13 use Socket
qw(AF_INET AF_INET6 inet_ntop inet_pton);
14 use Storable
qw(dclone);
18 use PVE
::Exception
qw(raise raise_param_exc);
20 use PVE
::JSONSchema
qw(register_standard_option get_standard_option);
24 use PVE
::Tools
qw($IPV4RE $IPV6RE);
25 use PVE
::Tools
qw(run_command lock_file dir_glob_foreach);
27 my $pvefw_conf_dir = "/etc/pve/firewall";
28 my $clusterfw_conf_filename = "$pvefw_conf_dir/cluster.fw";
30 # dynamically include PVE::QemuServer and PVE::LXC
31 # to avoid dependency problems
34 require PVE
::QemuServer
;
35 require PVE
::QemuConfig
;
36 $have_qemu_server = 1;
45 my $pve_fw_status_dir = "/var/lib/pve-firewall";
47 mkdir $pve_fw_status_dir; # make sure this exists
49 my $security_group_name_pattern = '[A-Za-z][A-Za-z0-9\-\_]+';
50 my $ipset_name_pattern = '[A-Za-z][A-Za-z0-9\-\_]+';
51 our $ip_alias_pattern = '[A-Za-z][A-Za-z0-9\-\_]+';
53 my $max_alias_name_length = 64;
54 my $max_ipset_name_length = 64;
55 my $max_group_name_length = 18;
57 my $PROTOCOLS_WITH_PORTS = {
59 udplite
=> 1, 136 => 1,
65 PVE
::JSONSchema
::register_format
('IPorCIDR', \
&pve_verify_ip_or_cidr
);
66 sub pve_verify_ip_or_cidr
{
67 my ($cidr, $noerr) = @_;
69 if ($cidr =~ m!^(?:$IPV6RE|$IPV4RE)(/(\d+))?$!) {
70 return $cidr if Net
::IP-
>new($cidr);
71 return undef if $noerr;
72 die Net
::IP
::Error
() . "\n";
74 return undef if $noerr;
75 die "value does not look like a valid IP address or CIDR network\n";
78 PVE
::JSONSchema
::register_format
('IPorCIDRorAlias', \
&pve_verify_ip_or_cidr_or_alias
);
79 sub pve_verify_ip_or_cidr_or_alias
{
80 my ($cidr, $noerr) = @_;
82 return if $cidr =~ m/^(?:$ip_alias_pattern)$/;
84 return pve_verify_ip_or_cidr
($cidr, $noerr);
87 PVE
::JSONSchema
::register_standard_option
('ipset-name', {
88 description
=> "IP set name.",
90 pattern
=> $ipset_name_pattern,
92 maxLength
=> $max_ipset_name_length,
95 PVE
::JSONSchema
::register_standard_option
('pve-fw-alias', {
96 description
=> "Alias name.",
98 pattern
=> $ip_alias_pattern,
100 maxLength
=> $max_alias_name_length,
103 PVE
::JSONSchema
::register_standard_option
('pve-fw-loglevel' => {
104 description
=> "Log level.",
106 enum
=> ['emerg', 'alert', 'crit', 'err', 'warning', 'notice', 'info', 'debug', 'nolog'],
110 PVE
::JSONSchema
::register_standard_option
('pve-security-group-name', {
111 description
=> "Security Group name.",
113 pattern
=> $security_group_name_pattern,
115 maxLength
=> $max_group_name_length,
118 my $feature_ipset_nomatch = 0;
120 my (undef, undef, $release) = POSIX
::uname
();
121 if ($release =~ m/^(\d+)\.(\d+)\.\d+-/) {
122 my ($major, $minor) = ($1, $2);
123 $feature_ipset_nomatch = 1 if ($major > 3) ||
124 ($major == 3 && $minor >= 7);
129 my $nodename = PVE
::INotify
::nodename
();
130 my $hostfw_conf_filename = "/etc/pve/nodes/$nodename/host.fw";
132 my $pve_fw_lock_filename = "/var/lock/pvefw.lck";
134 my $default_log_level = 'nolog'; # avoid logs by default
135 my $global_log_ratelimit = '--limit 1/sec';
137 my $log_level_hash = {
159 # sport => port[,port[,port]].. or port:port
160 # dport => port[,port[,port]].. or port:port
161 # log => optional, loglevel
162 # logmsg => optional, logmsg - overwrites default
163 # iface_in => incomin interface
164 # iface_out => outgoing interface
165 # match => optional, overwrites generation of match
166 # target => optional, overwrites action
168 # we need to overwrite some macros for ipv6
169 my $pve_ipv6fw_macros = {
171 { action
=> 'PARAM', proto
=> 'icmpv6', dport
=> 'echo-request' },
173 'NeighborDiscovery' => [
174 "IPv6 neighbor solicitation, neighbor and router advertisement",
175 { action
=> 'PARAM', proto
=> 'icmpv6', dport
=> 'router-solicitation' },
176 { action
=> 'PARAM', proto
=> 'icmpv6', dport
=> 'router-advertisement' },
177 { action
=> 'PARAM', proto
=> 'icmpv6', dport
=> 'neighbor-solicitation' },
178 { action
=> 'PARAM', proto
=> 'icmpv6', dport
=> 'neighbor-advertisement' },
182 { action
=> 'PARAM', proto
=> 'udp', dport
=> '546:547', sport
=> '546:547' },
185 { action
=> 'PARAM', proto
=> 'udp', dport
=> '33434:33524' },
186 { action
=> 'PARAM', proto
=> 'icmpv6', dport
=> 'echo-request' },
190 # imported/converted from: /usr/share/shorewall/macro.*
191 my $pve_fw_macros = {
194 { action
=> 'PARAM', proto
=> 'udp', dport
=> '10080' },
195 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '10080' },
198 "Auth (identd) traffic",
199 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '113' },
202 "Border Gateway Protocol traffic",
203 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '179' },
206 "BitTorrent traffic for BitTorrent 3.1 and earlier",
207 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6881:6889' },
208 { action
=> 'PARAM', proto
=> 'udp', dport
=> '6881' },
211 "BitTorrent traffic for BitTorrent 3.2 and later",
212 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6881:6999' },
213 { action
=> 'PARAM', proto
=> 'udp', dport
=> '6881' },
216 "Ceph Storage Cluster traffic (Ceph Monitors, OSD & MDS Deamons)",
217 # Legacy port for protocol v1
218 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6789' },
219 # New port for protocol v2
220 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3300' },
221 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6800:7300' },
224 "Concurrent Versions System pserver traffic",
225 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '2401' },
228 "Citrix/ICA traffic (ICA, ICA Browser, CGP)",
229 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '1494' },
230 { action
=> 'PARAM', proto
=> 'udp', dport
=> '1604' },
231 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '2598' },
234 "Digital Audio Access Protocol traffic (iTunes, Rythmbox daemons)",
235 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3689' },
236 { action
=> 'PARAM', proto
=> 'udp', dport
=> '3689' },
239 "Distributed Checksum Clearinghouse spam filtering mechanism",
240 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6277' },
243 "Forwarded DHCP traffic",
244 { action
=> 'PARAM', proto
=> 'udp', dport
=> '67:68', sport
=> '67:68' },
247 "Domain Name System traffic (upd and tcp)",
248 { action
=> 'PARAM', proto
=> 'udp', dport
=> '53' },
249 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '53' },
252 "Distributed Compiler service",
253 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3632' },
256 "File Transfer Protocol",
257 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '21' },
260 "Finger protocol (RFC 742)",
261 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '79' },
264 "GNUnet secure peer-to-peer networking traffic",
265 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '2086' },
266 { action
=> 'PARAM', proto
=> 'udp', dport
=> '2086' },
267 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '1080' },
268 { action
=> 'PARAM', proto
=> 'udp', dport
=> '1080' },
271 "Generic Routing Encapsulation tunneling protocol",
272 { action
=> 'PARAM', proto
=> '47' },
275 "Git distributed revision control traffic",
276 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '9418' },
279 "OpenPGP HTTP keyserver protocol traffic",
280 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '11371' },
283 "Hypertext Transfer Protocol (WWW)",
284 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '80' },
287 "Hypertext Transfer Protocol (WWW) over SSL",
288 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '443' },
291 "Internet Cache Protocol V2 (Squid) traffic",
292 { action
=> 'PARAM', proto
=> 'udp', dport
=> '3130' },
295 "AOL Instant Messenger traffic",
296 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '5190' },
299 "Internet Message Access Protocol",
300 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '143' },
303 "Internet Message Access Protocol over SSL",
304 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '993' },
307 "IPIP capsulation traffic",
308 { action
=> 'PARAM', proto
=> '94' },
312 { action
=> 'PARAM', proto
=> 'udp', dport
=> '500', sport
=> '500' },
313 { action
=> 'PARAM', proto
=> '50' },
316 "IPsec authentication (AH) traffic",
317 { action
=> 'PARAM', proto
=> 'udp', dport
=> '500', sport
=> '500' },
318 { action
=> 'PARAM', proto
=> '51' },
321 "IPsec traffic and Nat-Traversal",
322 { action
=> 'PARAM', proto
=> 'udp', dport
=> '500' },
323 { action
=> 'PARAM', proto
=> 'udp', dport
=> '4500' },
324 { action
=> 'PARAM', proto
=> '50' },
327 "Internet Relay Chat traffic",
328 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6667' },
331 "HP Jetdirect printing",
332 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '9100' },
335 "Layer 2 Tunneling Protocol traffic",
336 { action
=> 'PARAM', proto
=> 'udp', dport
=> '1701' },
339 "Lightweight Directory Access Protocol traffic",
340 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '389' },
343 "Secure Lightweight Directory Access Protocol traffic",
344 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '636' },
347 "Microsoft Notification Protocol",
348 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '1863' },
351 "Microsoft SQL Server",
352 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '1433' },
355 "Mail traffic (SMTP, SMTPS, Submission)",
356 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '25' },
357 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '465' },
358 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '587' },
362 { action
=> 'PARAM', proto
=> 'udp', dport
=> '5353' },
365 "Munin networked resource monitoring traffic",
366 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '4949' },
370 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3306' },
373 "NNTP traffic (Usenet).",
374 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '119' },
377 "Encrypted NNTP traffic (Usenet)",
378 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '563' },
381 "Network Time Protocol (ntpd)",
382 { action
=> 'PARAM', proto
=> 'udp', dport
=> '123' },
385 "OSPF multicast traffic",
386 { action
=> 'PARAM', proto
=> '89' },
390 { action
=> 'PARAM', proto
=> 'udp', dport
=> '1194' },
393 "Symantec PCAnywere (tm)",
394 { action
=> 'PARAM', proto
=> 'udp', dport
=> '5632' },
395 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '5631' },
398 "Proxmox Mail Gateway web interface",
399 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '8006' },
403 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '110' },
406 "Encrypted POP3 traffic",
407 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '995' },
410 "Point-to-Point Tunneling Protocol",
411 { action
=> 'PARAM', proto
=> '47' },
412 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '1723' },
416 { action
=> 'PARAM', proto
=> 'icmp', dport
=> 'echo-request' },
420 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '5432' },
423 "Line Printer protocol printing",
424 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '515' },
427 "Microsoft Remote Desktop Protocol traffic",
428 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3389' },
431 "Routing Information Protocol (bidirectional)",
432 { action
=> 'PARAM', proto
=> 'udp', dport
=> '520' },
435 "BIND remote management protocol",
436 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '953' },
439 "Razor Antispam System",
440 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '2703' },
443 "Remote time retrieval (rdate)",
444 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '37' },
448 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '873' },
451 "SANE network scanning",
452 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '6566' },
455 "Microsoft SMB traffic",
456 { action
=> 'PARAM', proto
=> 'udp', dport
=> '135,445' },
457 { action
=> 'PARAM', proto
=> 'udp', dport
=> '137:139' },
458 { action
=> 'PARAM', proto
=> 'udp', dport
=> '1024:65535', sport
=> '137' },
459 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '135,139,445' },
462 "Samba Web Administration Tool",
463 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '901' },
466 "Simple Mail Transfer Protocol",
467 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '25' },
470 "Encrypted Simple Mail Transfer Protocol",
471 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '465' },
474 "Simple Network Management Protocol",
475 { action
=> 'PARAM', proto
=> 'udp', dport
=> '161:162' },
476 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '161' },
479 "Spam Assassin SPAMD traffic",
480 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '783' },
483 "Secure shell traffic",
484 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '22' },
487 "Subversion server (svnserve)",
488 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3690' },
491 "SixXS IPv6 Deployment and Tunnel Broker",
492 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3874' },
493 { action
=> 'PARAM', proto
=> 'udp', dport
=> '3740' },
494 { action
=> 'PARAM', proto
=> '41' },
495 { action
=> 'PARAM', proto
=> 'udp', dport
=> '5072,8374' },
498 "Squid web proxy traffic",
499 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '3128' },
502 "Mail message submission traffic",
503 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '587' },
506 "Syslog protocol (RFC 5424) traffic",
507 { action
=> 'PARAM', proto
=> 'udp', dport
=> '514' },
508 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '514' },
511 "Trivial File Transfer Protocol traffic",
512 { action
=> 'PARAM', proto
=> 'udp', dport
=> '69' },
516 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '23' },
520 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '992' },
523 "RFC 868 Time protocol",
524 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '37' },
527 "Traceroute (for up to 30 hops) traffic",
528 { action
=> 'PARAM', proto
=> 'udp', dport
=> '33434:33524' },
529 { action
=> 'PARAM', proto
=> 'icmp', dport
=> 'echo-request' },
532 "VNC traffic for VNC display's 0 - 99",
533 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '5900:5999' },
536 "VNC traffic from Vncservers to Vncviewers in listen mode",
537 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '5500' },
540 "WWW traffic (HTTP and HTTPS)",
541 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '80' },
542 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '443' },
545 "Web Cache/Proxy traffic (port 8080)",
546 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '8080' },
550 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '10000' },
553 "Whois (nicname, RFC 3912) traffic",
554 { action
=> 'PARAM', proto
=> 'tcp', dport
=> '43' },
558 my $pve_fw_parsed_macros;
559 my $pve_fw_macro_descr;
560 my $pve_fw_macro_ipversion = {};
561 my $pve_fw_preferred_macro_names = {};
563 my $FWACCEPTMARK_ON = "0x80000000/0x80000000";
564 my $FWACCEPTMARK_OFF = "0x00000000/0x80000000";
566 my $pve_std_chains = {};
567 my $pve_std_chains_conf = {};
568 $pve_std_chains_conf->{4} = {
569 'PVEFW-SET-ACCEPT-MARK' => [
570 { target
=> "-j MARK --set-mark $FWACCEPTMARK_ON" },
572 'PVEFW-DropBroadcast' => [
573 # same as shorewall 'Broadcast'
574 # simply DROP BROADCAST/MULTICAST/ANYCAST
575 # we can use this to reduce logging
576 { action
=> 'DROP', dsttype
=> 'BROADCAST' },
577 { action
=> 'DROP', dsttype
=> 'MULTICAST' },
578 { action
=> 'DROP', dsttype
=> 'ANYCAST' },
579 { action
=> 'DROP', dest
=> '224.0.0.0/4' },
582 # same as shorewall 'reject'
583 { action
=> 'DROP', dsttype
=> 'BROADCAST' },
584 { action
=> 'DROP', source
=> '224.0.0.0/4' },
585 { action
=> 'DROP', proto
=> 'icmp' },
586 { match
=> '-p tcp', target
=> '-j REJECT --reject-with tcp-reset' },
587 { match
=> '-p udp', target
=> '-j REJECT --reject-with icmp-port-unreachable' },
588 { match
=> '-p icmp', target
=> '-j REJECT --reject-with icmp-host-unreachable' },
589 { target
=> '-j REJECT --reject-with icmp-host-prohibited' },
592 # same as shorewall 'Drop', which is equal to DROP,
593 # but REJECT/DROP some packages to reduce logging,
594 # and ACCEPT critical ICMP types
595 { action
=> 'PVEFW-reject', proto
=> 'tcp', dport
=> '43' }, # REJECT 'auth'
596 # we are not interested in BROADCAST/MULTICAST/ANYCAST
597 { action
=> 'PVEFW-DropBroadcast' },
598 # ACCEPT critical ICMP types
599 { action
=> 'ACCEPT', proto
=> 'icmp', dport
=> 'fragmentation-needed' },
600 { action
=> 'ACCEPT', proto
=> 'icmp', dport
=> 'time-exceeded' },
601 # Drop packets with INVALID state
602 { action
=> 'DROP', match
=> '-m conntrack --ctstate INVALID', },
603 # Drop Microsoft SMB noise
604 { action
=> 'DROP', proto
=> 'udp', dport
=> '135,445' },
605 { action
=> 'DROP', proto
=> 'udp', dport
=> '137:139' },
606 { action
=> 'DROP', proto
=> 'udp', dport
=> '1024:65535', sport
=> 137 },
607 { action
=> 'DROP', proto
=> 'tcp', dport
=> '135,139,445' },
608 { action
=> 'DROP', proto
=> 'udp', dport
=> 1900 }, # UPnP
609 # Drop new/NotSyn traffic so that it doesn't get logged
610 { action
=> 'DROP', match
=> '-p tcp -m tcp ! --tcp-flags FIN,SYN,RST,ACK SYN' },
612 { action
=> 'DROP', proto
=> 'udp', sport
=> 53 },
615 # same as shorewall 'Reject', which is equal to Reject,
616 # but REJECT/DROP some packages to reduce logging,
617 # and ACCEPT critical ICMP types
618 { action
=> 'PVEFW-reject', proto
=> 'tcp', dport
=> '43' }, # REJECT 'auth'
619 # we are not interested in BROADCAST/MULTICAST/ANYCAST
620 { action
=> 'PVEFW-DropBroadcast' },
621 # ACCEPT critical ICMP types
622 { action
=> 'ACCEPT', proto
=> 'icmp', dport
=> 'fragmentation-needed' },
623 { action
=> 'ACCEPT', proto
=> 'icmp', dport
=> 'time-exceeded' },
624 # Drop packets with INVALID state
625 { action
=> 'DROP', match
=> '-m conntrack --ctstate INVALID', },
626 # Drop Microsoft SMB noise
627 { action
=> 'PVEFW-reject', proto
=> 'udp', dport
=> '135,445' },
628 { action
=> 'PVEFW-reject', proto
=> 'udp', dport
=> '137:139'},
629 { action
=> 'PVEFW-reject', proto
=> 'udp', dport
=> '1024:65535', sport
=> 137 },
630 { action
=> 'PVEFW-reject', proto
=> 'tcp', dport
=> '135,139,445' },
631 { action
=> 'DROP', proto
=> 'udp', dport
=> 1900 }, # UPnP
632 # Drop new/NotSyn traffic so that it doesn't get logged
633 { action
=> 'DROP', match
=> '-p tcp -m tcp ! --tcp-flags FIN,SYN,RST,ACK SYN' },
635 { action
=> 'DROP', proto
=> 'udp', sport
=> 53 },
637 'PVEFW-tcpflags' => [
638 # same as shorewall tcpflags action.
