Current File : //usr/share/doc/nftables/examples/load_balancing.nft
#!/usr/sbin/nft -f
# This example file shows how to implement load balancing using the nftables
# framework.
# This script is meant to be loaded with `nft -f <file>`
# You require linux kernel >= 4.12 and nft >= 0.7
# For up-to-date information please visit https://wiki.nftables.org
flush ruleset
table ip nat {
chain prerouting {
type nat hook prerouting priority -300;
# round-robing load balancing between the 2 IPv4 addresses:
dnat to numgen inc mod 2 map {
0 : 192.168.10.100, \
1 : 192.168.20.200 }
# emulate flow distribution with different backend weights using intervals:
dnat to numgen inc mod 10 map {
0-5 : 192.168.10.100, \
6-9 : 192.168.20.200 }
# tcp port based distribution is also possible:
ip protocol tcp dnat to 192.168.1.100 : numgen inc mod 2 map {
0 : 4040 ,\
1 : 4050 }
# consistent hash-based distribution:
dnat to jhash ip saddr . tcp dport mod 2 map {
0 : 192.168.20.100, \
1 : 192.168.30.100 }
}
}
table ip raw {
chain prerouting {
type filter hook prerouting priority -300;
# using stateless NAT, round-robing distribution (you could use hashing too):
tcp dport 80 notrack ip daddr set numgen inc mod 2 map { 0 : 192.168.1.100, 1 : 192.168.1.101 }
}
}
table netdev mytable {
chain ingress {
# mind the NIC devices, they must exist in the system
type filter hook ingress device eth0 priority 0;
# using Direct Server Return (DSR), connectionless approach:
udp dport 53 ether saddr set aa:bb:cc:dd:ff:ee ether daddr set numgen inc mod 2 map {
0 : aa:aa:aa:aa:aa:aa,
1 : bb:bb:bb:bb:bb:bb } fwd to eth1
# using Direct Server Return (DSR), connection-oriented flows:
tcp dport 80 ether saddr set aa:bb:cc:dd:ff:ee ether daddr set jhash ip saddr . tcp sport mod 2 map {
0 : aa:aa:aa:aa:aa:aa,
1 : bb:bb:bb:bb:bb:bb } fwd to eth1
}
}
Mini Shell