.. _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 Configure and enable collection of flow information for the interface identified by ``. 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. 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 If you need to sample also egress traffic, you may want to configure egress flow-accounting: .. cfgcmd:: set system flow-accounting enable-egress 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 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 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 There are multiple versions available for the NetFlow data. The `` 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
Configure address of NetFlow collector. NetFlow server at `
` can be both listening on an IPv4 or IPv6 address. .. cfgcmd:: set system flow-accounting netflow source-ip
IPv4 or IPv6 source address of NetFlow packets .. cfgcmd:: set system flow-accounting netflow engine-id NetFlow engine-id which will appear in NetFlow data. The range is 0 to 255. .. cfgcmd:: set system flow-accounting netflow sampling-rate Use this command to configure the sampling rate for flow accounting. The system samples one in every `` packets, where `` 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 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 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
Configure address of sFlow collector. sFlow server at `
` 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 Enable sampling of packets, which will be transmitted to sFlow collectors. .. cfgcmd:: set system flow-accounting sflow agent-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 Show flow accounting information for given ``. .. 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 host
Show flow accounting information for given `` 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