use PVE::Cluster;
use PVE::ProcFSTools;
use PVE::Tools qw($IPV4RE $IPV6RE);
+use PVE::Network;
+use PVE::SafeSyslog;
use File::Basename;
use File::Path;
use IO::File;
my $have_qemu_server;
eval {
require PVE::QemuServer;
+ require PVE::QemuConfig;
$have_qemu_server = 1;
};
my $max_alias_name_length = 64;
my $max_ipset_name_length = 64;
-my $max_group_name_length = 20;
+my $max_group_name_length = 18;
+
+my $PROTOCOLS_WITH_PORTS = {
+ udp => 1, 17 => 1,
+ udplite => 1, 136 => 1,
+ tcp => 1, 6 => 1,
+ dccp => 1, 33 => 1,
+ sctp => 1, 132 => 1,
+};
PVE::JSONSchema::register_format('IPorCIDR', \&pve_verify_ip_or_cidr);
sub pve_verify_ip_or_cidr {
],
'NeighborDiscovery' => [
"IPv6 neighbor solicitation, neighbor and router advertisement",
+ { action => 'PARAM', proto => 'icmpv6', dport => 'router-solicitation' },
{ action => 'PARAM', proto => 'icmpv6', dport => 'router-advertisement' },
{ action => 'PARAM', proto => 'icmpv6', dport => 'neighbor-solicitation' },
{ action => 'PARAM', proto => 'icmpv6', dport => 'neighbor-advertisement' },
],
+ 'DHCPv6' => [
+ "DHCPv6 traffic",
+ { action => 'PARAM', proto => 'udp', dport => '546:547', sport => '546:547' },
+ ],
'Trcrt' => [
{ action => 'PARAM', proto => 'udp', dport => '33434:33524' },
{ action => 'PARAM', proto => 'icmpv6', dport => 'echo-request' },
{ action => 'PARAM', proto => 'tcp', dport => '465' },
{ action => 'PARAM', proto => 'tcp', dport => '587' },
],
+ 'MDNS' => [
+ "Multicast DNS",
+ { action => 'PARAM', proto => 'udp', dport => '5353' },
+ ],
'Munin' => [
"Munin networked resource monitoring traffic",
{ action => 'PARAM', proto => 'tcp', dport => '4949' },
my $pve_fw_macro_ipversion = {};
my $pve_fw_preferred_macro_names = {};
+my $FWACCEPTMARK_ON = "0x80000000/0x80000000";
+my $FWACCEPTMARK_OFF = "0x00000000/0x80000000";
+
my $pve_std_chains = {};
$pve_std_chains->{4} = {
'PVEFW-SET-ACCEPT-MARK' => [
- "-j MARK --set-mark 1",
+ "-j MARK --set-mark $FWACCEPTMARK_ON",
],
'PVEFW-DropBroadcast' => [
# same as shorewall 'Broadcast'
'PVEFW-smurfs' => [
# same as shorewall smurfs action
# Filter packets for smurfs (packets with a broadcast address as the source).
- "-s 0.0.0.0/32 -j RETURN",
+ "-s 0.0.0.0/32 -j RETURN", # allow DHCP
"-m addrtype --src-type BROADCAST -g PVEFW-smurflog",
"-s 224.0.0.0/4 -g PVEFW-smurflog",
],
$pve_std_chains->{6} = {
'PVEFW-SET-ACCEPT-MARK' => [
- "-j MARK --set-mark 1",
+ "-j MARK --set-mark $FWACCEPTMARK_ON",
],
'PVEFW-DropBroadcast' => [
# same as shorewall 'Broadcast'
return $etc_protocols;
}
-my $ipv4_mask_hash_localnet = {
- '255.255.0.0' => 16,
- '255.255.128.0' => 17,
- '255.255.192.0' => 18,
- '255.255.224.0' => 19,
- '255.255.240.0' => 20,
- '255.255.248.0' => 21,
- '255.255.252.0' => 22,
- '255.255.254.0' => 23,
- '255.255.255.0' => 24,
- '255.255.255.128' => 25,
- '255.255.255.192' => 26,
- '255.255.255.224' => 27,
- '255.255.255.240' => 28,
- '255.255.255.248' => 29,
- '255.255.255.252' => 30,
-};
-
my $__local_network;
sub local_network {
my $mask;
if ($isv6) {
$mask = $entry->{prefix};
+ next if !$mask; # skip the default route...
} else {
- $mask = $ipv4_mask_hash_localnet->{$entry->{mask}};
+ $mask = $PVE::Network::ipv4_mask_hash_localnet->{$entry->{mask}};
next if !defined($mask);
}
my $cidr = "$entry->{dest}/$mask";
my $testnet = Net::IP->new($cidr);
- if ($testnet->overlaps($testip) == $Net::IP::IP_B_IN_A_OVERLAP) {
+ my $overlap = $testnet->overlaps($testip);
+ if ($overlap == $Net::IP::IP_B_IN_A_OVERLAP ||
+ $overlap == $Net::IP::IP_IDENTICAL)
+ {
$__local_network = $cidr;
return;
}
my $iprange = 0;
my $ipversion;
- foreach my $elem (split(/,/, $str)) {
+ my @elements = split(/,/, $str);
+ die "extraneous commas in list\n" if $str ne join(',', @elements);
+ foreach my $elem (@elements) {
$count++;
my $ip = Net::IP->new($elem);
if (!$ip) {
}
sub parse_port_name_number_or_range {
- my ($str) = @_;
+ my ($str, $dport) = @_;
my $services = PVE::Firewall::get_etc_services();
my $count = 0;
my $icmp_port = 0;
- foreach my $item (split(/,/, $str)) {
+ my @elements = split(/,/, $str);
+ die "extraneous commas in list\n" if $str ne join(',', @elements);
+ foreach my $item (@elements) {
$count++;
if ($item =~ m/^(\d+):(\d+)$/) {
my ($port1, $port2) = ($1, $2);
my $port = $1;
die "invalid port '$port'\n" if $port > 65535;
} else {
- if ($icmp_type_names->{$item}) {
+ if ($dport && $icmp_type_names->{$item}) {
$icmp_port = 1;
- } elsif ($icmpv6_type_names->{$item}) {
+ } elsif ($dport && $icmpv6_type_names->{$item}) {
$icmp_port = 1;
} else {
die "invalid port '$item'\n" if !$services->{byname}->{$item};
return $count;
}
-PVE::JSONSchema::register_format('pve-fw-port-spec', \&pve_fw_verify_port_spec);
-sub pve_fw_verify_port_spec {
+PVE::JSONSchema::register_format('pve-fw-sport-spec', \&pve_fw_verify_sport_spec);
+sub pve_fw_verify_sport_spec {
my ($portstr) = @_;
- parse_port_name_number_or_range($portstr);
+ parse_port_name_number_or_range($portstr, 0);
+
+ return $portstr;
+}
+
+PVE::JSONSchema::register_format('pve-fw-dport-spec', \&pve_fw_verify_dport_spec);
+sub pve_fw_verify_dport_spec {
+ my ($portstr) = @_;
+
+ parse_port_name_number_or_range($portstr, 1);
return $portstr;
}
next if !defined($v);
$data->{$k} = $v;
# Note: digest ignores refs ($rule->{errors})
- $sha->add($k, ':', $v, "\n") if !ref($v); ;
+ # since Digest::SHA expects a series of bytes,
