockdev, $device, O_RDWR|O_EXCL)) {
close($blockdev);
if (is_dasd($device)) {
push(@dasd, $device);
}
if (is_zfcp($device)) {
push(@zfcp, $device);
}
}
# wait for udev to process all events triggered by sysopen(,O_EXCL)
system("$UDEVADM settle");
}
return(\@dasd, \@zfcp);
}
sub prepare_dasd
{
my @devices = @_;
my $format_disks = "";
# check formatting
for my $device (@devices) {
# determine disk layout
my ($fmtstr) = `$DASDVIEW -x $device` =~ /(\w\w\w) formatted/;
SWITCH:
for($fmtstr) {
if (/NOT/) {
print("Unformatted disk, formatting $device.\n");
$format_disks .= " $device";
last SWITCH;
}
if (/LDL/) {
if ($OPT_FORCE) {
print("Linux disk layout, reformatting $device.\n");
$format_disks .= " $device";
} else {
print("$device was formatted with the Linux disk layout.\n");
print("Unable to use it without reformatting.\n");
exit_with("Re-issue the mkdump command with the --force option.", 12);
}
last SWITCH;
}
if (/CDL/) {
# allow reformatting with force, since fdasd isn't able to create volume label interactively
if ($OPT_FORCE) {
print("Compatible disk layout, force reformatting $device.\n");
$format_disks .= " $device";
} else {
print("$device: Compatible disk layout, Ok to use.\n");
}
last SWITCH;
}
exit_with("Unknown layout ($fmtstr), cannot use disk.", 11);
}
}
# format devices
if ($format_disks) {
#up to eight devices in parallel
run_cmd("$DASDFMT -P 8 -b 4096 -y -f $format_disks");
}
# check partitioning and partition
for my $device (@devices) {
my $part_num = get_partition_num($device);
if ($part_num == 0 or $OPT_FORCE) {
print("Re-partitioning disk $device.\n");
run_cmd("$FDASD -a $device");
} else {
# allow disk with one partition if it don't consist a file system
if ($part_num == 1) {
my ($fstype) = `$BLKID ${device}1` =~ /TYPE=\"(\w+)\"/;
if ($fstype) {
exit_with("Device ${device}1 already contains a filesystem of type $fstype.", 12);
}
} else {
exit_with("$part_num partitions detected, cannot use disk $device.", 12);
}
}
}
}
sub setup_dasddump
{
my @devices = @_;
prepare_dasd(@devices);
# create zipl device configuration file
my $md_path = "/tmp/mvdump.conf";
# don't create files in debug mode
unless ($OPT_DEBUG) {
open(my $file, ">", $md_path) or exit_with("Unable to access $md_path: $!.", 15);
for my $device (@devices) {
print{$file}("${device}1\n");
}
close($file);
}
print("Creating dump record.\n");
run_cmd("${ZIPL} -V -n -M $md_path");
cleanup();
}
sub setup_zfcpdump
{
my $device = shift();
# check partitioning
my $part_num = get_partition_num($device);
if ($part_num == 0 or $OPT_FORCE) {
print("Re-partitioning disk $device.\n");
run_cmd("$PARTED -s -- $device mklabel gpt mkpart primary 0 -1");
} else {
if ($part_num > 1) {
exit_with("$part_num partitions detected, cannot use disk $device.", 12);
}
}
# install bootloader
print("Creating dump record.\n");
run_cmd("${ZIPL} -V -d ${device}1");
cleanup();
}
sub print_version
{
print << "EOF";
mkdump $VERSION
Copyright (c) 2011 SUSE LINUX Products GmbH
License GPLv2 or (at your option) any later version.
<http://www.gnu.org/licenses/gpl-2.0.html>
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.
Written by Tim Hardeck <thardeck\@suse.de>.
EOF
exit(0);
}
sub print_usage
{
my $exitcode = shift();
print << "EOF";
Usage: mkdump [OPTIONS] [DEVICE]...
mkdump $VERSION
Prepare one or more volumes for use as S/390 dump device. Supported devices
are ECKD DASD and SCSI over zFCP disks, while multi-volumes are limited to DASD.
Only whole disks can be used, no partitions! If the device is incompatible
formatted/partioned, the script will refuse to install the dump record
unless the --force switch is given.
Disks which are in use or have mounted partitions will not be listed and can't be used.
The mentioning of "dumpdevice" after a disk indicates that it is an already usable dump device. Additionally multi-volume dump devices are indicated by the list of including DASD ids.
Options:
-h, --help display this help and exit
-V, --version display version information and exit
-d, --debug debug mode, do not run programs which commit changes
-v, --verbose be verbose and show command outputs
-f, --force force overwrite of the disk
-l, --list-dump display dump disks
-D, --list-dasd display usable DASD disks (Device, Size, ID, Dump)
-Z, --list-zfcp display usable SCSI over zFCP disks (Device, Size, ID, WWPN, LUN, Dump)
Report bugs on https://bugzilla.novell.com/
EOF
exit($exitcode);
}
sub analyze_cmd_parameters
{
#verbose, debug and force are global
my $opt_help = 0;
my $opt_version = 0;
my $opt_dump = 0;
my $opt_dasd = 0;
my $opt_zfcp = 0;
if (@ARGV == 0) {
print_usage(14);
}
Getopt::Long::Configure('bundling');
GetOptions(
'h|help' => \$opt_help,
'V|version' => \$opt_version,
'd|debug' => \$OPT_DEBUG,
'v|verbose' => \$OPT_VERBOSE,
'f|force' => \$OPT_FORCE,
'l|list-dump' => \$opt_dump,
'D|list-dasd' => \$opt_dasd,
'Z|list-zfcp' => \$opt_zfcp,
) or print_usage(14);
if ($opt_help) {
print_usage(0);
}
if ($opt_version) {
print_version();
}
# determine free dasd and zfcp devices
my ($dasd_ref, $zfcp_ref) = determine_free_disks();
if ($opt_dump) {
list_dump_disks(@$dasd_ref, @$zfcp_ref);
exit 0;
}
if ($opt_dasd) {
list_free_disks(\@$dasd_ref, "dasd");
}
if ($opt_zfcp) {
list_free_disks(\@$zfcp_ref, "zfcp");
}
# allow listing of both device types at the same time
if ($opt_dasd or $opt_zfcp) {
exit 0;
}
# check provided devices and be strict
my @devices;
for my $device (@ARGV) {
if (grep(/$device/, @devices)) {
exit_with("$device is mentioned more than once.", 14);
}
if ( $device =~ /^\/dev\/[a-z]+$/ == 0) {
exit_with("The device parameter $device is inaccurate. Only whole disks are allowed.", 14);
}
if (grep(/$device/, (@$dasd_ref, @$zfcp_ref))) {
if (is_zfcp($device) and @ARGV > 1) {
exit_with("Multi-volume dumps aren't supported with zFCP.", 14);
}
push(@devices, $device);
} else {
if (-b $device) {
exit_with("$device is in use or not a DASD/zFCP disk!", 14);
} else {
exit_with("$device does not exist!", 14);
}
}
}
if (@devices == 0) {
exit_with("No usable devices where provided.", 14);
}
return(@devices);
}
sub main
{
check_paths();
my @devices = analyze_cmd_parameters();
# only one dump device is possible with zFCP which is enforced in analyze_cmd_parameters
if (is_zfcp($devices[0])) {
setup_zfcpdump($devices[0]);
} else {
setup_dasddump(@devices);
}
print("Creating the dump device was successful.\n");
}
main();