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authorrebortg <github@ghlr.de>2020-11-30 21:15:16 +0100
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+.. _flow-accounting:
+
+###############
+Flow Accounting
+###############
+
+VyOS supports flow-accounting for both IPv4 and IPv6 traffic. The system acts
+as a flow exporter, and you are free to use it with any compatible collector.
+
+Flows can be exported via two different protocols: NetFlow (versions 5, 9 and
+10/IPFIX) and sFlow. Additionally, you may save flows to an in-memory table
+internally in a router.
+
+.. warning:: You need to disable the in-memory table in production environments!
+ Using :abbr:`IMT (In-Memory Table)` may lead to heavy CPU overloading and
+ unstable flow-accounting behavior.
+
+
+NetFlow / IPFIX
+===============
+NetFlow is a feature that was introduced on Cisco routers around 1996 that
+provides the ability to collect IP network traffic as it enters or exits an
+interface. By analyzing the data provided by NetFlow, a network administrator
+can determine things such as the source and destination of traffic, class of
+service, and the causes of congestion. A typical flow monitoring setup (using
+NetFlow) consists of three main components:
+
+* **exporter**: aggregates packets into flows and exports flow records towards
+ one or more flow collectors
+* **collector**: responsible for reception, storage and pre-processing of flow
+ data received from a flow exporter
+* **application**: analyzes received flow data in the context of intrusion
+ detection or traffic profiling, for example
+
+For connectionless protocols as like ICMP and UDP, a flow is considered
+complete once no more packets for this flow appear after configurable timeout.
+
+NetFlow is usually enabled on a per-interface basis to limit load on the router
+components involved in NetFlow, or to limit the amount of NetFlow records
+exported.
+
+Configuration
+=============
+
+In order for flow accounting information to be collected and displayed for an
+interface, the interface must be configured for flow accounting.
+
+.. cfgcmd:: set system flow-accounting interface <interface>
+
+ Configure and enable collection of flow information for the interface
+ identified by `<interface>`.
+
+ You can configure multiple interfaces which whould participate in flow
+ accounting.
+
+.. note:: Will be recorded only packets/flows on **incoming** direction in
+ configured interfaces.
+
+
+By default, recorded flows will be saved internally and can be listed with the
+CLI command. You may disable using the local in-memory table with the command:
+
+.. cfgcmd:: set system flow-accounting disable-imt
+
+ Internally, in flow-accounting processes exist a buffer for data exchanging
+ between core process and plugins (each export target is a separated plugin).
+ If you have high traffic levels or noted some problems with missed records
+ or stopping exporting, you may try to increase a default buffer size (10
+ MiB) with the next command:
+
+.. cfgcmd:: set system flow-accounting buffer-size <buffer size>
+
+ In case, if you need to catch some logs from flow-accounting daemon, you may
+ configure logging facility:
+
+.. cfgcmd:: set system flow-accounting syslog-facility <facility>
+
+ TBD
+
+Flow Export
+-----------
+
+In addition to displaying flow accounting information locally, one can also
+exported them to a collection server.
+
+NetFlow
+^^^^^^^
+
+.. cfgcmd:: set system flow-accounting netflow version <version>
+
+ There are multiple versions available for the NetFlow data. The `<version>`
+ used in the exported flow data can be configured here. The following
+ versions are supported:
+
+ * **5** - Most common version, but restricted to IPv4 flows only
+ * **9** - NetFlow version 9 (default)
+ * **10** - :abbr:`IPFIX (IP Flow Information Export)` as per :rfc:`3917`
+
+.. cfgcmd:: set system flow-accounting netflow server <address>
+
+ Configure address of NetFlow collector. NetFlow server at `<address>` can
+ be both listening on an IPv4 or IPv6 address.
+
+.. cfgcmd:: set system flow-accounting netflow source-ip <address>
+
+ IPv4 or IPv6 source address of NetFlow packets
+
+.. cfgcmd:: set system flow-accounting netflow engine-id <id>
+
+ NetFlow engine-id which will appear in NetFlow data. The range is 0 to 255.
+
+.. cfgcmd:: set system flow-accounting netflow sampling-rate <rate>
+
+ Use this command to configure the sampling rate for flow accounting. The
+ system samples one in every `<rate>` packets, where `<rate>` is the value
+ configured for the sampling-rate option. The advantage of sampling every n
+ packets, where n > 1, allows you to decrease the amount of processing
+ resources required for flow accounting. The disadvantage of not sampling
+ every packet is that the statistics produced are estimates of actual data
+ flows.
+
+ Per default every packet is sampled (that is, the sampling rate is 1).