639 # Packets arriving on this interface are checked for som illegal combinations of TCP flags
640 { match
=> '-p tcp -m tcp --tcp-flags FIN,SYN,RST,PSH,ACK,URG FIN,PSH,URG', target
=> '-g PVEFW-logflags' },
641 { match
=> '-p tcp -m tcp --tcp-flags FIN,SYN,RST,PSH,ACK,URG NONE', target
=> '-g PVEFW-logflags' },
642 { match
=> '-p tcp -m tcp --tcp-flags SYN,RST SYN,RST', target
=> '-g PVEFW-logflags' },
643 { match
=> '-p tcp -m tcp --tcp-flags FIN,SYN FIN,SYN', target
=> '-g PVEFW-logflags' },
644 { match
=> '-p tcp -m tcp --sport 0 --tcp-flags FIN,SYN,RST,ACK SYN', target
=> '-g PVEFW-logflags' },
647 # same as shorewall smurfs action
648 # Filter packets for smurfs (packets with a broadcast address as the source).
649 { match
=> '-s 0.0.0.0/32', target
=> '-j RETURN' }, # allow DHCP
650 { match
=> '-m addrtype --src-type BROADCAST', target
=> '-g PVEFW-smurflog' },
651 { match
=> '-s 224.0.0.0/4', target
=> '-g PVEFW-smurflog' },
653 'PVEFW-smurflog' => [
654 { action
=> 'DROP', logmsg
=> 'DROP: ' },
656 'PVEFW-logflags' => [
657 { action
=> 'DROP', logmsg
=> 'DROP: ' },
661 $pve_std_chains_conf->{6} = {
662 'PVEFW-SET-ACCEPT-MARK' => [
663 { target
=> "-j MARK --set-mark $FWACCEPTMARK_ON" },
665 'PVEFW-DropBroadcast' => [
666 # same as shorewall 'Broadcast'
667 # simply DROP BROADCAST/MULTICAST/ANYCAST
668 # we can use this to reduce logging
669 #{ action => 'DROP', dsttype => 'BROADCAST' }, #no broadcast in ipv6
670 # ipv6 addrtype does not work with kernel 2.6.32
671 #{ action => 'DROP', dsttype => 'MULTICAST' },
672 #{ action => 'DROP', dsttype => 'ANYCAST' },
673 { action
=> 'DROP', dest
=> 'ff00::/8' },
674 #{ action => 'DROP', dest => '224.0.0.0/4' },
677 { action
=> 'DROP', proto
=> 'icmpv6' },
678 { match
=> '-p tcp', target
=> '-j REJECT --reject-with tcp-reset' },
679 { match
=> '-p udp', target
=> '-j REJECT --reject-with icmp6-port-unreachable' },
680 { target
=> '-j REJECT --reject-with icmp6-adm-prohibited' },
683 # same as shorewall 'Drop', which is equal to DROP,
684 # but REJECT/DROP some packages to reduce logging,
685 # and ACCEPT critical ICMP types
686 { action
=> 'PVEFW-reject', proto
=> 'tcp', dport
=> '43' }, # REJECT 'auth'
687 # we are not interested in BROADCAST/MULTICAST/ANYCAST
688 { action
=> 'PVEFW-DropBroadcast' },
689 # ACCEPT critical ICMP types
690 { action
=> 'ACCEPT', proto
=> 'icmpv6', dport
=> 'destination-unreachable' },
691 { action
=> 'ACCEPT', proto
=> 'icmpv6', dport
=> 'time-exceeded' },
692 { action
=> 'ACCEPT', proto
=> 'icmpv6', dport
=> 'packet-too-big' },
693 # Drop packets with INVALID state
694 { action
=> 'DROP', match
=> '-m conntrack --ctstate INVALID', },
695 # Drop Microsoft SMB noise
696 { action
=> 'DROP', proto
=> 'udp', dport
=> '135,445' },
697 { action
=> 'DROP', proto
=> 'udp', dport
=> '137:139'},
698 { action
=> 'DROP', proto
=> 'udp', dport
=> '1024:65535', sport
=> 137 },
699 { action
=> 'DROP', proto
=> 'tcp', dport
=> '135,139,445' },
700 { action
=> 'DROP', proto
=> 'udp', dport
=> 1900 }, # UPnP
701 # Drop new/NotSyn traffic so that it doesn't get logged
702 { action
=> 'DROP', match
=> '-p tcp -m tcp ! --tcp-flags FIN,SYN,RST,ACK SYN' },
704 { action
=> 'DROP', proto
=> 'udp', sport
=> 53 },
707 # same as shorewall 'Reject', which is equal to Reject,
708 # but REJECT/DROP some packages to reduce logging,
709 # and ACCEPT critical ICMP types
710 { action
=> 'PVEFW-reject', proto
=> 'tcp', dport
=> '43' }, # REJECT 'auth'
711 # we are not interested in BROADCAST/MULTICAST/ANYCAST
712 { action
=> 'PVEFW-DropBroadcast' },
713 # ACCEPT critical ICMP types
714 { action
=> 'ACCEPT', proto
=> 'icmpv6', dport
=> 'destination-unreachable' },
715 { action
=> 'ACCEPT', proto
=> 'icmpv6', dport
=> 'time-exceeded' },
716 { action
=> 'ACCEPT', proto
=> 'icmpv6', dport
=> 'packet-too-big' },
717 # Drop packets with INVALID state
718 { action
=> 'DROP', match
=> '-m conntrack --ctstate INVALID', },
719 # Drop Microsoft SMB noise
720 { action
=> 'PVEFW-reject', proto
=> 'udp', dport
=> '135,445' },
721 { action
=> 'PVEFW-reject', proto
=> 'udp', dport
=> '137:139' },
722 { action
=> 'PVEFW-reject', proto
=> 'udp', dport
=> '1024:65535', sport
=> 137 },
723 { action
=> 'PVEFW-reject', proto
=> 'tcp', dport
=> '135,139,445' },
724 { action
=> 'DROP', proto
=> 'udp', dport
=> 1900 }, # UPnP
725 # Drop new/NotSyn traffic so that it doesn't get logged
726 { action
=> 'DROP', match
=> '-p tcp -m tcp ! --tcp-flags FIN,SYN,RST,ACK SYN' },
728 { action
=> 'DROP', proto
=> 'udp', sport
=> 53 },
730 'PVEFW-tcpflags' => [
731 # same as shorewall tcpflags action.
732 # Packets arriving on this interface are checked for som illegal combinations of TCP flags
733 { match
=> '-p tcp -m tcp --tcp-flags FIN,SYN,RST,PSH,ACK,URG FIN,PSH,URG', target
=> '-g PVEFW-logflags' },
734 { match
=> '-p tcp -m tcp --tcp-flags FIN,SYN,RST,PSH,ACK,URG NONE', target
=> '-g PVEFW-logflags' },
735 { match
=> '-p tcp -m tcp --tcp-flags SYN,RST SYN,RST', target
=> '-g PVEFW-logflags' },
736 { match
=> '-p tcp -m tcp --tcp-flags FIN,SYN FIN,SYN', target
=> '-g PVEFW-logflags' },
737 { match
=> '-p tcp -m tcp --sport 0 --tcp-flags FIN,SYN,RST,ACK SYN', target
=> '-g PVEFW-logflags' },
739 'PVEFW-logflags' => [
740 { action
=> 'DROP', logmsg
=> 'DROP: ' },
744 # iptables -p icmp -h
745 my $icmp_type_names = {
748 'destination-unreachable' => 1,
749 'network-unreachable' => 1,
750 'host-unreachable' => 1,
751 'protocol-unreachable' => 1,
752 'port-unreachable' => 1,
753 'fragmentation-needed' => 1,
754 'source-route-failed' => 1,
755 'network-unknown' => 1,
757 'network-prohibited' => 1,
758 'host-prohibited' => 1,
759 'TOS-network-unreachable' => 1,
760 'TOS-host-unreachable' => 1,
761 'communication-prohibited' => 1,
762 'host-precedence-violation' => 1,
763 'precedence-cutoff' => 1,
764 'source-quench' => 1,
766 'network-redirect' => 1,
767 'host-redirect' => 1,
768 'TOS-network-redirect' => 1,
769 'TOS-host-redirect' => 1,
771 'router-advertisement' => 1,
772 'router-solicitation' => 1,
773 'time-exceeded' => 1,
774 'ttl-zero-during-transit' => 1,
775 'ttl-zero-during-reassembly' => 1,
776 'parameter-problem' => 1,
777 'ip-header-bad' => 1,
778 'required-option-missing' => 1,
779 'timestamp-request' => 1,
780 'timestamp-reply' => 1,
781 'address-mask-request' => 1,
782 'address-mask-reply' => 1,
785 # ip6tables -p icmpv6 -h
787 my $icmpv6_type_names = {
789 'destination-unreachable' => 1,
791 'communication-prohibited' => 1,
792 'address-unreachable' => 1,
793 'port-unreachable' => 1,
794 'packet-too-big' => 1,
795 'time-exceeded' => 1,
796 'ttl-zero-during-transit' => 1,
797 'ttl-zero-during-reassembly' => 1,
798 'parameter-problem' => 1,
800 'unknown-header-type' => 1,
801 'unknown-option' => 1,
804 'router-solicitation' => 1,
805 'router-advertisement' => 1,
806 'neighbor-solicitation' => 1,
807 'neighbour-solicitation' => 1,
808 'neighbor-advertisement' => 1,
809 'neighbour-advertisement' => 1,
813 sub init_firewall_macros
{
815 $pve_fw_parsed_macros = {};
818 my ($k, $macro) = @_;
819 my $lc_name = lc($k);
820 $pve_fw_macro_ipversion->{$k} = 0;
821 while (!ref($macro->[0])) {
822 my $desc = shift @$macro;
823 if ($desc eq 'ipv4only') {
824 $pve_fw_macro_ipversion->{$k} = 4;
825 } elsif ($desc eq 'ipv6only') {
826 $pve_fw_macro_ipversion->{$k} = 6;
828 $pve_fw_macro_descr->{$k} = $desc;
831 $pve_fw_preferred_macro_names->{$lc_name} = $k;
832 $pve_fw_parsed_macros->{$k} = $macro;
835 foreach my $k (keys %$pve_fw_macros) {
836 &$parse($k, $pve_fw_macros->{$k});
839 foreach my $k (keys %$pve_ipv6fw_macros) {
840 next if $pve_fw_parsed_macros->{$k};
841 &$parse($k, $pve_ipv6fw_macros->{$k});
842 $pve_fw_macro_ipversion->{$k} = 6;
846 init_firewall_macros
();
849 return wantarray ?
($pve_fw_parsed_macros, $pve_fw_macro_descr): $pve_fw_parsed_macros;
854 sub get_etc_services
{
856 return $etc_services if $etc_services;
858 my $filename = "/etc/services";
860 my $fh = IO
::File-
>new($filename, O_RDONLY
);
862 warn "unable to read '$filename' - $!\n";
868 while (my $line = <$fh>) {
870 next if $line =~m/^#/;
871 next if ($line =~m/^\s*$/);
873 if ($line =~ m!^(\S+)\s+(\S+)/(tcp|udp|sctp).*$!) {
874 $services->{byid
}->{$2}->{name
} = $1;
875 $services->{byid
}->{$2}->{port
} = $2;
876 $services->{byid
}->{$2}->{$3} = 1;
877 $services->{byname
}->{$1} = $services->{byid
}->{$2};
883 $etc_services = $services;
886 return $etc_services;
889 sub parse_protocol_file
{
892 my $fh = IO
::File-
>new($filename, O_RDONLY
);
894 warn "unable to read '$filename' - $!\n";
900 while (my $line = <$fh>) {
902 next if $line =~m/^#/;
903 next if ($line =~m/^\s*$/);
905 if ($line =~ m!^(\S+)\s+(\d+)(?:\s+.*)?$!) {
906 $protocols->{byid
}->{$2}->{name
} = $1;
907 $protocols->{byname
}->{$1} = $protocols->{byid
}->{$2};
918 sub get_etc_protocols
{
919 return $etc_protocols if $etc_protocols;
921 my $protocols = parse_protocol_file
('/etc/protocols');
923 # add special case for ICMP v6
924 $protocols->{byid
}->{icmpv6
}->{name
} = "icmpv6";
925 $protocols->{byname
}->{icmpv6
} = $protocols->{byid
}->{icmpv6
};
927 $etc_protocols = $protocols;
929 return $etc_protocols;
934 sub get_etc_ethertypes
{
935 $etc_ethertypes = parse_protocol_file
('/etc/ethertypes')
937 return $etc_ethertypes;
943 my ($new_value) = @_;
945 $__local_network = $new_value if defined($new_value);
947 return $__local_network if defined($__local_network);
950 my $nodename = PVE
::INotify
::nodename
();
952 my $ip = PVE
::Cluster
::remote_node_ip
($nodename);
954 my $testip = Net
::IP-
>new($ip);
956 my $isv6 = $testip->version == 6;
957 my $routes = $isv6 ? PVE
::ProcFSTools
::read_proc_net_ipv6_route
()
958 : PVE
::ProcFSTools
::read_proc_net_route
();
959 foreach my $entry (@$routes) {
962 $mask = $entry->{prefix
};
963 next if !$mask; # skip the default route...
965 $mask = $PVE::Network
::ipv4_mask_hash_localnet-
>{$entry->{mask
}};
966 next if !defined($mask);
968 my $cidr = "$entry->{dest}/$mask";
969 my $testnet = Net
::IP-
>new($cidr);
970 my $overlap = $testnet->overlaps($testip);
971 if ($overlap == $Net::IP
::IP_B_IN_A_OVERLAP
||
972 $overlap == $Net::IP
::IP_IDENTICAL
)
974 $__local_network = $cidr;
981 return $__local_network;
984 # ipset names are limited to 31 characters,
985 # and we use '-v4' or '-v6' to indicate IP versions,
986 # and we use '_swap' suffix for atomic update,
987 # for example PVEFW-${VMID}-${ipset_name}_swap
989 my $max_iptables_ipset_name_length = 31 - length("PVEFW-") - length("_swap");
991 sub compute_ipset_chain_name
{
992 my ($vmid, $ipset_name, $ipversion) = @_;
994 $vmid = 0 if !defined($vmid);
996 my $id = "$vmid-${ipset_name}-v$ipversion";
998 if (length($id) > $max_iptables_ipset_name_length) {
999 $id = PVE
::Tools
::fnv31a_hex
($id);
1005 sub compute_ipfilter_ipset_name
{
1008 return "ipfilter-$iface";
1011 sub parse_address_list
{
1014 if ($str =~ m/^(\+)(\S+)$/) { # ipset ref
1015 die "ipset name too long\n" if length($str) > ($max_ipset_name_length + 1);
1019 if ($str =~ m/^${ip_alias_pattern}$/) {
1020 die "alias name too long\n" if length($str) > $max_alias_name_length;
1028 my @elements = split(/,/, $str);
1029 die "extraneous commas in list\n" if $str ne join(',', @elements);
1030 foreach my $elem (@elements) {
1032 my $ip = Net
::IP-
>new($elem);
1034 my $err = Net
::IP
::Error
();
1035 die "invalid IP address: $err\n";
1037 $iprange = 1 if $elem =~ m/-/;
1039 my $new_ipversion = Net
::IP
::ip_is_ipv6
($ip->ip()) ?
6 : 4;
1041 die "detected mixed ipv4/ipv6 addresses in address list '$str'\n"
1042 if $ipversion && ($new_ipversion != $ipversion);
1044 $ipversion = $new_ipversion;
1047 die "you can't use a range in a list\n" if $iprange && $count > 1;
1052 sub parse_port_name_number_or_range
{
1053 my ($str, $dport) = @_;
1055 my $services = PVE
::Firewall
::get_etc_services
();
1059 my @elements = split(/,/, $str);
1060 die "extraneous commas in list\n" if $str ne join(',', @elements);
1061 foreach my $item (@elements) {
1062 if ($item =~ m/^([0-9]+):([0-9]+)$/) {
1064 my ($port1, $port2) = ($1, $2);
1065 die "invalid port '$port1'\n" if $port1 > 65535;
1066 die "invalid port '$port2'\n" if $port2 > 65535;
1067 die "backwards range '$port1:$port2' not allowed, did you mean '$port2:$port1'?\n" if $port1 > $port2;
1068 } elsif ($item =~ m/^([0-9]+)$/) {
1071 die "invalid port '$port'\n" if $port > 65535;
1073 if ($dport && $icmp_type_names->{$item}) {
1075 } elsif ($dport && $icmpv6_type_names->{$item}) {
1078 die "invalid port '$item'\n" if !$services->{byname
}->{$item};
1083 die "ICPM ports not allowed in port range\n" if $icmp_port && $count > 0;
1085 # I really don't like to use the word number here, but it's the only thing
1086 # that makes sense in a literal way. The range 1:100 counts as 2, not as
1087 # one and not as 100...
1088 die "too many entries in port list (> 15 numbers)\n"
1091 return (scalar(@elements) > 1);
1094 PVE
::JSONSchema
::register_format
('pve-fw-sport-spec', \
&pve_fw_verify_sport_spec
);
1095 sub pve_fw_verify_sport_spec
{
1098 parse_port_name_number_or_range
($portstr, 0);
1103 PVE
::JSONSchema
::register_format
('pve-fw-dport-spec', \
&pve_fw_verify_dport_spec
);
1104 sub pve_fw_verify_dport_spec
{
1107 parse_port_name_number_or_range
($portstr, 1);
1112 PVE
::JSONSchema
::register_format
('pve-fw-addr-spec', \
&pve_fw_verify_addr_spec
);
1113 sub pve_fw_verify_addr_spec
{
1116 parse_address_list
($list);
1121 PVE
::JSONSchema
::register_format
('pve-fw-protocol-spec', \
&pve_fw_verify_protocol_spec
);
1122 sub pve_fw_verify_protocol_spec
{
1125 my $protocols = get_etc_protocols
();
1127 die "unknown protocol '$proto'\n" if $proto &&
1128 !(defined($protocols->{byname
}->{$proto}) ||
1129 defined($protocols->{byid
}->{$proto}));
1135 # helper function for API
1137 sub copy_opject_with_digest
{
1140 my $sha = Digest
::SHA-
>new('sha1');
1143 foreach my $k (sort keys %$object) {
1144 my $v = $object->{$k};
1145 next if !defined($v);
1147 $sha->add($k, ':', $v, "\n");
1150 my $digest = $sha->hexdigest;
1152 $res->{digest
} = $digest;
1154 return wantarray ?
($res, $digest) : $res;
1157 sub copy_list_with_digest
{
1160 my $sha = Digest
::SHA-
>new('sha1');
1163 foreach my $entry (@$list) {
1165 foreach my $k (sort keys %$entry) {
1166 my $v = $entry->{$k};
1167 next if !defined($v);
1169 # Note: digest ignores refs ($rule->{errors})
1170 # since Digest::SHA expects a series of bytes,
1171 # we have to encode the value here to prevent errors when
1172 # using utf8 characters (eg. in comments)
1173 $sha->add($k, ':', encode_utf8
($v), "\n") if !ref($v); ;
1178 my $digest = $sha->hexdigest;
1180 foreach my $entry (@$res) {
1181 $entry->{digest
} = $digest;
1184 return wantarray ?