+ # we have to encode the value here to prevent errors when
+ # using utf8 characters (eg. in comments)
+ $sha->add($k, ':', encode_utf8($v), "\n") if !ref($v); ;
}
push @$res, $data;
}
return wantarray ? ($res, $digest) : $res;
}
+our $cluster_option_properties = {
+ enable => {
+ description => "Enable or disable the firewall cluster wide.",
+ type => 'integer',
+ minimum => 0,
+ optional => 1,
+ },
+ policy_in => {
+ description => "Input policy.",
+ type => 'string',
+ optional => 1,
+ enum => ['ACCEPT', 'REJECT', 'DROP'],
+ },
+ policy_out => {
+ description => "Output policy.",
+ type => 'string',
+ optional => 1,
+ enum => ['ACCEPT', 'REJECT', 'DROP'],
+ },
+};
+
+our $host_option_properties = {
+ enable => {
+ description => "Enable host firewall rules.",
+ type => 'boolean',
+ optional => 1,
+ },
+ log_level_in => get_standard_option('pve-fw-loglevel', {
+ description => "Log level for incoming traffic." }),
+ log_level_out => get_standard_option('pve-fw-loglevel', {
+ description => "Log level for outgoing traffic." }),
+ tcp_flags_log_level => get_standard_option('pve-fw-loglevel', {
+ description => "Log level for illegal tcp flags filter." }),
+ smurf_log_level => get_standard_option('pve-fw-loglevel', {
+ description => "Log level for SMURFS filter." }),
+ nosmurfs => {
+ description => "Enable SMURFS filter.",
+ type => 'boolean',
+ optional => 1,
+ },
+ tcpflags => {
+ description => "Filter illegal combinations of TCP flags.",
+ type => 'boolean',
+ optional => 1,
+ },
+ nf_conntrack_max => {
+ description => "Maximum number of tracked connections.",
+ type => 'integer',
+ optional => 1,
+ minimum => 32768,
+ },
+ nf_conntrack_tcp_timeout_established => {
+ description => "Conntrack established timeout.",
+ type => 'integer',
+ optional => 1,
+ minimum => 7875,
+ },
+ ndp => {
+ description => "Enable NDP.",
+ type => 'boolean',
+ optional => 1,
+ },
+};
+
+our $vm_option_properties = {
+ enable => {
+ description => "Enable/disable firewall rules.",
+ type => 'boolean',
+ optional => 1,
+ },
+ macfilter => {
+ description => "Enable/disable MAC address filter.",
+ type => 'boolean',
+ optional => 1,
+ },
+ dhcp => {
+ description => "Enable DHCP.",
+ type => 'boolean',
+ optional => 1,
+ },
+ ndp => {
+ description => "Enable NDP.",
+ type => 'boolean',
+ optional => 1,
+ },
+ radv => {
+ description => "Allow sending Router Advertisement.",
+ type => 'boolean',
+ optional => 1,
+ },
+ ipfilter => {
+ description => "Enable default IP filters. " .
+ "This is equivalent to adding an empty ipfilter-net<id> ipset " .
+ "for every interface. Such ipsets implicitly contain sane default " .
+ "restrictions such as restricting IPv6 link local addresses to " .
+ "the one derived from the interface's MAC address. For containers " .
+ "the configured IP addresses will be implicitly added.",
+ type => 'boolean',
+ optional => 1,
+ },
+ policy_in => {
+ description => "Input policy.",
+ type => 'string',
+ optional => 1,
+ enum => ['ACCEPT', 'REJECT', 'DROP'],
+ },
+ policy_out => {
+ description => "Output policy.",
+ type => 'string',
+ optional => 1,
+ enum => ['ACCEPT', 'REJECT', 'DROP'],
+ },
+ log_level_in => get_standard_option('pve-fw-loglevel', {
+ description => "Log level for incoming traffic." }),
+ log_level_out => get_standard_option('pve-fw-loglevel', {
+ description => "Log level for outgoing traffic." }),
+
+};
+
+
+my $addr_list_descr = "This can refer to a single IP address, an IP set ('+ipsetname') or an IP alias definition. You can also specify an address range like '20.34.101.207-201.3.9.99', or a list of IP addresses and networks (entries are separated by comma). Please do not mix IPv4 and IPv6 addresses inside such lists.";
+
+my $port_descr = "You can use service names or simple numbers (0-65535), as defined in '/etc/services'. Port ranges can be specified with '\\d+:\\d+', for example '80:85', and you can use comma separated list to match several ports or ranges.";
+
my $rule_properties = {
pos => {
description => "Update rule at position <pos>.",
},
digest => get_standard_option('pve-config-digest'),
type => {
+ description => "Rule type.",
type => 'string',
optional => 1,
enum => ['in', 'out', 'group'],
minLength => 2,
},
macro => {
+ description => "Use predefined standard macro.",
type => 'string',
optional => 1,
maxLength => 128,
},
- iface => get_standard_option('pve-iface', { optional => 1 }),
+ iface => get_standard_option('pve-iface', {
+ description => "Network interface name. You have to use network configuration key names for VMs and containers ('net\\d+'). Host related rules can use arbitrary strings.",
+ optional => 1
+ }),
source => {
+ description => "Restrict packet source address. $addr_list_descr",
type => 'string', format => 'pve-fw-addr-spec',
optional => 1,
},
dest => {
+ description => "Restrict packet destination address. $addr_list_descr",
type => 'string', format => 'pve-fw-addr-spec',
optional => 1,
},
proto => {
+ description => "IP protocol. You can use protocol names ('tcp'/'udp') or simple numbers, as defined in '/etc/protocols'.",
type => 'string', format => 'pve-fw-protocol-spec',
optional => 1,
},
enable => {
+ description => "Flag to enable/disable a rule.",
type => 'integer',
minimum => 0,
optional => 1,
},
sport => {
- type => 'string', format => 'pve-fw-port-spec',
