use Data::Dumper;
use Digest::SHA;
use PVE::INotify;
+use PVE::JSONSchema qw(get_standard_option);
use PVE::Cluster;
use PVE::ProcFSTools;
use PVE::Tools;
use PVE::Tools qw(run_command lock_file);
use Encode;
+my $hostfw_conf_filename = "/etc/pve/local/host.fw";
+my $clusterfw_conf_filename = "/etc/pve/firewall/cluster.fw";
+
# dynamically include PVE::QemuServer and PVE::OpenVZ
# to avoid dependency problems
my $have_qemu_server;
'address-mask-reply' => 1,
};
-sub get_firewall_macros {
-
- return $pve_fw_parsed_macros if $pve_fw_parsed_macros;
+sub init_firewall_macros {
$pve_fw_parsed_macros = {};
foreach my $k (keys %$pve_fw_macros) {
- my $name = lc($k);
-
- my $macro = $pve_fw_macros->{$k};
- $pve_fw_preferred_macro_names->{$name} = $k;
- $pve_fw_parsed_macros->{$name} = $macro;
+ my $lc_name = lc($k);
+ my $macro = $pve_fw_macros->{$k};
+ $pve_fw_preferred_macro_names->{$lc_name} = $k;
+ $pve_fw_parsed_macros->{$k} = $macro;
}
-
- return $pve_fw_parsed_macros;
}
+init_firewall_macros();
+
my $etc_services;
sub get_etc_services {
return ($nbports);
}
+PVE::JSONSchema::register_format('pve-fw-port-spec', \&pve_fw_verify_port_spec);
+sub pve_fw_verify_port_spec {
+ my ($portstr) = @_;
+
+ parse_port_name_number_or_range($portstr);
+
+ return $portstr;
+}
+
+PVE::JSONSchema::register_format('pve-fw-v4addr-spec', \&pve_fw_verify_v4addr_spec);
+sub pve_fw_verify_v4addr_spec {
+ my ($list) = @_;
+
+ parse_address_list($list);
+
+ return $list;
+}
+
+PVE::JSONSchema::register_format('pve-fw-protocol-spec', \&pve_fw_verify_protocol_spec);
+sub pve_fw_verify_protocol_spec {
+ my ($proto) = @_;
+
+ my $protocols = get_etc_protocols();
+
+ die "unknown protocol '$proto'\n" if $proto &&
+ !(defined($protocols->{byname}->{$proto}) ||
+ defined($protocols->{byid}->{$proto}));
+
+ return $proto;
+}
+
+
# helper function for API
+
+my $rule_properties = {
+ pos => {
+ description => "Update rule at position <pos>.",
+ type => 'integer',
+ minimum => 0,
+ optional => 1,
+ },
+ digest => {
+ type => 'string',
+ optional => 1,
+ maxLength => 27,
+ minLength => 27,
+ },
+ type => {
+ type => 'string',
+ optional => 1,
+ enum => ['in', 'out', 'group'],
+ },
+ action => {
+ type => 'string',
+ optional => 1,
+ enum => ['ACCEPT', 'DROP', 'REJECT'],
+ },
+ macro => {
+ type => 'string',
+ optional => 1,
+ maxLength => 128,
+ },
+ iface => get_standard_option('pve-iface', { optional => 1 }),
+ source => {
+ type => 'string', format => 'pve-fw-v4addr-spec',
+ optional => 1,
+ },
+ dest => {
+ type => 'string', format => 'pve-fw-v4addr-spec',
+ optional => 1,
+ },
+ proto => {
+ type => 'string', format => 'pve-fw-protocol-spec',
+ optional => 1,
+ },
+ enable => {
+ type => 'boolean',
+ optional => 1,
+ },
+ sport => {
+ type => 'string', format => 'pve-fw-port-spec',
+ optional => 1,
+ },
+ dport => {
+ type => 'string', format => 'pve-fw-port-spec',
+ optional => 1,
+ },
+ comment => {
+ type => 'string',
+ optional => 1,
+ },
+};
+
sub cleanup_fw_rule {
my ($rule, $digest, $pos) = @_;
my $r = {};
foreach my $k (keys %$rule) {
- next if $k eq 'nbdport';
- next if $k eq 'nbsport';
+ next if !$rule_properties->{$k};
my $v = $rule->{$k};
next if !defined($v);
$r->{$k} = $v;
return $r;
}
+sub add_rule_properties {
+ my ($properties) = @_;
+
+ foreach my $k (keys %$rule_properties) {
+ $properties->{$k} = $rule_properties->{$k};
+ }
+
+ return $properties;
+}
+
+sub copy_rule_data {
+ my ($rule, $param) = @_;
+
+ foreach my $k (keys %$rule_properties) {
+ if (defined(my $v = $param->{$k})) {
+ if ($v eq '' || $v eq '-') {
+ delete $rule->{$k};
+ } else {
+ $rule->{$k} = $v;
+ }
+ } else {
+ delete $rule->{$k};
+ }
+ }
+ return $rule;
+}
+
+# core functions
my $bridge_firewall_enabled = 0;
sub enable_bridge_firewall {
my $rule_format = "%-15s %-30s %-30s %-15s %-15s %-15s\n";
-sub iptables {
- my ($cmd) = @_;
+sub iptables_restore_cmdlist {
+ my ($cmdlist) = @_;
- run_command("/sbin/iptables $cmd", outfunc => sub {}, errfunc => sub {});
+ run_command("/sbin/iptables-restore -n", input => $cmdlist);
}
-sub iptables_restore_cmdlist {
+sub ipset_restore_cmdlist {
my ($cmdlist) = @_;
- run_command("/sbin/iptables-restore -n", input => $cmdlist);
+ run_command("/usr/sbin/ipset restore", input => $cmdlist);
}
sub iptables_get_chains {
return 1 if $name =~ m/^venet0-\d+-(:?IN|OUT)$/;
