NPF.CONF(5) | File Formats Manual | NPF.CONF(5) |
npf.conf
—
npf.conf
is the default configuration file for the NPF
packet filter.
This manual page serves as a reference for editing
npf.conf
. Please refer to the official NPF
documentation website for comprehensive and in-depth information.
There are multiple structural elements that
npf.conf
may contain, such as:
$
) sign, which
is used for both definition and referencing of a variable. Variables are
defined by assigning a value to them as follows:
$var1 = 10.0.0.1
A variable may also be defined as a set:
$var2 = { 10.0.0.1, 10.0.0.2
}
Common variable definitions are for IP addresses, networks, ports, and interfaces.
<
’ and
‘>
’. The following is an example of
table definition:
table <blocklist> type
ipset
Currently, tables support three data storage types:
ipset
, lpm
, or
const
. The contents of the table may be pre-loaded
from the specified file. The const
tables are
immutable (no insertions or deletions after loading) and therefore must
always be loaded from a file.
The specified file should contain a list of IP addresses and/or
networks in the form of 10.1.1.1
or
10.0.0.0/24
.
Tables of type ipset
and
const
can only contain IP addresses (without masks).
The lpm
tables can contain networks and they will
perform the longest prefix match on lookup.
It is legal to pass an extracted list from an interface in keywords where NPF would expect instead a direct reference to said interface. In this case, NPF infers a direct reference to the interface, and does not consider the list.
There are two types of IP address lists. With a static list, NPF will capture the interface addresses on configuration load, whereas with a dynamic list NPF will capture the runtime list of addresses, reflecting any changes to the interface, including the attach and detach. Note that with a dynamic list, bringing the interface down has no effect, all addresses will remain present.
Three functions exist, to extract addresses from an interface with a chosen list type and IP address type:
inet4
(interface)inet6
(interface)ifaddrs
(interface)family
keyword of a filtering rule can be used in combination to explicitly
select an IP address type. This function can also be used with
map
to specify the translation address, see
below.Example of configuration:
$var1 = inet4(wm0) $var2 = ifaddrs(wm0) group default { block in on wm0 all # rule 1 block in on $var1 all # rule 2 block in on inet4(wm0) all # rule 3 pass in on inet6(wm0) from $var2 # rule 4 pass in on wm0 from ifaddrs(wm0) # rule 5 }
In the above example, $var1
is the static
list of IPv4 addresses configured on wm0, and $var2
is the dynamic list of all the IPv4 and IPv6 addresses configured on wm0.
The first three rules are equivalent, because with the
block
...
on
<
interface>
syntax, NPF expects a direct reference to an interface, and therefore does
not consider the extraction functions. The fourth and fifth rules are
equivalent, for the same reason.
default
group. The
default
group must always be defined.
Example of configuration:
group "my-name" in on wm0 { # List of rules, for packets received on wm0 } group default { # List of rules, for the other packets }
pass
or
block
a packet depending on packet header information,
transit direction and the interface it arrived on, either immediately upon
match or using the last match.
If a packet matches a rule which has the
final
option set, this rule is considered the last
matching rule, and evaluation of subsequent rules is skipped. Otherwise, the
last matching rule is used.
The proto
keyword can be used to filter
packets by layer 4 protocol (TCP, UDP, ICMP or other). Its parameter should
be a protocol number or its symbolic name, as specified in the
/etc/protocols file. This keyword can additionally
have protocol-specific options, such as flags
.
The flags
keyword can be used to match the
packets against specific TCP flags, according to the following syntax:
proto
tcp
flags
match[/
mask]Where match is the set of TCP flags to be
matched, out of the mask set, both sets being
represented as a string combination of:
‘S
’ (SYN),
‘A
’ (ACK),
‘F
’ (FIN), and
‘R
’ (RST). The flags that are not
present in mask are ignored.
To notify the sender of a blocking decision, three
return
options can be used in conjunction with a
block
rule:
return
return-rst
or
return-icmp
, depending on whether the packet being
blocked is TCP or UDP.return-rst
return-icmp
The from
and to
keywords are provided to filter by source or destination IP addresses. They
can be used in conjunction with the port
keyword.