+ description => "Restrict TCP/UDP source port. $port_descr",
+ type => 'string', format => 'pve-fw-sport-spec',
optional => 1,
},
dport => {
- type => 'string', format => 'pve-fw-port-spec',
+ description => "Restrict TCP/UDP destination port. $port_descr",
+ type => 'string', format => 'pve-fw-dport-spec',
optional => 1,
},
comment => {
+ description => "Descriptive comment.",
type => 'string',
optional => 1,
},
}
if ($rule->{dport}) {
- eval { parse_port_name_number_or_range($rule->{dport}); };
+ eval { parse_port_name_number_or_range($rule->{dport}, 1); };
&$add_error('dport', $@) if $@;
+ my $proto = $rule->{proto};
&$add_error('proto', "missing property - 'dport' requires this property")
- if !$rule->{proto};
+ if !$proto;
+ &$add_error('dport', "protocol '$proto' does not support ports")
+ if !$PROTOCOLS_WITH_PORTS->{$proto} &&
+ $proto ne 'icmp' && $proto ne 'icmpv6'; # special cases
}
if ($rule->{sport}) {
- eval { parse_port_name_number_or_range($rule->{sport}); };
+ eval { parse_port_name_number_or_range($rule->{sport}, 0); };
&$add_error('sport', $@) if $@;
+ my $proto = $rule->{proto};
&$add_error('proto', "missing property - 'sport' requires this property")
- if !$rule->{proto};
+ if !$proto;
+ &$add_error('sport', "protocol '$proto' does not support ports")
+ if !$PROTOCOLS_WITH_PORTS->{$proto};
}
if ($rule->{source}) {
$bridge_firewall_enabled = 1;
}
-my $rule_format = "%-15s %-30s %-30s %-15s %-15s %-15s\n";
-
sub iptables_restore_cmdlist {
my ($cmdlist) = @_;
return 1 if $name =~ m/^PVEFW-\S+$/;
- return 1 if $name =~ m/^tap\d+i\d+-(:?IN|OUT)$/;
+ return 1 if $name =~ m/^tap\d+i\d+-(?:IN|OUT)$/;
- return 1 if $name =~ m/^veth\d+.\d+-(:?IN|OUT)$/; # fixme: dev name is configurable
+ return 1 if $name =~ m/^veth\d+i\d+-(?:IN|OUT)$/;
- return 1 if $name =~ m/^fwbr\d+(v\d+)?-(:?FW|IN|OUT|IPS)$/;
- return 1 if $name =~ m/^GROUP-(:?[^\s\-]+)-(:?IN|OUT)$/;
+ return 1 if $name =~ m/^fwbr\d+(v\d+)?-(?:FW|IN|OUT|IPS)$/;
+ return 1 if $name =~ m/^GROUP-(?:$security_group_name_pattern)-(?:IN|OUT)$/;
return undef;
};
return $res;
}
-sub ruleset_generate_cmdstr {
+sub ruleset_generate_match {
my ($ruleset, $chain, $ipversion, $rule, $actions, $goto, $cluster_conf, $fw_conf) = @_;
return if defined($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 $nbdport = defined($rule->{dport}) ? parse_port_name_number_or_range($rule->{dport}, 1) : 0;
+ my $nbsport = defined($rule->{sport}) ? parse_port_name_number_or_range($rule->{sport}, 0) : 0;
my @cmd = ();
}
}
- if ($rule->{proto}) {
- push @cmd, "-p $rule->{proto}";
+ if (my $proto = $rule->{proto}) {
+ push @cmd, "-p $proto";
my $multiport = 0;
$multiport++ if $nbdport > 1;
if ($multiport == 2) && ($rule->{dport} ne $rule->{sport});
if ($rule->{dport}) {
- if ($rule->{proto} && $rule->{proto} eq 'icmp') {
+ if ($proto eq 'icmp') {
# Note: we use dport to store --icmp-type
- die "unknown icmp-type '$rule->{dport}'\n" if !defined($icmp_type_names->{$rule->{dport}});
+ die "unknown icmp-type '$rule->{dport}'\n"
+ if $rule->{dport} !~ /^\d+$/ && !defined($icmp_type_names->{$rule->{dport}});
push @cmd, "-m icmp --icmp-type $rule->{dport}";
- } elsif ($rule->{proto} && $rule->{proto} eq 'icmpv6') {
+ } elsif ($proto eq 'icmpv6') {
# Note: we use dport to store --icmpv6-type
- die "unknown icmpv6-type '$rule->{dport}'\n" if !defined($icmpv6_type_names->{$rule->{dport}});
+ die "unknown icmpv6-type '$rule->{dport}'\n"
+ if $rule->{dport} !~ /^\d+$/ && !defined($icmpv6_type_names->{$rule->{dport}});
push @cmd, "-m icmpv6 --icmpv6-type $rule->{dport}";
+ } elsif (!$PROTOCOLS_WITH_PORTS->{$proto}) {
+ die "protocol $proto does not have ports\n";
} else {
if ($nbdport > 1) {
if ($multiport == 2) {
}
if ($rule->{sport}) {
+ die "protocol $proto does not have ports\n"
+ if !$PROTOCOLS_WITH_PORTS->{$proto};
if ($nbsport > 1) {
push @cmd, "--sports $rule->{sport}" if $multiport != 2;
} else {
push @cmd, "-m addrtype --dst-type $rule->{dsttype}" if $rule->{dsttype};
+ return scalar(@cmd) ? join(' ', @cmd) : undef;
+}
+
+sub ruleset_generate_action {
+ my ($ruleset, $chain, $ipversion, $rule, $actions, $goto, $cluster_conf, $fw_conf) = @_;
+
+ my @cmd = ();
+
if (my $action = $rule->{action}) {
$action = $actions->{$action} if defined($actions->{$action});
$goto = 1 if !defined($goto) && $action eq 'PVEFW-SET-ACCEPT-MARK';
return scalar(@cmd) ? join(' ', @cmd) : undef;
}
+sub ruleset_generate_cmdstr {
+ my ($ruleset, $chain, $ipversion, $rule, $actions, $goto, $cluster_conf, $fw_conf) = @_;
+ my $match = ruleset_generate_match($ruleset, $chain, $ipversion, $rule, $actions, $goto, $cluster_conf, $fw_conf);
+ my $action = ruleset_generate_action($ruleset, $chain, $ipversion, $rule, $actions, $goto, $cluster_conf, $fw_conf);
+
+ return undef if !(defined($match) or defined($action));
+ my $ret = defined($match) ? $match : "";
+ $ret = "$ret $action" if defined($action);
+ return $ret;
+}
+
sub ruleset_generate_rule {
my ($ruleset, $chain, $ipversion, $rule, $actions, $goto, $cluster_conf, $fw_conf) = @_;
# update all or nothing
- my @cmds = ();
+ my @mstrs = ();
+ my @astrs = ();
foreach my $tmp (@$rules) {
- if (my $cmdstr = ruleset_generate_cmdstr($ruleset, $chain, $ipversion, $tmp, $actions, $goto, $cluster_conf, $fw_conf)) {
- push @cmds, $cmdstr;