- return 1 if $name =~ m/^vmbr\d+-(:?FW|IN|OUT)$/;
+ return 1 if $name =~ m/^vmbr\d+-(:?FW|IN|OUT|IPS)$/;
return 1 if $name =~ m/^GROUP-(:?[^\s\-]+)-(:?IN|OUT)$/;
return undef;
my $table = '';
+ my $hooks = {};
+
my $parser = sub {
my $line = shift;
my ($chain, $sig) = ($1, $2);
return if !&$is_pvefw_chain($chain);
$res->{$chain} = $sig;
+ } elsif ($line =~ m/^-A\s+(INPUT|OUTPUT|FORWARD)\s+-j\s+PVEFW-\1$/) {
+ $hooks->{$1} = 1;
} else {
# simply ignore the rest
return;
run_command("/sbin/iptables-save", outfunc => $parser);
- return $res;
+ return wantarray ? ($res, $hooks) : $res;
}
-sub iptables_chain_exist {
- my ($chain) = @_;
+sub iptables_chain_digest {
+ my ($rules) = @_;
+ my $digest = Digest::SHA->new('sha1');
+ foreach my $rule (@$rules) { # order is important
+ $digest->add($rule);
+ }
+ return $digest->b64digest;
+}
- eval{
- iptables("-n --list $chain");
- };
- return undef if $@;
+sub ipset_chain_digest {
+ my ($rules) = @_;
- return 1;
+ my $digest = Digest::SHA->new('sha1');
+ foreach my $rule (sort @$rules) { # note: sorted
+ $digest->add($rule);
+ }
+ return $digest->b64digest;
}
-sub iptables_rule_exist {
- my ($rule) = @_;
+sub ipset_get_chains {
+
+ my $res = {};
+ my $chains = {};
- eval{
- iptables("-C $rule");
+ my $parser = sub {
+ my $line = shift;
+
+ return if $line =~ m/^#/;
+ return if $line =~ m/^\s*$/;
+ if ($line =~ m/^(?:\S+)\s(\S+)\s(?:\S+).*/) {
+ my $chain = $1;
+ $line =~ s/\s+$//; # delete trailing white space
+ push @{$chains->{$chain}}, $line;
+ } else {
+ # simply ignore the rest
+ return;
+ }
};
- return undef if $@;
- return 1;
+ run_command("/usr/sbin/ipset save", outfunc => $parser);
+
+ # compute digest for each chain
+ foreach my $chain (keys %$chains) {
+ $res->{$chain} = ipset_chain_digest($chains->{$chain});
+ }
+
+ return $res;
}
sub ruleset_generate_cmdstr {
my ($ruleset, $chain, $rule, $actions, $goto) = @_;
- return if $rule->{disable};
+ return if defined($rule->{enable}) && !$rule->{enable};
+
+ die "unable to emit macro - internal error" if $rule->{macro}; # should not happen
+
+ my $nbdport = defined($rule->{dport}) ? parse_port_name_number_or_range($rule->{dport}) : 0;
+ my $nbsport = defined($rule->{sport}) ? parse_port_name_number_or_range($rule->{sport}) : 0;
+ my $nbsource = $rule->{source} ? parse_address_list( $rule->{source}) : 0;
+ my $nbdest = $rule->{dest} ? parse_address_list($rule->{dest}) : 0;
my @cmd = ();
push @cmd, "-i $rule->{iface_in}" if $rule->{iface_in};
push @cmd, "-o $rule->{iface_out}" if $rule->{iface_out};
- push @cmd, "-m iprange --src-range" if $rule->{nbsource} && $rule->{nbsource} > 1;
+ push @cmd, "-m iprange --src-range" if $nbsource > 1;
push @cmd, "-s $rule->{source}" if $rule->{source};
- push @cmd, "-m iprange --dst-range" if $rule->{nbdest} && $rule->{nbdest} > 1;
+ push @cmd, "-m iprange --dst-range" if $nbdest > 1;
push @cmd, "-d $rule->{dest}" if $rule->{dest};
if ($rule->{proto}) {
push @cmd, "-p $rule->{proto}";
my $multiport = 0;
- $multiport++ if $rule->{nbdport} && ($rule->{nbdport} > 1);
- $multiport++ if $rule->{nbsport} && ($rule->{nbsport} > 1);
+ $multiport++ if $nbdport > 1;
+ $multiport++ if $nbsport > 1;
push @cmd, "--match multiport" if $multiport;
die "unknown icmp-type '$rule->{dport}'\n" if !defined($icmp_type_names->{$rule->{dport}});
push @cmd, "-m icmp --icmp-type $rule->{dport}";
} else {
- if ($rule->{nbdport} && $rule->{nbdport} > 1) {
+ if ($nbdport > 1) {
if ($multiport == 2) {
push @cmd, "--ports $rule->{dport}";
} else {
}
if ($rule->{sport}) {
- if ($rule->{nbsport} && $rule->{nbsport} > 1) {
+ if ($nbsport > 1) {
push @cmd, "--sports $rule->{sport}" if $multiport != 2;
} else {
push @cmd, "--sport $rule->{sport}";
return scalar(@cmd) ? join(' ', @cmd) : undef;
}
+my $apply_macro = sub {
+ my ($macro_name, $param) = @_;
+
+ my $macro_rules = $pve_fw_parsed_macros->{$macro_name};
+ die "unknown macro '$macro_name'\n" if !$macro_rules; # should not happen
+
+ my $rules = [];
+
+ foreach my $templ (@$macro_rules) {
+ my $rule = {};
+ my $param_used = {};
+ foreach my $k (keys %$templ) {
+ my $v = $templ->{$k};
+ if ($v eq 'PARAM') {
+ $v = $param->{$k};
+ $param_used->{$k} = 1;
+ } elsif ($v eq 'DEST') {
+ $v = $param->{dest};
+ $param_used->{dest} = 1;
+ } elsif ($v eq 'SOURCE') {
+ $v = $param->{source};
