Meters: Difference between revisions
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== | == Meters == | ||
This feature used to be known as ''flow tables'' before nft v0.8.1. | |||
Since Linux Kernel 4.3 and nft v0.8.1 nftables supports this feature. | |||
Meters provide a native replacement for the ''hashlimit'' match in iptables, however, meters are a lot more flexible since you can use any selector, one or many through [[concatenations]]. | |||
The following commands create a table named ''filter'', a chain named ''input'' which hooks incoming traffic and a rule that uses a | == Using meters == | ||
The following commands create a table named ''filter'', a chain named ''input'' which hooks incoming traffic and a rule that uses a meter: | |||
<source lang="bash"> | <source lang="bash"> | ||
% nft add table filter | % nft add table filter | ||
% nft add chain filter input {type filter hook input priority 0\;} | % nft add chain filter input {type filter hook input priority 0\;} | ||
% nft add rule filter input tcp dport 22 ct state new | % nft add rule filter input tcp dport 22 ct state new meter ssh-meter { ip saddr limit rate 10/second } accept | ||
</source> | </source> | ||
In this example we create a rule to match ''new'' ''ssh'' (port 22) connections, which uses a | In this example we create a rule to match ''new'' ''ssh'' (port 22) connections, which uses a meter named ''ssh-metering'' to limit the traffic rate to 10 packets per second for each source IP address. The available time units on limits are: ''second'', ''minute'', ''hour'', ''day'' and ''week''. | ||
Note that meters must have a name, so you can list its content. | |||
You can also use [[concatenations]] to build selectors: | You can also use [[concatenations]] to build selectors: | ||
<source lang="bash"> | <source lang="bash"> | ||
% nft add rule filter input | % nft add rule filter input meter cnt-meter { iif . ip saddr . tcp dport timeout 60s counter } | ||
</source> | </source> | ||
This rule counts incoming packets based on the tuple ''(input interface index, IP source address, TCP destination port)'', the counters are dropped after 60 seconds without update. | This rule counts incoming packets based on the tuple ''(input interface index, IP source address, TCP destination port)'', the counters are dropped after 60 seconds without update. | ||
== Listing | == Listing meters == | ||
To list the content matched by the | To list the content matched by the meter use: | ||
<source lang="bash"> | <source lang="bash"> | ||
% nft list | % nft list meter filter cnt-meter | ||
table ip filter { | table ip filter { | ||
meter cnt-meter { | |||
type iface_index . ipv4_addr . inet_service | type iface_index . ipv4_addr . inet_service | ||
flags timeout | flags timeout | ||
| Line 42: | Line 46: | ||
== Doing iptables hashlimit with nft == | == Doing iptables hashlimit with nft == | ||
Meters replace iptables hashlimit in nft. You can use the tool '''iptables-translate''' to see how to translate hashlimit rules, currently available in the [https://git.netfilter.org/iptables/ iptables git tree] and expected in the next official release, current release is v1.6.1. | |||
Almost all hashlimit options are available in nft, starting with --hashlimit-mode, it is replaced by the selector in a | Almost all hashlimit options are available in nft, starting with --hashlimit-mode, it is replaced by the selector in a meter. All modes are available except no mode, a meter demands a selector, an iptables rule without hashlimit-mode isn't supported in nft. A simple rule translation is: | ||
<source lang="bash"> | <source lang="bash"> | ||
$ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-above 200/sec --hashlimit-mode srcip,dstport --hashlimit-name http1 -j DROP | $ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-above 200/sec --hashlimit-mode srcip,dstport --hashlimit-name http1 -j DROP | ||
nft add rule ip filter INPUT tcp dport 80 | nft add rule ip filter INPUT tcp dport 80 meter http1 { tcp dport . ip saddr limit rate over 200/second } counter drop | ||
</source> | </source> | ||
Notice that a | Notice that a meter is named, like hashlimit, and using multiple hashlimit-modes is similar to using a concatenation of selectors. Also, --hashlimit-above is translated to ''limit rate over'', to simulate --hashlimit-upto just omit or replace ''over'' with ''until'' in the rule. | ||
The options --hashlimit-burst and --hashlimit-htable-expire are translated to ''burst'' and ''timeout'' in a | The options --hashlimit-burst and --hashlimit-htable-expire are translated to ''burst'' and ''timeout'' in a meter: | ||
<source lang="bash"> | <source lang="bash"> | ||
$ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-above 200kb/s --hashlimit-burst 1mb --hashlimit-mode srcip,dstport --hashlimit-name http2 --hashlimit-htable-expire 3000 -j DROP | $ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-above 200kb/s --hashlimit-burst 1mb --hashlimit-mode srcip,dstport --hashlimit-name http2 --hashlimit-htable-expire 3000 -j DROP | ||
nft add rule ip filter INPUT tcp dport 80 | nft add rule ip filter INPUT tcp dport 80 meter http2 { tcp dport . ip saddr timeout 3s limit rate over 200 kbytes/second burst 1 mbytes} counter drop | ||
</source> | </source> | ||
This rule shows how ''timeout'' and ''burst'' are used in a | This rule shows how ''timeout'' and ''burst'' are used in a meter, also notice that meters, similarly to hashlimit, accepts limiting rates by bytes frequency instead of packets. | ||
Another hashlimit option is to limit the traffic rate on subnets, of IP source or destination addresses, using the options --hashlimit-srcmask and --hashlimit-dstmask. This feature is available in nft by attaching a subnet mask to a | Another hashlimit option is to limit the traffic rate on subnets, of IP source or destination addresses, using the options --hashlimit-srcmask and --hashlimit-dstmask. This feature is available in nft by attaching a subnet mask to a meter selector, attach to ''ip saddr'' for source address and to ''ip daddr'' for destination adress: | ||
<source lang="bash"> | <source lang="bash"> | ||
$ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-upto 200 --hashlimit-mode srcip --hashlimit-name http3 --hashlimit-srcmask 24 -j DROP | $ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-upto 200 --hashlimit-mode srcip --hashlimit-name http3 --hashlimit-srcmask 24 -j DROP | ||
nft add rule ip filter INPUT tcp dport 80 | nft add rule ip filter INPUT tcp dport 80 meter http3 { ip saddr and 255.255.255.0 limit rate 200/second } counter drop | ||
</source> | </source> | ||
This rule will limit packets rate, grouping subnets determined by the first 24 bits of the IP source address, from the incoming packets on port 80. | This rule will limit packets rate, grouping subnets determined by the first 24 bits of the IP source address, from the incoming packets on port 80. | ||
The remaining options, --hashlimit-htable-max, --hashlimit-htable-size and --hashlimit-htable-gcinterval don't apply to | The remaining options, --hashlimit-htable-max, --hashlimit-htable-size and --hashlimit-htable-gcinterval don't apply to meters. | ||
Revision as of 12:01, 23 January 2018
Meters
This feature used to be known as flow tables before nft v0.8.1.