+ my $m = ruleset_generate_match($ruleset, $chain, $ipversion, $tmp, $actions, $goto, $cluster_conf, $fw_conf);
+ my $a = ruleset_generate_action($ruleset, $chain, $ipversion, $tmp, $actions, $goto, $cluster_conf, $fw_conf);
+ if (defined $m or defined $a) {
+ push @mstrs, defined($m) ? $m : "";
+ push @astrs, defined($a) ? $a : "";
}
}
- foreach my $cmdstr (@cmds) {
- ruleset_addrule($ruleset, $chain, $cmdstr);
+ for my $i (0 .. $#mstrs) {
+ ruleset_addrule($ruleset, $chain, $mstrs[$i], $astrs[$i]);
}
}
die "implement me" if $rule->{macro}; # not implemented, because not needed so far
- if (my $cmdstr = ruleset_generate_cmdstr($ruleset, $chain, $ipversion, $rule, $actions, $goto)) {
- ruleset_insertrule($ruleset, $chain, $cmdstr);
+ my $match = ruleset_generate_match($ruleset, $chain, $ipversion, $rule, $actions, $goto);
+ my $action = ruleset_generate_action($ruleset, $chain, $ipversion, $rule, $actions, $goto);
+ if (defined $match && defined $action) {
+ ruleset_insertrule($ruleset, $chain, $match, $action);
}
}
return $ruleset->{$chain} ? 1 : undef;
}
-sub ruleset_addrule {
+sub ruleset_addrule_old {
my ($ruleset, $chain, $rule) = @_;
die "no such chain '$chain'\n" if !$ruleset->{$chain};
push @{$ruleset->{$chain}}, "-A $chain $rule";
}
+sub ruleset_addrule {
+ my ($ruleset, $chain, $match, $action, $log, $logmsg, $vmid) = @_;
+
+ die "no such chain '$chain'\n" if !$ruleset->{$chain};
+
+ if (defined($log) && $log) {
+ my $logaction = get_log_rule_base($chain, $vmid, $logmsg, $log);
+ push @{$ruleset->{$chain}}, "-A $chain $match $logaction";
+ }
+ push @{$ruleset->{$chain}}, "-A $chain $match $action";
+}
+
sub ruleset_insertrule {
- my ($ruleset, $chain, $rule) = @_;
+ my ($ruleset, $chain, $match, $action, $log) = @_;
die "no such chain '$chain'\n" if !$ruleset->{$chain};
- unshift @{$ruleset->{$chain}}, "-A $chain $rule";
+ unshift @{$ruleset->{$chain}}, "-A $chain $match $action";
}
sub get_log_rule_base {
my ($chain, $vmid, $msg, $loglevel) = @_;
- die "internal error - no log level" if !defined($loglevel);
-
$vmid = 0 if !defined($vmid);
+ $msg = "" if !defined($msg);
# Note: we use special format for prefix to pass further
- # info to log daemon (VMID, LOGVELEL and CHAIN)
+ # info to log daemon (VMID, LOGLEVEL and CHAIN)
return "-j NFLOG --nflog-prefix \":$vmid:$loglevel:$chain: $msg\"";
}
-sub ruleset_addlog {
- my ($ruleset, $chain, $vmid, $msg, $loglevel, $rule) = @_;
-
- return if !defined($loglevel);
-
- my $logrule = get_log_rule_base($chain, $vmid, $msg, $loglevel);
-
- $logrule = "$rule $logrule" if defined($rule);
-
- ruleset_addrule($ruleset, $chain, $logrule);
-}
-
sub ruleset_add_chain_policy {
my ($ruleset, $chain, $ipversion, $vmid, $policy, $loglevel, $accept_action) = @_;
} elsif ($policy eq 'DROP') {
- ruleset_addrule($ruleset, $chain, "-j PVEFW-Drop");
+ ruleset_addrule($ruleset, $chain, "", "-j PVEFW-Drop");
- ruleset_addlog($ruleset, $chain, $vmid, "policy $policy: ", $loglevel);
-
- ruleset_addrule($ruleset, $chain, "-j DROP");
+ ruleset_addrule($ruleset, $chain, "", "-j DROP", $loglevel, "policy $policy: ", $vmid);
} elsif ($policy eq 'REJECT') {
- ruleset_addrule($ruleset, $chain, "-j PVEFW-Reject");
-
- ruleset_addlog($ruleset, $chain, $vmid, "policy $policy: ", $loglevel);
+ ruleset_addrule($ruleset, $chain, "", "-j PVEFW-Reject");
- ruleset_addrule($ruleset, $chain, "-g PVEFW-reject");
+ ruleset_addrule($ruleset, $chain, "", "-g PVEFW-reject", $loglevel, "policy $policy:", $vmid);
} else {
# should not happen
die "internal error: unknown policy '$policy'";
}
}
+sub ruleset_chain_add_ndp {
+ my ($ruleset, $chain, $ipversion, $options, $direction, $accept) = @_;
+ return if $ipversion != 6 || (defined($options->{ndp}) && !$options->{ndp});
+
+ ruleset_addrule($ruleset, $chain, "-p icmpv6 --icmpv6-type router-solicitation", $accept);
+ if ($direction ne 'OUT' || $options->{radv}) {
+ ruleset_addrule($ruleset, $chain, "-p icmpv6 --icmpv6-type router-advertisement", $accept);
+ }
+ ruleset_addrule($ruleset, $chain, "-p icmpv6 --icmpv6-type neighbor-solicitation", $accept);
+ ruleset_addrule($ruleset, $chain, "-p icmpv6 --icmpv6-type neighbor-advertisement", $accept);
+}
+
sub ruleset_chain_add_conn_filters {
my ($ruleset, $chain, $accept) = @_;
- ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate INVALID -j DROP");
- ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate RELATED,ESTABLISHED -j $accept");
+ ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate INVALID", "-j DROP");
+ ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate RELATED,ESTABLISHED", "-j $accept");
}
sub ruleset_chain_add_input_filters {
if ($cluster_conf->{ipset}->{blacklist}){
if (!ruleset_chain_exist($ruleset, "PVEFW-blacklist")) {
ruleset_create_chain($ruleset, "PVEFW-blacklist");
- ruleset_addlog($ruleset, "PVEFW-blacklist", 0, "DROP: ", $loglevel) if $loglevel;
- ruleset_addrule($ruleset, "PVEFW-blacklist", "-j DROP");
+ ruleset_addrule($ruleset, "PVEFW-blacklist", "", "-j DROP", $loglevel, "DROP: ");
}
my $ipset_chain = compute_ipset_chain_name(0, 'blacklist', $ipversion);
- ruleset_addrule($ruleset, $chain, "-m set --match-set ${ipset_chain} src -j PVEFW-blacklist");
+ ruleset_addrule($ruleset, $chain, "-m set --match-set ${ipset_chain} src", "-j PVEFW-blacklist");
}
if (!(defined($options->{nosmurfs}) && $options->{nosmurfs} == 0)) {
