package PVE::Storage::ZFSPoolPlugin; use strict; use warnings; use IO::File; use Net::IP; use POSIX; use PVE::ProcFSTools; use PVE::RPCEnvironment; use PVE::Storage::Plugin; use PVE::Tools qw(run_command); use base qw(PVE::Storage::Plugin); sub type { return 'zfspool'; } sub plugindata { return { content => [ {images => 1, rootdir => 1}, {images => 1 , rootdir => 1}], format => [ { raw => 1, subvol => 1 } , 'raw' ], }; } sub properties { return { blocksize => { description => "block size", type => 'string', }, sparse => { description => "use sparse volumes", type => 'boolean', }, mountpoint => { description => "mount point", type => 'string', format => 'pve-storage-path', }, }; } sub options { return { pool => { fixed => 1 }, blocksize => { optional => 1 }, sparse => { optional => 1 }, nodes => { optional => 1 }, disable => { optional => 1 }, content => { optional => 1 }, bwlimit => { optional => 1 }, mountpoint => { optional => 1 }, }; } # static zfs helper methods sub zfs_parse_zvol_list { my ($text) = @_; my $list = (); return $list if !$text; my @lines = split /\n/, $text; foreach my $line (@lines) { my ($dataset, $size, $origin, $type, $refquota) = split(/\s+/, $line); next if !($type eq 'volume' || $type eq 'filesystem'); my $zvol = {}; my @parts = split /\//, $dataset; next if scalar(@parts) < 2; # we need pool/name my $name = pop @parts; my $pool = join('/', @parts); next unless $name =~ m!^(vm|base|subvol|basevol)-(\d+)-(\S+)$!; $zvol->{owner} = $2; $zvol->{pool} = $pool; $zvol->{name} = $name; if ($type eq 'filesystem') { if ($refquota eq 'none') { $zvol->{size} = 0; } else { $zvol->{size} = $refquota + 0; } $zvol->{format} = 'subvol'; } else { $zvol->{size} = $size + 0; $zvol->{format} = 'raw'; } if ($origin !~ /^-$/) { $zvol->{origin} = $origin; } push @$list, $zvol; } return $list; } sub parse_volname { my ($class, $volname) = @_; if ($volname =~ m/^(((base|basevol)-(\d+)-\S+)\/)?((base|basevol|vm|subvol)-(\d+)-\S+)$/) { my $format = ($6 eq 'subvol' || $6 eq 'basevol') ? 'subvol' : 'raw'; my $isBase = ($6 eq 'base' || $6 eq 'basevol'); return ('images', $5, $7, $2, $4, $isBase, $format); } die "unable to parse zfs volume name '$volname'\n"; } # virtual zfs methods (subclass can overwrite them) sub on_add_hook { my ($class, $storeid, $scfg, %param) = @_; my $cfg_mountpoint = $scfg->{mountpoint}; # ignore failure, pool might currently not be imported my $mountpoint; eval { my $res = $class->zfs_get_properties($scfg, 'mountpoint', $scfg->{pool}, 1); $mountpoint = PVE::Storage::Plugin::verify_path($res, 1) if defined($res); }; if (defined($cfg_mountpoint)) { if (defined($mountpoint) && !($cfg_mountpoint =~ m|^\Q$mountpoint\E/?$|)) { warn "warning for $storeid - mountpoint: $cfg_mountpoint " . "does not match current mount point: $mountpoint\n"; } } else { $scfg->{mountpoint} = $mountpoint; } return; } sub path { my ($class, $scfg, $volname, $storeid, $snapname) = @_; my ($vtype, $name, $vmid) = $class->parse_volname($volname); my $path = ''; my $mountpoint = $scfg->{mountpoint} // "/$scfg->{pool}"; if ($vtype eq "images") { if ($name =~ m/^subvol-/ || $name =~ m/^basevol-/) { $path = "$mountpoint/$name"; } else { $path = "/dev/zvol/$scfg->{pool}/$name"; } $path .