+ $param_used->{source} = 1;
+ }
+
+ die "missing parameter '$k' in macro '$macro_name'\n" if !defined($v);
+ $rule->{$k} = $v;
+ }
+ foreach my $k (keys %$param) {
+ next if $k eq 'macro';
+ next if !defined($param->{$k});
+ next if $param_used->{$k};
+ if (defined($rule->{$k})) {
+ die "parameter '$k' already define in macro (value = '$rule->{$k}')\n"
+ if $rule->{$k} ne $param->{$k};
+ } else {
+ $rule->{$k} = $param->{$k};
+ }
+ }
+ push @$rules, $rule;
+ }
+
+ return $rules;
+};
+
sub ruleset_generate_rule {
my ($ruleset, $chain, $rule, $actions, $goto) = @_;
- if (my $cmdstr = ruleset_generate_cmdstr($ruleset, $chain, $rule, $actions, $goto)) {
- ruleset_addrule($ruleset, $chain, $cmdstr);
+ my $rules;
+
+ if ($rule->{macro}) {
+ $rules = &$apply_macro($rule->{macro}, $rule);
+ } else {
+ $rules = [ $rule ];
+ }
+
+ foreach my $tmp (@$rules) {
+ if (my $cmdstr = ruleset_generate_cmdstr($ruleset, $chain, $tmp, $actions, $goto)) {
+ ruleset_addrule($ruleset, $chain, $cmdstr);
+ }
}
}
+
sub ruleset_generate_rule_insert {
my ($ruleset, $chain, $rule, $actions, $goto) = @_;
+ die "implement me" if $rule->{macro}; # not implemented, because not needed so far
+
if (my $cmdstr = ruleset_generate_cmdstr($ruleset, $chain, $rule, $actions, $goto)) {
ruleset_insertrule($ruleset, $chain, $cmdstr);
}
my ($ruleset, $chain, $options, $macaddr, $direction) = @_;
ruleset_create_chain($ruleset, $chain);
+ my $accept = generate_nfqueue($options);
if (!(defined($options->{nosmurfs}) && $options->{nosmurfs} == 0)) {
ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate INVALID,NEW -j PVEFW-smurfs");
if (!(defined($options->{dhcp}) && $options->{dhcp} == 0)) {
if ($direction eq 'OUT') {
- ruleset_addrule($ruleset, $chain, "-p udp -m udp --sport 68 --dport 67 -j PVEFW-SET-ACCEPT-MARK");
+ ruleset_generate_rule($ruleset, $chain, { action => 'PVEFW-SET-ACCEPT-MARK',
+ proto => 'udp', sport => 68, dport => 67 });
} else {
- ruleset_addrule($ruleset, $chain, "-p udp -m udp --sport 67 --dport 68 -j ACCEPT");
+ ruleset_generate_rule($ruleset, $chain, { action => 'ACCEPT',
+ proto => 'udp', sport => 67, dport => 68 });
}
}
}
ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate INVALID -j DROP");
- ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT");
+ if($direction eq 'OUT'){
+ ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate RELATED,ESTABLISHED -g PVEFW-SET-ACCEPT-MARK");
+ }else{
+ ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate RELATED,ESTABLISHED -j $accept");
+ }
if ($direction eq 'OUT') {
if (defined($macaddr) && !(defined($options->{macfilter}) && $options->{macfilter} == 0)) {
ruleset_addrule($ruleset, $chain, "-m mac ! --mac-source $macaddr -j DROP");
}
ruleset_addrule($ruleset, $chain, "-j MARK --set-mark 0"); # clear mark
}
+
+
}
sub ruleset_generate_vm_rules {
- my ($ruleset, $rules, $groups_conf, $chain, $netid, $direction) = @_;
+ my ($ruleset, $rules, $cluster_conf, $chain, $netid, $direction, $options) = @_;
my $lc_direction = lc($direction);
foreach my $rule (@$rules) {
next if $rule->{iface} && $rule->{iface} ne $netid;
- next if $rule->{disable};
+ next if !$rule->{enable};
if ($rule->{type} eq 'group') {
my $group_chain = "GROUP-$rule->{action}-$direction";
if(!ruleset_chain_exist($ruleset, $group_chain)){
- generate_group_rules($ruleset, $groups_conf, $rule->{action});
+ generate_group_rules($ruleset, $cluster_conf, $rule->{action});
}
ruleset_addrule($ruleset, $chain, "-j $group_chain");
- ruleset_addrule($ruleset, $chain, "-m mark --mark 1 -j RETURN")
- if $direction eq 'OUT';
+ if ($direction eq 'OUT'){
+ ruleset_addrule($ruleset, $chain, "-m mark --mark 1 -j RETURN");
+ }else{
+ my $accept = generate_nfqueue($options);
+ ruleset_addrule($ruleset, $chain, "-m mark --mark 1 -j $accept");
+ }
+
} else {
next if $rule->{type} ne $lc_direction;
if ($direction eq 'OUT') {
ruleset_generate_rule($ruleset, $chain, $rule,
{ ACCEPT => "PVEFW-SET-ACCEPT-MARK", REJECT => "PVEFW-reject" });
} else {
- ruleset_generate_rule($ruleset, $chain, $rule, { REJECT => "PVEFW-reject" });
+ my $accept = generate_nfqueue($options);
+ ruleset_generate_rule($ruleset, $chain, $rule, { ACCEPT => $accept , REJECT => "PVEFW-reject" });
}
}
}
}
+sub generate_nfqueue {
+ my ($options) = @_;
+
+ my $action = "";
+ if($options->{ips}){