($res, $digest) : $res;
1187 our $cluster_option_properties = {
1189 description
=> "Enable or disable the firewall cluster wide.",
1195 description
=> "Enable ebtables rules cluster wide.",
1201 description
=> "Input policy.",
1204 enum
=> ['ACCEPT', 'REJECT', 'DROP'],
1207 description
=> "Output policy.",
1210 enum
=> ['ACCEPT', 'REJECT', 'DROP'],
1213 description
=> "Log ratelimiting settings",
1214 type
=> 'string', format
=> {
1217 description
=> 'Enable or disable log rate limiting',
1223 description
=> 'Frequency with which the burst bucket gets refilled',
1225 pattern
=> '[1-9][0-9]*\/(second|minute|hour|day)',
1226 format_description
=> 'rate',
1227 default => '1/second',
1233 description
=> 'Inital burst of packages which will get logged',
1241 our $host_option_properties = {
1243 description
=> "Enable host firewall rules.",
1247 log_level_in
=> get_standard_option
('pve-fw-loglevel', {
1248 description
=> "Log level for incoming traffic." }),
1249 log_level_out
=> get_standard_option
('pve-fw-loglevel', {
1250 description
=> "Log level for outgoing traffic." }),
1251 tcp_flags_log_level
=> get_standard_option
('pve-fw-loglevel', {
1252 description
=> "Log level for illegal tcp flags filter." }),
1253 smurf_log_level
=> get_standard_option
('pve-fw-loglevel', {
1254 description
=> "Log level for SMURFS filter." }),
1256 description
=> "Enable SMURFS filter.",
1261 description
=> "Filter illegal combinations of TCP flags.",
1266 nf_conntrack_max
=> {
1267 description
=> "Maximum number of tracked connections.",
1273 nf_conntrack_tcp_timeout_established
=> {
1274 description
=> "Conntrack established timeout.",
1280 nf_conntrack_tcp_timeout_syn_recv
=> {
1281 description
=> "Conntrack syn recv timeout.",
1289 description
=> "Enable NDP (Neighbor Discovery Protocol).",
1294 nf_conntrack_allow_invalid
=> {
1295 description
=> "Allow invalid packets on connection tracking.",
1300 protection_synflood
=> {
1301 description
=> "Enable synflood protection",
1306 protection_synflood_rate
=> {
1307 description
=> "Synflood protection rate syn/sec by ip src.",
1312 protection_synflood_burst
=> {
1313 description
=> "Synflood protection rate burst by ip src.",
1318 log_nf_conntrack
=> {
1319 description
=> "Enable logging of conntrack information.",
1326 our $vm_option_properties = {
1328 description
=> "Enable/disable firewall rules.",
1334 description
=> "Enable/disable MAC address filter.",
1340 description
=> "Enable DHCP.",
1346 description
=> "Enable NDP (Neighbor Discovery Protocol).",
1352 description
=> "Allow sending Router Advertisement.",
1357 description
=> "Enable default IP filters. " .
1358 "This is equivalent to adding an empty ipfilter-net<id> ipset " .
1359 "for every interface. Such ipsets implicitly contain sane default " .
1360 "restrictions such as restricting IPv6 link local addresses to " .
1361 "the one derived from the interface's MAC address. For containers " .
1362 "the configured IP addresses will be implicitly added.",
1367 description
=> "Input policy.",
1370 enum
=> ['ACCEPT', 'REJECT', 'DROP'],
1373 description
=> "Output policy.",
1376 enum
=> ['ACCEPT', 'REJECT', 'DROP'],
1378 log_level_in
=> get_standard_option
('pve-fw-loglevel', {
1379 description
=> "Log level for incoming traffic." }),
1380 log_level_out
=> get_standard_option
('pve-fw-loglevel', {
1381 description
=> "Log level for outgoing traffic." }),
1386 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.";
1388 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.";
1390 my $rule_properties = {
1392 description
=> "Update rule at position <pos>.",
1397 digest
=> get_standard_option
('pve-config-digest'),
1399 description
=> "Rule type.",
1402 enum
=> ['in', 'out', 'group'],
1405 description
=> "Rule action ('ACCEPT', 'DROP', 'REJECT') or security group name.",
1408 pattern
=> $security_group_name_pattern,
1413 description
=> "Use predefined standard macro.",
1418 iface
=> get_standard_option
('pve-iface', {
1419 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.",
1423 description
=> "Restrict packet source address. $addr_list_descr",
1424 type
=> 'string', format
=> 'pve-fw-addr-spec',
1428 description
=> "Restrict packet destination address. $addr_list_descr",
1429 type
=> 'string', format
=> 'pve-fw-addr-spec',
1433 description
=> "IP protocol. You can use protocol names ('tcp'/'udp') or simple numbers, as defined in '/etc/protocols'.",
1434 type
=> 'string', format
=> 'pve-fw-protocol-spec',
1438 description
=> "Flag to enable/disable a rule.",
1443 log => get_standard_option
('pve-fw-loglevel', {
1444 description
=> "Log level for firewall rule.",
1447 description
=> "Restrict TCP/UDP source port. $port_descr",
1448 type
=> 'string', format
=> 'pve-fw-sport-spec',
1452 description
=> "Restrict TCP/UDP destination port. $port_descr",
1453 type
=> 'string', format
=> 'pve-fw-dport-spec',
1457 description
=> "Descriptive comment.",
1463 sub add_rule_properties
{
1464 my ($properties) = @_;
1466 foreach my $k (keys %$rule_properties) {
1467 my $h = $rule_properties->{$k};
1468 # copy data, so that we can modify later without side effects
1469 foreach my $opt (keys %$h) { $properties->{$k}->{$opt} = $h->{$opt}; }
1475 sub delete_rule_properties
{
1476 my ($rule, $delete_str) = @_;
1478 foreach my $opt (PVE
::Tools
::split_list
($delete_str)) {
1479 raise_param_exc
({ 'delete' => "no such property ('$opt')"})
1480 if !defined($rule_properties->{$opt});
1481 raise_param_exc
({ 'delete' => "unable to delete required property '$opt'"})
1482 if $opt eq 'type' || $opt eq 'action';
1483 delete $rule->{$opt};
1489 my $apply_macro = sub {
1490 my ($macro_name, $param, $verify, $ipversion) = @_;
1492 my $macro_rules = $pve_fw_parsed_macros->{$macro_name};
1493 die "unknown macro '$macro_name'\n" if !$macro_rules; # should not happen
1495 if ($ipversion && ($ipversion == 6) && $pve_ipv6fw_macros->{$macro_name}) {
1496 $macro_rules = $pve_ipv6fw_macros->{$macro_name};
1499 # skip macros which are specific to another ipversion
1500 if ($ipversion && (my $required = $pve_fw_macro_ipversion->{$macro_name})) {
1501 return if $ipversion != $required;
1506 foreach my $templ (@$macro_rules) {
1508 my $param_used = {};
1509 foreach my $k (keys %$templ) {
1510 my $v = $templ->{$k};
1511 if ($v eq 'PARAM') {
1513 $param_used->{$k} = 1;
1514 } elsif ($v eq 'DEST') {
1515 $v = $param->{dest
};
1516 $param_used->{dest
} = 1;
1517 } elsif ($v eq 'SOURCE') {
1518 $v = $param->{source
};
1519 $param_used->{source
} = 1;
1523 my $msg = "missing parameter '$k' in macro '$macro_name'";
1524 raise_param_exc
({ macro => $msg }) if $verify;
1529 foreach my $k (keys %$param) {
1530 next if $k eq 'macro';
1531 next if !defined($param->{$k});
1532 next if $param_used->{$k};
1533 if (defined($rule->{$k})) {
1534 if ($rule->{$k} ne $param->{$k}) {
1535 my $msg = "parameter '$k' already define in macro (value = '$rule->{$k}')";
1536 raise_param_exc
({ $k => $msg }) if $verify;
1540 $rule->{$k} = $param->{$k};
1543 push @$rules, $rule;
1549 my $rule_env_iface_lookup = {
1558 my ($rule, $cluster_conf, $fw_conf, $rule_env, $noerr) = @_;
1560 my $allow_groups = $rule_env eq 'group' ?
0 : 1;
1562 my $allow_iface = $rule_env_iface_lookup->{$rule_env};
1563 die "unknown rule_env '$rule_env'\n" if !defined($allow_iface); # should not happen
1565 my $errors = $rule->{errors
} || {};
1567 my $error_count = 0;
1569 my $add_error = sub {
1570 my ($param, $msg) = @_;
1572 raise_param_exc
({ $param => $msg }) if !$noerr;
1574 $errors->{$param} = $msg if !$errors->{$param};
1578 my $set_ip_version = sub {
1581 die "detected mixed ipv4/ipv6 adresses in rule\n"
1582 if $ipversion && ($vers != $ipversion);
1587 my $check_ipset_or_alias_property = sub {
1588 my ($name, $expected_ipversion) = @_;
1590 if (my $value = $rule->{$name}) {
1591 if ($value =~ m/^\+/) {
1592 if ($value =~ m/^\+(${ipset_name_pattern})$/) {
1593 &$add_error($name, "no such ipset '$1'")
1594 if !($cluster_conf->{ipset
}->{$1} || ($fw_conf && $fw_conf->{ipset
}->{$1}));
1597 &$add_error($name, "invalid ipset name '$value'");
1599 } elsif ($value =~ m/^${ip_alias_pattern}$/){
1600 my $alias = lc($value);
1601 &$add_error($name, "no such alias '$value'")
1602 if !($cluster_conf->{aliases
}->{$alias} || ($fw_conf && $fw_conf->{aliases
}->{$alias}));
1603 my $e = $fw_conf ?
$fw_conf->{aliases
}->{$alias} : undef;
1604 $e = $cluster_conf->{aliases
}->{$alias} if !$e && $cluster_conf;
1606 &$set_ip_version($e->{ipversion
});
1611 my $type = $rule->{type
};
1612 my $action = $rule->{action
};
1614 &$add_error('type', "missing property") if !$type;
1615 &$add_error('action', "missing property") if !$action;
1618 if ($type eq 'in' || $type eq 'out') {
1619 &$add_error('action', "unknown action '$action'")
1620 if $action && ($action !~ m/^(ACCEPT|DROP|REJECT)$/);
1621 } elsif ($type eq 'group') {
1622 &$add_error('type', "security groups not allowed")
1624 &$add_error('action', "invalid characters in security group name")
1625 if $action && ($action !~ m/^${security_group_name_pattern}$/);
1627 &$add_error('type', "unknown rule type '$type'");
1631 if ($rule->{iface
}) {
1632 &$add_error('type', "parameter -i not allowed for this rule type")
1634 eval { PVE
::JSONSchema
::pve_verify_iface
($rule->{iface
}); };
1635 &$add_error('iface', $@) if $@;
1636 if ($rule_env eq 'vm' || $rule_env eq 'ct') {
1637 &$add_error('iface', "value does not match the regex pattern 'net\\d+'")
1638 if $rule->{iface
} !~ m/^net(\d+)$/;
1642 if ($rule->{macro}) {
1643 if (my $preferred_name = $pve_fw_preferred_macro_names->{lc($rule->{macro})}) {
1644 $rule->{macro} = $preferred_name;
1646 &$add_error('macro', "unknown macro '$rule->{macro}'");
1650 if ($rule->{proto
}) {
1651 eval { pve_fw_verify_protocol_spec
($rule->{proto
}); };
1652 &$add_error('proto', $@) if $@;
1653 &$set_ip_version(4) if $rule->{proto
} eq 'icmp';
1654 &$set_ip_version(6) if $rule->{proto
} eq 'icmpv6';
1657 if ($rule->{dport
}) {
1658 eval { parse_port_name_number_or_range
($rule->{dport
}, 1); };
1659 &$add_error('dport', $@) if $@;
1660 my $proto = $rule->{proto
};
1661 &$add_error('proto', "missing property - 'dport' requires this property")
1663 &$add_error('dport', "protocol '$proto' does not support ports")
1664 if !$PROTOCOLS_WITH_PORTS->{$proto} &&
1665 $proto ne 'icmp' && $proto ne 'icmpv6'; # special cases
1668 if ($rule->{sport
}) {
1669 eval { parse_port_name_number_or_range
($rule->{sport
}, 0); };
1670 &$add_error('sport', $@) if $@;
1671 my $proto = $rule->{proto
};
1672 &$add_error('proto', "missing property - 'sport' requires this property")
1674 &$add_error('sport', "protocol '$proto' does not support ports")
1675 if !$PROTOCOLS_WITH_PORTS->{$proto};
1678 if ($rule->{source
}) {
1680 my $source_ipversion = parse_address_list
($rule->{source
});
1681 &$set_ip_version($source_ipversion);
1683 &$add_error('source', $@) if $@;
1684 &$check_ipset_or_alias_property('source', $ipversion);
1687 if ($rule->{dest
}) {
1689 my $dest_ipversion = parse_address_list
($rule->{dest
});
1690 &$set_ip_version($dest_ipversion);
1692 &$add_error('dest', $@) if $@;
1693 &$check_ipset_or_alias_property('dest', $ipversion);
1696 $rule->{ipversion
} = $ipversion if $ipversion;
1698 if ($rule->{macro} && !$error_count) {
1699 eval { &$apply_macro($rule->{macro}, $rule, 1, $ipversion); };
1701 if (ref($err) eq "PVE::Exception" && $err->{errors
}) {
1702 my $eh = $err->{errors
};
1703 foreach my $p (keys %$eh) {
1704 &$add_error($p, $eh->{$p});
1707 &$add_error('macro', "$err");
1712 $rule->{errors
} = $errors if $error_count;
1717 sub copy_rule_data
{
1718 my ($rule, $param) = @_;
1720 foreach my $k (keys %$rule_properties) {
1721 if (defined(my $v = $param->{$k})) {
1722 if ($v eq '' || $v eq '-') {
1733 sub rules_modify_permissions
{
1734 my ($rule_env) = @_;
1736 if ($rule_env eq 'host') {
1738 check
=> ['perm', '/nodes/{node}', [ 'Sys.Modify' ]],
1740 } elsif ($rule_env eq 'cluster' || $rule_env eq 'group') {
1742 check
=> ['perm', '/', [ 'Sys.Modify' ]],
1744 } elsif ($rule_env eq 'vm' || $rule_env eq 'ct') {
1746 check
=> ['perm', '/vms/{vmid}', [ 'VM.Config.Network' ]],
1753 sub rules_audit_permissions
{
1754 my ($rule_env) = @_;
1756 if ($rule_env eq 'host') {
1758 check
=> ['perm', '/nodes/{node}', [ 'Sys.Audit' ]],
1760 } elsif ($rule_env eq 'cluster' || $rule_env eq 'group') {
1762 check
=> ['perm', '/', [ 'Sys.Audit' ]],
1764 } elsif ($rule_env eq 'vm' || $rule_env eq 'ct') {
1766 check
=> ['perm', '/vms/{vmid}', [ 'VM.Audit' ]],
1774 my $bridge_firewall_enabled = 0;
1776 sub enable_bridge_firewall
{
1778 return if $bridge_firewall_enabled; # only once
1780 PVE
::ProcFSTools
::write_proc_entry
("/proc/sys/net/bridge/bridge-nf-call-iptables", "1");
1781 PVE
::ProcFSTools
::write_proc_entry
("/proc/sys/net/bridge/bridge-nf-call-ip6tables", "1");
1783 # make sure syncookies are enabled (which is default on newer 3.X kernels anyways)
1784 PVE
::ProcFSTools
::write_proc_entry
("/proc/sys/net/ipv4/tcp_syncookies", "1");
1786 $bridge_firewall_enabled = 1;
1789 sub iptables_restore_cmdlist
{
1790 my ($cmdlist, $table) = @_;
1792 $table = 'filter' if !$table;
1793 run_command
(['iptables-restore', '-T', $table, '-n'], input
=> $cmdlist, errmsg
=> "iptables_restore_cmdlist");
1796 sub ip6tables_restore_cmdlist
{
1797 my ($cmdlist, $table) = @_;
1799 $table = 'filter' if !$table;
1800 run_command
(['ip6tables-restore', '-T', $table, '-n'], input
=> $cmdlist, errmsg
=> "iptables_restore_cmdlist");
1803 sub ipset_restore_cmdlist
{
1806 run_command
(['ipset', 'restore'], input
=> $cmdlist, errmsg
=> "ipset_restore_cmdlist");
1809 sub ebtables_restore_cmdlist
{
1812 run_command
(['ebtables-restore'], input
=> $cmdlist, errmsg
=> "ebtables_restore_cmdlist");
1815 sub iptables_get_chains
{
1816 my ($iptablescmd, $t) = @_;
1818 $iptablescmd = "iptables" if !$iptablescmd;
1819 $t = 'filter' if !$t;
1823 # check what chains we want to track
1824 my $is_pvefw_chain = sub {
1827 return 1 if $name =~ m/^PVEFW-\S+$/;
1829 return 1 if $name =~ m/^tap\d+i\d+-(?:IN|OUT)$/;
1831 return 1 if $name =~ m/^veth\d+i\d+-(?:IN|OUT)$/;
1833 return 1 if $name =~ m/^fwbr\d+(v\d+)?-(?:FW|IN|OUT|IPS)$/;
1834 return 1 if $name =~ m/^GROUP-(?:$security_group_name_pattern)-(?:IN|OUT)$/;
1846 return if $line =~ m/^#/;
1847 return if $line =~ m/^\s*$/;
1849 if ($line =~ m/^\*(\S+)$/) {
1854 return if $table ne $t;
1856 if ($line =~ m/^:(\S+)\s/) {
1858 return if !&$is_pvefw_chain($chain);
1859 $res->{$chain} = "unknown";
1860 } elsif ($line =~ m/^-A\s+(\S+)\s.*--comment\s+\"PVESIG:(\S+)\"/) {
1861 my ($chain, $sig) = ($1, $2);
1862 return if !&$is_pvefw_chain($chain);
1863 $res->{$chain} = $sig;
1864 } elsif ($line =~ m/^-A\s+(INPUT|OUTPUT|FORWARD|PREROUTING)\s+-j\s+PVEFW-\1$/) {
1867 # simply ignore the rest
1872 run_command
(["$iptablescmd-save"], outfunc
=> $parser);
1874 return wantarray ?
($res, $hooks) : $res;
1877 sub iptables_chain_digest
{
1879 my $digest = Digest
::SHA-
>new('sha1');
1880 foreach my $rule (@$rules) { # order is important
1881 $digest->add($rule);
1883 return $digest->b64digest;
1886 sub ipset_chain_digest
{
1889 my $digest = Digest
::SHA-
>new('sha1');
1890 foreach my $rule (sort @$rules) { # note: sorted
1891 $digest->add($rule);
1893 return $digest->b64digest;
1896 sub ipset_get_chains
{
1904 return if $line =~ m/^#/;
1905 return if $line =~ m/^\s*$/;
1906 if ($line =~ m/^(?:\S+)\s(PVEFW-\S+)\s(?:\S+).*/) {
1908 $line =~ s/\s+$//; # delete trailing white space
1909 push @{$chains->{$chain}}, $line;
1911 # simply ignore the rest
1916 run_command
(['ipset', 'save'], outfunc
=> $parser);
1918 # compute digest for each chain
1919 foreach my $chain (keys %$chains) {
1920 $res->{$chain} = ipset_chain_digest
($chains->{$chain});
1926 sub ebtables_get_chains
{
1932 return if $line =~ m/^#/;
1933 return if $line =~ m/^\s*$/;
1934 if ($line =~ m/^:(\S+)\s\S+$/) {
1935 # Make sure we know chains exist even if they're empty.