= "\@$snapname" if defined($snapname); } else { die "$vtype is not allowed in ZFSPool!"; } return ($path, $vmid, $vtype); } sub zfs_request { my ($class, $scfg, $timeout, $method, @params) = @_; my $cmd = []; if ($method eq 'zpool_list') { push @$cmd, 'zpool', 'list'; } elsif ($method eq 'zpool_import') { push @$cmd, 'zpool', 'import'; $timeout = 15 if !$timeout || $timeout < 15; } else { push @$cmd, 'zfs', $method; } push @$cmd, @params; my $msg = ''; my $output = sub { $msg .= "$_[0]\n" }; $timeout = PVE::RPCEnvironment->is_worker() ? 60*60 : 5 if !$timeout; run_command($cmd, errmsg => "zfs error", outfunc => $output, timeout => $timeout); return $msg; } sub zfs_wait_for_zvol_link { my ($class, $scfg, $volname, $timeout) = @_; my $default_timeout = PVE::RPCEnvironment->is_worker() ? 60*5 : 10; $timeout = $default_timeout if !defined($timeout); my ($devname, undef, undef) = $class->path($scfg, $volname); for (my $i = 1; $i <= $timeout; $i++) { last if -b $devname; die "timeout: no zvol device link for '$volname' found after $timeout sec found.\n" if $i == $timeout; sleep(1); } } sub alloc_image { my ($class, $storeid, $scfg, $vmid, $fmt, $name, $size) = @_; my $volname = $name; if ($fmt eq 'raw') { die "illegal name '$volname' - should be 'vm-$vmid-*'\n" if $volname && $volname !~ m/^vm-$vmid-/; $volname = $class->find_free_diskname($storeid, $scfg, $vmid, $fmt) if !$volname; $class->zfs_create_zvol($scfg, $volname, $size); $class->zfs_wait_for_zvol_link($scfg, $volname); } elsif ( $fmt eq 'subvol') { die "illegal name '$volname' - should be 'subvol-$vmid-*'\n" if $volname && $volname !~ m/^subvol-$vmid-/; $volname = $class->find_free_diskname($storeid, $scfg, $vmid, $fmt) if !$volname; die "illegal name '$volname' - should be 'subvol-$vmid-*'\n" if $volname !~ m/^subvol-$vmid-/; $class->zfs_create_subvol($scfg, $volname, $size); } else { die "unsupported format '$fmt'"; } return $volname; } sub free_image { my ($class, $storeid, $scfg, $volname, $isBase) = @_; my (undef, $name, undef) = $class->parse_volname($volname); $class->zfs_delete_zvol($scfg, $name); return undef; } sub list_images { my ($class, $storeid, $scfg, $vmid, $vollist, $cache) = @_; $cache->{zfs} = $class->zfs_list_zvol($scfg) if !$cache->{zfs}; my $zfspool = $scfg->{pool}; my $res = []; if (my $dat = $cache->{zfs}->{$zfspool}) { foreach my $image (keys %$dat) { my $info = $dat->{$image}; my $volname = $info->{name}; my $parent = $info->{parent}; my $owner = $info->{vmid}; if ($parent && $parent =~ m/^(\S+)\@__base__$/) { my ($basename) = ($1); $info->{volid} = "$storeid:$basename/$volname"; } else { $info->{volid} = "$storeid:$volname"; } if ($vollist) { my $found = grep { $_ eq $info->{volid} } @$vollist; next if !$found; } else { next if defined ($vmid) && ($owner ne $vmid); } push @$res, $info; } } return $res; } sub zfs_get_properties { my ($class, $scfg, $properties, $dataset, $timeout) = @_; my $result = $class->zfs_request($scfg, $timeout, 'get', '-o', 'value', '-Hp', $properties, $dataset); my @values = split /\n/, $result; return wantarray ? @values : $values[0]; } sub zfs_get_pool_stats { my ($class, $scfg) = @_; my $available = 0; my $used = 0; my @lines = $class->zfs_get_properties($scfg, 'available,used', $scfg->{pool}); if($lines[0] =~ /^(\d+)$/) { $available = $1; } if($lines[1] =~ /^(\d+)$/) { $used = $1; } return ($available, $used); } sub zfs_create_zvol { my ($class, $scfg, $zvol, $size) = @_; # always align size to 1M as workaround until # https://github.com/zfsonlinux/zfs/issues/8541 is solved my $padding = (1024 - $size % 1024) % 1024; $size = $size + $padding; 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, @$cmd); } sub zfs_create_subvol { my ($class, $scfg, $volname, $size) = @_; my $dataset = "$scfg->{pool}/$volname"; my $quota = $size ? "${size}k" : "none"; my $cmd = ['create', '-o', 'acltype=posixacl', '-o', 'xattr=sa', '-o', "refquota=${quota}", $dataset]; $class->zfs_request($scfg, undef, @$cmd); } sub zfs_delete_zvol { my ($class, $scfg, $zvol) = @_; my $err; for (my $i = 0; $i < 6; $i++) { eval { $class->zfs_request($scfg, undef, 'destroy', '-r', "$scfg->{pool}/$zvol"); }; if ($err = $@) { if ($err =~ m/^zfs error:(.*): dataset is busy.*/) { sleep(1); } elsif ($err =~ m/^zfs error:.*: dataset does not exist.*$/) { $err = undef; last; } else { die $err; } } else { last; } } die $err if $err; } sub zfs_list_zvol { my ($class, $scfg) = @_; my $text = $class->zfs_request($scfg, 10, 'list', '-o', 'name,volsize,origin,type,refquota', '-t', 'volume,filesystem', '-Hrp'); my $zvols = zfs_parse_zvol_list($text); return undef if !$zvols; my $list = (); foreach my $zvol (@$zvols) { my $pool = $zvol->{pool}; my $name = $zvol->{name}; my $parent = $zvol->{origin}; if($zvol->{origin} && $zvol->{origin} =~ m/^$scfg->{pool}\/(\S+)$/){ $parent = $1; } $list->{$pool}->{$name} = { name => $name, size => $zvol->{size}, parent => $parent, format => $zvol->{format}, vmid => $zvol->{owner}, }; } return $list; } sub zfs_get_sorted_snapshot_list { my ($class, $scfg, $volname, $sort_params) = @_; my @params = ('-H', '-r', '-t', 'snapshot', '-o', 'name', $sort_params->@*); my $vname = ($class->parse_volname($volname))[1]; push @params, "$scfg->{pool}\/$vname"; my $text = $class->zfs_request($scfg, undef, 'list', @params); my @snapshots = split(/\n/, $text); my $snap_names = []; for my $snapshot (@snapshots) { (my $snap_name = $snapshot) =~ s/^.*@//; push $snap_names->@*, $snap_name; } return $snap_names; } sub status { my ($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) = @_; my (undef, $vname, undef, undef, undef, undef, $format) = $class->parse_volname($volname); my $size = 0; my $used = 0; my $attr = $format eq 'subvol' ? 'refquota' : 'volsize,used,origin,name'; my @value = $class->zfs_get_properties($scfg, $attr, "$scfg->{pool}/$vname"); if ($value[0] =~ /^(\d+)$/) { $size = $1; } if ($value[0] =~ /^(\d+)$/) { $used = $1; } return wantarray ? ($size, $format,$used, 0, undef) : $size; #`die "Could not get zfs volume size\n"; } sub volume_snapshot { my ($class, $scfg, $storeid, $volname, $snap) = @_; my $vname = ($class->parse_volname($volname))[1]; $class->zfs_request($scfg, undef, 'snapshot', "$scfg->{pool}/$vname\@$snap"); } sub volume_snapshot_delete { my ($class, $scfg, $storeid, $volname, $snap, $running) = @_; my $vname = ($class->parse_volname($volname))[1]; $class->deactivate_volume($storeid, $scfg, $vname, $snap, {}); $class->zfs_request($scfg, undef, 'destroy', "$scfg->{pool}/$vname\@$snap"); } sub volume_snapshot_rollback { my ($class, $scfg, $storeid, $volname, $snap) = @_; my (undef, $vname, undef, undef, undef, undef, $format) = $class->parse_volname($volname); my $msg = $class->zfs_request($scfg, undef, 'rollback', "$scfg->{pool}/$vname\@$snap"); # we have to unmount rollbacked subvols, to invalidate wrong kernel # caches, they get mounted in activate volume again # see zfs bug #10931 https://github.com/openzfs/zfs/issues/10931 if ($format eq 'subvol') { eval { $class->zfs_request($scfg, undef, 'unmount', "$scfg->{pool}/$vname"); }; if (my $err = $@) { die $err if $err !