Negation (the exclamation mark) can be used in front of the address filter
criteria.
Further packet specification at present is limited to TCP and UDP understanding source and destination ports, and ICMP and IPv6-ICMP understanding icmp-type.
A rule can also instruct NPF to create an entry in the state table when passing the packet or to apply a procedure to the packet (e.g. "log").
A “fully-featured” rule would for example be:
pass stateful in final family inet4 proto tcp flags S/SA \ from $source port $sport to $dest port $dport \ apply "someproc"
Alternatively, NPF supports pcap-filter(7) syntax, for example:
block out final pcap-filter "tcp
and dst 10.1.1.252"
Fragments are not selectable since NPF always reassembles packets before further processing.
Depending on the settings (see the section on
state.key
in the
npf-params(7) manual), the
connection identifier (keys) may also include the interface ID, making the
states per-interface.
Stateful packet inspection is enabled using the
stateful
or stateful-all
keywords. The former matches the interface after the state lookup, while the
latter avoids matching the interface (assuming the
state.key.interface
parameter is disabled), i.e.
making the state global, and must be used with caution. In both cases, a
full TCP state tracking is performed for TCP connections and a limited
tracking for message-based protocols (UDP and ICMP).
By default, a stateful rule implies SYN-only flag check
(“flags S/SAFR
”) for the TCP packets.
It is not advisable to change this behavior; however, it can be overridden
with the aforementioned flags
keyword.
dynamic
(stateful) or
static
(stateless). The following mapping types are
available:
The following would translate the source (10.1.1.0/24) to the IP
address specified by $pub_ip
for the packets on the
interface $ext_if
.
map $ext_if dynamic 10.1.1.0/24 ->
$pub_ip
Translations are implicitly filtered by limiting the operation to
the network segments specified, that is, translation would be performed only
on packets originating from the 10.1.1.0/24 network. Explicit filter
criteria can be specified using pass
criteria ... as an additional option of the
mapping.
The dynamic NAT implies network address and port translation (NAPT). The port translation can be controlled explicitly. For example, the following provides “port forwarding”, redirecting the public port 9022 to the port 22 of an internal host:
map $ext_if dynamic proto tcp
10.1.1.2 port 22 <- $ext_if port 9022
In the regular dynamic NAT case, it is also possible to disable
port translation using the no-ports
flag.
The translation address can also be dynamic, based on the interface. The following would select the IPv4 address(es) currently assigned to the interface:
map $ext_if dynamic 10.1.1.0/24 ->
ifaddrs($ext_if)
If the dynamic NAT is configured with multiple translation
addresses, then a custom selection algorithm can be chosen using the
algo
keyword. The currently available algorithms for
the dynamic translation are:
ip-hash
round-robin
netmap
The static NAT can also have different address translation
algorithms, chosen using the algo
keyword. The
currently available algorithms are:
If no algorithm is specified, then 1:1 address mapping is assumed. Currently, the static NAT algorithms do not perform port translation.
NPF supports the following ALGs:
icmp
The ALGs are built-in. If NPF is used as kernel module, then they
come as kernel modules too. In such case, the ALG kernel modules can be
autoloaded through the configuration, using the alg
keyword.
For example:
alg "icmp"
Alternatively, the ALG kernel modules can be loaded manually, using modload(8).
log
:
interfacenormalize
:
option1[,
option2 ...]The available normalization options are:
"max-mss"
value"min-ttl"
value"no-df"
"random-id"
For example:
procedure "someproc" { log: npflog0 normalize: "random-id", "min-ttl" 64, "max-mss" 1432 }
In this case, the procedure calls the logging and normalization modules.
set state.tcp.timeout.time_wait 0 # destroy the state immediately
See npf-params(7) for the list of parameters and their details.
