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"Flow filter in tc" 8 "20 Oct 2015" "iproute2" "Linux"
NAME
flow - flow based traffic control filter
SYNOPSIS

Mapping mode: tc " " filter " ... " "flow map key " KEY " [ " OPS " ] [ " OPTIONS " ] "

Hashing mode: tc " " filter " ... " "flow hash keys " KEY_LIST " [ " perturb secs " ] [ " OPTIONS " ] " OPS " := [ " OPS " ] " OP OPTIONS " := [ " divisor NUM " ] [ " baseclass ID " ] [ " match EMATCH_TREE " ] [ " action ACTION_SPEC " ]" KEY_LIST " := [ " KEY_LIST " ] " KEY OP " := { " or " | " and " | " xor " | " rshift " | " addend " } " NUM ID " := " X : Y KEY " := { " src " | " dst " | " proto " | " proto-src " | " proto-dst " | " iif " | " priority " | " mark " | " nfct " | " nfct-src " | " nfct-dst " | " nfct-proto-src " | " nfct-proto-dst " | " rt-classid " | " sk-uid " | " sk-gid " | " vlan-tag " | " rxhash " }"

DESCRIPTION
The flow classifier is meant to extend the SFQ hashing capabilities without hard-coding new hash functions. It also allows deterministic mappings of keys to classes.
OPTIONS

action " ACTION_SPEC" Apply an action from the generic actions framework on matching packets.

baseclass " ID" An offset for the resulting class ID. ID may be root ", " none or a hexadecimal class ID in the form [X:]Y. If X is omitted, it is assumed to be zero.

divisor " NUM" Number of buckets to use for sorting into. Keys are calculated modulo NUM .

"hash keys " KEY-LIST Perform a jhash2 operation over the keys in KEY-LIST , the result (modulo the divisor if given) is taken as class ID, optionally offset by the value of baseclass . It is possible to specify an interval (in seconds) after which jhash2 's entropy source is recreated using the perturb parameter.

"map key " KEY Packet data identified by KEY is translated into class IDs to push the packet into. The value may be mangled by OPS before using it for the mapping. They are applied in the order listed here:

4 and " NUM" Perform bitwise AND operation with numeric value NUM .

or " NUM" Perform bitwise OR operation with numeric value NUM .

xor " NUM" Perform bitwise XOR operation with numeric value NUM .

rshift " NUM" Shift the value of KEY to the right by NUM bits.

addend " NUM" Add NUM to the value of KEY . For the or ", " and ", " xor " and " rshift operations, NUM is assumed to be an unsigned, 32bit integer value. For the addend operation, NUM may be much more complex: It may be prefixed by a minus ('-') sign to cause subtraction instead of addition and for keys of src ", " dst ", " nfct-src " and " nfct-dst it may be given in IP address notation. See below for an illustrating example.

match " EMATCH_TREE" Match packets using the extended match infrastructure. See tc-ematch (8) for a detailed description of the allowed syntax in EMATCH_TREE .

KEYS
In mapping mode, a single key is used (after optional permutation) to build a class ID. The resulting ID is deducible in most cases. In hashing more, a number of keys may be specified which are then hashed and the output used as class ID. This ID is not deducible in beforehand, and may even change over time for a given flow if a perturb interval has been given. The range of class IDs can be limited by the divisor option, which is used for a modulus.

src ", " dst Use source or destination address as key. In case of IPv4 and TIPC, this is the actual address value. For IPv6, the 128bit address is folded into a 32bit value by XOR'ing the four 32bit words. In all other cases, the kernel-internal socket address is used (after folding into 32bits on 64bit systems).

proto Use the layer four protocol number as key.

proto-src Use the layer four source port as key. If not available, the kernel-internal socket address is used instead.

proto-dst Use the layer four destination port as key. If not available, the associated kernel-internal dst_entry address is used after XOR'ing with the packet's layer three protocol number.

iif Use the incoming interface index as key.

priority Use the packet's priority as key. Usually this is the IP header's DSCP/ECN value.

mark Use the netfilter fwmark as key.

nfct Use the associated conntrack entry address as key.

nfct-src ", " nfct-dst ", " nfct-proto-src ", " nfct-proto-dst These are conntrack-aware variants of src ", " dst ", " proto-src " and " proto-dst . In case of NAT, these are basically the packet header's values before NAT was applied.

rt-classid Use the packet's destination routing table entry's realm as key.

sk-uid .TQ sk-gid For locally generated packets, use the user or group ID the originating socket belongs to as key.

vlan-tag Use the packet's vlan ID as key.

rxhash Use the flow hash as key.

EXAMPLES

Classic SFQ hash: .EX tc filter add ... flow hash \\ keys src,dst,proto,proto-src,proto-dst divisor 1024

Classic SFQ hash, but using information from conntrack to work properly in combination with NAT: .EX tc filter add ... flow hash \\ keys nfct-src,nfct-dst,proto,nfct-proto-src,nfct-proto-dst \\ divisor 1024

Map destination IPs of 192.168.0.0/24 to classids 1-257: .EX tc filter add ... flow map \\ key dst addend -192.168.0.0 divisor 256

Alternative to the above: .EX tc filter add ... flow map \\ key dst and 0xff

The same, but in reverse order: .EX tc filter add ... flow map \\ key dst and 0xff xor 0xff

SEE ALSO
tc (8), tc-ematch (8), tc-sfq (8)