+ $action = "NFQUEUE";
+ if($options->{ips_queues} && $options->{ips_queues} =~ m/^(\d+)(:(\d+))?$/) {
+ if(defined($3) && defined($1)) {
+ $action .= " --queue-balance $1:$3";
+ }elsif (defined($1)) {
+ $action .= " --queue-num $1";
+ }
+ }
+ $action .= " --queue-bypass";
+ }else{
+ $action = "ACCEPT";
+ }
+
+ return $action;
+}
+
+sub ruleset_generate_vm_ipsrules {
+ my ($ruleset, $options, $direction, $iface, $bridge) = @_;
+
+ if ($options->{ips} && $direction eq 'IN') {
+ my $nfqueue = generate_nfqueue($options);
+
+ if (!ruleset_chain_exist($ruleset, "$bridge-IPS")) {
+ ruleset_create_chain($ruleset, "PVEFW-IPS");
+ }
+
+ if (!ruleset_chain_exist($ruleset, "$bridge-IPS")) {
+ ruleset_create_chain($ruleset, "$bridge-IPS");
+ ruleset_insertrule($ruleset, "PVEFW-IPS", "-o $bridge -m physdev --physdev-is-out -j $bridge-IPS");
+ }
+
+ ruleset_addrule($ruleset, "$bridge-IPS", "-m physdev --physdev-out $iface --physdev-is-bridged -j $nfqueue");
+ }
+}
+
sub generate_venet_rules_direction {
- my ($ruleset, $groups_conf, $vmfw_conf, $vmid, $ip, $direction) = @_;
+ my ($ruleset, $cluster_conf, $vmfw_conf, $vmid, $ip, $direction) = @_;
parse_address_list($ip); # make sure we have a valid $ip list
ruleset_create_vm_chain($ruleset, $chain, $options, undef, $direction);
- ruleset_generate_vm_rules($ruleset, $rules, $groups_conf, $chain, 'venet', $direction);
+ ruleset_generate_vm_rules($ruleset, $rules, $cluster_conf, $chain, 'venet', $direction);
# implement policy
my $policy;
$policy = $options->{policy_in} || 'DROP'; # allow nothing by default
}
- my $accept_action = $direction eq 'OUT' ? "PVEFW-SET-ACCEPT-MARK" : "ACCEPT";
+ my $accept = generate_nfqueue($options);
+ my $accept_action = $direction eq 'OUT' ? "PVEFW-SET-ACCEPT-MARK" : $accept;
ruleset_add_chain_policy($ruleset, $chain, $vmid, $policy, $loglevel, $accept_action);
# plug into FORWARD, INPUT and OUTPUT chain
}
sub generate_tap_rules_direction {
- my ($ruleset, $groups_conf, $iface, $netid, $macaddr, $vmfw_conf, $vmid, $bridge, $direction) = @_;
+ my ($ruleset, $cluster_conf, $iface, $netid, $macaddr, $vmfw_conf, $vmid, $bridge, $direction) = @_;
my $lc_direction = lc($direction);
ruleset_create_vm_chain($ruleset, $tapchain, $options, $macaddr, $direction);
- ruleset_generate_vm_rules($ruleset, $rules, $groups_conf, $tapchain, $netid, $direction);
+ ruleset_generate_vm_rules($ruleset, $rules, $cluster_conf, $tapchain, $netid, $direction, $options);
+
+ ruleset_generate_vm_ipsrules($ruleset, $options, $direction, $iface, $bridge);
# implement policy
my $policy;
$policy = $options->{policy_in} || 'DROP'; # allow nothing by default
}
- my $accept_action = $direction eq 'OUT' ? "PVEFW-SET-ACCEPT-MARK" : "ACCEPT";
+ my $accept = generate_nfqueue($options);
+ my $accept_action = $direction eq 'OUT' ? "PVEFW-SET-ACCEPT-MARK" : $accept;
ruleset_add_chain_policy($ruleset, $tapchain, $vmid, $policy, $loglevel, $accept_action);
# plug the tap chain to bridge chain
}
sub enable_host_firewall {
- my ($ruleset, $hostfw_conf, $groups_conf) = @_;
+ my ($ruleset, $hostfw_conf, $cluster_conf) = @_;
# fixme: allow security groups
}
sub generate_group_rules {
- my ($ruleset, $groups_conf, $group) = @_;
- die "no such security group '$group'\n" if !$groups_conf->{rules}->{$group};
+ my ($ruleset, $cluster_conf, $group) = @_;
+ die "no such security group '$group'\n" if !$cluster_conf->{groups}->{$group};
- my $rules = $groups_conf->{rules}->{$group};
+ my $rules = $cluster_conf->{groups}->{$group};
my $chain = "GROUP-${group}-IN";
ruleset_create_chain($ruleset, $chain);
+ ruleset_addrule($ruleset, $chain, "-j MARK --set-mark 0"); # clear mark
foreach my $rule (@$rules) {
next if $rule->{type} ne 'in';
- ruleset_generate_rule($ruleset, $chain, $rule, { REJECT => "PVEFW-reject" });
+ ruleset_generate_rule($ruleset, $chain, $rule, { ACCEPT => "PVEFW-SET-ACCEPT-MARK", REJECT => "PVEFW-reject" });
}
$chain = "GROUP-${group}-OUT";
sub parse_fw_rule {
my ($line, $need_iface, $allow_groups) = @_;
- my $macros = get_firewall_macros();
- my $protocols = get_etc_protocols();
-
my ($type, $action, $iface, $source, $dest, $proto, $dport, $sport);
# we can add single line comments to the end of the rule
my $comment = decode('utf8', $1) if $line =~ s/#\s*(.*?)\s*$//;
# we can disable a rule when prefixed with '|'
- my $disable = 1 if $line =~ s/^\|//;