if ($ipversion == 4) {
- ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate INVALID,NEW -j PVEFW-smurfs");
+ ruleset_addrule($ruleset, $chain, "-m conntrack --ctstate INVALID,NEW", "-j PVEFW-smurfs");
}
}
if ($options->{tcpflags}) {
- ruleset_addrule($ruleset, $chain, "-p tcp -j PVEFW-tcpflags");
+ ruleset_addrule($ruleset, $chain, "-p tcp", "-j PVEFW-tcpflags");
}
}
my $accept = generate_nfqueue($options);
if (!(defined($options->{dhcp}) && $options->{dhcp} == 0)) {
- if ($direction eq 'OUT') {
- ruleset_generate_rule($ruleset, $chain, $ipversion,
- { action => 'PVEFW-SET-ACCEPT-MARK',
- proto => 'udp', sport => 68, dport => 67 });
- } else {
- ruleset_generate_rule($ruleset, $chain, $ipversion,
- { action => 'ACCEPT',
- proto => 'udp', sport => 67, dport => 68 });
+ if ($ipversion == 4) {
+ if ($direction eq 'OUT') {
+ ruleset_generate_rule($ruleset, $chain, $ipversion,
+ { action => 'PVEFW-SET-ACCEPT-MARK',
+ proto => 'udp', sport => 68, dport => 67 });
+ } else {
+ ruleset_generate_rule($ruleset, $chain, $ipversion,
+ { action => 'ACCEPT',
+ proto => 'udp', sport => 67, dport => 68 });
+ }
+ } elsif ($ipversion == 6) {
+ if ($direction eq 'OUT') {
+ ruleset_generate_rule($ruleset, $chain, $ipversion,
+ { action => 'PVEFW-SET-ACCEPT-MARK',
+ proto => 'udp', sport => 546, dport => 547 });
+ } else {
+ ruleset_generate_rule($ruleset, $chain, $ipversion,
+ { action => 'ACCEPT',
+ proto => 'udp', sport => 547, dport => 546 });
+ }
}
+
}
if ($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, "-m mac ! --mac-source $macaddr", "-j DROP");
+ }
+ if ($ipversion == 6 && !$options->{radv}) {
+ ruleset_addrule($ruleset, $chain, "-p icmpv6 --icmpv6-type router-advertisement", "-j DROP");
}
if ($ipfilter_ipset) {
- ruleset_addrule($ruleset, $chain, "-m set ! --match-set $ipfilter_ipset src -j DROP");
+ ruleset_addrule($ruleset, $chain, "-m set ! --match-set $ipfilter_ipset src", "-j DROP");
}
- ruleset_addrule($ruleset, $chain, "-j MARK --set-mark 0"); # clear mark
+ ruleset_addrule($ruleset, $chain, "", "-j MARK --set-mark $FWACCEPTMARK_OFF"); # clear mark
}
+
+ my $accept_action = $direction eq 'OUT' ? '-g PVEFW-SET-ACCEPT-MARK' : "-j $accept";
+ ruleset_chain_add_ndp($ruleset, $chain, $ipversion, $options, $direction, $accept_action);
}
sub ruleset_add_group_rule {
}
if ($direction eq 'OUT' && $rule->{iface_out}) {
- ruleset_addrule($ruleset, $chain, "-o $rule->{iface_out} -j $group_chain");
+ ruleset_addrule($ruleset, $chain, "-o $rule->{iface_out}", "-j $group_chain");
} elsif ($direction eq 'IN' && $rule->{iface_in}) {
- ruleset_addrule($ruleset, $chain, "-i $rule->{iface_in} -j $group_chain");
+ ruleset_addrule($ruleset, $chain, "-i $rule->{iface_in}", "-j $group_chain");
} else {
- ruleset_addrule($ruleset, $chain, "-j $group_chain");
+ ruleset_addrule($ruleset, $chain, "", "-j $group_chain");
}
- ruleset_addrule($ruleset, $chain, "-m mark --mark 1 -j $action");
+ ruleset_addrule($ruleset, $chain, "-m mark --mark $FWACCEPTMARK_ON", "-j $action");
}
sub ruleset_generate_vm_rules {
ruleset_create_chain($ruleset, "PVEFW-IPS");
}
- ruleset_addrule($ruleset, "PVEFW-IPS", "-m physdev --physdev-out $iface --physdev-is-bridged -j $nfqueue");
+ ruleset_addrule($ruleset, "PVEFW-IPS", "-m physdev --physdev-out $iface --physdev-is-bridged", "-j $nfqueue");
}
}
my $ipfilter_name = compute_ipfilter_ipset_name($netid);
my $ipfilter_ipset = compute_ipset_chain_name($vmid, $ipfilter_name, $ipversion)
- if $vmfw_conf->{ipset}->{$ipfilter_name};
+ if $options->{ipfilter} || $vmfw_conf->{ipset}->{$ipfilter_name};
# create chain with mac and ip filter
ruleset_create_vm_chain($ruleset, $tapchain, $ipversion, $options, $macaddr, $ipfilter_ipset, $direction);
# plug the tap chain to bridge chain
if ($direction eq 'IN') {
ruleset_addrule($ruleset, "PVEFW-FWBR-IN",
- "-m physdev --physdev-is-bridged --physdev-out $iface -j $tapchain");
+ "-m physdev --physdev-is-bridged --physdev-out $iface", "-j $tapchain");
} else {
ruleset_addrule($ruleset, "PVEFW-FWBR-OUT",
- "-m physdev --physdev-is-bridged --physdev-in $iface -j $tapchain");
+ "-m physdev --physdev-is-bridged --physdev-in $iface", "-j $tapchain");
}
}
my $loglevel = get_option_log_level($options, "log_level_in");
- ruleset_addrule($ruleset, $chain, "-i lo -j ACCEPT");
+ ruleset_addrule($ruleset, $chain, "-i lo", "-j ACCEPT");
ruleset_chain_add_conn_filters($ruleset, $chain, 'ACCEPT');
+ ruleset_chain_add_ndp($ruleset, $chain, $ipversion, $options, 'IN', '-j RETURN');
ruleset_chain_add_input_filters($ruleset, $chain, $ipversion, $options, $cluster_conf, $loglevel);
# we use RETURN because we need to check also tap rules
my $accept_action = 'RETURN';
- ruleset_addrule($ruleset, $chain, "-p igmp -j $accept_action"); # important for multicast
+ ruleset_addrule($ruleset, $chain, "-p igmp", "-j $accept_action"); # important for multicast
# add host rules first, so that cluster wide rules can be overwritten
foreach my $rule (@$rules, @$cluster_rules) {
# allow standard traffic for management ipset (includes cluster network)
my $mngmnt_ipset_chain = compute_ipset_chain_name(0, "management", $ipversion);
my $mngmntsrc = "-m set --match-set ${mngmnt_ipset_chain} src";
- ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 8006 -j $accept_action"); # PVE API
- ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 5900:5999 -j $accept_action"); # PVE VNC Console
- ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 3128 -j $accept_action"); # SPICE Proxy
- ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 22 -j $accept_action"); # SSH
+ ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 8006", "-j $accept_action"); # PVE API
+ ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 5900:5999", "-j $accept_action"); # PVE VNC Console
+ ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 3128", "-j $accept_action"); # SPICE Proxy
+ ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp --dport 22", "-j $accept_action"); # SSH
my $localnet = $cluster_conf->{aliases}->{local_network}->{cidr};
my $localnet_ver = $cluster_conf->{aliases}->{local_network}->{ipversion};
# corosync
if ($localnet && ($ipversion == $localnet_ver)) {
- my $corosync_rule = "-p udp --dport 5404:5405 -j $accept_action";
- ruleset_addrule($ruleset, $chain, "-s $localnet -d $localnet $corosync_rule");
- ruleset_addrule($ruleset, $chain, "-s $localnet -m addrtype --dst-type MULTICAST $corosync_rule");
+ my $corosync_rule = "-p udp --dport 5404:5405";
+ ruleset_addrule($ruleset, $chain, "-s $localnet -d $localnet $corosync_rule", "-j $accept_action");
+ ruleset_addrule($ruleset, $chain, "-s $localnet -m addrtype --dst-type MULTICAST $corosync_rule", "-j $accept_action");
}
# implement input policy
$loglevel = get_option_log_level($options, "log_level_out");
- ruleset_addrule($ruleset, $chain, "-o lo -j ACCEPT");
+ ruleset_addrule($ruleset, $chain, "-o lo", "-j ACCEPT");
ruleset_chain_add_conn_filters($ruleset, $chain, 'ACCEPT');
# we use RETURN because we may want to check other thigs later
$accept_action = 'RETURN';
+ ruleset_chain_add_ndp($ruleset, $chain, $ipversion, $options, 'OUT', "-j $accept_action");
- ruleset_addrule($ruleset, $chain, "-p igmp -j $accept_action"); # important for multicast
+ ruleset_addrule($ruleset, $chain, "-p igmp", "-j $accept_action"); # important for multicast
# add host rules first, so that cluster wide rules can be overwritten
foreach my $rule (@$rules, @$cluster_rules) {
# allow standard traffic on cluster network
if ($localnet && ($ipversion == $localnet_ver)) {
- ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 8006 -j $accept_action"); # PVE API
- ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 22 -j $accept_action"); # SSH
- ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 5900:5999 -j $accept_action"); # PVE VNC Console
- ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 3128 -j $accept_action"); # SPICE Proxy
+ ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 8006", "-j $accept_action"); # PVE API
+ ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 22", "-j $accept_action"); # SSH
+ ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 5900:5999", "-j $accept_action"); # PVE VNC Console
+ ruleset_addrule($ruleset, $chain, "-d $localnet -p tcp --dport 3128", "-j $accept_action"); # SPICE Proxy
- my $corosync_rule = "-p udp --dport 5404:5405 -j $accept_action";
- ruleset_addrule($ruleset, $chain, "-d $localnet $corosync_rule");
- ruleset_addrule($ruleset, $chain, "-m addrtype --dst-type MULTICAST $corosync_rule");
+ my $corosync_rule = "-p udp --dport 5404:5405";
+ ruleset_addrule($ruleset, $chain, "-d $localnet $corosync_rule", "-j $accept_action");
+ ruleset_addrule($ruleset, $chain, "-m addrtype --dst-type MULTICAST $corosync_rule", "-j $accept_action");
}
# implement output policy
$policy = $cluster_options->{policy_out} || 'ACCEPT'; # allow everything by default
ruleset_add_chain_policy($ruleset, $chain, $ipversion, 0, $policy, $loglevel, $accept_action);
- ruleset_addrule($ruleset, "PVEFW-OUTPUT", "-j PVEFW-HOST-OUT");
- ruleset_addrule($ruleset, "PVEFW-INPUT", "-j PVEFW-HOST-IN");
+ ruleset_addrule($ruleset, "PVEFW-OUTPUT", "", "-j PVEFW-HOST-OUT");
+ ruleset_addrule($ruleset, "PVEFW-INPUT", "", "-j PVEFW-HOST-IN");
}
sub generate_group_rules {
my $chain = "GROUP-${group}-IN";
ruleset_create_chain($ruleset, $chain);
- ruleset_addrule($ruleset, $chain, "-j MARK --set-mark 0"); # clear mark
+ ruleset_addrule($ruleset, $chain, "", "-j MARK --set-mark $FWACCEPTMARK_OFF"); # clear mark
foreach my $rule (@$rules) {
next if $rule->{type} ne 'in';
$chain = "GROUP-${group}-OUT";
ruleset_create_chain($ruleset, $chain);
- ruleset_addrule($ruleset, $chain, "-j MARK --set-mark 0"); # clear mark
+ ruleset_addrule($ruleset, $chain, "", "-j MARK --set-mark $FWACCEPTMARK_OFF"); # clear mark
foreach my $rule (@$rules) {
next if $rule->{type} ne 'out';
$valid_netdev_names->{"net$i"} = 1;
}
+sub get_mark_values {
+ my ($value, $mask) = @_;
+ $value = hex($value) if $value =~ /^0x/;
+ $mask = hex($mask) if defined($mask) && $mask =~ /^0x/;
+ $mask = 0xffffffff if !defined($mask);
+ return ($value, $mask);
+}
+
sub parse_fw_rule {
my ($prefix, $line, $cluster_conf, $fw_conf, $rule_env, $verbose) = @_;
die "unable to parse rule parameters: $line\n" if length($line);
$rule = verify_rule($rule, $cluster_conf, $fw_conf, $rule_env, 1);
- if ($verbose && $rule->{errors}) {
- warn "$prefix - errors in rule parameters: $orig_line\n";
+ if ($rule->{errors}) {
+ # The verbose flag really means we're running from the CLI and want
+ # output on the console - in the other case we really want such errors
+ # to go into the syslog instead.
