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author | Damjan Marion <damarion@cisco.com> | 2016-12-19 23:05:39 +0100 |
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committer | Damjan Marion <damarion@cisco.com> | 2016-12-28 12:25:14 +0100 |
commit | 7cd468a3d7dee7d6c92f69a0bb7061ae208ec727 (patch) | |
tree | 5de62f8dbd3a752f5a676ca600e43d2652d1ff1a /src/vnet/classify/README | |
parent | 696f1adec0df3b8f161862566dd9c86174302658 (diff) |
Reorganize source tree to use single autotools instance
Change-Id: I7b51f88292e057c6443b12224486f2d0c9f8ae23
Signed-off-by: Damjan Marion <damarion@cisco.com>
Diffstat (limited to 'src/vnet/classify/README')
-rw-r--r-- | src/vnet/classify/README | 180 |
1 files changed, 180 insertions, 0 deletions
diff --git a/src/vnet/classify/README b/src/vnet/classify/README new file mode 100644 index 00000000..1ef5ab5a --- /dev/null +++ b/src/vnet/classify/README @@ -0,0 +1,180 @@ +=== vnet classifier theory of operation === + +The vnet classifier trades off simplicity and perf / scale +characteristics. At a certain level, it's a dumb robot. Given an +incoming packet, search an ordered list of (mask, match) tables. If +the classifier finds a matching entry, take the indicated action. If +not, take a last-resort action. + +We use the MMX-unit to match or hash 16 octets at a time. For hardware +backward compatibility, the code does not [currently] use 256-bit +(32-octet) vector instructions. + +Effective use of the classifier centers around building table lists +which "hit" as soon as practicable. In many cases, established +sessions hit in the first table. In this mode of operation, the +classifier easily processes multiple MPPS / core - even with millions +of sessions in the data base. Searching 357 tables on a regular basis +will neatly solve the halting problem. + +==== Basic operation ==== + +The classifier mask-and-match operation proceeds as follows. Given a +starting classifier table index, lay hands on the indicated mask +vector. When building tables, we arrange for the mask to obey +mmx-unit (16-octet) alignment. + +We know that the first octet of packet data starts on a cache-line +boundary. Further, it's reasonably likely that folks won't want to use +the generalized classifier on the L2 header; preferring to decode the +Ethertype manually. That scheme makes it easy to select among ip4 / +ip6 / MPLS, etc. classifier table sets. + +A no-vlan-tag L2 header is 14 octets long. A typical ipv4 header +begins with the octets 0x4500: version=4, header_length=5, DSCP=0, +ECN=0. If one doesn't intend to classify on (DSCP, ECN) - the typical +case - we program the classifier to skip the first 16-octet vector. + +To classify untagged ipv4 packets on source address, we program the +classifier to skip one vector, and mask-and-match one vector. + +The basic match-and-match operation looks like this: + + switch (t->match_n_vectors) + { + case 1: + result = (data[0 + t->skip_n_vectors] & mask[0]) ^ key[0]; + break; + + case 2: + result = (data[0 + t->skip_n_vectors] & mask[0]) ^ key[0]; + result |= (data[1 + t->skip_n_vectors] & mask[1]) ^ key[1]; + break; + + <etc> + } + + result_mask = u32x4_zero_byte_mask (result); + if (result_mask == 0xffff) + return (v); + +Net of setup, it costs a couple of clock cycles to mask-and-match 16 +octets. + +At the risk of belaboring an obvious point, the control-plane +'''must''' pay attention to detail. When skipping one (or more) +vectors, masks and matches must reflect that decision. See +.../vnet/vnet/classify/vnet_classify.c:unformat_classify_[mask|match]. Note +that vec_validate (xxx, 13) creates a 14-element vector. + +==== Creating a classifier table ==== + +To create a new classifier table via the control-plane API, send a +"classify_add_del_table" message. The underlying action routine, +vnet_classify_add_del_table(...), is located in +.../vnet/vnet/classify/vnet_classify.c, and has the following +prototype: + + int vnet_classify_add_del_table (vnet_classify_main_t * cm, + u8 * mask, + u32 nbuckets, + u32 memory_size, + u32 skip, + u32 match, + u32 next_table_index, + u32 miss_next_index, + u32 * table_index, + int is_add) + +Pass cm = &vnet_classify_main if calling this routine directly. Mask, +skip(_n_vectors) and match(_n_vectors) are as described above. Mask +need not be aligned, but it must be match*16 octets