~ m/not currently mounted$/; } } return $msg; } sub volume_rollback_is_possible { my ($class, $scfg, $storeid, $volname, $snap, $blockers) = @_; # can't use '-S creation', because zfs list won't reverse the order when the # creation time is the same second, breaking at least our tests. my $snapshots = $class->zfs_get_sorted_snapshot_list($scfg, $volname, ['-s', 'creation']); my $found; $blockers //= []; # not guaranteed to be set by caller for my $snapshot ($snapshots->@*) { if ($snapshot eq $snap) { $found = 1; } elsif ($found) { push $blockers->@*, $snapshot; } } my $volid = "${storeid}:${volname}"; die "can't rollback, snapshot '$snap' does not exist on '$volid'\n" if !$found; die "can't rollback, '$snap' is not most recent snapshot on '$volid'\n" if scalar($blockers->@*) > 0; return 1; } sub volume_snapshot_info { my ($class, $scfg, $storeid, $volname) = @_; my @params = ('-Hp', '-r', '-t', 'snapshot', '-o', 'name,guid,creation'); my $vname = ($class->parse_volname($volname))[1]; push @params, "$scfg->{pool}\/$vname"; my $text = $class->zfs_request($scfg, undef, 'list', @params); my @lines = split(/\n/, $text); my $info = {}; for my $line (@lines) { my ($snapshot, $guid, $creation) = split(/\s+/, $line); (my $snap_name = $snapshot) =~ s/^.*@//; $info->{$snap_name} = { id => $guid, timestamp => $creation, }; } return $info; } my sub dataset_mounted_heuristic { my ($dataset) = @_; my $mounts = PVE::ProcFSTools::parse_proc_mounts(); for my $mp (@$mounts) { my ($what, $dir, $fs) = $mp->@*; next if $fs ne 'zfs'; # check for root-dataset or any child-dataset (root-dataset could have 'canmount=off') # If any child is mounted heuristically assume that `zfs mount -a` was successful next if $what !~ m!^$dataset(?:/|$)!; return 1; } return 0; } sub activate_storage { my ($class, $storeid, $scfg, $cache) = @_; # Note: $scfg->{pool} can include dataset / my $dataset = $scfg->{pool}; my $pool = ($dataset =~ s!/.*$!!r); return 1 if dataset_mounted_heuristic($dataset); # early return my $pool_imported = sub { my @param = ('-o', 'name', '-H', $pool); my $res = eval { $class->zfs_request($scfg, undef, 'zpool_list', @param) }; warn "$@\n" if $@; return defined($res) && $res =~ m/$pool/; }; if (!$pool_imported->()) { # import can only be done if not yet imported! my @param = ('-d', '/dev/disk/by-id/', '-o', 'cachefile=none', $pool); eval { $class->zfs_request($scfg, undef, 'zpool_import', @param) }; if (my $err = $@) { # just could've raced with another import, so recheck if it is imported die "could not activate storage '$storeid', $err\n" if !$pool_imported->(); } } eval { $class->zfs_request($scfg, undef, 'mount', '-a') }; die "could not activate storage '$storeid', $@\n" if $@; return 1; } sub deactivate_storage { my ($class, $storeid, $scfg, $cache) = @_; return 1; } sub activate_volume { my ($class, $storeid, $scfg, $volname, $snapname, $cache) = @_; return 1 if defined($snapname); my (undef, $dataset, undef, undef, undef, undef, $format) = $class->parse_volname($volname); if ($format eq 'raw') { $class->zfs_wait_for_zvol_link($scfg, $volname); } elsif ($format eq 'subvol') { my $mounted = $class->zfs_get_properties($scfg, 'mounted', "$scfg->{pool}/$dataset"); if ($mounted !