+
+.. cfgcmd:: set system flow-accounting netflow timeout expiry-interval <interval>
+
+ Specifies the interval at which Netflow data will be sent to a collector. As
+ per default, Netflow data will be sent every 60 seconds.
+
+ You may also additionally configure timeouts for different types of
+ connections.
+
+.. cfgcmd:: set system flow-accounting netflow max-flows <n>
+
+ If you want to change the maximum number of flows, which are tracking
+ simultaneously, you may do this with this command (default 8192).
+
+sFlow
+^^^^^
+
+.. cfgcmd:: set system flow-accounting sflow server <address>
+
+ Configure address of sFlow collector. sFlow server at `<address>` can
+ be an IPv4 or IPv6 address. But you cannot export to both IPv4 and
+ IPv6 collectors at the same time!
+
+.. cfgcmd:: set system flow-accounting sflow sampling-rate <rate>
+
+ Enable sampling of packets, which will be transmitted to sFlow collectors.
+
+.. cfgcmd:: set system flow-accounting sflow agent-address <address>
+
+ Configure a sFlow agent address. It can be IPv4 or IPv6 address, but you
+ must set the same protocol, which is used for sFlow collector addresses. By
+ default, using router-id from BGP or OSPF protocol, or the primary IP
+ address from the first interface.
+
+Example:
+--------
+
+NetFlow v5 example:
+
+.. code-block:: none
+
+ set system flow-accounting netflow engine-id 100
+ set system flow-accounting netflow version 5
+ set system flow-accounting netflow server 192.168.2.10 port 2055
+
+Operation
+=========
+
+Once flow accounting is configured on an interfaces it provides the ability to
+display captured network traffic information for all configured interfaces.
+
+.. opcmd:: show flow-accounting interface <interface>
+
+ Show flow accounting information for given `<interface>`.
+
+ .. code-block:: none
+
+ vyos@vyos:~$ show flow-accounting interface eth0
+ IN_IFACE SRC_MAC DST_MAC SRC_IP DST_IP SRC_PORT DST_PORT PROTOCOL TOS PACKETS FLOWS BYTES
+ ---------- ----------------- ----------------- ------------------------ --------------- ---------- ---------- ---------- ----- --------- ------- -------
+ eth0 00:53:01:a8:28:ac ff:ff:ff:ff:ff:ff 192.0.2.2 255.255.255.255 5678 5678 udp 0 1 1 178
+ eth0 00:53:01:b2:2f:34 33:33:ff:00:00:00 fe80::253:01ff:feb2:2f34 ff02::1:ff00:0 0 0 ipv6-icmp 0 2 1 144
+ eth0 00:53:01:1a:b4:53 33:33:ff:00:00:00 fe80::253:01ff:fe1a:b453 ff02::1:ff00:0 0 0 ipv6-icmp 0 1 1 72
+ eth0 00:53:01:b2:22:48 00:53:02:58:a2:92 192.0.2.100 192.0.2.14 40152 22 tcp 16 39 1 2064
+ eth0 00:53:01:c8:33:af ff:ff:ff:ff:ff:ff 192.0.2.3 255.255.255.255 5678 5678 udp 0 1 1 154
+ eth0 00:53:01:b2:22:48 00:53:02:58:a2:92 192.0.2.100 192.0.2.14 40006 22 tcp 16 146 1 9444
+ eth0 00:53:01:b2:22:48 00:53:02:58:a2:92 192.0.2.100 192.0.2.14 0 0 icmp 192 27 1 4455
+
+.. opcmd:: show flow-accounting interface <interface> host <address>
+
+ Show flow accounting information for given `<interface>` for a specific host
+ only.
+
+ .. code-block:: none
+
+ vyos@vyos:~$ show flow-accounting interface eth0 host 192.0.2.14
+ IN_IFACE SRC_MAC DST_MAC SRC_IP DST_IP SRC_PORT DST_PORT PROTOCOL TOS PACKETS FLOWS BYTES
+ ---------- ----------------- ----------------- ----------- ---------- ---------- ---------- ---------- ----- --------- ------- -------
+ eth0 00:53:01:b2:22:48 00:53:02:58:a2:92 192.0.2.100 192.0.2.14 40006 22 tcp 16 197 2 12940
+ eth0 00:53:01:b2:22:48 00:53:02:58:a2:92 192.0.2.100 192.0.2.14 40152 22 tcp 16 94 1 4924
+ eth0 00:53:01:b2:22:48 00:53:02:58:a2:92 192.0.2.100 192.0.2.14 0 0 icmp 192 36 1 5877