package PVE::Storage::ZFSDirPlugin; use strict; use warnings; use IO::File; use POSIX; use PVE::Tools qw(run_command); use PVE::Storage::Plugin; use base qw(PVE::Storage::Plugin); sub type { return 'zfsdir'; } sub plugindata { return { content => [ { images => 1, rootdir => 1, vztmpl => 1, iso => 1, backup => 1}, { images => 1 }], }; } sub properties { return { blocksize => { description => "block size", type => 'string', }, sparse => { description => "use sparse volumes", type => 'boolean', }, }; } sub options { return { path => { fixed => 1 }, pool => { fixed => 1 }, blocksize => { optional => 1 }, sparse => { optional => 1 }, nodes => { optional => 1 }, disable => { optional => 1 }, maxfiles => { optional => 1 }, content => { optional => 1 }, }; } # static zfs helper methods sub zfs_parse_size { my ($text) = @_; return 0 if !$text; if ($text =~ m/^(\d+(\.\d+)?)([TGMK])?$/) { my ($size, $reminder, $unit) = ($1, $2, $3); if ($unit) { if ($unit eq 'K') { $size *= 1024; } elsif ($unit eq 'M') { $size *= 1024*1024; } elsif ($unit eq 'G') { $size *= 1024*1024*1024; } elsif ($unit eq 'T') { $size *= 1024*1024*1024*1024; } else { die "got unknown zfs size unit '$unit'\n"; } } if ($reminder) { $size = ceil($size); } return $size; } warn "unable to parse zfs size '$text'\n"; return 0; } sub zfs_parse_zvol_list { my ($text) = @_; my $list = (); return $list if !$text; my @lines = split /\n/, $text; foreach my $line (@lines) { if ($line =~ /^(.+)\s+([a-zA-Z0-9\.]+|\-)\s+(.+)$/) { my $zvol = {}; my @parts = split /\//, $1; my $name = pop @parts; my $pool = join('/', @parts); if ($pool !~ /^rpool$/) { next unless $name =~ m!^(\w+)-(\d+)-(\w+)-(\d+)$!; $name = $pool . '/' . $name; } else { next; } $zvol->{pool} = $pool; $zvol->{name} = $name; $zvol->{size} = zfs_parse_size($2); if ($3 !~ /^-$/) { $zvol->{origin} = $3; } push @$list, $zvol; } } return $list; } sub parse_volname { my ($class, $volname) = @_; if ($volname =~ m/^(((base|vm)-(\d+)-\S+)\/)?((base)?(vm)?-(\d+)-\S+)$/) { return ('images', $5, $8, $2, $4, $6); } die "unable to parse zfs volume name '$volname'\n"; } # virtual zfs methods (subclass can overwrite them) sub zfs_request { my ($class, $scfg, $timeout, $method, @params) = @_; $timeout = 5 if !$timeout; my $cmd = []; if ($method eq 'zpool_list') { push @$cmd = 'zpool', 'list'; } else { push @$cmd, 'zfs', $method; } push @$cmd, @params; my $msg = ''; my $output = sub { my $line = shift; $msg .= "$line\n"; }; run_command($cmd, outfunc => $output, timeout => $timeout); return $msg; } sub alloc_image { my ($class, $storeid, $scfg, $vmid, $fmt, $name, $size) = @_; die "unsupported format '$fmt'" if $fmt ne 'raw'; die "illegal name '$name' - sould be 'vm-$vmid-*'\n" if $name && $name !~ m/^vm-$vmid-/; $name = $class->zfs_find_free_diskname($storeid, $scfg, $vmid) if !$name; $class->zfs_create_zvol($scfg, $name, $size); return $name; } sub zfs_get_pool_stats { my ($class, $scfg) = @_; my $available = 0; my $used = 0; my $text = $class->zfs_request($scfg, undef, 'get', '-o', 'value', '-Hp', 'available,used', $scfg->{pool}); my @lines = split /\n/, $text; if($lines[0] =~ /^(\d+)$/) { $available = $1; } if($lines[1] =~ /^(\d+)$/) { $used = $1; } return ($available, $used); } sub zfs_get_zvol_size { my ($class, $scfg, $zvol) = @_; my $text = $class->zfs_request($scfg, undef, 'get', '-Hp', 'volsize', "$scfg->{pool}/$zvol"); if ($text =~ /volsize\s(\d+)/) { return $1; } die "Could not get zvol size"; } sub zfs_create_zvol { my ($class, $scfg, $zvol, $size) = @_; my $cmd = ['create']; push @$cmd, '-s' if $scfg->{sparse}; push @$cmd, '-b', $scfg->{blocksize} if $scfg->{blocksize}; push @$cmd, '-V', "${size}k", "$scfg->{pool}/$zvol"; $class->zfs_request($scfg, undef, @$cmd); } sub zfs_delete_zvol { my ($class, $scfg, $zvol) = @_; $class->zfs_request($scfg, undef, 'destroy', '-r', "$scfg->{pool}/$zvol"); } sub zfs_list_zvol { my ($class, $scfg) = @_; my $text = $class->zfs_request($scfg, 10, 'list', '-o', 'name,volsize,origin', '-t', 'volume', '-Hr'); my $zvols = zfs_parse_zvol_list($text); return undef if !$zvols; my $list = (); foreach my $zvol (@$zvols) { my @values = split('/', $zvol->{name}); my $image = pop @values; my $pool = join('/', @values); next if $image !~ m/^((vm|base)-(\d+)-\S+)$/; my $owner = $3; my $parent = $zvol->{origin}; if($zvol->{origin} && $zvol->{origin} =~ m/^$scfg->{pool}\/(\S+)$/){ $parent = $1; } $list->{$pool}->{$image} = { name => $image, size => $zvol->{size}, parent => $parent, format => 'raw', vmid => $owner }; } return $list; } sub zfs_find_free_diskname { my ($class, $storeid, $scfg, $vmid) = @_; my $name = undef; my $volumes = $class->zfs_list_zvol($scfg); my $disk_ids = {}; my $dat = $volumes->{$scfg->{pool}}; foreach my $image (keys %$dat) { my $volname = $dat->{$image}->{name}; if ($volname =~ m/(vm|base)-$vmid-disk-(\d+)/){ $disk_ids->{$2} = 1; } } for (my $i = 1; $i < 100; $i++) { if (!$disk_ids->{$i}) { return "vm-$vmid-disk-$i"; } } die "unable to allocate an image name for VM $vmid in storage '$storeid'\n"; } sub status { my ($class, $storeid, $scfg, $cache) = @_; my $total = 0; my $free = 0; my $used = 0; my $active = 0; eval { ($free, $used) = $class->zfs_get_pool_stats($scfg); $active = 1; $total = $free + $used; }; warn $@ if $@; return ($total, $free, $used, $active); } sub volume_size_info { my ($class, $scfg, $storeid, $volname, $timeout) = @_; return $class->zfs_get_zvol_size($scfg, $volname); } sub volume_snapshot { my ($class, $scfg, $storeid, $volname, $snap, $running) = @_; $class->zfs_request($scfg, undef, 'snapshot', "$scfg->{pool}/$volname\@$snap"); } sub volume_snapshot_delete { my ($class, $scfg, $storeid, $volname, $snap, $running) = @_; $class->zfs_request($scfg, undef, 'destroy', "$scfg->{pool}/$volname\@$snap"); } 1;