1936 $chains->{$1} //= [];
1937 } elsif ($line =~ m/^(?:\S+)\s(\S+)\s(?:\S+).*/) {
1940 push @{$chains->{$chain}}, $line;
1942 # simply ignore the rest
1947 run_command
(['ebtables-save'], outfunc
=> $parser);
1948 # compute digest for each chain and store rules as well
1949 foreach my $chain (keys %$chains) {
1950 $res->{$chain}->{rules
} = $chains->{$chain};
1951 $res->{$chain}->{sig
} = iptables_chain_digest
($chains->{$chain});
1956 # substitude action of rule according to action hash
1957 sub rule_substitude_action
{
1958 my ($rule, $actions) = @_;
1960 if (my $action = $rule->{action
}) {
1961 $rule->{action
} = $actions->{$action} if defined($actions->{$action});
1965 # generate a src or dst match
1966 # $dir(ection) is either d or s
1967 sub ipt_gen_src_or_dst_match
{
1968 my ($adr, $dir, $ipversion, $cluster_conf, $fw_conf) = @_;
1973 } elsif ($dir eq 'd') {
1976 die "ipt_gen_src_or_dst_match: invalid direction $dir \n";
1980 if ($adr =~ m/^\+/) {
1981 if ($adr =~ m/^\+(${ipset_name_pattern})$/) {
1984 if ($fw_conf && $fw_conf->{ipset
}->{$name}) {
1985 $ipset_chain = compute_ipset_chain_name
($fw_conf->{vmid
}, $name, $ipversion);
1986 } elsif ($cluster_conf && $cluster_conf->{ipset
}->{$name}) {
1987 $ipset_chain = compute_ipset_chain_name
(0, $name, $ipversion);
1989 die "no such ipset '$name'\n";
1991 $match = "-m set --match-set ${ipset_chain} ${srcdst}";
1993 die "invalid security group name '$adr'\n";
1995 } elsif ($adr =~ m/^${ip_alias_pattern}$/){
1996 my $alias = lc($adr);
1997 my $e = $fw_conf ?
$fw_conf->{aliases
}->{$alias} : undef;
1998 $e = $cluster_conf->{aliases
}->{$alias} if !$e && $cluster_conf;
1999 die "no such alias '$adr'\n" if !$e;
2000 $match = "-${dir} $e->{cidr}";
2001 } elsif ($adr =~ m/\-/){
2002 $match = "-m iprange --${srcdst}-range $adr";
2004 $match = "-${dir} $adr";
2010 # convert a %rule to an array of iptables commands
2011 sub ipt_rule_to_cmds
{
2012 my ($rule, $chain, $ipversion, $cluster_conf, $fw_conf, $vmid) = @_;
2014 die "ipt_rule_to_cmds unable to handle macro" if $rule->{macro}; #should not happen
2018 if (defined $rule->{match
}) {
2019 push @match, $rule->{match
};
2021 push @match, "-i $rule->{iface_in}" if $rule->{iface_in
};
2022 push @match, "-o $rule->{iface_out}" if $rule->{iface_out
};
2024 if ($rule->{source
}) {
2025 push @match, ipt_gen_src_or_dst_match
($rule->{source
}, 's', $ipversion, $cluster_conf, $fw_conf);
2027 if ($rule->{dest
}) {
2028 push @match, ipt_gen_src_or_dst_match
($rule->{dest
}, 'd', $ipversion, $cluster_conf, $fw_conf);
2031 if (my $proto = $rule->{proto
}) {
2032 push @match, "-p $proto";
2034 my $multidport = defined($rule->{dport
}) && parse_port_name_number_or_range
($rule->{dport
}, 1);
2035 my $multisport = defined($rule->{sport
}) && parse_port_name_number_or_range
($rule->{sport
}, 0);
2037 my $add_dport = sub {
2038 return if !$rule->{dport
};
2040 if ($proto eq 'icmp') {
2041 # Note: we use dport to store --icmp-type
2042 die "unknown icmp-type '$rule->{dport}'\n"
2043 if $rule->{dport
} !~ /^\d+$/ && !defined($icmp_type_names->{$rule->{dport
}});
2044 push @match, "-m icmp --icmp-type $rule->{dport}";
2045 } elsif ($proto eq 'icmpv6') {
2046 # Note: we use dport to store --icmpv6-type
2047 die "unknown icmpv6-type '$rule->{dport}'\n"
2048 if $rule->{dport
} !~ /^\d+$/ && !defined($icmpv6_type_names->{$rule->{dport
}});
2049 push @match, "-m icmpv6 --icmpv6-type $rule->{dport}";
2050 } elsif (!$PROTOCOLS_WITH_PORTS->{$proto}) {
2051 die "protocol $proto does not have ports\n";
2052 } elsif ($multidport) {
2053 push @match, "--match multiport", "--dports $rule->{dport}";
2055 push @match, "--dport $rule->{dport}";
2059 my $add_sport = sub {
2060 return if !$rule->{sport
};
2062 die "protocol $proto does not have ports\n"
2063 if !$PROTOCOLS_WITH_PORTS->{$proto};
2065 push @match, "--match multiport", "--sports $rule->{sport}";
2067 push @match, "--sport $rule->{sport}";
2071 # order matters - single port before multiport!
2072 $add_dport->() if $multisport;
2074 $add_dport->() if !$multisport;
2075 } elsif ($rule->{dport
} || $rule->{sport
}) {
2076 die "destination port '$rule->{dport}', but no protocol specified\n" if $rule->{dport
};
2077 die "source port '$rule->{sport}', but no protocol specified\n" if $rule->{sport
};
2080 push @match, "-m addrtype --dst-type $rule->{dsttype}" if $rule->{dsttype
};
2082 my $matchstr = scalar(@match) ?
join(' ', @match) : "";
2085 if (defined $rule->{target
}) {
2086 $targetstr = $rule->{target
};
2088 my $action = (defined $rule->{action
}) ?
$rule->{action
} : "";
2089 my $goto = 1 if $action eq 'PVEFW-SET-ACCEPT-MARK';
2090 $targetstr = ($goto) ?
"-g $action" : "-j $action";
2094 my $log = $rule->{log};
2095 if (defined($log) && $log ne 'nolog') {
2096 my $loglevel = $log_level_hash->{$log};
2097 my $logaction = get_log_rule_base
($chain, $vmid, $rule->{logmsg
}, $loglevel);
2098 push @iptcmds, "-A $chain $matchstr $logaction";
2100 push @iptcmds, "-A $chain $matchstr $targetstr";
2104 sub ruleset_generate_rule
{
2105 my ($ruleset, $chain, $ipversion, $rule, $cluster_conf, $fw_conf, $vmid) = @_;
2109 if ($rule->{macro}) {
2110 $rules = &$apply_macro($rule->{macro}, $rule, 0, $ipversion);
2115 # update all or nothing
2117 foreach my $r (@$rules) {
2118 push @ipt_rule_cmds, ipt_rule_to_cmds
($r, $chain, $ipversion, $cluster_conf, $fw_conf, $vmid);
2120 foreach my $c (@ipt_rule_cmds) {
2121 ruleset_add_ipt_cmd
($ruleset, $chain, $c);
2125 sub ruleset_create_chain
{
2126 my ($ruleset, $chain) = @_;
2128 die "Invalid chain name '$chain' (28 char max)\n" if length($chain) > 28;
2129 die "chain name may not contain collons\n" if $chain =~ m/:/; # because of log format
2131 die "chain '$chain' already exists\n" if $ruleset->{$chain};
2133 $ruleset->{$chain} = [];
2136 sub ruleset_chain_exist
{
2137 my ($ruleset, $chain) = @_;
2139 return $ruleset->{$chain} ?
1 : undef;
2142 # add an iptables command (like generated by ipt_rule_to_cmds) to a chain
2143 sub ruleset_add_ipt_cmd
{
2144 my ($ruleset, $chain, $iptcmd) = @_;
2146 die "no such chain '$chain'\n" if !$ruleset->{$chain};
2148 push @{$ruleset->{$chain}}, $iptcmd;
2151 sub ruleset_addrule
{
2152 my ($ruleset, $chain, $match, $action, $log, $logmsg, $vmid) = @_;
2154 die "no such chain '$chain'\n" if !$ruleset->{$chain};
2157 my $loglevel = $log_level_hash->{$log};
2158 my $logaction = get_log_rule_base
($chain, $vmid, $logmsg, $loglevel);
2159 push @{$ruleset->{$chain}}, "-A $chain $match $logaction";
2161 # for stable ebtables digests avoid double-spaces to match ebtables-save output
2162 $match .= ' ' if length($match);
2163 push @{$ruleset->{$chain}}, "-A $chain ${match}$action";
2166 sub ruleset_insertrule
{
2167 my ($ruleset, $chain, $match, $action, $log) = @_;
2169 die "no such chain '$chain'\n" if !$ruleset->{$chain};
2171 unshift @{$ruleset->{$chain}}, "-A $chain $match $action";
2174 sub get_log_rule_base
{
2175 my ($chain, $vmid, $msg, $loglevel) = @_;
2177 $vmid = 0 if !defined($vmid);
2178 $msg = "" if !defined($msg);
2181 if (defined($global_log_ratelimit)) {
2182 $rlimit = "-m limit $global_log_ratelimit ";
2185 # Note: we use special format for prefix to pass further
2186 # info to log daemon (VMID, LOGLEVEL and CHAIN)
2187 return "${rlimit}-j NFLOG --nflog-prefix \":$vmid:$loglevel:$chain: $msg\"";
2190 sub ruleset_add_chain_policy {
2191 my ($ruleset, $chain, $ipversion, $vmid, $policy, $loglevel, $accept_action) = @_;
2193 if ($policy eq 'ACCEPT') {
2195 my $rule = { action => 'ACCEPT' };
2196 rule_substitude_action($rule, { ACCEPT => $accept_action});
2197 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule);
2199 } elsif ($policy eq 'DROP') {
2201 ruleset_addrule($ruleset, $chain, "", "-j PVEFW-Drop
");
2203 ruleset_addrule($ruleset, $chain, "", "-j DROP
", $loglevel, "policy
$policy: ", $vmid);
2204 } elsif ($policy eq 'REJECT') {
2205 ruleset_addrule($ruleset, $chain, "", "-j PVEFW-Reject
");
2207 ruleset_addrule($ruleset, $chain, "", "-g PVEFW-reject
", $loglevel, "policy
$policy: ", $vmid);
2210 die "internal error
: unknown policy
'$policy'";
2214 sub ruleset_chain_add_ndp {
2215 my ($ruleset, $chain, $ipversion, $options, $direction, $accept) = @_;
2216 return if $ipversion != 6 || (defined($options->{ndp}) && !$options->{ndp});
2218 ruleset_addrule($ruleset, $chain, "-p icmpv6
--icmpv6-type router-solicitation
", $accept);
2219 if ($direction ne 'OUT' || $options->{radv}) {
2220 ruleset_addrule($ruleset, $chain, "-p icmpv6
--icmpv6-type router-advertisement
", $accept);
2222 ruleset_addrule($ruleset, $chain, "-p icmpv6
--icmpv6-type neighbor-solicitation
", $accept);
2223 ruleset_addrule($ruleset, $chain, "-p icmpv6
--icmpv6-type neighbor-advertisement
", $accept);
2226 sub ruleset_chain_add_conn_filters {
2227 my ($ruleset, $chain, $allow_invalid, $accept) = @_;
2229 if (!$allow_invalid) {
2230 ruleset_addrule($ruleset, $chain, "-m conntrack
--ctstate INVALID
", "-j DROP
");
2232 ruleset_addrule($ruleset, $chain, "-m conntrack
--ctstate RELATED
,ESTABLISHED
", "-j
$accept");
2235 sub ruleset_chain_add_input_filters {
2236 my ($ruleset, $chain, $ipversion, $options, $cluster_conf, $loglevel) = @_;
2238 if ($cluster_conf->{ipset}->{blacklist}){
2239 if (!ruleset_chain_exist($ruleset, "PVEFW-blacklist
")) {
2240 ruleset_create_chain($ruleset, "PVEFW-blacklist
");
2241 ruleset_addrule($ruleset, "PVEFW-blacklist
", "", "-j DROP
", $loglevel, "DROP
: ", 0);
2243 my $ipset_chain = compute_ipset_chain_name(0, 'blacklist', $ipversion);
2244 ruleset_addrule($ruleset, $chain, "-m set
--match-set
${ipset_chain
} src
", "-j PVEFW-blacklist
");
2247 if (!(defined($options->{nosmurfs}) && $options->{nosmurfs} == 0)) {
2248 if ($ipversion == 4) {
2249 ruleset_addrule($ruleset, $chain, "-m conntrack
--ctstate INVALID
,NEW
", "-j PVEFW-smurfs
");
2253 if ($options->{tcpflags}) {
2254 ruleset_addrule($ruleset, $chain, "-p tcp
", "-j PVEFW-tcpflags
");
2258 sub ruleset_create_vm_chain {
2259 my ($ruleset, $chain, $ipversion, $options, $macaddr, $ipfilter_ipset, $direction) = @_;
2261 ruleset_create_chain($ruleset, $chain);
2262 my $accept = generate_nfqueue($options);
2264 if (!(defined($options->{dhcp}) && $options->{dhcp} == 0)) {
2265 if ($ipversion == 4) {
2266 if ($direction eq 'OUT') {
2267 ruleset_generate_rule($ruleset, $chain, $ipversion,
2268 { action => 'PVEFW-SET-ACCEPT-MARK',
2269 proto => 'udp', sport => 68, dport => 67 });
2271 ruleset_generate_rule($ruleset, $chain, $ipversion,
2272 { action => 'ACCEPT',
2273 proto => 'udp', sport => 67, dport => 68 });
2275 } elsif ($ipversion == 6) {
2276 if ($direction eq 'OUT') {
2277 ruleset_generate_rule($ruleset, $chain, $ipversion,
2278 { action => 'PVEFW-SET-ACCEPT-MARK',
2279 proto => 'udp', sport => 546, dport => 547 });
2281 ruleset_generate_rule($ruleset, $chain, $ipversion,
2282 { action => 'ACCEPT',
2283 proto => 'udp', sport => 547, dport => 546 });
2289 if ($direction eq 'OUT') {
2290 if (defined($macaddr) && !(defined($options->{macfilter}) && $options->{macfilter} == 0)) {
2291 ruleset_addrule($ruleset, $chain, "-m mac
! --mac-source
$macaddr", "-j DROP
");
2293 if ($ipversion == 6 && !$options->{radv}) {
2294 ruleset_addrule($ruleset, $chain, "-p icmpv6
--icmpv6-type router-advertisement
", "-j DROP
");
2296 if ($ipfilter_ipset) {
2297 ruleset_addrule($ruleset, $chain, "-m set
! --match-set
$ipfilter_ipset src
", "-j DROP
");
2299 ruleset_addrule($ruleset, $chain, "", "-j MARK
--set-mark
$FWACCEPTMARK_OFF"); # clear mark
2302 my $accept_action = $direction eq 'OUT' ? '-g PVEFW-SET-ACCEPT-MARK' : "-j
$accept";
2303 ruleset_chain_add_ndp($ruleset, $chain, $ipversion, $options, $direction, $accept_action);
2306 sub ruleset_add_group_rule {
2307 my ($ruleset, $cluster_conf, $chain, $rule, $direction, $action, $ipversion) = @_;
2309 my $group = $rule->{action};
2310 my $group_chain = "GROUP-
$group-$direction";
2311 if(!ruleset_chain_exist($ruleset, $group_chain)){
2312 generate_group_rules($ruleset, $cluster_conf, $group, $ipversion);
2315 if ($direction eq 'OUT' && $rule->{iface_out}) {
2316 ruleset_addrule($ruleset, $chain, "-o
$rule->{iface_out
}", "-j
$group_chain");
2317 } elsif ($direction eq 'IN' && $rule->{iface_in}) {
2318 ruleset_addrule($ruleset, $chain, "-i
$rule->{iface_in
}", "-j
$group_chain");
2320 ruleset_addrule($ruleset, $chain, "", "-j
$group_chain");
2323 ruleset_addrule($ruleset, $chain, "-m mark
--mark
$FWACCEPTMARK_ON", "-j
$action");
2326 sub ruleset_generate_vm_rules {
2327 my ($ruleset, $rules, $cluster_conf, $vmfw_conf, $chain, $netid, $direction, $options, $ipversion, $vmid) = @_;
2329 my $lc_direction = lc($direction);
2331 my $in_accept = generate_nfqueue($options);
2333 foreach my $rule (@$rules) {
2334 next if $rule->{iface} && $rule->{iface} ne $netid;
2335 next if !$rule->{enable} || $rule->{errors};
2336 next if $rule->{ipversion} && ($rule->{ipversion} != $ipversion);
2338 if ($rule->{type} eq 'group') {
2339 ruleset_add_group_rule($ruleset, $cluster_conf, $chain, $rule, $direction,
2340 $direction eq 'OUT' ? 'RETURN' : $in_accept, $ipversion);
2342 next if $rule->{type} ne $lc_direction;
2344 $rule->{logmsg} = "$rule->{action
}: ";
2345 if ($direction eq 'OUT') {
2346 rule_substitude_action($rule, { ACCEPT => "PVEFW-SET-ACCEPT-MARK
", REJECT => "PVEFW-reject
" });
2347 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule, $cluster_conf, $vmfw_conf, $vmid);