+ my $enable = 1;
+
+ $enable = 0 if $line =~ s/^\|//;
my @data = split(/\s+/, $line);
my $expected_elements = $need_iface ? 8 : 7;
die "incomplete rule\n" if ! ($type && $action);
my $macro;
- my $macro_name;
$type = lc($type);
if ($action =~ m/^(ACCEPT|DROP|REJECT)$/) {
# OK
} elsif ($action =~ m/^(\S+)\((ACCEPT|DROP|REJECT)\)$/) {
- ($macro_name, $action) = ($1, $2);
- my $lc_macro_name = lc($macro_name);
- my $preferred_name = $pve_fw_preferred_macro_names->{$lc_macro_name};
- $macro_name = $preferred_name if $preferred_name;
- $macro = $macros->{$lc_macro_name};
- die "unknown macro '$macro_name'\n" if !$macro;
+ $action = $2;
+ my $preferred_name = $pve_fw_preferred_macro_names->{lc($1)};
+ die "unknown macro '$1'\n" if !$preferred_name;
+ $macro = $preferred_name;
} else {
die "unknown action '$action'\n";
}
}
$proto = undef if $proto && $proto eq '-';
- die "unknown protokol '$proto'\n" if $proto &&
- !(defined($protocols->{byname}->{$proto}) ||
- defined($protocols->{byid}->{$proto}));
+ pve_fw_verify_protocol_spec($proto) if $proto;
$source = undef if $source && $source eq '-';
$dest = undef if $dest && $dest eq '-';
$dport = undef if $dport && $dport eq '-';
$sport = undef if $sport && $sport eq '-';
- my $nbsource = undef;
- my $nbdest = undef;
-
- $nbsource = parse_address_list($source) if $source;
- $nbdest = parse_address_list($dest) if $dest;
+ parse_port_name_number_or_range($dport) if defined($dport);
+ parse_port_name_number_or_range($sport) if defined($sport);
+
+ parse_address_list($source) if $source;
+ parse_address_list($dest) if $dest;
- my $rules = [];
-
- my $param = {
+ return {
type => $type,
- disable => $disable,
+ enable => $enable,
comment => $comment,
action => $action,
+ macro => $macro,
iface => $iface,
source => $source,
dest => $dest,
- nbsource => $nbsource,
- nbdest => $nbdest,
proto => $proto,
dport => $dport,
sport => $sport,
};
-
- if ($macro) {
- foreach my $templ (@$macro) {
- my $rule = {};
- my $param_used = {};
- foreach my $k (keys %$templ) {
- my $v = $templ->{$k};
- if ($v eq 'PARAM') {
- $v = $param->{$k};
- $param_used->{$k} = 1;
- } elsif ($v eq 'DEST') {
- $v = $param->{dest};
- $param_used->{dest} = 1;
- } elsif ($v eq 'SOURCE') {
- $v = $param->{source};
- $param_used->{source} = 1;
- }
-
- die "missing parameter '$k' in macro '$macro_name'\n" if !defined($v);
- $rule->{$k} = $v;
- }
- foreach my $k (keys %$param) {
- next if !defined($param->{$k});
- next if $param_used->{$k};
- if (defined($rule->{$k})) {
- die "parameter '$k' already define in macro (value = '$rule->{$k}')\n"
- if $rule->{$k} ne $param->{$k};
- } else {
- $rule->{$k} = $param->{$k};
- }
- }
- push @$rules, $rule;
- }
- } else {
- push @$rules, $param;
- }
-
- foreach my $rule (@$rules) {
- $rule->{nbdport} = parse_port_name_number_or_range($rule->{dport})
- if defined($rule->{dport});
- $rule->{nbsport} = parse_port_name_number_or_range($rule->{sport})
- if defined($rule->{sport});
- }
-
- return $rules;
}
sub parse_vmfw_option {
my $loglevels = "emerg|alert|crit|err|warning|notice|info|debug|nolog";
- if ($line =~ m/^(enable|dhcp|macfilter|nosmurfs|tcpflags):\s*(0|1)\s*$/i) {
+ if ($line =~ m/^(enable|dhcp|macfilter|nosmurfs|tcpflags|ips):\s*(0|1)\s*$/i) {
$opt = lc($1);
$value = int($2);
} elsif ($line =~ m/^(log_level_in|log_level_out):\s*(($loglevels)\s*)?$/i) {
} elsif ($line =~ m/^(policy_(in|out)):\s*(ACCEPT|DROP|REJECT)\s*$/i) {
$opt = lc($1);
$value = uc($3);
+ } elsif ($line =~ m/^(ips_queues):\s*((\d+)(:(\d+))?)\s*$/i) {
+ $opt = lc($1);
+ $value = $2;
} else {
chomp $line;
die "can't parse option '$line'\n"
my $loglevels = "emerg|alert|crit|err|warning|notice|info|debug|nolog";
- if ($line =~ m/^(enable|dhcp|nosmurfs|tcpflags|allow_bridge_route):\s*(0|1)\s*$/i) {
+ if ($line =~ m/^(enable|dhcp|nosmurfs|tcpflags|allow_bridge_route|optimize):\s*(0|1)\s*$/i) {
$opt = lc($1);
$value = int($2);
} elsif ($line =~ m/^(log_level_in|log_level_out|tcp_flags_log_level|smurf_log_level):\s*(($loglevels)\s*)?$/i) {
return ($opt, $value);
}
+sub parse_clusterfw_option {
+ my ($line) = @_;
+
+ my ($opt, $value);
+
+ if ($line =~ m/^(enable):\s*(0|1)\s*$/i) {
+ $opt = lc($1);
+ $value = int($2);
+ } else {
+ chomp $line;
+ die "can't parse option '$line'\n"
+ }
+
+ return ($opt, $value);
+}
+
