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78e06cf430
In the flowtable documentation there is a missing semicolon, the command
as is would give this error:
nftables.conf:5:27-33: Error: syntax error, unexpected devices, expecting newline or semicolon
hook ingress priority 0 devices = { br0, pppoe-data };
^^^^^^^
nftables.conf:4:12-13: Error: invalid hook (null)
flowtable ft {
^^
Fixes: 19b351f16f
("netfilter: add flowtable documentation")
Signed-off-by: Matteo Croce <mcroce@redhat.com>
Signed-off-by: Pablo Neira Ayuso <pablo@netfilter.org>
113 lines
5.7 KiB
Plaintext
113 lines
5.7 KiB
Plaintext
Netfilter's flowtable infrastructure
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====================================
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This documentation describes the software flowtable infrastructure available in
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Netfilter since Linux kernel 4.16.
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Overview
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--------
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Initial packets follow the classic forwarding path, once the flow enters the
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established state according to the conntrack semantics (ie. we have seen traffic
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in both directions), then you can decide to offload the flow to the flowtable
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from the forward chain via the 'flow offload' action available in nftables.
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Packets that find an entry in the flowtable (ie. flowtable hit) are sent to the
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output netdevice via neigh_xmit(), hence, they bypass the classic forwarding
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path (the visible effect is that you do not see these packets from any of the
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netfilter hooks coming after the ingress). In case of flowtable miss, the packet
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follows the classic forward path.
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The flowtable uses a resizable hashtable, lookups are based on the following
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7-tuple selectors: source, destination, layer 3 and layer 4 protocols, source
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and destination ports and the input interface (useful in case there are several
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conntrack zones in place).
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Flowtables are populated via the 'flow offload' nftables action, so the user can
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selectively specify what flows are placed into the flow table. Hence, packets
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follow the classic forwarding path unless the user explicitly instruct packets
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to use this new alternative forwarding path via nftables policy.
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This is represented in Fig.1, which describes the classic forwarding path
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including the Netfilter hooks and the flowtable fastpath bypass.
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userspace process
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^ |
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_____|____ ____\/___
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/ \ / \
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| input | | output |
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\__________/ \_________/
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^ |
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_________ __________ --------- _____\/_____
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/ \ / \ |Routing | / \
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--> ingress ---> prerouting ---> |decision| | postrouting |--> neigh_xmit
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\_________/ \__________/ ---------- \____________/ ^
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| ^ | ^ |
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flowtable | ____\/___ | |
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| | / \ | |
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__\/___ | | forward |------------ |
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|-----| | \_________/ |
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|-----| | 'flow offload' rule |
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|-----| | adds entry to |
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|_____| | flowtable |
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/ \ | |
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/hit\_no_| |
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\ ? / |
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\ / |
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|__yes_________________fastpath bypass ____________________________|
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Fig.1 Netfilter hooks and flowtable interactions
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The flowtable entry also stores the NAT configuration, so all packets are
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mangled according to the NAT policy that matches the initial packets that went
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through the classic forwarding path. The TTL is decremented before calling
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neigh_xmit(). Fragmented traffic is passed up to follow the classic forwarding
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path given that the transport selectors are missing, therefore flowtable lookup
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is not possible.
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Example configuration
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---------------------
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Enabling the flowtable bypass is relatively easy, you only need to create a
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flowtable and add one rule to your forward chain.
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table inet x {
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flowtable f {
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hook ingress priority 0; devices = { eth0, eth1 };
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}
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chain y {
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type filter hook forward priority 0; policy accept;
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ip protocol tcp flow offload @f
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counter packets 0 bytes 0
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}
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}
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This example adds the flowtable 'f' to the ingress hook of the eth0 and eth1
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netdevices. You can create as many flowtables as you want in case you need to
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perform resource partitioning. The flowtable priority defines the order in which
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hooks are run in the pipeline, this is convenient in case you already have a
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nftables ingress chain (make sure the flowtable priority is smaller than the
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nftables ingress chain hence the flowtable runs before in the pipeline).
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The 'flow offload' action from the forward chain 'y' adds an entry to the
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flowtable for the TCP syn-ack packet coming in the reply direction. Once the
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flow is offloaded, you will observe that the counter rule in the example above
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does not get updated for the packets that are being forwarded through the
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forwarding bypass.
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More reading
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------------
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This documentation is based on the LWN.net articles [1][2]. Rafal Milecki also
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made a very complete and comprehensive summary called "A state of network
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acceleration" that describes how things were before this infrastructure was
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mailined [3] and it also makes a rough summary of this work [4].
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[1] https://lwn.net/Articles/738214/
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[2] https://lwn.net/Articles/742164/
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[3] http://lists.infradead.org/pipermail/lede-dev/2018-January/010830.html
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[4] http://lists.infradead.org/pipermail/lede-dev/2018-January/010829.html
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