# Syntax of a single line. Lines can be separated by LF (\n) or # a semicolon. Comments start with a hash (#) character. syntax = var-def | set-param | alg | table-def | map | group | proc | comment # Variable definition. Names can be alpha-numeric, including "_" # character. var-name = "$" . string interface = interface-name | var-name var-def = var "=" ( var-value | "{" value *[ "," value ] "}" ) # Parameter setting. set-param = "set" param-value # Application level gateway. The name should be in double quotes. alg = "alg" alg-name alg-name = "icmp" # Table definition. Table ID shall be numeric. Path is in the # double quotes. table-id = <table-name> table-def = "table" table-id "type" ( "ipset" | "lpm" | "const" ) [ "file" path ] # Mapping for address translation. map = map-common | map-ruleset map-common = "map" interface ( "static" [ "algo" map-algo ] | "dynamic" ) [ map-flags ] [ proto ] map-seg ( "->" | "<-" | "<->" ) map-seg [ "pass" [ proto ] filt-opts ] map-ruleset = "map" "ruleset" group-opts map-algo = "ip-hash" | "round-robin" | "netmap" | "npt66" map-flags = "no-ports" map-seg = ( addr-mask | interface ) [ port-opts ] # Rule procedure definition. The name should be in the double quotes. # # Each call can have its own options in a form of key-value pairs. # Both key and values may be strings (either in double quotes or not) # and numbers, depending on the extension. proc = "procedure" proc-name "{" *( proc-call [ new-line ] ) "}" proc-opts = key [ " " val ] [ "," proc-opts ] proc-call = call-name ":" proc-opts new-line # Group definition and the rule list. group = "group" ( "default" | group-opts ) "{" rule-list "}" group-opts = name-string [ "in" | "out" ] [ "on" interface ] rule-list = [ rule new-line ] rule-list npf-filter = [ "family" family-opt ] [ proto ] ( "all" | filt-opts ) static-rule = ( "block" [ block-opts ] | "pass" ) [ "stateful" | "stateful-all" ] [ "in" | "out" ] [ "final" ] [ "on" interface ] ( npf-filter | "pcap-filter" pcap-filter-expr ) [ "apply" proc-name ] dynamic-ruleset = "ruleset" group-opts rule = static-rule | dynamic-ruleset tcp-flag-mask = tcp-flags tcp-flags = [ "S" ] [ "A" ] [ "F" ] [ "R" ] block-opts = "return-rst" | "return-icmp" | "return" family-opt = "inet4" | "inet6" proto-opts = "flags" tcp-flags [ "/" tcp-flag-mask ] | "icmp-type" type [ "code" icmp-code ] proto = "proto" protocol [ proto-opts ] filt-opts = "from" filt-addr [ port-opts ] "to" filt-addr [ port-opts ] filt-addr = [ "!" ] [ interface | addr-mask | table-id | "any" ] port-opts = "port" ( port-num | port-from "-" port-to | var-name ) addr-mask = addr [ "/" mask ]
$ext_if = { inet4(wm0) } $int_if = { inet4(wm1) } table <blocklist> type ipset file "/etc/npf_blocklist" table <limited> type lpm $services_tcp = { http, https, smtp, domain, 6000, 9022 } $services_udp = { domain, ntp, 6000 } $localnet = { 10.1.1.0/24 } alg "icmp" # These NAT rules will dynamically select the interface address(es). map $ext_if dynamic 10.1.1.0/24 -> ifaddrs($ext_if) map $ext_if dynamic proto tcp 10.1.1.2 port 22 <- ifaddrs($ext_if) port 9022 procedure "log" { # The logging facility can be used together with npfd(8). log: npflog0 } group "external" on $ext_if { pass stateful out final all block in final from <blocklist> pass stateful in final family inet4 proto tcp to $ext_if \ port ssh apply "log" pass stateful in final proto tcp to $ext_if \ port $services_tcp pass stateful in final proto udp to $ext_if \ port $services_udp pass stateful in final proto tcp to $ext_if \ port 49151-65535 # passive FTP pass stateful in final proto udp to $ext_if \ port 33434-33600 # traceroute } group "internal" on $int_if { block in all block in final from <limited> # Ingress filtering as per BCP 38 / RFC 2827. pass in final from $localnet pass out final all } group default { pass final on lo0 all block all }
May 19, 2020 | NetBSD 9.4 |