sub parse_vm_fw_rules {
my ($filename, $fh) = @_;
next;
}
- my $rules;
- eval { $rules = parse_fw_rule($line, 1, 1); };
+ my $rule;
+ eval { $rule = parse_fw_rule($line, 1, 1); };
if (my $err = $@) {
warn "$prefix: $err";
next;
}
- push @{$res->{$section}}, @$rules;
+ push @{$res->{$section}}, $rule;
}
$res->{digest} = $digest->b64digest;
next;
}
- my $rules;
- eval { $rules = parse_fw_rule($line, 1, 1); };
+ my $rule;
+ eval { $rule = parse_fw_rule($line, 1, 1); };
if (my $err = $@) {
warn "$prefix: $err";
next;
}
-
- push @{$res->{$section}}, @$rules;
+
+ push @{$res->{$section}}, $rule;
}
$res->{digest} = $digest->b64digest;
return $res;
}
-sub parse_group_fw_rules {
+sub parse_cluster_fw_rules {
my ($filename, $fh) = @_;
my $section;
my $group;
- my $res = { rules => {} };
+ my $res = { rules => [], options => {}, groups => {}, ipset => {} };
my $digest = Digest::SHA->new('sha1');
my $linenr = $fh->input_line_number();
my $prefix = "$filename (line $linenr)";
+ if ($line =~ m/^\[options\]$/i) {
+ $section = 'options';
+ next;
+ }
+
if ($line =~ m/^\[group\s+(\S+)\]\s*$/i) {
- $section = 'rules';
+ $section = 'groups';
$group = lc($1);
next;
}
- if (!$section || !$group) {
- warn "$prefix: skip line - no section";
+
+ if ($line =~ m/^\[rules\]$/i) {
+ $section = 'rules';
+ next;
+ }
+
+ if ($line =~ m/^\[netgroup\s+(\S+)\]\s*$/i) {
+ $section = 'ipset';
+ $group = lc($1);
next;
}
- my $rules;
- eval { $rules = parse_fw_rule($line, 0, 0); };
- if (my $err = $@) {
- warn "$prefix: $err";
+ if (!$section) {
+ warn "$prefix: skip line - no section";
next;
}
- push @{$res->{$section}->{$group}}, @$rules;
+ if ($section eq 'options') {
+ eval {
+ my ($opt, $value) = parse_clusterfw_option($line);
+ $res->{options}->{$opt} = $value;
+ };
+ warn "$prefix: $@" if $@;
+ } elsif ($section eq 'rules') {
+ my $rule;
+ eval { $rule = parse_fw_rule($line, 1, 1); };
+ if (my $err = $@) {
+ warn "$prefix: $err";
+ next;
+ }
+ push @{$res->{$section}}, $rule;
+ } elsif ($section eq 'groups') {
+ my $rule;
+ eval { $rule = parse_fw_rule($line, 0, 0); };
+ if (my $err = $@) {
+ warn "$prefix: $err";
+ next;
+ }
+ push @{$res->{$section}->{$group}}, $rule;
+ } elsif ($section eq 'ipset') {
+ chomp $line;
+ $line =~ m/^(\!)?(\s)?((\d+)\.(\d+)\.(\d+)\.(\d+)(\/(\d+))?)/;
+ my $nomatch = $1;
+ my $ip = $3;
+
+ if(!$ip){
+ warn "$prefix: $line is not an valid ip address";
+ next;
+ }
+ if (!Net::IP->new($ip)) {
+ warn "$prefix: $line is not an valid ip address";
+ next;
+ }
+ $ip .= " nomatch" if $nomatch;
+
+ push @{$res->{$section}->{$group}}, $ip;
+ }
}
$res->{digest} = $digest->b64digest;
-
return $res;
}
}
}
+sub generate_ipset_chains {
+ my ($ipset_ruleset, $fw_conf) = @_;
+
+ foreach my $ipset (keys %{$fw_conf->{ipset}}) {
+ generate_ipset($ipset_ruleset, $ipset, $fw_conf->{ipset}->{$ipset});
+ }
+}
+
+sub generate_ipset {
+ my ($ipset_ruleset, $name, $options) = @_;
+
+ my $hashsize = scalar(@$options);
+ if ($hashsize <= 64) {
+ $hashsize = 64;
+ } else {
+ $hashsize = round_powerof2($hashsize);
+ }
+
+ push @{$ipset_ruleset->{$name}}, "create $name hash:net family inet hashsize $hashsize maxelem $hashsize";
+
+ foreach my $ip (@$options) {
+ push @{$ipset_ruleset->{$name}}, "add $name $ip";
+ }
+}
+
+sub round_powerof2 {
+ my ($int) = @_;
+
+ $int--;
+ $int |= $int >> $_ foreach (1,2,4,8,16);
+ return ++$int;
+}
+
sub save_pvefw_status {
my ($status) = @_;
return $res;
}
-sub load_security_groups {
+sub load_clusterfw_conf {
- my $groups_conf = {};
- my $filename = "/etc/pve/firewall/groups.fw";
- if (my $fh = IO::File->new($filename, O_RDONLY)) {
- $groups_conf = parse_group_fw_rules($filename, $fh);
+ my $cluster_conf = {};
+ if (my $fh = IO::File->new($clusterfw_conf_filename, O_RDONLY)) {
+ $cluster_conf = parse_cluster_fw_rules($clusterfw_conf_filename, $fh);
}
- return $groups_conf;
+ return $cluster_conf;
+}
+
+my $format_rules = sub {
+ my ($rules, $need_iface) = @_;
+
+ my $raw = '';
+
+ foreach my $rule (@$rules) {
+ if ($rule->{type} eq 'in' || $rule->{type} eq 'out') {
+ $raw .= '|' if defined($rule->{enable}) && !$rule->{enable};
+ $raw .= uc($rule->{type});
+ $raw .= " " . $rule->{action};
+ $raw .= " " . ($rule->{iface} || '-') if $need_iface;
+ $raw .= " " . ($rule->{source} || '-');
+ $raw .= " " . ($rule->{dest} || '-');