2349 rule_substitude_action($rule, { ACCEPT => $in_accept , REJECT => "PVEFW-reject
" });
2350 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule, $cluster_conf, $vmfw_conf, $vmid);
2358 sub generate_nfqueue {
2361 if ($options->{ips}) {
2362 my $action = "NFQUEUE
";
2363 if ($options->{ips_queues} && $options->{ips_queues} =~ m/^(\d+)(:(\d+))?$/) {
2364 if (defined($3) && defined($1)) {
2365 $action .= " --queue-balance
$1:$3";
2366 } elsif (defined($1)) {
2367 $action .= " --queue-num
$1";
2370 $action .= " --queue-bypass
" if $feature_ipset_nomatch; #need kernel 3.10
2377 sub ruleset_generate_vm_ipsrules {
2378 my ($ruleset, $options, $direction, $iface) = @_;
2380 if ($options->{ips} && $direction eq 'IN') {
2381 my $nfqueue = generate_nfqueue($options);
2383 if (!ruleset_chain_exist($ruleset, "PVEFW-IPS
")) {
2384 ruleset_create_chain($ruleset, "PVEFW-IPS
");
2387 ruleset_addrule($ruleset, "PVEFW-IPS
", "-m physdev
--physdev-out
$iface --physdev-is-bridged
", "-j
$nfqueue");
2391 sub generate_tap_rules_direction {
2392 my ($ruleset, $cluster_conf, $iface, $netid, $macaddr, $vmfw_conf, $vmid, $direction, $ipversion) = @_;
2394 my $lc_direction = lc($direction);
2396 my $rules = $vmfw_conf->{rules};
2398 my $options = $vmfw_conf->{options};
2399 my $loglevel = get_option_log_level($options, "log_level_
${lc_direction
}");
2401 my $tapchain = "$iface-$direction";
2403 my $ipfilter_name = compute_ipfilter_ipset_name($netid);
2404 my $ipfilter_ipset = compute_ipset_chain_name($vmid, $ipfilter_name, $ipversion)
2405 if $options->{ipfilter} || $vmfw_conf->{ipset}->{$ipfilter_name};
2407 if ($options->{enable}) {
2408 # create chain with mac and ip filter
2409 ruleset_create_vm_chain($ruleset, $tapchain, $ipversion, $options, $macaddr, $ipfilter_ipset, $direction);
2411 ruleset_generate_vm_rules($ruleset, $rules, $cluster_conf, $vmfw_conf, $tapchain, $netid, $direction, $options, $ipversion, $vmid);
2413 ruleset_generate_vm_ipsrules($ruleset, $options, $direction, $iface);
2418 if ($direction eq 'OUT') {
2419 $policy = $options->{policy_out} || 'ACCEPT'; # allow everything by default
2421 $policy = $options->{policy_in} || 'DROP'; # allow nothing by default
2424 my $accept = generate_nfqueue($options);
2425 my $accept_action = $direction eq 'OUT' ? "PVEFW-SET-ACCEPT-MARK
" : $accept;
2426 ruleset_add_chain_policy($ruleset, $tapchain, $ipversion, $vmid, $policy, $loglevel, $accept_action);
2428 my $accept_action = $direction eq 'OUT' ? "PVEFW-SET-ACCEPT-MARK
" : 'ACCEPT';
2429 ruleset_add_chain_policy($ruleset, $tapchain, $ipversion, $vmid, 'ACCEPT', $loglevel, $accept_action);
2432 # plug the tap chain to bridge chain
2433 if ($direction eq 'IN') {
2434 ruleset_addrule($ruleset, "PVEFW-FWBR-IN
",
2435 "-m physdev
--physdev-is-bridged
--physdev-out
$iface", "-j
$tapchain");
2437 ruleset_addrule($ruleset, "PVEFW-FWBR-OUT
",
2438 "-m physdev
--physdev-is-bridged
--physdev-in
$iface", "-j
$tapchain");
2442 sub enable_host_firewall {
2443 my ($ruleset, $hostfw_conf, $cluster_conf, $ipversion, $corosync_conf) = @_;
2445 my $options = $hostfw_conf->{options};
2446 my $cluster_options = $cluster_conf->{options};
2447 my $rules = $hostfw_conf->{rules};
2448 my $cluster_rules = $cluster_conf->{rules};
2450 # corosync preparation
2451 my $corosync_rule = "-p udp
--dport
5404:5405";
2452 my $corosync_local_addresses = {};
2453 my $multicast_enabled;
2454 my $local_hostname = PVE::INotify::nodename();
2455 if (defined($corosync_conf)) {
2456 PVE::Corosync::for_all_corosync_addresses($corosync_conf, $ipversion, sub {
2457 my ($node_name, $node_ip, $node_ipversion, $key) = @_;
2459 if ($node_name eq $local_hostname) {
2460 $corosync_local_addresses->{$key} = $node_ip;
2464 # allow multicast only if enabled in config
2465 my $corosync_transport = $corosync_conf->{main}->{totem}->{transport};
2466 $multicast_enabled = defined($corosync_transport) && $corosync_transport eq 'udp';
2469 # host inbound firewall
2470 my $chain = "PVEFW-HOST-IN
";
2471 ruleset_create_chain($ruleset, $chain);
2473 my $loglevel = get_option_log_level($options, "log_level_in
");
2475 ruleset_addrule($ruleset, $chain, "-i lo
", "-j ACCEPT
");
2477 ruleset_chain_add_conn_filters($ruleset, $chain, 0, 'ACCEPT');
2478 ruleset_chain_add_ndp($ruleset, $chain, $ipversion, $options, 'IN', '-j RETURN');
2479 ruleset_chain_add_input_filters($ruleset, $chain, $ipversion, $options, $cluster_conf, $loglevel);
2481 # we use RETURN because we need to check also tap rules
2482 my $accept_action = 'RETURN';
2484 ruleset_addrule($ruleset, $chain, "-p igmp
", "-j
$accept_action"); # important for multicast
2486 # add host rules first, so that cluster wide rules can be overwritten
2487 foreach my $rule (@$rules, @$cluster_rules) {
2488 next if !$rule->{enable} || $rule->{errors};
2489 next if $rule->{ipversion} && ($rule->{ipversion} != $ipversion);
2491 $rule->{iface_in} = $rule->{iface} if $rule->{iface};
2494 $rule->{logmsg} = "$rule->{action
}: ";
2495 if ($rule->{type} eq 'group') {
2496 ruleset_add_group_rule($ruleset, $cluster_conf, $chain, $rule, 'IN', $accept_action, $ipversion);
2497 } elsif ($rule->{type} eq 'in') {
2498 rule_substitude_action($rule, { ACCEPT => $accept_action, REJECT => "PVEFW-reject
" });
2499 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule, $cluster_conf, $hostfw_conf, 0);
2503 delete $rule->{iface_in};
2506 # allow standard traffic for management ipset (includes cluster network)
2507 my $mngmnt_ipset_chain = compute_ipset_chain_name(0, "management
", $ipversion);
2508 my $mngmntsrc = "-m set
--match-set
${mngmnt_ipset_chain
} src
";
2509 ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp
--dport
8006", "-j
$accept_action"); # PVE API
2510 ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp
--dport
5900:5999", "-j
$accept_action"); # PVE VNC Console
2511 ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp
--dport
3128", "-j
$accept_action"); # SPICE Proxy
2512 ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp
--dport
22", "-j
$accept_action"); # SSH
2513 ruleset_addrule($ruleset, $chain, "$mngmntsrc -p tcp
--dport
60000:60050", "-j
$accept_action"); # Migration
2515 # corosync inbound rules
2516 if (defined($corosync_conf)) {
2517 ruleset_addrule($ruleset, $chain, "-m addrtype
--dst-type MULTICAST
$corosync_rule", "-j
$accept_action")
2518 if $multicast_enabled;
2520 PVE::Corosync::for_all_corosync_addresses($corosync_conf, $ipversion, sub {
2521 my ($node_name, $node_ip, $node_ipversion, $key) = @_;
2522 my $destination = $corosync_local_addresses->{$key};
2524 if ($node_name ne $local_hostname && defined($destination)) {
2525 # accept only traffic on same ring
2526 ruleset_addrule($ruleset, $chain, "-d
$destination -s
$node_ip $corosync_rule", "-j
$accept_action");
2531 # implement input policy
2532 my $policy = $cluster_options->{policy_in} || 'DROP'; # allow nothing by default
2533 ruleset_add_chain_policy($ruleset, $chain, $ipversion, 0, $policy, $loglevel, $accept_action);
2535 # host outbound firewall
2536 $chain = "PVEFW-HOST-OUT
";
2537 ruleset_create_chain($ruleset, $chain);
2539 $loglevel = get_option_log_level($options, "log_level_out
");
2541 ruleset_addrule($ruleset, $chain, "-o lo
", "-j ACCEPT
");
2543 ruleset_chain_add_conn_filters($ruleset, $chain, 0, 'ACCEPT');
2545 # we use RETURN because we may want to check other thigs later
2546 $accept_action = 'RETURN';
2547 ruleset_chain_add_ndp($ruleset, $chain, $ipversion, $options, 'OUT', "-j
$accept_action");
2549 ruleset_addrule($ruleset, $chain, "-p igmp
", "-j
$accept_action"); # important for multicast
2551 # add host rules first, so that cluster wide rules can be overwritten
2552 foreach my $rule (@$rules, @$cluster_rules) {
2553 next if !$rule->{enable} || $rule->{errors};
2554 next if $rule->{ipversion} && ($rule->{ipversion} != $ipversion);
2556 $rule->{iface_out} = $rule->{iface} if $rule->{iface};
2558 $rule->{logmsg} = "$rule->{action
}: ";
2559 if ($rule->{type} eq 'group') {
2560 ruleset_add_group_rule($ruleset, $cluster_conf, $chain, $rule, 'OUT', $accept_action, $ipversion);
2561 } elsif ($rule->{type} eq 'out') {
2562 rule_substitude_action($rule, { ACCEPT => $accept_action, REJECT => "PVEFW-reject
" });
2563 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule, $cluster_conf, $hostfw_conf, 0);
2567 delete $rule->{iface_out};
2570 # allow standard traffic on cluster network
2571 my $localnet = $cluster_conf->{aliases}->{local_network}->{cidr};
2572 my $localnet_ver = $cluster_conf->{aliases}->{local_network}->{ipversion};
2574 if ($localnet && ($ipversion == $localnet_ver)) {
2575 ruleset_addrule($ruleset, $chain, "-d
$localnet -p tcp
--dport
8006", "-j
$accept_action"); # PVE API
2576 ruleset_addrule($ruleset, $chain, "-d
$localnet -p tcp
--dport
22", "-j
$accept_action"); # SSH
2577 ruleset_addrule($ruleset, $chain, "-d
$localnet -p tcp
--dport
5900:5999", "-j
$accept_action"); # PVE VNC Console
2578 ruleset_addrule($ruleset, $chain, "-d
$localnet -p tcp
--dport
3128", "-j
$accept_action"); # SPICE Proxy
2581 # corosync outbound rules
2582 if (defined($corosync_conf)) {
2583 ruleset_addrule($ruleset, $chain, "-m addrtype
--dst-type MULTICAST
$corosync_rule", "-j
$accept_action")
2584 if $multicast_enabled;
2586 PVE::Corosync::for_all_corosync_addresses($corosync_conf, $ipversion, sub {
2587 my ($node_name, $node_ip, $node_ipversion, $key) = @_;
2588 my $source = $corosync_local_addresses->{$key};
2590 if ($node_name ne $local_hostname && defined($source)) {
2591 # accept only traffic on same ring
2592 ruleset_addrule($ruleset, $chain, "-s
$source -d
$node_ip $corosync_rule", "-j
$accept_action");
2597 # implement output policy
2598 $policy = $cluster_options->{policy_out} || 'ACCEPT'; # allow everything by default
2599 ruleset_add_chain_policy($ruleset, $chain, $ipversion, 0, $policy, $loglevel, $accept_action);
2601 ruleset_addrule($ruleset, "PVEFW-OUTPUT
", "", "-j PVEFW-HOST-OUT
");
2602 ruleset_addrule($ruleset, "PVEFW-INPUT
", "", "-j PVEFW-HOST-IN
");
2605 sub generate_group_rules {
2606 my ($ruleset, $cluster_conf, $group, $ipversion) = @_;
2608 my $rules = $cluster_conf->{groups}->{$group};
2611 warn "no such security group
'$group'\n";
2612 $rules = []; # create empty chain
2615 my $chain = "GROUP-
${group
}-IN
";
2617 ruleset_create_chain($ruleset, $chain);
2618 ruleset_addrule($ruleset, $chain, "", "-j MARK
--set-mark
$FWACCEPTMARK_OFF"); # clear mark
2620 foreach my $rule (@$rules) {
2621 next if $rule->{type} ne 'in';
2622 next if !$rule->{enable} || $rule->{errors};
2623 next if $rule->{ipversion} && $rule->{ipversion} ne $ipversion;
2624 rule_substitude_action($rule, { ACCEPT => "PVEFW-SET-ACCEPT-MARK
", REJECT => "PVEFW-reject
" });
2625 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule, $cluster_conf);
2628 $chain = "GROUP-
${group
}-OUT
";
2630 ruleset_create_chain($ruleset, $chain);
2631 ruleset_addrule($ruleset, $chain, "", "-j MARK
--set-mark
$FWACCEPTMARK_OFF"); # clear mark
2633 foreach my $rule (@$rules) {
2634 next if $rule->{type} ne 'out';
2635 next if !$rule->{enable} || $rule->{errors};
2636 next if $rule->{ipversion} && $rule->{ipversion} ne $ipversion;
2637 # we use PVEFW-SET-ACCEPT-MARK (Instead of ACCEPT) because we need to
2638 # check also other tap rules later
2639 rule_substitude_action($rule, { ACCEPT => 'PVEFW-SET-ACCEPT-MARK', REJECT => "PVEFW-reject
" });
2640 ruleset_generate_rule($ruleset, $chain, $ipversion, $rule, $cluster_conf);
2645 my $valid_netdev_names = {};
2646 for (my $i = 0; $i < $MAX_NETS; $i++) {
2647 $valid_netdev_names->{"net
$i"} = 1;
2650 sub get_mark_values {
2651 my ($value, $mask) = @_;
2652 $value = hex($value) if $value =~ /^0x/;
2653 $mask = hex($mask) if defined($mask) && $mask =~ /^0x/;
2654 $mask = 0xffffffff if !defined($mask);
2655 return ($value, $mask);
2659 my ($prefix, $line, $cluster_conf, $fw_conf, $rule_env) = @_;
2661 my $orig_line = $line;
2665 # we can add single line comments to the end of the rule
2666 if ($line =~ s/#\s*(.*?)\s*$//) {
2667 $rule->{comment} = decode('utf8', $1);
2670 # we can disable a rule when prefixed with '|'
2672 $rule->{enable} = $line =~ s/^\|// ? 0 : 1;
2674 $line =~ s/^(\S+)\s+(\S+)\s*// ||
2675 die "unable to parse rule
: $line\n";
2677 $rule->{type} = lc($1);
2678 $rule->{action} = $2;
2680 if ($rule->{type} eq 'in' || $rule->{type} eq 'out') {
2681 if ($rule->{action} =~ m/^(\S+)\((ACCEPT|DROP|REJECT)\)$/) {
2682 $rule->{macro} = $1;
2683 $rule->{action} = $2;
2687 while (length($line)) {
2688 if ($line =~ s/^-i (\S+)\s*//) {
2689 $rule->{iface} = $1;
2693 last if $rule->{type} eq 'group';
2695 if ($line =~ s/^-p (\S+)\s*//) {
2696 $rule->{proto} = $1;
2700 if ($line =~ s/^-dport (\S+)\s*//) {
2701 $rule->{dport} = $1;
2705 if ($line =~ s/^-sport (\S+)\s*//) {
2706 $rule->{sport} = $1;
2709 if ($line =~ s/^-source (\S+)\s*//) {
2710 $rule->{source} = $1;
2713 if ($line =~ s/^-dest (\S+)\s*//) {
2717 if ($line =~ s/^-log (emerg|alert|crit|err|warning|notice|info|debug|nolog)\s*//) {
2725 die "unable to parse rule parameters
: $line\n" if length($line);
2727 $rule = verify_rule($rule, $cluster_conf, $fw_conf, $rule_env, 1);
2728 if ($rule->{errors}) {
2729 # The verbose flag really means we're running from the CLI and want
2730 # output on the console - in the other case we really want such errors
2731 # to go into the syslog instead.