+ my $log = $verbose ? sub { warn @_ } : sub { syslog(err => @_) };
+ $log->("$prefix - errors in rule parameters: $orig_line\n");
foreach my $p (keys %{$rule->{errors}}) {
- warn " $p: $rule->{errors}->{$p}\n";
+ $log->(" $p: $rule->{errors}->{$p}\n");
}
}
my $loglevels = "emerg|alert|crit|err|warning|notice|info|debug|nolog";
- if ($line =~ m/^(enable|dhcp|macfilter|ips):\s*(0|1)\s*$/i) {
+ if ($line =~ m/^(enable|dhcp|ndp|radv|macfilter|ipfilter|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) {
my $loglevels = "emerg|alert|crit|err|warning|notice|info|debug|nolog";
- if ($line =~ m/^(enable|nosmurfs|tcpflags):\s*(0|1)\s*$/i) {
+ if ($line =~ m/^(enable|nosmurfs|tcpflags|ndp):\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) {
$errors->{cidr} = $err;
}
+ if ($cidr =~ m!/0+$!) {
+ $errors->{cidr} = "a zero prefix is not allowed in ipset entries\n";
+ }
+
my $entry = { cidr => $cidr };
$entry->{nomatch} = 1 if $nomatch;
$entry->{comment} = $comment if $comment;
next if !$d->{type};
if ($d->{type} eq 'qemu') {
if ($have_qemu_server) {
- my $cfspath = PVE::QemuServer::cfs_config_path($vmid);
+ my $cfspath = PVE::QemuConfig->cfs_config_path($vmid);
if (my $conf = PVE::Cluster::cfs_read_file($cfspath)) {
$qemu->{$vmid} = $conf;
}
}
} elsif ($d->{type} eq 'lxc') {
if ($have_lxc) {
- my $cfspath = PVE::LXC::cfs_config_path($vmid);
+ my $cfspath = PVE::LXC::Config->cfs_config_path($vmid);
if (my $conf = PVE::Cluster::cfs_read_file($cfspath)) {
$lxc->{$vmid} = $conf;
}
$raw .= "\n";
}
- mkdir $pvefw_conf_dir;
-
my $filename = "$pvefw_conf_dir/$vmid.fw";
- PVE::Tools::file_set_contents($filename, $raw);
+ if ($raw) {
+ mkdir $pvefw_conf_dir;
+ PVE::Tools::file_set_contents($filename, $raw);
+ } else {
+ unlink $filename;
+ }
}
sub remove_vmfw_conf {
unlink $vmfw_conffile;
}
+sub clone_vmfw_conf {
+ my ($vmid, $newid) = @_;
+
+ my $sourcevm_conffile = "$pvefw_conf_dir/$vmid.fw";
+ my $clonevm_conffile = "$pvefw_conf_dir/$newid.fw";
+
+ if (-f $clonevm_conffile) {
+ unlink $clonevm_conffile;
+ }
+ if (-f $sourcevm_conffile) {
+ my $data = PVE::Tools::file_get_contents($sourcevm_conffile);
+ PVE::Tools::file_set_contents($clonevm_conffile, $data);
+ }
+}
+
sub read_vm_firewall_configs {
my ($cluster_conf, $vmdata, $dir, $verbose) = @_;
if (ref($rule)) {
ruleset_generate_rule($ruleset, $chain, $ipversion, $rule);
} else {
- ruleset_addrule($ruleset, $chain, $rule);
+ ruleset_addrule_old($ruleset, $chain, $rule);
}
}
}
}
sub generate_ipset_chains {
- my ($ipset_ruleset, $clusterfw_conf, $fw_conf) = @_; #fixme
+ my ($ipset_ruleset, $clusterfw_conf, $fw_conf, $device_ips, $ipsets) = @_;
- foreach my $ipset (keys %{$fw_conf->{ipset}}) {
+ foreach my $ipset (keys %{$ipsets}) {
- my $options = $fw_conf->{ipset}->{$ipset};
+ my $options = $ipsets->{$ipset};
+
+ if ($device_ips && $ipset =~ /^ipfilter-(net\d+)$/) {
+ if (my $ips = $device_ips->{$1}) {
+ $options = [@$options, @$ips];
+ }
+ }
# remove duplicates
my $nethash = {};
}
#http://backreference.org/2013/03/01/ipv6-address-normalization/
if ($ver == 6) {
- $cidr = lc(Net::IP::ip_compress_address($cidr, 6));
+ # ip_compress_address takes an address only, no CIDR
+ my ($addr, $prefix_len) = ($cidr =~ m@^([^/]*)(/.*)?$@);
+ $cidr = lc(Net::IP::ip_compress_address($addr, 6));
+ $cidr .= $prefix_len if defined($prefix_len);
$cidr =~ s|/128$||;
} else {
$cidr =~ s|/32$||;
}
}
- mkdir $pvefw_conf_dir;
- PVE::Tools::file_set_contents($clusterfw_conf_filename, $raw);
+ if ($raw) {
+ mkdir $pvefw_conf_dir;
+ PVE::Tools::file_set_contents($clusterfw_conf_filename, $raw);
+ } else {
+ unlink $clusterfw_conf_filename;
+ }
}
sub load_hostfw_conf {
$raw .= "\n";
}
- PVE::Tools::file_set_contents($hostfw_conf_filename, $raw);
+ if ($raw) {
+ PVE::Tools::file_set_contents($hostfw_conf_filename, $raw);
+ } else {
+ unlink $hostfw_conf_filename;
+ }
}
sub compile {
$vmfw_configs = read_vm_firewall_configs($cluster_conf, $vmdata, undef, $verbose);
}
- my ($ruleset, $ipset_ruleset) = compile_iptables_filter($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, 4, $verbose);
- my ($rulesetv6) = compile_iptables_filter($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, 6, $verbose);
-
- return ($ruleset, $ipset_ruleset, $rulesetv6);
-}
-
-sub compile_iptables_filter {
- my ($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $ipversion, $verbose) = @_;
+ return ({},{},{}) if !$cluster_conf->{options}->{enable};
my $localnet;
if ($cluster_conf->{aliases}->{local_network}) {
push @{$cluster_conf->{ipset}->{management}}, { cidr => $localnet };
- return ({}, {}) if !$cluster_conf->{options}->{enable};
+ my $ruleset = compile_iptables_filter($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, 4, $verbose);
+ my $rulesetv6 = compile_iptables_filter($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, 6, $verbose);
+ my $ipset_ruleset = compile_ipsets($cluster_conf, $vmfw_configs, $vmdata);
+
+ return ($ruleset, $ipset_ruleset, $rulesetv6);
+}
+
+sub compile_iptables_filter {
+ my ($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $ipversion, $verbose) = @_;
my $ruleset = {};
ruleset_create_chain($ruleset, "PVEFW-FWBR-IN");
ruleset_chain_add_input_filters($ruleset, "PVEFW-FWBR-IN", $ipversion, $hostfw_options, $cluster_conf, $loglevel);
- ruleset_addrule($ruleset, "PVEFW-FORWARD", "-m physdev --physdev-is-bridged --physdev-in fwln+ -j PVEFW-FWBR-IN");
+ ruleset_addrule($ruleset, "PVEFW-FORWARD", "-m physdev --physdev-is-bridged --physdev-in fwln+", "-j PVEFW-FWBR-IN");
ruleset_create_chain($ruleset, "PVEFW-FWBR-OUT");
- ruleset_addrule($ruleset, "PVEFW-FORWARD", "-m physdev --physdev-is-bridged --physdev-out fwln+ -j PVEFW-FWBR-OUT");
+ ruleset_addrule($ruleset, "PVEFW-FORWARD", "-m physdev --physdev-is-bridged --physdev-out fwln+", "-j PVEFW-FWBR-OUT");
generate_std_chains($ruleset, $hostfw_options, $ipversion);
my $hostfw_enable = !(defined($hostfw_options->{enable}) && ($hostfw_options->{enable} == 0));
- my $ipset_ruleset = {};
-
if ($hostfw_enable) {
eval { enable_host_firewall($ruleset, $hostfw_conf, $cluster_conf, $ipversion); };
warn $@ if $@; # just to be sure - should not happen
}
# generate firewall rules for QEMU VMs
- foreach my $vmid (keys %{$vmdata->{qemu}}) {
+ foreach my $vmid (sort keys %{$vmdata->{qemu}}) {
eval {
my $conf = $vmdata->{qemu}->{$vmid};
my $vmfw_conf = $vmfw_configs->{$vmid};
return if !$vmfw_conf;
- generate_ipset_chains($ipset_ruleset, $cluster_conf, $vmfw_conf);
-
- foreach my $netid (keys %$conf) {
+ foreach my $netid (sort keys %$conf) {
next if $netid !~ m/^net(\d+)$/;
my $net = PVE::QemuServer::parse_net($conf->{$netid});
next if !$net->{firewall};
}
# generate firewall rules for LXC containers
- foreach my $vmid (keys %{$vmdata->{lxc}}) {
+ foreach my $vmid (sort keys %{$vmdata->{lxc}}) {
eval {
my $conf = $vmdata->{lxc}->{$vmid};
my $vmfw_conf = $vmfw_configs->{$vmid};
return if !$vmfw_conf;
- generate_ipset_chains($ipset_ruleset, $cluster_conf, $vmfw_conf);
-
if ($vmfw_conf->{options}->{enable}) {
- foreach my $netid (keys %$conf) {
+ foreach my $netid (sort keys %$conf) {
next if $netid !~ m/^net(\d+)$/;
- my $net = PVE::LXC::parse_lxc_network($conf->{$netid});
+ my $net = PVE::LXC::Config->parse_lxc_network($conf->{$netid});
next if !$net->{firewall};
my $iface = "veth${vmid}i$1";
my $macaddr = $net->{hwaddr};
}
if(ruleset_chain_exist($ruleset, "PVEFW-IPS")){
- ruleset_insertrule($ruleset, "PVEFW-FORWARD", "-m conntrack --ctstate RELATED,ESTABLISHED -j PVEFW-IPS");
+ ruleset_insertrule($ruleset, "PVEFW-FORWARD", "-m conntrack --ctstate RELATED,ESTABLISHED", "-j PVEFW-IPS");
+ }
+
+ return $ruleset;
+}
+
+sub mac_to_linklocal {
+ my ($macaddr) = @_;
+ my @parts = split(/:/, $macaddr);
+ # The standard link local address uses the fe80::/64 prefix with the
+ # modified EUI-64 identifier derived from the MAC address by flipping the
+ # universal/local bit and inserting FF:FE in the middle.
