Matching packet headers: Difference between revisions

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You can match packets on ethernet source or destination address or on EtherType:
You can match packets on ethernet source or destination address or on EtherType:
* ''ether'' {''saddr'' | ''daddr''} {[[Data_types#Ethernet_types|ether_addr]]}
* ''ether'' {''saddr'' | ''daddr''} «[[Data_types#Ethernet_types|ether_addr]]»
* ''ether type'' {[[Data_types#Ethernet_types|ether_type]]}
* ''ether type'' «[[Data_types#Ethernet_types|ether_type]]»


If you want to match ethernet traffic whose destination address is ff:ff:ff:ff:ff:ff, you can type the following command:
If you want to match ethernet traffic whose destination address is ff:ff:ff:ff:ff:ff, you can type the following command:
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You can also match packets on [https://en.wikipedia.org/wiki/IEEE_802.1Q IEEE 802.1Q] VLAN fields, if present:
You can also match packets on [https://en.wikipedia.org/wiki/IEEE_802.1Q IEEE 802.1Q] VLAN fields, if present:
* ''vlan type'' {[[Data_types#Ethernet_types|ether_type]]} - always ''vlan'' for 802.1Q
* ''vlan type'' «[[Data_types#Ethernet_types|ether_type]]» - always ''vlan'' for 802.1Q
* ''vlan id'' {12-bit integer} - match VID, the VLAN ID
* ''vlan id'' «12-bit integer» - match VID, the VLAN ID
* ''vlan cfi'' {1-bit integer} - match DEI, Drop Eligible Indicator (formerly CFI, Canonical Format Indicator)  
* ''vlan cfi'' «1-bit integer» - match DEI, Drop Eligible Indicator (formerly CFI, Canonical Format Indicator)  
* ''vlan pcp'' (3-bit integer} - match [https://en.wikipedia.org/wiki/IEEE_P802.1p IEEE P802.1p PCP, Priority Code Point]
* ''vlan pcp'' «3-bit integer» - match [https://en.wikipedia.org/wiki/IEEE_P802.1p IEEE P802.1p PCP, Priority Code Point]





Revision as of 13:21, 20 April 2021

The nft command line utility supports the following layer 4 protocols: AH, ESP, UDP, UDPlite, TCP, DCCP, SCTP and IPComp.


Matching ethernet headers

You can match packets on ethernet source or destination address or on EtherType:

If you want to match ethernet traffic whose destination address is ff:ff:ff:ff:ff:ff, you can type the following command:

% nft add rule filter input ether daddr ff:ff:ff:ff:ff:ff counter

You can also match packets on IEEE 802.1Q VLAN fields, if present:

  • vlan type «ether_type» - always vlan for 802.1Q
  • vlan id «12-bit integer» - match VID, the VLAN ID
  • vlan cfi «1-bit integer» - match DEI, Drop Eligible Indicator (formerly CFI, Canonical Format Indicator)
  • vlan pcp «3-bit integer» - match IEEE P802.1p PCP, Priority Code Point


Do not forget that the layer 2 header information is only available in the input path.


Matching transport protocol

The following rule shows how to match any kind of TCP traffic:

% nft add rule filter output ip protocol tcp


Matching IPv4 headers

You can also match traffic based on the IPv4 source and destination, the following example shows how to account all traffic that comes from 192.168.1.100 and that is addressed to 192.168.1.1:

% nft add rule filter input ip saddr 192.168.1.100 ip daddr 192.168.1.1 counter

Note that, since the rule is attached to the input chain, your local machine needs to use the 192.168.1.1 address, otherwise you won't see any matching ;-).

To filter on a layer 4 protocol like TCP, you can use the protocol keyword:

% nft add rule filter input protocol tcp counter


Matching IPv6 headers

If you want to account IPv6 traffic that is addressed to abcd::100, you can type the following command:

% nft add rule filter output ip6 daddr abcd::100 counter

To filter on a layer 4 protocol like TCP, you can use the nexthdr keyword:

% nft add rule filter input ip6 nexthdr tcp counter

Do not forget to create an ip6 table and register the corresponding chains to run the examples.

NOTE: the syntax mixing IPv6/IPv4 notation is not supported yet: '::ffff:192.168.1.0'


Matching TCP/UDP/UDPlite traffic

The following examples show how to drop all tcp traffic for low TCP ports (1-1024):

% nft add rule filter input tcp dport 1-1024 counter drop

Note that this rule is using an interval (from 1 to 1024).

To match on TCP flags, you need to use a binary operation. For example, to count packets that are not SYN ones:

% nft add rule filter input tcp flags != syn counter

More complex filters can be used. For example, to count and log TCP packets with flags SYN and ACK set:

% nft -i
nft> add rule filter output tcp flags & (syn | ack) == syn | ack counter log

This example drops TCP SYN packets which a MSS lower than 500:

% nft add rule inet filter input tcp flags syn tcp option maxseg size 1-500 drop


Matching ICMP traffic

You can drop all ICMP echo requests (popularly known as pings) via:

% nft add rule filter input icmp type echo-request counter drop

You can use nft describe to find nft's available icmp type keywords:

% nft describe icmp type
payload expression, datatype icmp_type (ICMP type) (basetype integer), 8 bits

pre-defined symbolic constants (in decimal):
        echo-reply                                         0
        destination-unreachable                            3
        source-quench                                      4
        redirect                                           5
        echo-request                                       8
        router-advertisement                               9
        router-solicitation                               10
        time-exceeded                                     11
        parameter-problem                                 12
        timestamp-request                                 13
        timestamp-reply                                   14
        info-request                                      15
        info-reply                                        16
        address-mask-request                              17
        address-mask-reply                                18

You can also be more specific by matching a single icmp code:

% nft describe icmp code
payload expression, datatype icmp_code (icmp code) (basetype integer), 8 bits

pre-defined symbolic constants (in decimal):
        net-unreachable                                    0
        host-unreachable                                   1
        prot-unreachable                                   2
        port-unreachable                                   3
        net-prohibited                                     9
        host-prohibited                                   10
        admin-prohibited                                  13
        frag-needed                                        4

% nft add rule filter output icmp code frag-needed counter accept


Matching UDP/TCP headers in the same rule

The following example uses an anonymous l4proto set and a th (transport header) expression to match both TCP and UDP packets directed to port 53 (DNS):

% nft add rule filter input meta l4proto { tcp, udp }  th dport 53  counter packets 0 bytes 0  accept  comment \"accept DNS\"

Note: Before nftables 0.9.2 and Linux kernel 5.3 the th expression is not available. In this case you can use a raw payload expression to do the same job:

% nft add rule filter input meta l4proto { tcp, udp }  @th,16,16 53  counter packets 0 bytes 0  accept  comment \"accept DNS\"