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authorNathan Skrzypczak <nathan.skrzypczak@gmail.com>2021-10-08 14:05:35 +0200
committerDave Wallace <dwallacelf@gmail.com>2021-10-13 23:22:20 +0000
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parent1e4281223ab4d655b54496ae13fbdb68f867e351 (diff)
docs: convert plugins doc md->rst
Type: improvement Change-Id: I7e821cce1feae229e1be4baeed249b9cca658135 Signed-off-by: Nathan Skrzypczak <nathan.skrzypczak@gmail.com>
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-# Load Balancer plugin for VPP {#lb_plugin_doc}
-
-## Version
-
-The load balancer plugin is currently in *beta* version.
-Both CLIs and APIs are subject to *heavy* changes,
-which also means feedback is really welcome regarding features, apis, etc...
-
-## Overview
-
-This plugin provides load balancing for VPP in a way that is largely inspired
-from Google's MagLev: http://research.google.com/pubs/pub44824.html
-
-The load balancer is configured with a set of Virtual IPs (VIP, which can be
-prefixes), and for each VIP, with a set of Application Server addresses (ASs).
-
-There are four encap types to steer traffic to different ASs:
-1). IPv4+GRE ad IPv6+GRE encap types:
-Traffic received for a given VIP (or VIP prefix) is tunneled using GRE towards
-the different ASs in a way that (tries to) ensure that a given session will
-always be tunneled to the same AS.
-
-2). IPv4+L3DSR encap types:
-L3DSR is used to overcome Layer 2 limitations of Direct Server Return Load Balancing.
-It maps VIP to DSCP bits, and reuse TOS bits to transfer DSCP bits
-to server, and then server will get VIP from DSCP-to-VIP mapping.
-
-Both VIPs or ASs can be IPv4 or IPv6, but for a given VIP, all ASs must be using
-the same encap. type (i.e. IPv4+GRE or IPv6+GRE or IPv4+L3DSR).
-Meaning that for a given VIP, all AS addresses must be of the same family.
-
-3). IPv4/IPv6 + NAT4/NAT6 encap types:
-This type provides kube-proxy data plane on user space,
-which is used to replace linux kernel's kube-proxy based on iptables.
-
-Currently, load balancer plugin supports three service types:
-a) Cluster IP plus Port: support any protocols, including TCP, UDP.
-b) Node IP plus Node Port: currently only support UDP.
-c) External Load Balancer.
-
-For Cluster IP plus Port case:
-kube-proxy is configured with a set of Virtual IPs (VIP, which can be
-prefixes), and for each VIP, with a set of AS addresses (ASs).
-
-For a specific session received for a given VIP (or VIP prefix),
-first packet selects a AS according to internal load balancing algorithm,
-then does DNAT operation and sent to chosen AS.
-At the same time, will create a session entry to store AS chosen result.
-Following packets for that session will look up session table first,
-which ensures that a given session will always be routed to the same AS.
-
-For returned packet from AS, it will do SNAT operation and sent out.
-
-Please refer to below for details:
-https://schd.ws/hosted_files/ossna2017/1e/VPP_K8S_GTPU_OSSNA.pdf
-
-
-## Performance
-
-The load balancer has been tested up to 1 millions flows and still forwards more
-than 3Mpps per core in such circumstances.
-Although 3Mpps seems already good, it is likely that performance will be improved
-in next versions.
-
-## Configuration
-
-### Global LB parameters
-
-The load balancer needs to be configured with some parameters:
-
- lb conf [ip4-src-address <addr>] [ip6-src-address <addr>]
- [buckets <n>] [timeout <s>]
-
-ip4-src-address: the source address used to send encap. packets using IPv4 for GRE4 mode.
- or Node IP4 address for NAT4 mode.
-
-ip6-src-address: the source address used to send encap. packets using IPv6 for GRE6 mode.
- or Node IP6 address for NAT6 mode.
-
-buckets: the *per-thread* established-connections-table number of buckets.
-
-timeout: the number of seconds a connection will remain in the
- established-connections-table while no packet for this flow
- is received.