2732 my $log = $verbose ? sub { warn @_ } : sub { syslog(err => @_) };
2733 $log->("$prefix - errors
in rule parameters
: $orig_line\n");
2734 foreach my $p (keys %{$rule->{errors}}) {
2735 $log->(" $p: $rule->{errors
}->{$p}\n");
2742 sub verify_ethertype {
2744 my $types = get_etc_ethertypes();
2745 die "unknown ethernet protocol type
: $value\n"
2746 if !defined($types->{byname}->{$value}) &&
2747 !defined($types->{byid}->{$value});
2750 sub parse_vmfw_option {
2755 my $loglevels = "emerg
|alert
|crit
|err
|warning
|notice
|info
|debug
|nolog
";
2757 if ($line =~ m/^(enable|dhcp|ndp|radv|macfilter|ipfilter|ips):\s*(0|1)\s*$/i) {
2760 } elsif ($line =~ m/^(log_level_in|log_level_out):\s*(($loglevels)\s*)?$/i) {
2762 $value = $2 ? lc($3) : '';
2763 } elsif ($line =~ m/^(policy_(in|out)):\s*(ACCEPT|DROP|REJECT)\s*$/i) {
2766 } elsif ($line =~ m/^(ips_queues):\s*((\d+)(:(\d+))?)\s*$/i) {
2769 } elsif ($line =~ m/^(layer2_protocols):\s*(((\S+)[,]?)+)\s*$/i) {
2772 verify_ethertype($_) foreach split(/\s*,\s*/, $value);
2774 die "can
't parse option '$line'\n"
2777 return ($opt, $value);
2780 sub parse_hostfw_option {
2785 my $loglevels = "emerg|alert|crit|err|warning|notice|info|debug|nolog";
2787 if ($line =~ m/^(enable|nosmurfs|tcpflags|ndp|log_nf_conntrack|nf_conntrack_allow_invalid|protection_synflood):\s*(0|1)\s*$/i) {
2790 } elsif ($line =~ m/^(log_level_in|log_level_out|tcp_flags_log_level|smurf_log_level):\s*(($loglevels)\s*)?$/i) {
2792 $value = $2 ? lc($3) : '';
2793 } elsif ($line =~ m/^(nf_conntrack_max|nf_conntrack_tcp_timeout_established|nf_conntrack_tcp_timeout_syn_recv|protection_synflood_rate|protection_synflood_burst|protection_limit):\s*(\d+)\s*$/i) {
2797 die "can't parse option
'$line'\n"
2800 return ($opt, $value);
2803 sub parse_clusterfw_option {
2808 if ($line =~ m/^(enable):\s*(\d+)\s*$/i) {
2811 if (($value > 1) && ((time() - $value) > 60)) {
2814 } elsif ($line =~ m/^(ebtables):\s*(0|1)\s*$/i) {
2817 } elsif ($line =~ m/^(policy_(in|out)):\s*(ACCEPT|DROP|REJECT)\s*$/i) {
2820 } elsif ($line =~ m/^(log_ratelimit):\s*(\S+)\s*$/) {
2824 die "can
't parse option '$line'\n"
2827 return ($opt, $value);
2831 my ($clusterfw_conf, $fw_conf, $cidr) = @_;
2833 my $alias = lc($cidr);
2834 my $e = $fw_conf ? $fw_conf->{aliases}->{$alias} : undef;
2835 $e = $clusterfw_conf->{aliases}->{$alias} if !$e && $clusterfw_conf;
2837 die "no such alias '$cidr'\n" if !$e;;
2839 return wantarray ? ($e->{cidr}, $e->{ipversion}) : $e->{cidr};
2842 sub parse_ip_or_cidr {
2847 if ($cidr =~ m!^(?:$IPV6RE)(/(\d+))?$!) {
2850 } elsif ($cidr =~ m!^(?:$IPV4RE)(/(\d+))?$!) {
2854 die "value does not look like a valid IP address or CIDR network\n";
2857 return wantarray ? ($cidr, $ipversion) : $cidr;
2863 # we can add single line comments to the end of the line
2864 my $comment = decode('utf8
', $1) if $line =~ s/\s*#\s*(.*?)\s*$//;
2866 if ($line =~ m/^(\S+)\s(\S+)$/) {
2867 my ($name, $cidr) = ($1, $2);
2870 ($cidr, $ipversion) = parse_ip_or_cidr($cidr);
2875 ipversion => $ipversion,
2877 $data->{comment} = $comment if $comment;
2884 sub generic_fw_config_parser {
2885 my ($filename, $cluster_conf, $empty_conf, $rule_env) = @_;
2890 my $res = $empty_conf;
2893 if ($filename =~ m!^/etc/pve/(.*)$!) {
2894 $raw = PVE::Cluster::get_config($1);
2896 $raw = eval { PVE::Tools::file_get_contents($filename) }; # ignore errors
2901 while ($raw =~ /^\h*(.*?)\h*$/gm) {
2904 next if $line =~ m/^#/;
2905 next if $line =~ m/^\s*$/;
2908 my $prefix = "$filename (line $linenr)";
2910 if ($empty_conf->{options} && ($line =~ m/^\[options\]$/i)) {
2911 $section = 'options
';
2915 if ($empty_conf->{aliases} && ($line =~ m/^\[aliases\]$/i)) {
2916 $section = 'aliases
';
2920 if ($empty_conf->{groups} && ($line =~ m/^\[group\s+(\S+)\]\s*(?:#\s*(.*?)\s*)?$/i)) {
2921 $section = 'groups
';
2925 die "security group name too long\n" if length($group) > $max_group_name_length;
2926 die "invalid security group name '$group'\n" if $group !~ m/^${security_group_name_pattern}$/;
2929 ($section, $group, $comment) = undef;
2930 warn "$prefix: $err";
2934 $res->{$section}->{$group} = [];
2935 $res->{group_comments}->{$group} = decode('utf8
', $comment)
2940 if ($empty_conf->{rules} && ($line =~ m/^\[rules\]$/i)) {
2945 if ($empty_conf->{ipset} && ($line =~ m/^\[ipset\s+(\S+)\]\s*(?:#\s*(.*?)\s*)?$/i)) {
2950 die "ipset name too long\n" if length($group) > $max_ipset_name_length;
2951 die "invalid ipset name '$group'\n" if $group !~ m/^${ipset_name_pattern}$/;
2954 ($section, $group, $comment) = undef;
2955 warn "$prefix: $err";
2959 $res->{$section}->{$group} = [];
2960 $res->{ipset_comments}->{$group} = decode('utf8
', $comment)
2966 warn "$prefix: skip line - no section\n";
2970 if ($section eq 'options
') {
2973 if ($rule_env eq 'cluster
') {
2974 ($opt, $value) = parse_clusterfw_option($line);
2975 } elsif ($rule_env eq 'host
') {
2976 ($opt, $value) = parse_hostfw_option($line);
2978 ($opt, $value) = parse_vmfw_option($line);
2980 $res->{options}->{$opt} = $value;
2982 warn "$prefix: $@" if $@;
2983 } elsif ($section eq 'aliases
') {
2985 my $data = parse_alias($line);
2986 $res->{aliases}->{lc($data->{name})} = $data;
2988 warn "$prefix: $@" if $@;
2989 } elsif ($section eq 'rules
') {
2991 eval { $rule = parse_fw_rule($prefix, $line, $cluster_conf, $res, $rule_env); };
2993 warn "$prefix: $err";
2996 push @{$res->{$section}}, $rule;
2997 } elsif ($section eq 'groups
') {
2999 eval { $rule = parse_fw_rule($prefix, $line, $cluster_conf, undef, 'group
'); };
3001 warn "$prefix: $err";
3004 push @{$res->{$section}->{$group}}, $rule;
3005 } elsif ($section eq 'ipset
') {
3006 # we can add single line comments to the end of the rule
3007 my $comment = decode('utf8
', $1) if $line =~ s/#\s*(.*?)\s*$//;
3009 $line =~ m/^(\!)?\s*(\S+)\s*$/;
3014 if ($nomatch && !$feature_ipset_nomatch) {
3015 $errors->{nomatch} = "nomatch not supported by kernel";
3019 if ($cidr =~ m/^${ip_alias_pattern}$/) {
3020 resolve_alias($cluster_conf, $res, $cidr); # make sure alias exists
3022 $cidr = parse_ip_or_cidr($cidr);
3027 $errors->{cidr} = $err;
3030 if ($cidr =~ m!/0+$!) {
3031 $errors->{cidr} = "a zero prefix is not allowed in ipset entries\n";
3034 my $entry = { cidr => $cidr };
3035 $entry->{nomatch} = 1 if $nomatch;
3036 $entry->{comment} = $comment if $comment;
3037 $entry->{errors} = $errors if $errors;
3039 if ($verbose && $errors) {
3040 warn "$prefix - errors in ipset '$group': $line\n";
3041 foreach my $p (keys %{$errors}) {
3042 warn " $p: $errors->{$p}\n";
3046 push @{$res->{$section}->{$group}}, $entry;
3048 warn "$prefix: skip line - unknown section\n";
3056 # this is only used to prevent concurrent runs of rule compilation/application
3057 # see lock_*_conf for cfs locks protectiong config modification
3059 my ($code, @param) = @_;
3063 my $res = lock_file($pve_fw_lock_filename, $timeout, $code, @param);
3070 sub read_local_vm_config {
3075 my $vmdata = { qemu => $qemu, lxc => $lxc };
3077 my $vmlist = PVE::Cluster::get_vmlist();
3078 return $vmdata if !$vmlist || !$vmlist->{ids};
3079 my $ids = $vmlist->{ids};
3081 foreach my $vmid (keys %$ids) {
3082 next if !$vmid; # skip VE0
3083 my $d = $ids->{$vmid};
3084 next if !$d->{node} || $d->{node} ne $nodename;
3085 next if !$d->{type};
3086 if ($d->{type} eq 'qemu
') {
3087 if ($have_qemu_server) {
3088 my $cfspath = PVE::QemuConfig->cfs_config_path($vmid);
3089 if (my $conf = PVE::Cluster::cfs_read_file($cfspath)) {
3090 $qemu->{$vmid} = $conf;
3093 } elsif ($d->{type} eq 'lxc
') {
3095 my $cfspath = PVE::LXC::Config->cfs_config_path($vmid);
3096 if (my $conf = PVE::Cluster::cfs_read_file($cfspath)) {
3097 $lxc->{$vmid} = $conf;
3106 sub lock_vmfw_conf {
3107 my ($vmid, $timeout, $code, @param) = @_;
3109 die "can't
lock VM firewall config
for undefined VMID
\n"
3112 my $res = PVE::Cluster::cfs_lock_firewall("vm-
$vmid", $timeout, $code, @param);
3118 sub load_vmfw_conf {
3119 my ($cluster_conf, $rule_env, $vmid, $dir) = @_;
3121 $dir = $pvefw_conf_dir if !defined($dir);
3122 my $filename = "$dir/$vmid.fw
";
3129 ipset_comments => {},
3132 my $vmfw_conf = generic_fw_config_parser($filename, $cluster_conf, $empty_conf, $rule_env);
3133 $vmfw_conf->{vmid} = $vmid;
3138 my $format_rules = sub {
3139 my ($rules, $allow_iface) = @_;
3143 foreach my $rule (@$rules) {
3144 if ($rule->{type} eq 'in' || $rule->{type} eq 'out' || $rule->{type} eq 'group') {
3145 $raw .= '|' if defined($rule->{enable}) && !$rule->{enable};
3146 $raw .= uc($rule->{type});
3147 if ($rule->{macro}) {
3148 $raw .= " $rule->{macro}($rule->{action
})";
3150 $raw .= " " . $rule->{action};
3152 if ($allow_iface && $rule->{iface}) {
3153 $raw .= " -i
$rule->{iface
}";
3156 if ($rule->{type} ne 'group') {
3157 $raw .= " -source
$rule->{source
}" if $rule->{source};
3158 $raw .= " -dest
$rule->{dest
}" if $rule->{dest};
3159 $raw .= " -p
$rule->{proto
}" if $rule->{proto};
3160 $raw .= " -dport
$rule->{dport
}" if $rule->{dport};
3161 $raw .= " -sport
$rule->{sport
}" if $rule->{sport};
3162 $raw .= " -log $rule->{log}" if $rule->{log};
3165 $raw .= " # " . encode('utf8', $rule->{comment})
3166 if $rule->{comment
} && $rule->{comment
} !~ m/^\s*$/;
3169 die "unknown rule type '$rule->{type}'";
3176 my $format_options = sub {
3181 $raw .= "[OPTIONS]\n\n";
3182 foreach my $opt (keys %$options) {
3183 $raw .= "$opt: $options->{$opt}\n";
3190 my $format_aliases = sub {
3195 $raw .= "[ALIASES]\n\n";
3196 foreach my $k (keys %$aliases) {
3197 my $e = $aliases->{$k};
3198 $raw .= "$e->{name} $e->{cidr}";
3199 $raw .= " # " . encode
('utf8', $e->{comment
})
3200 if $e->{comment
} && $e->{comment
} !~ m/^\s*$/;
3208 my $format_ipsets = sub {
3213 foreach my $ipset (sort keys %{$fw_conf->{ipset
}}) {
3214 if (my $comment = $fw_conf->{ipset_comments
}->{$ipset}) {
3215 my $utf8comment = encode
('utf8', $comment);
3216 $raw .= "[IPSET $ipset] # $utf8comment\n\n";
3218 $raw .= "[IPSET $ipset]\n\n";
3220 my $options = $fw_conf->{ipset
}->{$ipset};
3223 foreach my $entry (@$options) {
3224 $nethash->{$entry->{cidr
}} = $entry;
3227 foreach my $cidr (sort keys %$nethash) {
3228 my $entry = $nethash->{$cidr};
3229 my $line = $entry->{nomatch
} ?
'!' : '';
3230 $line .= $entry->{cidr
};
3231 $line .= " # " . encode
('utf8', $entry->{comment
})
3232 if $entry->{comment
} && $entry->{comment
} !~ m/^\s*$/;
3242 sub save_vmfw_conf
{
3243 my ($vmid, $vmfw_conf) = @_;
3247 my $options = $vmfw_conf->{options
};
3248 $raw .= &$format_options($options) if $options && scalar(keys %$options);
3250 my $aliases = $vmfw_conf->{aliases
};
3251 $raw .= &$format_aliases($aliases) if $aliases && scalar(keys %$aliases);
3253 $raw .= &$format_ipsets($vmfw_conf) if $vmfw_conf->{ipset
};
3255 my $rules = $vmfw_conf->{rules
} || [];
3256 if ($rules && scalar(@$rules)) {
3257 $raw .= "[RULES]\n\n";
3258 $raw .= &$format_rules($rules, 1);
3262 my $filename = "$pvefw_conf_dir/$vmid.fw";
3264 mkdir $pvefw_conf_dir;
3265 PVE
::Tools
::file_set_contents
($filename, $raw);
3271 sub remove_vmfw_conf
{
3274 my $vmfw_conffile = "$pvefw_conf_dir/$vmid.fw";
3276 unlink $vmfw_conffile;
3279 sub clone_vmfw_conf
{
3280 my ($vmid, $newid) = @_;
3282 my $sourcevm_conffile = "$pvefw_conf_dir/$vmid.fw";
3283 my $clonevm_conffile = "$pvefw_conf_dir/$newid.fw";
3285 lock_vmfw_conf
($newid, 10, sub {
3286 if (-f
$clonevm_conffile) {
3287 unlink $clonevm_conffile;
3289 if (-f
$sourcevm_conffile) {
3290 my $data = PVE
::Tools
::file_get_contents
($sourcevm_conffile);
3291 PVE
::Tools
::file_set_contents
($clonevm_conffile, $data);
3296 sub read_vm_firewall_configs
{
3297 my ($cluster_conf, $vmdata, $dir) = @_;
3299 my $vmfw_configs = {};
3301 foreach my $vmid (keys %{$vmdata->{qemu
}}) {
3302 my $vmfw_conf = load_vmfw_conf
($cluster_conf, 'vm', $vmid, $dir);
3303 next if !$vmfw_conf->{options
}; # skip if file does not exist
3304 $vmfw_configs->{$vmid} = $vmfw_conf;
3306 foreach my $vmid (keys %{$vmdata->{lxc
}}) {
3307 my $vmfw_conf = load_vmfw_conf
($cluster_conf, 'ct', $vmid, $dir);
3308 next if !$vmfw_conf->{options
}; # skip if file does not exist
3309 $vmfw_configs->{$vmid} = $vmfw_conf;
3312 return $vmfw_configs;
3315 sub get_option_log_level
{
3316 my ($options, $k) = @_;
3318 my $v = $options->{$k};
3319 $v = $default_log_level if !defined($v);
3321 return undef if $v eq '' || $v eq 'nolog';
3323 return $v if defined($log_level_hash->{$v});
3325 warn "unknown log level ($k = '$v')\n";
3330 sub generate_std_chains
{
3331 my ($ruleset, $options, $ipversion) = @_;
3333 my $std_chains = $pve_std_chains->{$ipversion} || die "internal error";
3335 my $loglevel = get_option_log_level
($options, 'smurf_log_level');
3336 my $chain = 'PVEFW-smurflog';
3337 if ( $std_chains->{$chain} ) {
3338 foreach my $r (@{$std_chains->{$chain}}) {
3339 $r->{log} = $loglevel;
3343 # same as shorewall logflags action.
3344 $loglevel = get_option_log_level
($options, 'tcp_flags_log_level');
3345 $chain = 'PVEFW-logflags';
3346 if ( $std_chains->{$chain} ) {
3347 foreach my $r (@{$std_chains->{$chain}}) {
3348 $r->{log} = $loglevel;
3352 foreach my $chain (keys %$std_chains) {
3353 ruleset_create_chain
($ruleset, $chain);
3354 foreach my $rule (@{$std_chains->{$chain}}) {
3356 ruleset_generate_rule
($ruleset, $chain, $ipversion, $rule, 0);
3358 die "rule $rule as string - should not happen";
3364 sub generate_ipset_chains
{
3365 my ($ipset_ruleset, $clusterfw_conf, $fw_conf, $device_ips, $ipsets) = @_;
3367 foreach my $ipset (keys %{$ipsets}) {
3369 my $options = $ipsets->{$ipset};
3371 if ($device_ips && $ipset =~ /^ipfilter-(net\d+)$/) {
3372 if (my $ips = $device_ips->{$1}) {
3373 $options = [@$options, @$ips];
3379 foreach my $entry (@$options) {
3380 next if $entry->{errors
}; # skip entries with errors
3383 if ($entry->{cidr
} =~ m/^${ip_alias_pattern}$/) {
3384 ($cidr, $ver) = resolve_alias
($clusterfw_conf, $fw_conf, $entry->{cidr
});
3386 ($cidr, $ver) = parse_ip_or_cidr
($entry->{cidr
});
3388 #http://backreference.org/2013/03/01/ipv6-address-normalization/
3390 # ip_compress_address takes an address only, no CIDR
3391 my ($addr, $prefix_len) = ($cidr =~ m
@^([^/]*)(/.*)?
$@);
3392 $cidr = lc(Net
::IP
::ip_compress_address
($addr, 6));
3393 $cidr .= $prefix_len if defined($prefix_len);
3399 $nethash->{$ver}->{$cidr} = { cidr
=> $cidr, nomatch
=> $entry->{nomatch
} };
3404 foreach my $ipversion (4, 6) {
3405 my $data = $nethash->{$ipversion};
3407 my $name = compute_ipset_chain_name
($fw_conf->{vmid
}, $ipset, $ipversion);
3409 my $hashsize = scalar(@$options);
3410 if ($hashsize <= 64) {
3413 $hashsize = round_powerof2
($hashsize);
3416 my $family = $ipversion == "6" ?
"inet6" : "inet";
3418 $ipset_ruleset->{$name} = ["create $name hash:net family $family hashsize $hashsize maxelem $hashsize"];
3420 foreach my $cidr (sort keys %$data) {
3421 my $entry = $data->{$cidr};
3423 my $cmd = "add $name $cidr";
3424 if ($entry->{nomatch
}) {
3425 if ($feature_ipset_nomatch) {
3426 push @{$ipset_ruleset->{$name}}, "$cmd nomatch";
3428 warn "ignore !$cidr - nomatch not supported by kernel\n";
3431 push @{$ipset_ruleset->{$name}}, $cmd;
3438 sub round_powerof2
{
3442 $int |= $int >> $_ foreach (1,2,4,8,16);
3446 my $set_global_log_ratelimit = sub {
3447 my $cluster_opts = shift;
3449 $global_log_ratelimit = '--limit 1/sec';
3450 if (defined(my $log_rlimit = $cluster_opts->{log_ratelimit
})) {
3451 my $ll_format = $cluster_option_properties->{log_ratelimit
}->{format
};
3452 my $limit = PVE
::JSONSchema
::parse_property_string
($ll_format, $log_rlimit);
3454 if ($limit->{enable
}) {
3455 if (my $rate = $limit->{rate
}) {
3456 $global_log_ratelimit = "--limit $rate";
3458 if (my $burst = $limit->{burst
}) {
3459 $global_log_ratelimit .= " --limit-burst $burst";
3462 $global_log_ratelimit = undef;
3467 sub lock_clusterfw_conf
{
3468 my ($timeout, $code, @param) = @_;
3470 my $res = PVE
::Cluster
::cfs_lock_firewall
("cluster", $timeout, $code, @param);
3476 sub load_clusterfw_conf
{
3477 my ($filename) = @_;
3479 $filename = $clusterfw_conf_filename if !defined($filename);
3485 group_comments
=> {},
3487 ipset_comments
=> {},
3490 my $cluster_conf = generic_fw_config_parser
($filename, $empty_conf, $empty_conf, 'cluster');
3491 $set_global_log_ratelimit->($cluster_conf->{options
});
3493 return $cluster_conf;
3496 sub save_clusterfw_conf
{
3497 my ($cluster_conf) = @_;
3501 my $options = $cluster_conf->{options
};
3502 $raw .= &$format_options($options) if $options && scalar(keys %$options);
3504 my $aliases = $cluster_conf->{aliases
};
3505 $raw .= &$format_aliases($aliases) if $aliases && scalar(keys %$aliases);
3507 $raw .= &$format_ipsets($cluster_conf) if $cluster_conf->{ipset
};
3509 my $rules = $cluster_conf->{rules
};
3510 if ($rules && scalar(@$rules)) {
3511 $raw .= "[RULES]\n\n";
3512 $raw .= &$format_rules($rules, 1);
3516 if ($cluster_conf->{groups
}) {
3517 foreach my $group (sort keys %{$cluster_conf->{groups
}}) {
3518 my $rules = $cluster_conf->{groups
}->{$group};
3519 if (my $comment = $cluster_conf->{group_comments
}->{$group}) {
3520 my $utf8comment = encode
('utf8', $comment);
3521 $raw .= "[group $group] # $utf8comment\n\n";
3523 $raw .= "[group $group]\n\n";
3526 $raw .= &$format_rules($rules, 0);
3532 mkdir $pvefw_conf_dir;
3533 PVE
::Tools
::file_set_contents
($clusterfw_conf_filename, $raw);
3535 unlink $clusterfw_conf_filename;
3539 sub lock_hostfw_conf
{
3540 my ($timeout, $code, @param) = @_;
3542 my $res = PVE
::Cluster
::cfs_lock_firewall
("host-$nodename", $timeout, $code, @param);
3548 sub load_hostfw_conf
{
3549 my ($cluster_conf, $filename) = @_;
3551 $filename = $hostfw_conf_filename if !defined($filename);
3553 my $empty_conf = { rules
=> [], options
=> {}};
3554 return generic_fw_config_parser
($filename, $cluster_conf, $empty_conf, 'host');
3557 sub save_hostfw_conf
{
3558 my ($hostfw_conf) = @_;
3562 my $options = $hostfw_conf->{options
};
3563 $raw .= &$format_options($options) if $options && scalar(keys %$options);
3565 my $rules = $hostfw_conf->{rules
};
3566 if ($rules && scalar(@$rules)) {
3567 $raw .= "[RULES]\n\n";
3568 $raw .= &$format_rules($rules, 1);
3573 PVE
::Tools
::file_set_contents
($hostfw_conf_filename, $raw);
3575 unlink $hostfw_conf_filename;
3580 my ($cluster_conf, $hostfw_conf, $vmdata, $corosync_conf) = @_;
3584 # fixme: once we read standard chains from config this needs to be put in test/standard cases below
3585 $pve_std_chains = dclone
($pve_std_chains_conf);
3587 if ($vmdata) { # test mode
3588 my $testdir = $vmdata->{testdir
} || die "no test directory specified";
3589 my $filename = "$testdir/cluster.fw";
3590 $cluster_conf = load_clusterfw_conf
($filename);
3592 $filename = "$testdir/host.fw";
3593 $hostfw_conf = load_hostfw_conf
($cluster_conf, $filename);
3595 $vmfw_configs = read_vm_firewall_configs
($cluster_conf, $vmdata, $testdir);
3596 } else { # normal operation
3597 $cluster_conf = load_clusterfw_conf
(undef) if !$cluster_conf;
3599 $hostfw_conf = load_hostfw_conf
($cluster_conf, undef) if !$hostfw_conf;
3601 # cfs_update is handled by daemon or API
3602 $corosync_conf = PVE
::Cluster
::cfs_read_file
("corosync.conf")
3603 if !defined($corosync_conf) && PVE
::Corosync
::check_conf_exists
(1);
3605 $vmdata = read_local_vm_config
();
3606 $vmfw_configs = read_vm_firewall_configs
($cluster_conf, $vmdata, undef);
3609 return ({},{},{},{}) if !$cluster_conf->{options
}->{enable
};
3612 if ($cluster_conf->{aliases
}->{local_network
}) {
3613 $localnet = $cluster_conf->{aliases
}->{local_network
}->{cidr
};
3616 ($localnet, $localnet_ver) = parse_ip_or_cidr
(local_network
() || '127.0.0.0/8');
3618 $cluster_conf->{aliases
}->{local_network
} = {
3619 name
=> 'local_network', cidr
=> $localnet, ipversion
=> $localnet_ver };
3622 push @{$cluster_conf->{ipset
}->{management
}}, { cidr
=> $localnet };
3626 $ruleset->{filter
} = compile_iptables_filter
($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $corosync_conf, 4);
3627 $ruleset->{raw
} = compile_iptables_raw
($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $corosync_conf, 4);
3628 $rulesetv6->{filter
} = compile_iptables_filter
($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $corosync_conf, 6);
3629 $rulesetv6->{raw
} = compile_iptables_raw
($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $corosync_conf, 6);
3630 my $ebtables_ruleset = compile_ebtables_filter
($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata);
3631 my $ipset_ruleset = compile_ipsets
($cluster_conf, $vmfw_configs, $vmdata);
3633 return ($ruleset, $ipset_ruleset, $rulesetv6, $ebtables_ruleset);
3636 sub compile_iptables_raw
{
3637 my ($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $corosync_conf, $ipversion) = @_;
3641 my $hostfw_options = $hostfw_conf->{options
} || {};
3642 my $protection_synflood = $hostfw_options->{protection_synflood
} || 0;
3644 if($protection_synflood) {
3646 my $protection_synflood_rate = $hostfw_options->{protection_synflood_rate
} ?