~ m/^yes$/) { $class->zfs_request($scfg, undef, 'mount', "$scfg->{pool}/$dataset"); } } return 1; } sub deactivate_volume { my ($class, $storeid, $scfg, $volname, $snapname, $cache) = @_; return 1; } sub clone_image { my ($class, $scfg, $storeid, $volname, $vmid, $snap) = @_; $snap ||= '__base__'; my ($vtype, $basename, $basevmid, undef, undef, $isBase, $format) = $class->parse_volname($volname); die "clone_image only works on base images\n" if !$isBase; my $name = $class->find_free_diskname($storeid, $scfg, $vmid, $format); if ($format eq 'subvol') { my $size = $class->zfs_request($scfg, undef, 'list', '-Hp', '-o', 'refquota', "$scfg->{pool}/$basename"); chomp($size); $class->zfs_request($scfg, undef, 'clone', "$scfg->{pool}/$basename\@$snap", "$scfg->{pool}/$name", '-o', "refquota=$size"); } else { $class->zfs_request($scfg, undef, 'clone', "$scfg->{pool}/$basename\@$snap", "$scfg->{pool}/$name"); } return "$basename/$name"; } sub create_base { my ($class, $storeid, $scfg, $volname) = @_; my $snap = '__base__'; my ($vtype, $name, $vmid, $basename, $basevmid, $isBase, $format) = $class->parse_volname($volname); die "create_base not possible with base image\n" if $isBase; my $newname = $name; if ( $format eq 'subvol' ) { $newname =~ s/^subvol-/basevol-/; } else { $newname =~ s/^vm-/base-/; } my $newvolname = $basename ? "$basename/$newname" : "$newname"; $class->zfs_request($scfg, undef, 'rename', "$scfg->{pool}/$name", "$scfg->{pool}/$newname"); my $running = undef; #fixme : is create_base always offline ? $class->volume_snapshot($scfg, $storeid, $newname, $snap, $running); return $newvolname; } sub volume_resize { my ($class, $scfg, $storeid, $volname, $size, $running) = @_; my $new_size = int($size/1024); my (undef, $vname, undef, undef, undef, undef, $format) = $class->parse_volname($volname); my $attr = $format eq 'subvol' ? 'refquota' : 'volsize'; # align size to 1M so we always have a valid multiple of the volume block size if ($format eq 'raw') { my $padding = (1024 - $new_size % 1024) % 1024; $new_size = $new_size + $padding; } $class->zfs_request($scfg, undef, 'set', "$attr=${new_size}k", "$scfg->{pool}/$vname"); return $new_size; } sub storage_can_replicate { my ($class, $scfg, $storeid, $format) = @_; return 1 if $format eq 'raw' || $format eq 'subvol'; return 0; } sub volume_has_feature { my ($class, $scfg, $feature, $storeid, $volname, $snapname, $running) = @_; my $features = { snapshot => { current => 1, snap => 1}, clone => { base => 1}, template => { current => 1}, copy => { base => 1, current => 1}, sparseinit => { base => 1, current => 1}, replicate => { base => 1, current => 1}, rename => {current => 1}, }; my ($vtype, $name, $vmid, $basename, $basevmid, $isBase) = $class->parse_volname($volname); my $key = undef; if ($snapname) { $key = 'snap'; } else { $key = $isBase ? 