-
-### Configure the VIPs
-
- lb vip <prefix> [encap (gre6|gre4|l3dsr|nat4|nat6)] \
- [dscp <n>] [port <n> target_port <n> node_port <n>] [new_len <n>] [del]
-
-new_len is the size of the new-connection-table. It should be 1 or 2 orders of
-magnitude bigger than the number of ASs for the VIP in order to ensure a good
-load balancing.
-Encap l3dsr and dscp is used to map VIP to dscp bit and rewrite DSCP bit in packets.
-So the selected server could get VIP from DSCP bit in this packet and perform DSR.
-Encap nat4/nat6 and port/target_port/node_port is used to do kube-proxy data plane.
-
-Examples:
-
- lb vip 2002::/16 encap gre6 new_len 1024
- lb vip 2003::/16 encap gre4 new_len 2048
- lb vip 80.0.0.0/8 encap gre6 new_len 16
- lb vip 90.0.0.0/8 encap gre4 new_len 1024
- lb vip 100.0.0.0/8 encap l3dsr dscp 2 new_len 32
- lb vip 90.1.2.1/32 encap nat4 port 3306 target_port 3307 node_port 30964 new_len 1024
- lb vip 2004::/16 encap nat6 port 6306 target_port 6307 node_port 30966 new_len 1024
-
-### Configure the ASs (for each VIP)
-
- lb as <vip-prefix> [<address> [<address> [...]]] [del]
-
-You can add (or delete) as many ASs at a time (for a single VIP).
-Note that the AS address family must correspond to the VIP encap. IP family.
-
-Examples:
-
- lb as 2002::/16 2001::2 2001::3 2001::4
- lb as 2003::/16 10.0.0.1 10.0.0.2
- lb as 80.0.0.0/8 2001::2
- lb as 90.0.0.0/8 10.0.0.1
-
-### Configure SNAT
-
- lb set interface nat4 in <intfc> [del]
-
-Set SNAT feature in a specific interface.
-(applicable in NAT4 mode only)
-
- lb set interface nat6 in <intfc> [del]
-
-Set SNAT feature in a specific interface.
-(applicable in NAT6 mode only)
-
-## Monitoring
-
-The plugin provides quite a bunch of counters and information.
-These are still subject to quite significant changes.
-
- show lb
- show lb vip
- show lb vip verbose
-
- show node counters
-
-
-## Design notes
-
-### Multi-Threading
-
-MagLev is a distributed system which pseudo-randomly generates a
-new-connections-table based on AS names such that each server configured with
-the same set of ASs ends up with the same table. Connection stickyness is then
-ensured with an established-connections-table. Using ECMP, it is assumed (but
-not relied on) that servers will mostly receive traffic for different flows.
-
-This implementation pushes the parallelism a little bit further by using
-one established-connections table per thread. This is equivalent to assuming
-that RSS will make a job similar to ECMP, and is pretty useful as threads don't
-need to get a lock in order to write in the table.
-
-### Hash Table
-
-A load balancer requires an efficient read and write hash table. The hash table
-used by ip6-forward is very read-efficient, but not so much for writing. In
-addition, it is not a big deal if writing into the hash table fails (again,
-MagLev uses a flow table but does not heaviliy relies on it).
-
-The plugin therefore uses a very specific (and stupid) hash table.
- - Fixed (and power of 2) number of buckets (configured at runtime)
- - Fixed (and power of 2) elements per buckets (configured at compilation time)
-
-### Reference counting
-
-When an AS is removed, there is two possible ways to react.
- - Keep using the AS for established connections
- - Change AS for established connections (likely to cause error for TCP)
-
-In the first case, although an AS is removed from the configuration, its
-associated state needs to stay around as long as it is used by at least one
-thread.
-
-In order to avoid locks, a specific reference counter is used. The design is quite
-similar to clib counters but:
- - It is possible to decrease the value
- - Summing will not zero the per-thread counters
- - Only the thread can reallocate its own counters vector (to avoid concurrency issues)
-
-This reference counter is lock free, but reading a count of 0 does not mean
-the value can be freed unless it is ensured by *other* means that no other thread
-is concurrently referencing the object. In the case of this plugin, it is assumed
-that no concurrent event will take place after a few seconds.
-