Since Linux Kernel 4.3 and nft v0.8.1 nftables supports this feature.
Meters provide a native replacement for the hashlimit match in iptables, however, meters are a lot more flexible since you can use any selector, one or many through concatenations.
Using meters
The following commands create a table named filter, a chain named input which hooks incoming traffic and a rule that uses a meter:
% nft add table filter
% nft add chain filter input {type filter hook input priority 0\;}
% nft add rule filter input tcp dport 22 ct state new meter ssh-meter { ip saddr limit rate 10/second } accept
In this example we create a rule to match new ssh (port 22) connections, which uses a meter named ssh-metering to limit the traffic rate to 10 packets per second for each source IP address. The available time units on limits are: second, minute, hour, day and week.
Note that meters must have a name, so you can list its content.
You can also use concatenations to build selectors:
% nft add rule filter input meter cnt-meter { iif . ip saddr . tcp dport timeout 60s counter }
This rule counts incoming packets based on the tuple (input interface index, IP source address, TCP destination port), the counters are dropped after 60 seconds without update.
Listing meters
To list the content matched by the meter use:
% nft list meter filter cnt-meter
table ip filter {
meter cnt-meter {
type iface_index . ipv4_addr . inet_service
flags timeout
elements = { "wlan1" . 64.62.190.36 . 55000 expires 38s : counter packets 2 bytes 220, "wlan1" . 83.98.201.47 . 35460 expires 39s : counter packets 10 bytes 5988, "wlan1" . 172.217.7.142 . 43254 expires 46s : counter packets 1 bytes 98}
}
}
Doing iptables hashlimit with nft
Meters replace iptables hashlimit in nft. You can use the tool iptables-translate to see how to translate hashlimit rules, currently available in the iptables git tree and expected in the next official release, current release is v1.6.1.
Almost all hashlimit options are available in nft, starting with --hashlimit-mode, it is replaced by the selector in a meter. All modes are available except no mode, a meter demands a selector, an iptables rule without hashlimit-mode isn't supported in nft. A simple rule translation is:
$ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-above 200/sec --hashlimit-mode srcip,dstport --hashlimit-name http1 -j DROP
nft add rule ip filter INPUT tcp dport 80 meter http1 { tcp dport . ip saddr limit rate over 200/second } counter drop
Notice that a meter is named, like hashlimit, and using multiple hashlimit-modes is similar to using a concatenation of selectors. Also, --hashlimit-above is translated to limit rate over, to simulate --hashlimit-upto just omit or replace over with until in the rule.
The options --hashlimit-burst and --hashlimit-htable-expire are translated to burst and timeout in a meter:
$ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-above 200kb/s --hashlimit-burst 1mb --hashlimit-mode srcip,dstport --hashlimit-name http2 --hashlimit-htable-expire 3000 -j DROP
nft add rule ip filter INPUT tcp dport 80 meter http2 { tcp dport . ip saddr timeout 3s limit rate over 200 kbytes/second burst 1 mbytes} counter drop
This rule shows how timeout and burst are used in a meter, also notice that meters, similarly to hashlimit, accepts limiting rates by bytes frequency instead of packets.
Another hashlimit option is to limit the traffic rate on subnets, of IP source or destination addresses, using the options --hashlimit-srcmask and --hashlimit-dstmask. This feature is available in nft by attaching a subnet mask to a meter selector, attach to ip saddr for source address and to ip daddr for destination adress:
$ iptables-translate -A INPUT -m tcp -p tcp --dport 80 -m hashlimit --hashlimit-upto 200 --hashlimit-mode srcip --hashlimit-name http3 --hashlimit-srcmask 24 -j DROP
nft add rule ip filter INPUT tcp dport 80 meter http3 { ip saddr and 255.255.255.0 limit rate 200/second } counter drop
This rule will limit packets rate, grouping subnets determined by the first 24 bits of the IP source address, from the incoming packets on port 80.
The remaining options, --hashlimit-htable-max, --hashlimit-htable-size and --hashlimit-htable-gcinterval don't apply to meters.