Difference between revisions of "Nft"
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which can convert an iptables rule to nft. Used like so: | which can convert an iptables rule to nft. Used like so: | ||
iptables-translate -I INPUT -p tcp --dport 22 -j DROP | iptables-translate -I INPUT -p tcp --dport 22 -j DROP | ||
− | and it will give the nft equivalent. | + | and it will give the nft equivalent. If you don't it, install iptables. |
Second, you should know that in order to block ipv4 and ipv6, you should | Second, you should know that in order to block ipv4 and ipv6, you should | ||
Line 21: | Line 21: | ||
-I is nft insert | -I is nft insert | ||
-A is nft add | -A is nft add | ||
− | + | Add used to be append. Confusing. | |
As with iptables, the order in which you execute the rules is important. | As with iptables, the order in which you execute the rules is important. | ||
− | Fourth: you have to make your own tables, AND chains | + | Fourth: you have to make your own tables, AND chains. |
− | + | ||
===Create tables/chains=== | ===Create tables/chains=== | ||
Line 41: | Line 41: | ||
nft add table inet filter | nft add table inet filter | ||
− | nft add chain inet filter input { type filter hook input priority 0\; } | + | nft add chain inet filter input { type filter hook input priority 0 \; } |
nft add rule inet filter input counter accept | nft add rule inet filter input counter accept | ||
Line 59: | Line 59: | ||
vs | vs | ||
nft flush ruleset | nft flush ruleset | ||
− | fail. Should be just nft -F. | + | fail. Should be just nft -F. I guess iptables has been 'nerft'. oh well. |
+ | |||
+ | ===Delete rules in a chain only=== | ||
+ | |||
+ | nft flush chain inet filter input | ||
+ | note that you need the inet / ip specification there. | ||
+ | reference: https://unix.stackexchange.com/questions/562850/nftables-remove-all-rules-in-chain | ||
===List rules=== | ===List rules=== | ||
Line 69: | Line 75: | ||
The rule listing of nft is easy to read, and includes stats without the | The rule listing of nft is easy to read, and includes stats without the | ||
need for iptables -v -L. +1 | need for iptables -v -L. +1 | ||
+ | |||
+ | ===Throttle traffic=== | ||
+ | This is a +1 over iptables. Without requiring traffic control (tc) you can do throttling with nft. | ||
+ | |||
+ | This is taken from the luci-app-nft-qos scripts in owrt. Note that I've only seen it there, and haven't tested | ||
+ | it standalone in nft, yet. | ||
+ | table inet nft-qos-static { | ||
+ | chain upload { | ||
+ | type filter hook postrouting priority filter; policy accept; | ||
+ | ip saddr <ipaddressofuser> limit rate over 850 kbytes/second drop | ||
+ | } | ||
+ | |||
+ | chain download { | ||
+ | type filter hook prerouting priority filter; policy accept; | ||
+ | ip daddr <ipaddressofuser> limit rate over 850 kbytes/second drop | ||
+ | } | ||
+ | } | ||
+ | Use bandwidthd on owrt to see usage. It gets confusing as bandwidthd uses mbits or mibits, so online calculators will help. | ||
+ | For reference sake the text config for nft-qos in owrt is the following: | ||
+ | <pre> | ||
+ | config default 'default' | ||
+ | option limit_mac_enable '0' | ||
+ | option priority_enable '0' | ||
+ | option limit_enable '1' | ||
+ | |||
+ | config download | ||
+ | option hostname 'ahostname' | ||
+ | option ipaddr 'iphere' | ||
+ | option rate '850' | ||
+ | option unit 'kbytes' | ||
+ | |||
+ | config upload | ||
+ | option hostname 'ahostname' | ||
+ | option ipaddr 'iphere' | ||
+ | option rate '850' | ||
+ | option unit 'kbytes' | ||
+ | </pre> | ||
+ | |||
+ | ===Tracing Traffic=== | ||
+ | From Openwrt wiki. | ||
+ | https://openwrt.org/docs/guide-user/firewall/netfilter_iptables/netfilter_management | ||
+ | Use nftables tracing to debug fw4 rules (22.03 and later) | ||
+ | |||
+ | Somethings, the nftables ruleset may exhibit unexpected behaviour, such as a packet being dropped while it should not. In that case, tracing can help: it allows to print all rules traversed by a given packet. | ||
+ | |||
+ | See https://wiki.nftables.org/wiki-nftables/index.php/Ruleset_debug/tracing for the full explanation. The following is simply an adaptation of this wiki page to the fw4 ruleset. | ||
+ | |||
+ | You first need to add a tracing chain: | ||
+ | |||
+ | nft add chain inet fw4 trace_chain { type filter hook prerouting priority -301\; } | ||
+ | |||
+ | Then add one or more rules to match packets you are interested in, such as: | ||