$hostfw_options->{protection_synflood_rate
} : 200;
3647 my $protection_synflood_burst = $hostfw_options->{protection_synflood_burst
} ?
$hostfw_options->{protection_synflood_burst
} : 1000;
3648 my $protection_synflood_limit = $hostfw_options->{protection_synflood_limit
} ?
$hostfw_options->{protection_synflood_limit
} : 3000;
3649 my $protection_synflood_expire = $hostfw_options->{nf_conntrack_tcp_timeout_syn_recv
} ?
$hostfw_options->{nf_conntrack_tcp_timeout_syn_recv
} : 60;
3650 $protection_synflood_expire = $protection_synflood_expire * 1000;
3651 my $protection_synflood_mask = $ipversion == 4 ?
32 : 64;
3653 ruleset_create_chain
($ruleset, "PVEFW-PREROUTING");
3654 ruleset_addrule
($ruleset, "PVEFW-PREROUTING", "-p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -m hashlimit --hashlimit-above $protection_synflood_rate/sec --hashlimit-burst $protection_synflood_burst --hashlimit-mode srcip --hashlimit-name syn --hashlimit-htable-size 2097152 --hashlimit-srcmask $protection_synflood_mask --hashlimit-htable-expire $protection_synflood_expire", "-j DROP");
3660 sub compile_iptables_filter
{
3661 my ($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata, $corosync_conf, $ipversion) = @_;
3665 ruleset_create_chain
($ruleset, "PVEFW-INPUT");
3666 ruleset_create_chain
($ruleset, "PVEFW-OUTPUT");
3668 ruleset_create_chain
($ruleset, "PVEFW-FORWARD");
3670 my $hostfw_options = $hostfw_conf->{options
} || {};
3672 # fixme: what log level should we use here?
3673 my $loglevel = get_option_log_level
($hostfw_options, "log_level_out");
3675 my $conn_allow_invalid = $hostfw_options->{nf_conntrack_allow_invalid
} // 0;
3676 ruleset_chain_add_conn_filters
($ruleset, "PVEFW-FORWARD", $conn_allow_invalid, "ACCEPT");
3678 ruleset_create_chain
($ruleset, "PVEFW-FWBR-IN");
3679 ruleset_chain_add_input_filters
($ruleset, "PVEFW-FWBR-IN", $ipversion, $hostfw_options, $cluster_conf, $loglevel);
3681 ruleset_addrule
($ruleset, "PVEFW-FORWARD", "-m physdev --physdev-is-bridged --physdev-in fwln+", "-j PVEFW-FWBR-IN");
3683 ruleset_create_chain
($ruleset, "PVEFW-FWBR-OUT");
3684 ruleset_addrule
($ruleset, "PVEFW-FORWARD", "-m physdev --physdev-is-bridged --physdev-out fwln+", "-j PVEFW-FWBR-OUT");
3686 generate_std_chains
($ruleset, $hostfw_options, $ipversion);
3688 my $hostfw_enable = !(defined($hostfw_options->{enable
}) && ($hostfw_options->{enable
} == 0));
3690 if ($hostfw_enable) {
3691 eval { enable_host_firewall
($ruleset, $hostfw_conf, $cluster_conf, $ipversion, $corosync_conf); };
3692 warn $@ if $@; # just to be sure - should not happen
3695 # generate firewall rules for QEMU VMs
3696 foreach my $vmid (sort keys %{$vmdata->{qemu
}}) {
3698 my $conf = $vmdata->{qemu
}->{$vmid};
3699 my $vmfw_conf = $vmfw_configs->{$vmid};
3700 return if !$vmfw_conf || !$vmfw_conf->{options
}->{enable
};
3702 foreach my $netid (sort keys %$conf) {
3703 next if $netid !~ m/^net(\d+)$/;
3704 my $net = PVE
::QemuServer
::parse_net
($conf->{$netid});
3705 next if !$net->{firewall
};
3707 my $iface = "tap${vmid}i$1";
3708 my $macaddr = $net->{macaddr
};
3709 generate_tap_rules_direction
($ruleset, $cluster_conf, $iface, $netid, $macaddr,
3710 $vmfw_conf, $vmid, 'IN', $ipversion);
3711 generate_tap_rules_direction
($ruleset, $cluster_conf, $iface, $netid, $macaddr,
3712 $vmfw_conf, $vmid, 'OUT', $ipversion);
3715 warn $@ if $@; # just to be sure - should not happen
3718 # generate firewall rules for LXC containers
3719 foreach my $vmid (sort keys %{$vmdata->{lxc
}}) {
3721 my $conf = $vmdata->{lxc
}->{$vmid};
3722 my $vmfw_conf = $vmfw_configs->{$vmid};
3723 return if !$vmfw_conf || !$vmfw_conf->{options
}->{enable
};
3725 foreach my $netid (sort keys %$conf) {
3726 next if $netid !~ m/^net(\d+)$/;
3727 my $net = PVE
::LXC
::Config-
>parse_lxc_network($conf->{$netid});
3728 next if !$net->{firewall
};
3730 my $iface = "veth${vmid}i$1";
3731 my $macaddr = $net->{hwaddr
};
3732 generate_tap_rules_direction
($ruleset, $cluster_conf, $iface, $netid, $macaddr,
3733 $vmfw_conf, $vmid, 'IN', $ipversion);
3734 generate_tap_rules_direction
($ruleset, $cluster_conf, $iface, $netid, $macaddr,
3735 $vmfw_conf, $vmid, 'OUT', $ipversion);
3738 warn $@ if $@; # just to be sure - should not happen
3741 if (ruleset_chain_exist
($ruleset, "PVEFW-IPS")){
3742 ruleset_insertrule
($ruleset, "PVEFW-FORWARD", "-m conntrack --ctstate RELATED,ESTABLISHED", "-j PVEFW-IPS");
3748 sub mac_to_linklocal
{
3750 my @parts = split(/:/, $macaddr);
3751 # The standard link local address uses the fe80::/64 prefix with the
3752 # modified EUI-64 identifier derived from the MAC address by flipping the
3753 # universal/local bit and inserting FF:FE in the middle.
3755 $parts[0] = sprintf("%02x", hex($parts[0]) ^ 0x02);
3756 my @meui64 = (@parts[0,1,2], 'ff', 'fe', @parts[3,4,5]);
3757 return "fe80::$parts[0]$parts[1]:$parts[2]FF:FE$parts[3]:$parts[4]$parts[5]";
3760 sub compile_ipsets
{
3761 my ($cluster_conf, $vmfw_configs, $vmdata) = @_;
3764 if ($cluster_conf->{aliases
}->{local_network
}) {
3765 $localnet = $cluster_conf->{aliases
}->{local_network
}->{cidr
};
3768 ($localnet, $localnet_ver) = parse_ip_or_cidr
(local_network
() || '127.0.0.0/8');
3770 $cluster_conf->{aliases
}->{local_network
} = {
3771 name
=> 'local_network', cidr
=> $localnet, ipversion
=> $localnet_ver };
3774 push @{$cluster_conf->{ipset
}->{management
}}, { cidr
=> $localnet };
3777 my $ipset_ruleset = {};
3779 # generate ipsets for QEMU VMs
3780 foreach my $vmid (keys %{$vmdata->{qemu
}}) {
3782 my $conf = $vmdata->{qemu
}->{$vmid};
3783 my $vmfw_conf = $vmfw_configs->{$vmid};
3784 return if !$vmfw_conf;
3786 # When the 'ipfilter' option is enabled every device for which there
3787 # is no 'ipfilter-netX' ipset defiend gets an implicit empty default
3789 # The reason is that ipfilter ipsets are always filled with standard
3790 # IPv6 link-local filters.
3791 my $ipsets = $vmfw_conf->{ipset
};
3792 my $implicit_sets = {};
3794 my $device_ips = {};
3795 foreach my $netid (keys %$conf) {
3796 next if $netid !~ m/^net(\d+)$/;
3797 my $net = PVE
::QemuServer
::parse_net
($conf->{$netid});
3798 next if !$net->{firewall
};
3800 if ($vmfw_conf->{options
}->{ipfilter
} && !$ipsets->{"ipfilter-$netid"}) {
3801 $implicit_sets->{"ipfilter-$netid"} = [];
3804 my $macaddr = $net->{macaddr
};
3805 my $linklocal = mac_to_linklocal
($macaddr);
3806 $device_ips->{$netid} = [
3807 { cidr
=> $linklocal },
3808 { cidr
=> 'fe80::/10', nomatch
=> 1 }
3812 generate_ipset_chains
($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $ipsets);
3813 generate_ipset_chains
($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $implicit_sets);
3815 warn $@ if $@; # just to be sure - should not happen
3818 # generate firewall rules for LXC containers
3819 foreach my $vmid (keys %{$vmdata->{lxc
}}) {
3821 my $conf = $vmdata->{lxc
}->{$vmid};
3822 my $vmfw_conf = $vmfw_configs->{$vmid};
3823 return if !$vmfw_conf;
3825 # When the 'ipfilter' option is enabled every device for which there
3826 # is no 'ipfilter-netX' ipset defiend gets an implicit empty default
3828 # The reason is that ipfilter ipsets are always filled with standard
3829 # IPv6 link-local filters, as well as the IP addresses configured
3830 # for the container.
3831 my $ipsets = $vmfw_conf->{ipset
};
3832 my $implicit_sets = {};
3834 my $device_ips = {};
3835 foreach my $netid (keys %$conf) {
3836 next if $netid !~ m/^net(\d+)$/;
3837 my $net = PVE
::LXC
::Config-
>parse_lxc_network($conf->{$netid});
3838 next if !$net->{firewall
};
3840 if ($vmfw_conf->{options
}->{ipfilter
} && !$ipsets->{"ipfilter-$netid"}) {
3841 $implicit_sets->{"ipfilter-$netid"} = [];
3844 my $macaddr = $net->{hwaddr
};
3845 my $linklocal = mac_to_linklocal
($macaddr);
3846 my $set = $device_ips->{$netid} = [
3847 { cidr
=> $linklocal },
3848 { cidr
=> 'fe80::/10', nomatch
=> 1 }
3850 if (defined($net->{ip
}) && $net->{ip
} =~ m!^($IPV4RE)(?:/\d+)?$!) {
3851 push @$set, { cidr
=> $1 };
3853 if (defined($net->{ip6
}) && $net->{ip6
} =~ m!^($IPV6RE)(?:/\d+)?$!) {
3854 push @$set, { cidr
=> $1 };
3858 generate_ipset_chains
($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $ipsets);
3859 generate_ipset_chains
($ipset_ruleset, $cluster_conf, $vmfw_conf, $device_ips, $implicit_sets);
3861 warn $@ if $@; # just to be sure - should not happen
3864 generate_ipset_chains
($ipset_ruleset, undef, $cluster_conf, undef, $cluster_conf->{ipset
});
3866 return $ipset_ruleset;
3869 sub compile_ebtables_filter
{
3870 my ($cluster_conf, $hostfw_conf, $vmfw_configs, $vmdata) = @_;
3872 if (!($cluster_conf->{options
}->{ebtables
} // 1)) {
3878 ruleset_create_chain
($ruleset, "PVEFW-FORWARD");
3880 ruleset_create_chain
($ruleset, "PVEFW-FWBR-OUT");
3881 #for ipv4 and ipv6, check macaddress in iptables, so we use conntrack 'ESTABLISHED', to speedup rules
3882 ruleset_addrule
($ruleset, 'PVEFW-FORWARD', '-p IPv4', '-j ACCEPT');
3883 ruleset_addrule
($ruleset, 'PVEFW-FORWARD', '-p IPv6', '-j ACCEPT');
3884 ruleset_addrule
($ruleset, 'PVEFW-FORWARD', '-o fwln+', '-j PVEFW-FWBR-OUT');
3886 # generate firewall rules for QEMU VMs
3887 foreach my $vmid (sort keys %{$vmdata->{qemu
}}) {
3889 my $conf = $vmdata->{qemu
}->{$vmid};
3890 my $vmfw_conf = $vmfw_configs->{$vmid};
3891 return if !$vmfw_conf;
3892 my $ipsets = $vmfw_conf->{ipset
};
3894 foreach my $netid (sort keys %$conf) {
3895 next if $netid !~ m/^net(\d+)$/;
3896 my $net = PVE
::QemuServer
::parse_net
($conf->{$netid});
3897 next if !$net->{firewall
};
3898 my $iface = "tap${vmid}i$1";
3899 my $macaddr = $net->{macaddr
};
3901 if (defined(my $ipset = $ipsets->{"ipfilter-$netid"})) {
3902 foreach my $ipaddr (@$ipset) {
3903 my($ip, $version) = parse_ip_or_cidr
($ipaddr->{cidr
});
3904 next if !$ip || ($version && $version != 4);
3905 push(@$arpfilter, $ip);
3908 generate_tap_layer2filter
($ruleset, $iface, $macaddr, $vmfw_conf, $vmid, $arpfilter);
3911 warn $@ if $@; # just to be sure - should not happen
3914 # generate firewall rules for LXC containers
3915 foreach my $vmid (sort keys %{$vmdata->{lxc
}}) {
3917 my $conf = $vmdata->{lxc
}->{$vmid};
3919 my $vmfw_conf = $vmfw_configs->{$vmid};
3920 return if !$vmfw_conf || !$vmfw_conf->{options
}->{enable
};
3921 my $ipsets = $vmfw_conf->{ipset
};
3923 foreach my $netid (sort keys %$conf) {
3924 next if $netid !~ m/^net(\d+)$/;
3925 my $net = PVE
::LXC
::Config-
>parse_lxc_network($conf->{$netid});
3926 next if !$net->{firewall
};
3927 my $iface = "veth${vmid}i$1";
3928 my $macaddr = $net->{hwaddr
};
3930 if (defined(my $ipset = $ipsets->{"ipfilter-$netid"})) {
3931 foreach my $ipaddr (@$ipset) {
3932 my($ip, $version) = parse_ip_or_cidr
($ipaddr->{cidr
});
3933 next if !$ip || ($version && $version != 4);
3934 push(@$arpfilter, $ip);
3937 if (defined(my $ip = $net->{ip
}) && $vmfw_conf->{options
}->{ipfilter
}) {
3938 # ebtables changes this to a .0/MASK network but we just
3939 # want the address here, no network - see #2193
3941 if ($ip ne 'dhcp') {
3942 push @$arpfilter, $ip;
3945 generate_tap_layer2filter
($ruleset, $iface, $macaddr, $vmfw_conf, $vmid, $arpfilter);
3948 warn $@ if $@; # just to be sure - should not happen
3954 sub generate_tap_layer2filter
{
3955 my ($ruleset, $iface, $macaddr, $vmfw_conf, $vmid, $arpfilter) = @_;
3956 my $options = $vmfw_conf->{options
};
3958 my $tapchain = $iface."-OUT";
3960 # ebtables remove zeros from mac pairs
3961 $macaddr =~ s/0([0-9a-f])/$1/ig;
3962 $macaddr = lc($macaddr);
3964 ruleset_create_chain
($ruleset, $tapchain);
3966 if (defined($macaddr) && !(defined($options->{macfilter
}) && $options->{macfilter
} == 0)) {
3967 ruleset_addrule
($ruleset, $tapchain, "-s ! $macaddr", '-j DROP');
3971 my $arpchain = $tapchain."-ARP";
3972 ruleset_addrule
($ruleset, $tapchain, "-p ARP", "-j $arpchain");
3973 ruleset_create_chain
($ruleset, $arpchain);
3975 foreach my $ip (@{$arpfilter}) {
3976 ruleset_addrule
($ruleset, $arpchain, "-p ARP --arp-ip-src $ip", '-j RETURN');
3978 ruleset_addrule
($ruleset, $arpchain, '', '-j DROP');
3981 if (defined($options->{layer2_protocols
})){
3982 my $protochain = $tapchain."-PROTO";
3983 ruleset_addrule
($ruleset, $tapchain, '', "-j $protochain");
3984 ruleset_create_chain
($ruleset, $protochain);
3986 foreach my $proto (split(/,/, $options->{layer2_protocols
})) {
3987 ruleset_addrule
($ruleset, $protochain, "-p $proto", '-j RETURN');
3989 ruleset_addrule
($ruleset, $protochain, '', '-j DROP');
3992 ruleset_addrule
($ruleset, $tapchain, '', '-j ACCEPT');
3994 ruleset_addrule
($ruleset, 'PVEFW-FWBR-OUT', "-i $iface", "-j $tapchain");
3997 # the parameter $change_only_regex changes two things if defined:
3998 # * all chains not matching it will be left intact
3999 # * both the $active_chains hash and the returned status_hash have different
4000 # structure (they contain a key named 'rules').