'base' : 'current'; } return 1 if $features->{$feature}->{$key}; return undef; } sub volume_export { my ($class, $scfg, $storeid, $fh, $volname, $format, $snapshot, $base_snapshot, $with_snapshots) = @_; die "unsupported export stream format for $class: $format\n" if $format ne 'zfs'; die "$class storage can only export snapshots\n" if !defined($snapshot); my $dataset = ($class->parse_volname($volname))[1]; my $fd = fileno($fh); die "internal error: invalid file handle for volume_export\n" if !defined($fd); $fd = ">&$fd"; # For zfs we always create a replication stream (-R) which means the remote # side will always delete non-existing source snapshots. This should work # for all our use cases. my $cmd = ['zfs', 'send', '-Rpv']; if (defined($base_snapshot)) { my $arg = $with_snapshots ? '-I' : '-i'; push @$cmd, $arg, $base_snapshot; } push @$cmd, '--', "$scfg->{pool}/$dataset\@$snapshot"; run_command($cmd, output => $fd); return; } sub volume_export_formats { my ($class, $scfg, $storeid, $volname, $snapshot, $base_snapshot, $with_snapshots) = @_; my @formats = ('zfs'); # TODOs: # push @formats, 'fies' if $volname !~ /^(?:basevol|subvol)-/; # push @formats, 'raw' if !$base_snapshot && !$with_snapshots; return @formats; } sub volume_import { my ($class, $scfg, $storeid, $fh, $volname, $format, $snapshot, $base_snapshot, $with_snapshots, $allow_rename) = @_; die "unsupported import stream format for $class: $format\n" if $format ne 'zfs'; my $fd = fileno($fh); die "internal error: invalid file handle for volume_import\n" if !defined($fd); my (undef, $dataset, $vmid) = $class->parse_volname($volname); my $zfspath = "$scfg->{pool}/$dataset"; my $suffix = defined($base_snapshot) ? "\@$base_snapshot" : ''; my $exists = 0 == run_command(['zfs', 'get', '-H', 'name', $zfspath.$suffix], noerr => 1, quiet => 1); if (defined($base_snapshot)) { die "base snapshot '$zfspath\@$base_snapshot' doesn't exist\n" if !$exists; } elsif ($exists) { die "volume '$zfspath' already exists\n" if !$allow_rename; warn "volume '$zfspath' already exists - importing with a different name\n"; $dataset = $class->find_free_diskname($storeid, $scfg, $vmid, $format); $zfspath = "$scfg->{pool}/$dataset"; } eval { run_command(['zfs', 'recv', '-F', '--', $zfspath], input => "<&$fd") }; if (my $err = $@) { if (defined($base_snapshot)) { eval { run_command(['zfs', 'rollback', '-r', '--', "$zfspath\@$base_snapshot"]) }; } else { eval { run_command(['zfs', 'destroy', '-r', '--', $zfspath]) }; } die $err; } return "$storeid:$dataset"; } sub volume_import_formats { my ($class, $scfg, $storeid, $volname, $snapshot, $base_snapshot, $with_snapshots) = @_; return $class->volume_export_formats($scfg, $storeid, $volname, $snapshot, $base_snapshot, $with_snapshots); } sub rename_volume { my ($class, $scfg, $storeid, $source_volname, $target_vmid, $target_volname) = @_; my ( undef, $source_image, $source_vmid, $base_name, $base_vmid, undef, $format ) = $class->parse_volname($source_volname); $target_volname = $class->find_free_diskname($storeid, $scfg, $target_vmid, $format) if !$target_volname; my $pool = $scfg->{pool}; my $source_zfspath = "${pool}/${source_image}"; my $target_zfspath = "${pool}/${target_volname}"; my $exists = 0 == run_command(['zfs', 'get', '-H', 'name', $target_zfspath], noerr => 1, quiet => 1); die "target volume '${target_volname}' already exists\n" if $exists; $class->zfs_request($scfg, 5, 'rename', ${source_zfspath}, ${target_zfspath}); $base_name = $base_name ? "${base_name}/" : ''; return "${storeid}:${base_name}${target_volname}"; } 1;