+ | |||
+ | nft add rule inet fw4 trace_chain ip saddr 203.0.113.42 meta nftrace set 1 | ||
+ | nft add rule inet fw4 trace_chain udp dport 50014 meta nftrace set 1 | ||
+ | |||
+ | Finally, you can look at the result of the trace (ideally in another terminal): | ||
+ | |||
+ | nft monitor trace | ||
+ | |||
+ | Beware, each traced packet will generate a huge amount of output! | ||
+ | |||
+ | To stop the tracing, remove the chain: | ||
+ | |||
+ | nft delete chain inet fw4 trace_chain | ||
==Templates== | ==Templates== | ||
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nft flush ruleset | nft flush ruleset | ||
nft add table inet filter | nft add table inet filter | ||
− | nft add chain inet filter input { type filter hook input priority 0\; } | + | nft add chain inet filter input { type filter hook input priority 0 \; } |
nft add rule inet filter input counter accept | nft add rule inet filter input counter accept | ||
nft insert rule inet filter input tcp dport 80 counter reject | nft insert rule inet filter input tcp dport 80 counter reject | ||
Line 86: | Line 157: | ||
iptables -I INPUT -p tcp --dport 80 -s 192.168.1.0/24 -j ACCEPT | iptables -I INPUT -p tcp --dport 80 -s 192.168.1.0/24 -j ACCEPT | ||
− | (gotcha: the table | + | (gotcha: In this example adapted from Linux Firewalls by Suehring, the table happens to have the same name as the type of the chain, they: are both filter. Don't be confused, as the table could've been named any arbitrary name, yet the chain is a 'type' of filter. There are three chain types according to the book: filter, route, and nat. Note also there must be a single space after the 0 for priority followed by the backslash and semi-colon.) |
− | |||
==iptables vs nft: which is easier for the sysadmin?== | ==iptables vs nft: which is easier for the sysadmin?== | ||
Line 106: | Line 176: | ||
Which is better? | Which is better? | ||
− | + | Nft has a higher learning curve, but seems to have more flexibility. It's a bit difficult to remember writing commands from the shell, so it favors scripting. I would imagine nft is geared towards power users. iptables remains a much easier introduction to firewall scripting, but having to write ip6tables and iptables scripts is a bit worse. I will have to wait until I understand both to make a judgement. | |
− | |||
− | to | ||
− | I | ||
− |
Latest revision as of 07:15, 11 September 2024
Nft is the successor to iptables.
There is only one book on the market I could find (08/2022) that currently deals with Nft, and that is Linux Firewalls by Steve Suehring (this page references the 4th edition).
Usage
First, you should know there is the handy tool
iptables-translate
which can convert an iptables rule to nft. Used like so:
iptables-translate -I INPUT -p tcp --dport 22 -j DROP
and it will give the nft equivalent. If you don't it, install iptables.
Second, you should know that in order to block ipv4 and ipv6, you should use: inet. Some rules, will have nft insert rule ip bla bla bla or nft insert rule ip6 bla bla bla. If you use inet instead of ip or ip6 it will cover both protocols. (Page 84). Any example rule online that only uses ip is incorrect.
Third:
-I is nft insert -A is nft add
Add used to be append. Confusing. As with iptables, the order in which you execute the rules is important.
Fourth: you have to make your own tables, AND chains.
Create tables/chains
Just copied and pasted from debian wiki. There are example tables in devuan in /usr/share/doc/nftables, but it's about as simple as Owrt's firewall (which is not simple at all) so good luck.
There is also the option to type your rules in /etc/nftables.conf. But I'm old fashioned and prefer to use cmd line rules.
Create a basic IPv4/IPv6 dual-stack table: Create a chain for input IPv4/IPv6 dual-stack traffic: A rule to check that all is fine (IPv4/IPv6 dual-stack):
nft add table inet filter nft add chain inet filter input { type filter hook input priority 0 \; } nft add rule inet filter input counter accept
Show all the previous:
nft list table inet filter
Gonna take a bit to memorize this.
Allow/Block a single port
Block the wan from accessing port 80:
nft insert rule inet filter INPUT tcp dport 80 counter reject
Allow the lan to access port 80:
nft insert rule inet filter INPUT ip saddr 192.168.1.0/24 tcp dport 80 counter accept
Delete all rules
iptables -F vs nft flush ruleset
fail. Should be just nft -F. I guess iptables has been 'nerft'. oh well.