4001 sub get_ruleset_status
{
4002 my ($ruleset, $active_chains, $digest_fn, $change_only_regex) = @_;
4004 my $statushash = {};
4006 foreach my $chain (sort keys %$ruleset) {
4007 my $rules = $ruleset->{$chain};
4008 my $sig = &$digest_fn($rules);
4011 $statushash->{$chain}->{sig
} = $sig;
4012 if (defined($change_only_regex)) {
4013 $oldsig = $active_chains->{$chain}->{sig
};
4014 $statushash->{$chain}->{rules
} = $rules;
4016 $oldsig = $active_chains->{$chain};
4018 if (!defined($oldsig)) {
4019 $statushash->{$chain}->{action
} = 'create';
4021 if ($oldsig eq $sig) {
4022 $statushash->{$chain}->{action
} = 'exists';
4024 $statushash->{$chain}->{action
} = 'update';
4028 print "$statushash->{$chain}->{action} $chain ($sig)\n";
4029 foreach my $cmd (@{$rules}) {
4035 foreach my $chain (sort keys %$active_chains) {
4036 next if defined($ruleset->{$chain});
4037 my $action = 'delete';
4038 my $sig = $active_chains->{$chain};
4039 if (defined($change_only_regex)) {
4040 $action = 'ignore' if ($chain !~ m/$change_only_regex/);
4041 $statushash->{$chain}->{rules
} = $active_chains->{$chain}->{rules
};
4044 $statushash->{$chain}->{action
} = $action;
4045 $statushash->{$chain}->{sig
} = $sig;
4046 print "$action $chain ($sig)\n" if $verbose;
4052 sub print_sig_rule
{
4053 my ($chain, $sig) = @_;
4055 # We just use this to store a SHA1 checksum used to detect changes
4056 return "-A $chain -m comment --comment \"PVESIG:$sig\"\n";
4059 sub get_ruleset_cmdlist {
4060 my ($ruleset, $iptablescmd, $table) = @_;
4062 $table = 'filter' if !$table;
4064 my $cmdlist = "*$table\n"; # we pass this to iptables-restore;
4066 my ($active_chains, $hooks) = iptables_get_chains($iptablescmd, $table);
4067 my $statushash = get_ruleset_status($ruleset, $active_chains, \&iptables_chain_digest);
4069 # create missing chains first
4070 foreach my $chain (sort keys %$ruleset) {
4071 my $stat = $statushash->{$chain};
4072 die "internal error
" if !$stat;
4073 next if $stat->{action} ne 'create';
4075 $cmdlist .= ":$chain - [0:0]\n";
4078 foreach my $h (qw(INPUT OUTPUT FORWARD PREROUTING)) {
4079 my $chain = "PVEFW-$h";
4080 if ($ruleset->{$chain} && !$hooks->{$h}) {
4081 $cmdlist .= "-A $h -j $chain\n";
4085 foreach my $chain (sort keys %$ruleset) {
4086 my $stat = $statushash->{$chain};
4087 die "internal error" if !$stat;
4089 if ($stat->{action
} eq 'update' || $stat->{action
} eq 'create') {
4090 $cmdlist .= "-F $chain\n";
4091 foreach my $cmd (@{$ruleset->{$chain}}) {
4092 $cmdlist .= "$cmd\n";
4094 $cmdlist .= print_sig_rule
($chain, $stat->{sig
});
4095 } elsif ($stat->{action
} eq 'delete') {
4096 die "internal error"; # this should not happen
4097 } elsif ($stat->{action
} eq 'exists') {
4100 die "internal error - unknown status '$stat->{action}'";
4104 foreach my $chain (keys %$statushash) {
4105 next if $statushash->{$chain}->{action
} ne 'delete';
4106 $cmdlist .= "-F $chain\n";
4108 foreach my $chain (keys %$statushash) {
4109 next if $statushash->{$chain}->{action
} ne 'delete';
4110 next if $chain eq 'PVEFW-INPUT';
4111 next if $chain eq 'PVEFW-OUTPUT';
4112 next if $chain eq 'PVEFW-FORWARD';
4113 next if $chain eq 'PVEFW-PREROUTING';
4114 $cmdlist .= "-X $chain\n";
4117 my $changes = $cmdlist ne "*$table\n" ?
1 : 0;
4119 $cmdlist .= "COMMIT\n";
4121 return wantarray ?
($cmdlist, $changes) : $cmdlist;
4124 my $pve_ebtables_chainname_regex = qr/PVEFW-\S+|(?:tap|veth)\d+i\d+-(?:IN|OUT)/;
4126 sub get_ebtables_cmdlist
{
4130 my $cmdlist = "*filter\n";
4132 my $active_chains = ebtables_get_chains
();
4133 my $statushash = get_ruleset_status
($ruleset, $active_chains,
4134 \
&iptables_chain_digest
,
4135 $pve_ebtables_chainname_regex);
4137 # create chains first and make sure PVE rules are evaluated if active
4138 my $append_pve_to_forward = '-A FORWARD -j PVEFW-FORWARD';
4139 my $pve_include = 0;
4140 foreach my $chain (sort keys %$statushash) {
4141 next if ($statushash->{$chain}->{action
} eq 'delete');
4142 $cmdlist .= ":$chain ACCEPT\n";
4143 $pve_include = 1 if ($chain eq 'PVEFW-FORWARD');
4146 foreach my $chain (sort keys %$statushash) {
4147 my $stat = $statushash->{$chain};
4148 $changes = 1 if ($stat->{action
} !~ 'ignore|exists');
4149 next if ($stat->{action
} eq 'delete');
4151 foreach my $cmd (@{$statushash->{$chain}->{'rules'}}) {
4152 if ($chain eq 'FORWARD' && $cmd eq $append_pve_to_forward) {
4153 next if ! $pve_include;
4156 $cmdlist .= "$cmd\n";
4159 $cmdlist .= "$append_pve_to_forward\n" if $pve_include;
4161 return wantarray ?
($cmdlist, $changes) : $cmdlist;
4164 sub get_ipset_cmdlist
{
4169 my $delete_cmdlist = "";
4171 my $active_chains = ipset_get_chains
();
4172 my $statushash = get_ruleset_status
($ruleset, $active_chains, \
&ipset_chain_digest
);
4174 # remove stale _swap chains
4175 foreach my $chain (keys %$active_chains) {
4176 if ($chain =~ m/^PVEFW-\S+_swap$/) {
4177 $cmdlist .= "destroy $chain\n";
4181 foreach my $chain (keys %$ruleset) {
4182 my $stat = $statushash->{$chain};
4183 die "internal error" if !$stat;
4185 if ($stat->{action
} eq 'create') {
4186 foreach my $cmd (@{$ruleset->{$chain}}) {
4187 $cmdlist .= "$cmd\n";
4192 foreach my $chain (keys %$ruleset) {
4193 my $stat = $statushash->{$chain};
4194 die "internal error" if !$stat;
4196 if ($stat->{action
} eq 'update') {
4197 my $chain_swap = $chain."_swap";
4199 foreach my $cmd (@{$ruleset->{$chain}}) {
4200 $cmd =~ s/$chain/$chain_swap/;
4201 $cmdlist .= "$cmd\n";
4203 $cmdlist .= "swap $chain_swap $chain\n";
4204 $cmdlist .= "flush $chain_swap\n";
4205 $cmdlist .= "destroy $chain_swap\n";
4209 # the remove unused chains
4210 foreach my $chain (keys %$statushash) {
4211 next if $statushash->{$chain}->{action
} ne 'delete';
4213 $delete_cmdlist .= "flush $chain\n";
4214 $delete_cmdlist .= "destroy $chain\n";
4217 my $changes = ($cmdlist || $delete_cmdlist) ?
1 : 0;
4219 return ($cmdlist, $delete_cmdlist, $changes);
4223 my ($ruleset, $hostfw_conf, $ipset_ruleset, $rulesetv6, $ebtables_ruleset) = @_;
4225 enable_bridge_firewall
();
4227 my ($ipset_create_cmdlist, $ipset_delete_cmdlist, $ipset_changes) =
4228 get_ipset_cmdlist
($ipset_ruleset);
4230 my ($cmdlist, $changes) = get_ruleset_cmdlist
($ruleset->{filter
});
4231 my ($cmdlistv6, $changesv6) = get_ruleset_cmdlist
($rulesetv6->{filter
}, "ip6tables");
4232 my ($ebtables_cmdlist, $ebtables_changes) = get_ebtables_cmdlist
($ebtables_ruleset);
4233 my ($cmdlist_raw, $changes_raw) = get_ruleset_cmdlist
($ruleset->{raw
}, undef, 'raw');
4234 my ($cmdlistv6_raw, $changesv6_raw) = get_ruleset_cmdlist
($rulesetv6->{raw
}, "ip6tables", 'raw');
4237 if ($ipset_changes) {
4238 print "ipset changes:\n";
4239 print $ipset_create_cmdlist if $ipset_create_cmdlist;
4240 print $ipset_delete_cmdlist if $ipset_delete_cmdlist;
4244 print "iptables changes:\n";
4249 print "ip6tables changes:\n";
4254 print "iptables table raw changes:\n";
4258 if ($changesv6_raw) {
4259 print "ip6tables table raw changes:\n";
4260 print $cmdlistv6_raw;
4263 if ($ebtables_changes) {
4264 print "ebtables changes:\n";
4265 print $ebtables_cmdlist;
4269 my $tmpfile = "$pve_fw_status_dir/ipsetcmdlist1";
4270 PVE
::Tools
::file_set_contents
($tmpfile, $ipset_create_cmdlist || '');
4272 ipset_restore_cmdlist
($ipset_create_cmdlist);
4274 $tmpfile = "$pve_fw_status_dir/ip4cmdlist";
4275 PVE
::Tools
::file_set_contents
($tmpfile, $cmdlist || '');
4277 iptables_restore_cmdlist
($cmdlist);
4279 $tmpfile = "$pve_fw_status_dir/ip4cmdlistraw";
4280 PVE
::Tools
::file_set_contents
($tmpfile, $cmdlist_raw || '');
4282 iptables_restore_cmdlist
($cmdlist_raw, 'raw');
4284 $tmpfile = "$pve_fw_status_dir/ip6cmdlist";
4285 PVE
::Tools
::file_set_contents
($tmpfile, $cmdlistv6 || '');
4287 ip6tables_restore_cmdlist
($cmdlistv6);
4289 $tmpfile = "$pve_fw_status_dir/ip6cmdlistraw";
4290 PVE
::Tools
::file_set_contents
($tmpfile, $cmdlistv6_raw || '');
4292 ip6tables_restore_cmdlist
($cmdlistv6_raw, 'raw');
4294 $tmpfile = "$pve_fw_status_dir/ipsetcmdlist2";
4295 PVE
::Tools
::file_set_contents
($tmpfile, $ipset_delete_cmdlist || '');
4297 ipset_restore_cmdlist
($ipset_delete_cmdlist) if $ipset_delete_cmdlist;
4299 ebtables_restore_cmdlist
($ebtables_cmdlist);
4301 $tmpfile = "$pve_fw_status_dir/ebtablescmdlist";
4302 PVE
::Tools
::file_set_contents
($tmpfile, $ebtables_cmdlist || '');
4304 # test: re-read status and check if everything is up to date
4305 my $ruleset_filter = $ruleset->{filter
};
4306 my $active_chains = iptables_get_chains
();
4307 my $statushash = get_ruleset_status
($ruleset_filter, $active_chains, \
&iptables_chain_digest
);
4310 foreach my $chain (sort keys %$ruleset_filter) {
4311 my $stat = $statushash->{$chain};
4312 if ($stat->{action
} ne 'exists') {
4313 warn "unable to update chain '$chain'\n";
4318 my $rulesetv6_filter = $rulesetv6->{filter
};
4319 my $active_chainsv6 = iptables_get_chains
("ip6tables");
4320 my $statushashv6 = get_ruleset_status
($rulesetv6_filter, $active_chainsv6, \
&iptables_chain_digest
);
4322 foreach my $chain (sort keys %$rulesetv6_filter) {
4323 my $stat = $statushashv6->{$chain};
4324 if ($stat->{action
} ne 'exists') {
4325 warn "unable to update chain '$chain'\n";
4330 my $ruleset_raw = $ruleset->{raw
};
4331 my $active_chains_raw = iptables_get_chains
(undef, 'raw');
4332 my $statushash_raw = get_ruleset_status
($ruleset_raw, $active_chains_raw, \
&iptables_chain_digest
);
4334 foreach my $chain (sort keys %$ruleset_raw) {
4335 my $stat = $statushash_raw->{$chain};
4336 if ($stat->{action
} ne 'exists') {
4337 warn "unable to update chain '$chain'\n";
4342 my $rulesetv6_raw = $rulesetv6->{raw
};
4343 my $active_chainsv6_raw = iptables_get_chains
("ip6tables", 'raw');
4344 my $statushashv6_raw = get_ruleset_status
($rulesetv6_raw, $active_chainsv6_raw, \
&iptables_chain_digest
);
4346 foreach my $chain (sort keys %$rulesetv6_raw) {
4347 my $stat = $statushashv6_raw->{$chain};
4348 if ($stat->{action
} ne 'exists') {
4349 warn "unable to update chain '$chain'\n";
4354 my $active_ebtables_chains = ebtables_get_chains
();
4355 my $ebtables_statushash = get_ruleset_status
($ebtables_ruleset,
4356 $active_ebtables_chains, \
&iptables_chain_digest
,
4357 $pve_ebtables_chainname_regex);
4359 foreach my $chain (sort keys %$ebtables_ruleset) {
4360 my $stat = $ebtables_statushash->{$chain};
4361 if ($stat->{action
} ne 'exists') {
4362 warn "ebtables : unable to update chain '$chain'\n";
4367 die "unable to apply firewall changes\n" if $errors;
4369 update_nf_conntrack_max
($hostfw_conf);
4371 update_nf_conntrack_tcp_timeout_established
($hostfw_conf);
4373 update_nf_conntrack_tcp_timeout_syn_recv
($hostfw_conf);
4375 update_nf_conntrack_logging
($hostfw_conf);
4378 sub update_nf_conntrack_max
{
4379 my ($hostfw_conf) = @_;
4381 my $max = 262144; # reasonable default (2^16 * 4), see nf_conntrack-sysctl docs
4383 my $options = $hostfw_conf->{options
} || {};
4385 if (defined($options->{nf_conntrack_max
}) && ($options->{nf_conntrack_max
} > $max)) {
4386 $max = $options->{nf_conntrack_max
};
4387 $max = int(($max+ 8191)/8192)*8192; # round to multiples of 8192
4390 my $filename_nf_conntrack_max = "/proc/sys/net/nf_conntrack_max";
4391 my $filename_hashsize = "/sys/module/nf_conntrack/parameters/hashsize";
4393 my $current = int(PVE
::Tools
::file_read_firstline
($filename_nf_conntrack_max) || $max);
4395 if ($current != $max) {
4396 my $hashsize = int($max/4);
4397 PVE
::ProcFSTools
::write_proc_entry
($filename_hashsize, $hashsize);
4398 PVE
::ProcFSTools
::write_proc_entry
($filename_nf_conntrack_max, $max);
4402 sub update_nf_conntrack_tcp_timeout_established
{
4403 my ($hostfw_conf) = @_;
4405 my $options = $hostfw_conf->{options
} || {};
4407 my $value = defined($options->{nf_conntrack_tcp_timeout_established
}) ?
$options->{nf_conntrack_tcp_timeout_established
} : 432000;
4409 PVE
::ProcFSTools
::write_proc_entry
("/proc/sys/net/netfilter/nf_conntrack_tcp_timeout_established", $value);
4412 sub update_nf_conntrack_tcp_timeout_syn_recv
{
4413 my ($hostfw_conf) = @_;
4415 my $options = $hostfw_conf->{options
} || {};
4417 my $value = defined($options->{nf_conntrack_tcp_timeout_syn_recv
}) ?
$options->{nf_conntrack_tcp_timeout_syn_recev
} : 60;
4419 PVE
::ProcFSTools
::write_proc_entry
("/proc/sys/net/netfilter/nf_conntrack_tcp_timeout_syn_recv", $value);
4422 my $log_nf_conntrack_enabled = undef;
4423 sub update_nf_conntrack_logging
{
4424 my ($hostfw_conf) = @_;
4426 my $options = $hostfw_conf->{options
} || {};
4427 my $value = $options->{log_nf_conntrack
} || 0;
4428 if (!defined($log_nf_conntrack_enabled)
4429 || $value != $log_nf_conntrack_enabled)
4431 my $tmpfile = "$pve_fw_status_dir/log_nf_conntrack";
4432 PVE
::Tools
::file_set_contents
($tmpfile, $value);
4434 run_command
([qw(systemctl try-reload-or-restart pvefw-logger.service)]);
4435 $log_nf_conntrack_enabled = $value;
4439 sub remove_pvefw_chains
{
4441 PVE
::Firewall
::remove_pvefw_chains_iptables
("iptables");
4442 PVE
::Firewall
::remove_pvefw_chains_iptables
("ip6tables");
4443 PVE
::Firewall
::remove_pvefw_chains_iptables
("iptables", "raw");
4444 PVE
::Firewall
::remove_pvefw_chains_iptables
("ip6tables", "raw");
4445 PVE
::Firewall
::remove_pvefw_chains_ipset
();
4446 PVE
::Firewall
::remove_pvefw_chains_ebtables
();
4450 sub remove_pvefw_chains_iptables
{
4451 my ($iptablescmd, $table) = @_;
4453 $table = 'filter' if !$table;
4455 my ($chash, $hooks) = iptables_get_chains
($iptablescmd, $table);
4456 my $cmdlist = "*$table\n";
4458 foreach my $h (qw(INPUT OUTPUT FORWARD PREROUTING)) {
4460 $cmdlist .= "-D $h -j PVEFW-$h\n";
4464 foreach my $chain (keys %$chash) {
4465 $cmdlist .= "-F $chain\n";
4468 foreach my $chain (keys %$chash) {
4469 $cmdlist .= "-X $chain\n";
4471 $cmdlist .= "COMMIT\n";
4473 if($iptablescmd eq "ip6tables") {
4474 ip6tables_restore_cmdlist
($cmdlist, $table);
4476 iptables_restore_cmdlist
($cmdlist, $table);
4480 sub remove_pvefw_chains_ipset
{
4482 my $ipset_chains = ipset_get_chains
();
4486 foreach my $chain (keys %$ipset_chains) {
4487 $cmdlist .= "flush $chain\n";
4488 $cmdlist .= "destroy $chain\n";
4491 ipset_restore_cmdlist
($cmdlist) if $cmdlist;
4494 sub remove_pvefw_chains_ebtables
{
4495 # apply empty ruleset = remove all our chains
4496 ebtables_restore_cmdlist
(get_ebtables_cmdlist
({}));
4500 my $cluster_conf = load_clusterfw_conf
();
4501 my $cluster_options = $cluster_conf->{options
};
4502 my $enable = $cluster_options->{enable
};
4506 # load required modules here
4512 my $cluster_conf = load_clusterfw_conf
();
4513 my $cluster_options = $cluster_conf->{options
};
4515 if (!$cluster_options->{enable
}) {
4516 PVE
::Firewall
::remove_pvefw_chains
();
4520 my $hostfw_conf = load_hostfw_conf
($cluster_conf);
4522 my ($ruleset, $ipset_ruleset, $rulesetv6, $ebtables_ruleset) = compile
($cluster_conf, $hostfw_conf);
4524 apply_ruleset
($ruleset, $hostfw_conf, $ipset_ruleset, $rulesetv6, $ebtables_ruleset);