in length. To +avoid having your head explode, be absolutely certain that '''only''' +the bits you intend to match on are set. + +The classifier uses thread-safe, no-reader-locking-required +bounded-index extensible hashing. Nbuckets is the [fixed] size of the +hash bucket vector. The algorithm works in constant time regardless of +hash collisions, but wastes space when the bucket array is too +small. A good rule of thumb: let nbuckets = approximate number of +entries expected. + +At a signficant cost in complexity, it would be possible to resize the +bucket array dynamically. We have no plans to implement that function. + +Each classifier table has its own clib mheap memory allocation +arena. To pick the memory_size parameter, note that each classifier +table entry needs 16*(1 + match_n_vectors) bytes. Within reason, aim a +bit high. Clib mheap memory uses o/s level virtual memory - not wired +or hugetlb memory - so it's best not to scrimp on size. + +The "next_table_index" parameter is as described: the pool index in +vnet_classify_main.tables of the next table to search. Code ~0 to +indicate the end of the table list. 0 is a valid table index! + +We often create classification tables in reverse order - +last-table-searched to first-table-searched - so we can easily set +this parameter. Of course, one can manually adjust the data structure +after-the-fact. + +Specific classifier client nodes - for example, +.../vnet/vnet/classify/ip_classify.c - interpret the "miss_next_index" +parameter as a vpp graph-node next index. When packet classification +fails to produce a match, ip_classify_inline sends packets to the +indicated disposition. A classifier application might program this +parameter to send packets which don't match an existing session to a +"first-sign-of-life, create-new-session" node. + +Finally, the is_add parameter indicates whether to add or delete the +indicated table. The delete case implicitly terminates all sessions +with extreme prejudice, by freeing the specified clib mheap. + +==== Creating a classifier session ==== + +To create a new classifier session via the control-plane API, send a +"classify_add_del_session" message. The underlying action routine, +vnet_classify_add_del_session(...), is located in +.../vnet/vnet/classify/vnet_classify.c, and has the following +prototype: + +int vnet_classify_add_del_session (vnet_classify_main_t * cm, + u32 table_index, + u8 * match, + u32 hit_next_index, + u32 opaque_index, + i32 advance, + int is_add) + +Pass cm = &vnet_classify_main if calling this routine directly. Table +index specifies the table which receives the new session / contains +the session to delete depending on is_add. + +Match is the key for the indicated session. It need not be aligned, +but it must be table->match_n_vectors*16 octets in length. As a +courtesy, vnet_classify_add_del_session applies the table's mask to +the stored key-value. In this way, one can create a session by passing +unmasked (packet_data + offset) as the "match" parameter, and end up +with unconfusing session keys. + +Specific classifier client nodes - for example, +.../vnet/vnet/classify/ip_classify.c - interpret the per-session +hit_next_index parameter as a vpp graph-node next index. When packet +classification produces a match, ip_classify_inline sends packets to +the indicated disposition. + +ip4/6_classify place the per-session opaque_index parameter into +vnet_buffer(b)->l2_classify.opaque_index; a slight misnomer, but +anyhow classifier applications can send session-hit packets to +specific graph nodes, with useful values in buffer metadata. Depending +on the required semantics, we send known-session traffic to a certain +node, with e.g. a session pool index in buffer metadata. It's totally +up to the control-plane and the specific use-case. + +Finally, nodes such as ip4/6-classify apply the advance parameter as a +[signed!] argument to vlib_buffer_advance(...); to "consume" a +networking layer. Example: if we classify incoming tunneled IP packets +by (inner) source/dest address and source/dest port, we might choose +to decapsulate and reencapsulate the inner packet. In such a case, +program the advance parameter to perform the tunnel decapsulation, and +program next_index to send traffic to a node which uses +e.g. opaque_index to output traffic on a specific tunnel interface. |