Delete rules in a chain only
nft flush chain inet filter input
note that you need the inet / ip specification there. reference: https://unix.stackexchange.com/questions/562850/nftables-remove-all-rules-in-chain
List rules
nft list table inet filter vs iptables -L
Fail. (this assumes you used my instructions for a ipv4/ipv6 table [inet] named filter.)
The rule listing of nft is easy to read, and includes stats without the need for iptables -v -L. +1
Throttle traffic
This is a +1 over iptables. Without requiring traffic control (tc) you can do throttling with nft.
This is taken from the luci-app-nft-qos scripts in owrt. Note that I've only seen it there, and haven't tested it standalone in nft, yet.
table inet nft-qos-static { chain upload { type filter hook postrouting priority filter; policy accept; ip saddr <ipaddressofuser> limit rate over 850 kbytes/second drop }
chain download { type filter hook prerouting priority filter; policy accept; ip daddr <ipaddressofuser> limit rate over 850 kbytes/second drop } }
Use bandwidthd on owrt to see usage. It gets confusing as bandwidthd uses mbits or mibits, so online calculators will help. For reference sake the text config for nft-qos in owrt is the following:
config default 'default' option limit_mac_enable '0' option priority_enable '0' option limit_enable '1' config download option hostname 'ahostname' option ipaddr 'iphere' option rate '850' option unit 'kbytes' config upload option hostname 'ahostname' option ipaddr 'iphere' option rate '850' option unit 'kbytes'
Tracing Traffic
From Openwrt wiki. https://openwrt.org/docs/guide-user/firewall/netfilter_iptables/netfilter_management Use nftables tracing to debug fw4 rules (22.03 and later)
Somethings, the nftables ruleset may exhibit unexpected behaviour, such as a packet being dropped while it should not. In that case, tracing can help: it allows to print all rules traversed by a given packet.
See https://wiki.nftables.org/wiki-nftables/index.php/Ruleset_debug/tracing for the full explanation. The following is simply an adaptation of this wiki page to the fw4 ruleset.
You first need to add a tracing chain:
nft add chain inet fw4 trace_chain { type filter hook prerouting priority -301\; }
Then add one or more rules to match packets you are interested in, such as:
nft add rule inet fw4 trace_chain ip saddr 203.0.113.42 meta nftrace set 1 nft add rule inet fw4 trace_chain udp dport 50014 meta nftrace set 1
Finally, you can look at the result of the trace (ideally in another terminal):
nft monitor trace
Beware, each traced packet will generate a huge amount of output!
To stop the tracing, remove the chain:
nft delete chain inet fw4 trace_chain
Templates
After reading all the above nonsense, you just want something to copy and paste, here it is:
nft flush ruleset nft add table inet filter nft add chain inet filter input { type filter hook input priority 0 \; } nft add rule inet filter input counter accept nft insert rule inet filter input tcp dport 80 counter reject nft insert rule inet filter input ip saddr 192.168.1.0/24 tcp dport 80 counter accept
The bare minimum to block/allow a port. Compared to:
iptables -F iptables -I INPUT -p tcp --dport 80 -j REJECT iptables -I INPUT -p tcp --dport 80 -s 192.168.1.0/24 -j ACCEPT
(gotcha: In this example adapted from Linux Firewalls by Suehring, the table happens to have the same name as the type of the chain, they: are both filter. Don't be confused, as the table could've been named any arbitrary name, yet the chain is a 'type' of filter. There are three chain types according to the book: filter, route, and nat. Note also there must be a single space after the 0 for priority followed by the backslash and semi-colon.)
iptables vs nft: which is easier for the sysadmin?
I'm still undecided which is better. One thing to remember with nft is that the rules will start identical most of the time.
So a rule that is:
nft insert rule inet filter INPUT tcp dport 80 counter reject
Always has
nft insert rule inet
Which means you have to remember that part, cut it out, then focus on the rest of the rule. So all that matters is:
filter INPUT tcp dport 80 counter reject vs: -I INPUT -p tcp --dport 80 -J REJECT
Which is better?
Nft has a higher learning curve, but seems to have more flexibility. It's a bit difficult to remember writing commands from the shell, so it favors scripting. I would imagine nft is geared towards power users. iptables remains a much easier introduction to firewall scripting, but having to write ip6tables and iptables scripts is a bit worse. I will have to wait until I understand both to make a judgement.