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authorDavid S. Miller <davem@davemloft.net>2020-01-27 10:17:15 +0100
committerDavid S. Miller <davem@davemloft.net>2020-01-27 10:17:15 +0100
commit16b25d1a968e683eeef7523a4bbc4c8fd63aeedc (patch)
tree616072a219c68cd485c26bbb19c4dba9e1a11bef /kernel
parent32efcc06d2a15fa87585614d12d6c2308cc2d3f3 (diff)
parent611973c1e06faef31d034deeb3ae7b7960b1f043 (diff)
downloadlinux-16b25d1a968e683eeef7523a4bbc4c8fd63aeedc.tar.bz2
Merge git://git.kernel.org/pub/scm/linux/kernel/git/pablo/nf-next
Pablo Neira Ayuso says: ==================== Netfilter updates for net-next This batch contains Netfilter updates for net-next: 1) Add nft_setelem_parse_key() helper function. 2) Add NFTA_SET_ELEM_KEY_END to specify a range with one single element. 3) Add NFTA_SET_DESC_CONCAT to describe the set element concatenation, from Stefano Brivio. 4) Add bitmap_cut() to copy n-bits from source to destination, from Stefano Brivio. 5) Add set to match on arbitrary concatenations, from Stefano Brivio. 6) Add selftest for this new set type. An extract of Stefano's description follows: "Existing nftables set implementations allow matching entries with interval expressions (rbtree), e.g. 192.0.2.1-192.0.2.4, entries specifying field concatenation (hash, rhash), e.g. 192.0.2.1:22, but not both. In other words, none of the set types allows matching on range expressions for more than one packet field at a time, such as ipset does with types bitmap:ip,mac, and, to a more limited extent (netmasks, not arbitrary ranges), with types hash:net,net, hash:net,port, hash:ip,port,net, and hash:net,port,net. As a pure hash-based approach is unsuitable for matching on ranges, and "proxying" the existing red-black tree type looks impractical as elements would need to be shared and managed across all employed trees, this new set implementation intends to fill the functionality gap by employing a relatively novel approach. The fundamental idea, illustrated in deeper detail in patch 5/9, is to use lookup tables classifying a small number of grouped bits from each field, and map the lookup results in a way that yields a verdict for the full set of specified fields. The grouping bit aspect is loosely inspired by the Grouper algorithm, by Jay Ligatti, Josh Kuhn, and Chris Gage (see patch 5/9 for the full reference). A reference, stand-alone implementation of the algorithm itself is available at: https://pipapo.lameexcu.se Some notes about possible future optimisations are also mentioned there. This algorithm reduces the matching problem to, essentially, a repetitive sequence of simple bitwise operations, and is particularly suitable to be optimised by leveraging SIMD instruction sets." ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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