+ $raw .= " " . ($rule->{proto} || '-');
+ $raw .= " " . ($rule->{dport} || '-');
+ $raw .= " " . ($rule->{sport} || '-');
+ $raw .= " # " . encode('utf8', $rule->{comment})
+ if $rule->{comment} && $rule->{comment} !~ m/^\s*$/;
+ $raw .= "\n";
+ } else {
+ die "implement me '$rule->{type}'";
+ }
+ }
+
+ return $raw;
+};
+
+my $format_options = sub {
+ my ($raw, $options) = @_;
+
+ $raw .= "[OPTIONS]\n\n";
+ foreach my $opt (keys %$options) {
+ $raw .= "$opt: $options->{$opt}\n";
+ }
+ $raw .= "\n";
+};
+
+sub save_clusterfw_conf {
+ my ($cluster_conf) = @_;
+
+ my $raw = '';
+
+ my $options = $cluster_conf->{options};
+ &$format_options($raw, $options) if scalar(keys %$options);
+
+ # fixme: save ipset
+
+ my $rules = $cluster_conf->{rules};
+ if (scalar(@$rules)) {
+ $raw .= "[RULES]\n\n";
+ $raw .= &$format_rules($rules, 1);
+ $raw .= "\n";
+ }
+
+ foreach my $group (sort keys %{$cluster_conf->{groups}}) {
+ my $rules = $cluster_conf->{groups}->{$group};
+ $raw .= "[group $group]\n\n";
+ $raw .= &$format_rules($rules, 0);
+ $raw .= "\n";
+ }
+
+ PVE::Tools::file_set_contents($clusterfw_conf_filename, $raw);
}
sub load_hostfw_conf {
my $hostfw_conf = {};
- my $filename = "/etc/pve/local/host.fw";
- if (my $fh = IO::File->new($filename, O_RDONLY)) {
- $hostfw_conf = parse_host_fw_rules($filename, $fh);
+ if (my $fh = IO::File->new($hostfw_conf_filename, O_RDONLY)) {
+ $hostfw_conf = parse_host_fw_rules($hostfw_conf_filename, $fh);
}
return $hostfw_conf;
}
+sub save_hostfw_conf {
+ my ($hostfw_conf) = @_;
+
+ my $raw = '';
+
+ my $options = $hostfw_conf->{options};
+ &$format_options($raw, $options) if scalar(keys %$options);
+
+ my $rules = $hostfw_conf->{rules};
+ if (scalar(@$rules)) {
+ $raw .= "[RULES]\n\n";
+ $raw .= &$format_rules($rules, 1);
+ $raw .= "\n";
+ }
+
+ PVE::Tools::file_set_contents($hostfw_conf_filename, $raw);
+}
+
sub compile {
my $vmdata = read_local_vm_config();
my $vmfw_configs = read_vm_firewall_configs($vmdata);
my $routing_table = read_proc_net_route();
- my $groups_conf = load_security_groups();
+ my $cluster_conf = load_clusterfw_conf();
+
+ my $ipset_ruleset = {};
+ generate_ipset_chains($ipset_ruleset, $cluster_conf);
my $ruleset = {};
my $hostfw_enable = !(defined($hostfw_options->{enable}) && ($hostfw_options->{enable} == 0));
- enable_host_firewall($ruleset, $hostfw_conf, $groups_conf) if $hostfw_enable;
+ enable_host_firewall($ruleset, $hostfw_conf, $cluster_conf) if $hostfw_enable;
# generate firewall rules for QEMU VMs
foreach my $vmid (keys %{$vmdata->{qemu}}) {
generate_bridge_chains($ruleset, $hostfw_conf, $bridge, $routing_table);
my $macaddr = $net->{macaddr};
- generate_tap_rules_direction($ruleset, $groups_conf, $iface, $netid, $macaddr,
+ generate_tap_rules_direction($ruleset, $cluster_conf, $iface, $netid, $macaddr,
$vmfw_conf, $vmid, $bridge, 'IN');
- generate_tap_rules_direction($ruleset, $groups_conf, $iface, $netid, $macaddr,
+ generate_tap_rules_direction($ruleset, $cluster_conf, $iface, $netid, $macaddr,
$vmfw_conf, $vmid, $bridge, 'OUT');
}
}
if ($conf->{ip_address} && $conf->{ip_address}->{value}) {
my $ip = $conf->{ip_address}->{value};
- generate_venet_rules_direction($ruleset, $groups_conf, $vmfw_conf, $vmid, $ip, 'IN');
- generate_venet_rules_direction($ruleset, $groups_conf, $vmfw_conf, $vmid, $ip, 'OUT');
+ generate_venet_rules_direction($ruleset, $cluster_conf, $vmfw_conf, $vmid, $ip, 'IN');
+ generate_venet_rules_direction($ruleset, $cluster_conf, $vmfw_conf, $vmid, $ip, 'OUT');
}
if ($conf->{netif} && $conf->{netif}->{value}) {
my $macaddr = $d->{mac};
my $iface = $d->{host_ifname};
- generate_tap_rules_direction($ruleset, $groups_conf, $iface, $netid, $macaddr,
+ generate_tap_rules_direction($ruleset, $cluster_conf, $iface, $netid, $macaddr,
$vmfw_conf, $vmid, $bridge, 'IN');
- generate_tap_rules_direction($ruleset, $groups_conf, $iface, $netid, $macaddr,
+ generate_tap_rules_direction($ruleset, $cluster_conf, $iface, $netid, $macaddr,
$vmfw_conf, $vmid, $bridge, 'OUT');
}
}
}
+ if($hostfw_options->{optimize}){
+
+ my $accept = ruleset_chain_exist($ruleset, "PVEFW-IPS") ? "PVEFW-IPS" : "ACCEPT";
+ ruleset_insertrule($ruleset, "PVEFW-FORWARD", "-m conntrack --ctstate RELATED,ESTABLISHED -j $accept");
+ ruleset_insertrule($ruleset, "PVEFW-FORWARD", "-m conntrack --ctstate INVALID -j DROP");