+ # See RFC 4291.
+ $parts[0] = sprintf("%02x", hex($parts[0]) ^ 0x02);
+ my @meui64 = (@parts[0,1,2], 'ff', 'fe', @parts[3,4,5]);
+ return "fe80::$parts[0]$parts[1]:$parts[2]FF:FE$parts[3]:$parts[4]$parts[5]";
+}
+
+sub compile_ipsets {
+ my ($cluster_conf, $vmfw_configs, $vmdata) = @_;
+
+ my $localnet;
+ if ($cluster_conf->{aliases}->{local_network}) {
+ $localnet = $cluster_conf->{aliases}->{local_network}->{cidr};
+ } else {
+ my $localnet_ver;
+ ($localnet, $localnet_ver) = parse_ip_or_cidr(local_network() || '127.0.0.0/8');
+
+ $cluster_conf->{aliases}->{local_network} = {
+ name => 'local_network', cidr => $localnet, ipversion => $localnet_ver };
+ }
+
+ push @{$cluster_conf->{ipset}->{management}}, { cidr => $localnet };
+
+
+ my $ipset_ruleset = {};
+
+ # generate ipsets for QEMU VMs
+ foreach my $vmid (keys %{$vmdata->{qemu}}) {
+ eval {
+ my $conf = $vmdata->{qemu}->{$vmid};
+ my $vmfw_conf = $vmfw_configs->{$vmid};
+ return if !$vmfw_conf;
+
+ # When the 'ipfilter' option is enabled every device for which there
+ # is no 'ipfilter-netX' ipset defiend gets an implicit empty default
+ # ipset.
+ # The reason is that ipfilter ipsets are always filled with standard
+ # IPv6 link-local filters.
+ my $ipsets = $vmfw_conf->{ipset};
+ my $implicit_sets = {};
+
+ my $device_ips = {};
+ foreach my $netid (keys %$conf) {
+ next if $netid !~ m/^net(\d+)$/;
+ my $net = PVE::QemuServer::parse_net($conf->{$netid});
+ next if !$net->{firewall};
+
+ if ($vmfw_conf->{options}->{ipfilter} && !$ipsets->{"ipfilter-$netid"}) {
+ $implicit_sets->{"ipfilter-$netid"} = [];
+ }
+
+ my $macaddr = $net->{macaddr};
+ my $linklocal = mac_to_linklocal($macaddr);
+ $device_ips->{$netid} = [
+ { cidr => $linklocal },
+ { cidr => 'fe80::/10', nomatch => 1 }
+ ];
+ }
+
+ generate_ipset_chains($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $ipsets);
+ generate_ipset_chains($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $implicit_sets);
+ };
+ warn $@ if $@; # just to be sure - should not happen
+ }
+
+ # generate firewall rules for LXC containers
+ foreach my $vmid (keys %{$vmdata->{lxc}}) {
+ eval {
+ my $conf = $vmdata->{lxc}->{$vmid};
+ my $vmfw_conf = $vmfw_configs->{$vmid};
+ return if !$vmfw_conf;
+
+ # When the 'ipfilter' option is enabled every device for which there
+ # is no 'ipfilter-netX' ipset defiend gets an implicit empty default
+ # ipset.
+ # The reason is that ipfilter ipsets are always filled with standard
+ # IPv6 link-local filters, as well as the IP addresses configured
+ # for the container.
+ my $ipsets = $vmfw_conf->{ipset};
+ my $implicit_sets = {};
+
+ my $device_ips = {};
+ foreach my $netid (keys %$conf) {
+ next if $netid !~ m/^net(\d+)$/;
+ my $net = PVE::LXC::Config->parse_lxc_network($conf->{$netid});
+ next if !$net->{firewall};
+
+ if ($vmfw_conf->{options}->{ipfilter} && !$ipsets->{"ipfilter-$netid"}) {
+ $implicit_sets->{"ipfilter-$netid"} = [];
+ }
+
+ my $macaddr = $net->{hwaddr};
+ my $linklocal = mac_to_linklocal($macaddr);
+ my $set = $device_ips->{$netid} = [
+ { cidr => $linklocal },
+ { cidr => 'fe80::/10', nomatch => 1 }
+ ];
+ if (defined($net->{ip}) && $net->{ip} =~ m!^($IPV4RE)(?:/\d+)?$!) {
+ push @$set, { cidr => $1 };
+ }
+ if (defined($net->{ip6}) && $net->{ip6} =~ m!^($IPV6RE)(?:/\d+)?$!) {
+ push @$set, { cidr => $1 };
+ }
+ }
+
+ generate_ipset_chains($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $ipsets);
+ generate_ipset_chains($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $implicit_sets);
+ };
+ warn $@ if $@; # just to be sure - should not happen
}
- generate_ipset_chains($ipset_ruleset, undef, $cluster_conf);
+ generate_ipset_chains($ipset_ruleset, undef, $cluster_conf, undef, $cluster_conf->{ipset});
- return ($ruleset, $ipset_ruleset);
+ return $ipset_ruleset;
}
sub get_ruleset_status {
enable_bridge_firewall();
my ($ipset_create_cmdlist, $ipset_delete_cmdlist, $ipset_changes) =
- get_ipset_cmdlist($ipset_ruleset, undef, $verbose);
+ get_ipset_cmdlist($ipset_ruleset, $verbose);
my ($cmdlist, $changes) = get_ruleset_cmdlist($ruleset, $verbose);
my ($cmdlistv6, $changesv6) = get_ruleset_cmdlist($rulesetv6, $verbose, "ip6tables");