+ }
+
# fixme: what log level should we use here?
my $loglevel = get_option_log_level($hostfw_options, "log_level_out");
ruleset_addrule($ruleset, "PVEFW-FORWARD", "-o vmbr+ -j DROP");
ruleset_addrule($ruleset, "PVEFW-FORWARD", "-i vmbr+ -j DROP");
- return wantarray ? ($ruleset, $hostfw_conf) : $ruleset;
+ return wantarray ? ($ruleset, $hostfw_conf, $ipset_ruleset) : $ruleset;
}
sub get_ruleset_status {
- my ($ruleset, $verbose) = @_;
-
- my $active_chains = iptables_get_chains();
+ my ($ruleset, $active_chains, $digest_fn, $verbose) = @_;
my $statushash = {};
foreach my $chain (sort keys %$ruleset) {
- my $digest = Digest::SHA->new('sha1');
- foreach my $cmd (@{$ruleset->{$chain}}) {
- $digest->add("$cmd\n");
- }
- my $sig = $digest->b64digest;
+ my $sig = &$digest_fn($ruleset->{$chain});
+
$statushash->{$chain}->{sig} = $sig;
my $oldsig = $active_chains->{$chain};
return $statushash;
}
-sub print_ruleset {
- my ($ruleset) = @_;
-
- get_ruleset_status($ruleset, 1);
-}
-
sub print_sig_rule {
my ($chain, $sig) = @_;
return "-A $chain -m comment --comment \"PVESIG:$sig\"\n";
}
-sub get_rulset_cmdlist {
+sub get_ruleset_cmdlist {
my ($ruleset, $verbose) = @_;
my $cmdlist = "*filter\n"; # we pass this to iptables-restore;
-
- my $statushash = get_ruleset_status($ruleset, $verbose);
+
+ my ($active_chains, $hooks) = iptables_get_chains();
+ my $statushash = get_ruleset_status($ruleset, $active_chains, \&iptables_chain_digest, $verbose);
# create missing chains first
foreach my $chain (sort keys %$ruleset) {
$cmdlist .= ":$chain - [0:0]\n";
}
- my $rule = "INPUT -j PVEFW-INPUT";
- if (!PVE::Firewall::iptables_rule_exist($rule)) {
- $cmdlist .= "-A $rule\n";
- }
- $rule = "OUTPUT -j PVEFW-OUTPUT";
- if (!PVE::Firewall::iptables_rule_exist($rule)) {
- $cmdlist .= "-A $rule\n";
- }
-
- $rule = "FORWARD -j PVEFW-FORWARD";
- if (!PVE::Firewall::iptables_rule_exist($rule)) {
- $cmdlist .= "-A $rule\n";
+ foreach my $h (qw(INPUT OUTPUT FORWARD)) {
+ if (!$hooks->{$h}) {
+ $cmdlist .= "-A $h -j PVEFW-$h\n";
+ }
}
foreach my $chain (sort keys %$ruleset) {
$cmdlist .= "-X $chain\n";
}
+ my $changes = $cmdlist ne "*filter\n" ? 1 : 0;
+
$cmdlist .= "COMMIT\n";
- return $cmdlist;
+ return wantarray ? ($cmdlist, $changes) : $cmdlist;
+}
+
+sub get_ipset_cmdlist {
+ my ($ruleset, $verbose) = @_;
+
+ my $cmdlist = "";
+
+ my $delete_cmdlist = "";
+
+ my $active_chains = ipset_get_chains();
+ my $statushash = get_ruleset_status($ruleset, $active_chains, \&ipset_chain_digest, $verbose);
+
+ foreach my $chain (sort keys %$ruleset) {
+ my $stat = $statushash->{$chain};
+ die "internal error" if !$stat;
+
+ if ($stat->{action} eq 'create') {
+ foreach my $cmd (@{$ruleset->{$chain}}) {
+ $cmdlist .= "$cmd\n";
+ }
+ }
+
+ if ($stat->{action} eq 'update') {
+ my $chain_swap = $chain."_swap";
+
+ foreach my $cmd (@{$ruleset->{$chain}}) {
+ $cmd =~ s/$chain/$chain_swap/;
+ $cmdlist .= "$cmd\n";
+ }
+ $cmdlist .= "swap $chain_swap $chain\n";
+ $cmdlist .= "flush $chain_swap\n";
+ $cmdlist .= "destroy $chain_swap\n";
+ }
+
+ }
+
+ foreach my $chain (keys %$statushash) {
+ next if $statushash->{$chain}->{action} ne 'delete';
+
+ $delete_cmdlist .= "flush $chain\n";
+ $delete_cmdlist .= "destroy $chain\n";
+ }
+
+ my $changes = ($cmdlist || $delete_cmdlist) ? 1 : 0;
+
+ return ($cmdlist, $delete_cmdlist, $changes);
}
sub apply_ruleset {
- my ($ruleset, $hostfw_conf, $verbose) = @_;
+ my ($ruleset, $hostfw_conf, $ipset_ruleset, $verbose) = @_;
enable_bridge_firewall();
update_nf_conntrack_max($hostfw_conf);
- my $cmdlist = get_rulset_cmdlist($ruleset, $verbose);
+ my ($ipset_create_cmdlist, $ipset_delete_cmdlist, $ipset_changes) =
+ get_ipset_cmdlist($ipset_ruleset, undef, $verbose);
- print $cmdlist if $verbose;
+ my ($cmdlist, $changes) = get_ruleset_cmdlist($ruleset, $verbose);
+
+ if ($verbose) {
+ if ($ipset_changes) {
+ print "ipset changes:\n";
+ print $ipset_create_cmdlist if $ipset_create_cmdlist;
+ print $ipset_delete_cmdlist if $ipset_delete_cmdlist;
+ }
+
+ if ($changes) {
+ print "iptables changes:\n";
+ print $cmdlist;
+ }
+ }
+
+ ipset_restore_cmdlist($ipset_create_cmdlist);
iptables_restore_cmdlist($cmdlist);
+ ipset_restore_cmdlist($ipset_delete_cmdlist) if $ipset_delete_cmdlist;
+
# test: re-read status and check if everything is up to date
- my $statushash = get_ruleset_status($ruleset);
+ my $active_chains = iptables_get_chains();
+ my $statushash = get_ruleset_status($ruleset, $active_chains, \&iptables_chain_digest, 0);
my $errors;
foreach my $chain (sort keys %$ruleset) {
}
}
+sub remove_pvefw_chains {
+
+ my ($chash, $hooks) = iptables_get_chains();
+ my $cmdlist = "*filter\n";
+
+ foreach my $h (qw(INPUT OUTPUT FORWARD)) {
+ if ($hooks->{$h}) {
+ $cmdlist .= "-D $h -j PVEFW-$h\n";
+ }
+ }
+
+ foreach my $chain (keys %$chash) {
+ $cmdlist .= "-F $chain\n";
+ }
+
+ foreach my $chain (keys %$chash) {
+ $cmdlist .= "-X $chain\n";
+ }
+ $cmdlist .= "COMMIT\n";
+
+ iptables_restore_cmdlist($cmdlist);
+}
+
sub update {
my ($start, $verbose) = @_;
my $code = sub {
my $status = read_pvefw_status();
- my ($ruleset, $hostfw_conf) = PVE::Firewall::compile();
+ my ($ruleset, $hostfw_conf, $ipset_ruleset) = compile();
if ($start || $status eq 'active') {
save_pvefw_status('active') if ($status ne 'active');
- apply_ruleset($ruleset, $hostfw_conf, $verbose);
+ apply_ruleset($ruleset, $hostfw_conf, $ipset_ruleset, $verbose);
} else {
print "Firewall not active (status = $status)\n" if $verbose;
}