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authorPaul Jakma <paul.jakma@hpe.com>2015-12-02 17:47:43 +0100
committerDaniel Walton <dwalton@cumulusnetworks.com>2016-05-26 17:33:33 +0200
commitd767b4d0d1eee9eb03014d38294f4af493f0ab99 (patch)
tree99846ccdcd9fbec36491a0490c0de5b617553c2b /doc
parenttests: add more AS4 capability tests + little fixes for couple of GR test cases. (diff)
downloadfrr-d767b4d0d1eee9eb03014d38294f4af493f0ab99.tar.xz
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docs: Update bgpd docs, inc. on decision process, and with a section on MED.
* bgpd.texi: Document the -l argument. Update the 'BGP decision process' table to reflect what /actually/ is implemented. Add docs on 'compare-routerid' in the bestpath section. Add a section on MED, to highlight the issues it has by default, and to highlight that it is terminally broken for its original purpose in many modern iBGP topologies. Mention the potential workarounds and fixes. * routemap.texi: set an anchor on 'set metric' so bgpd.texi can reference it. (cherry picked from commit d5062d218994885710fe02f516f0c06025b4fc9a)
Diffstat (limited to 'doc')
-rw-r--r--doc/bgpd.texi373
-rw-r--r--doc/routemap.texi1
2 files changed, 368 insertions, 6 deletions
diff --git a/doc/bgpd.texi b/doc/bgpd.texi
index 6894db5a6..4996966af 100644
--- a/doc/bgpd.texi
+++ b/doc/bgpd.texi
@@ -1,6 +1,8 @@
@c -*-texinfo-*-
@c This is part of the Quagga Manual.
@c @value{COPYRIGHT_STR}
+@c Portions:
+@c Copyright @copyright{} 2015 Hewlett Packard Enterprise Development LP
@c See file quagga.texi for copying conditions.
@node BGP
@chapter BGP
@@ -18,6 +20,7 @@ BGP-4.
@menu
* Starting BGP::
* BGP router::
+* BGP MED::
* BGP network::
* BGP Peer::
* BGP Peer Group::
@@ -53,6 +56,13 @@ Set the bgp protocol's port number.
@item -r
@itemx --retain
When program terminates, retain BGP routes added by zebra.
+
+@item -l
+@itemx --listenon
+Specify a specific IP address for bgpd to listen on, rather than its
+default of INADDR_ANY / IN6ADDR_ANY. This can be useful to constrain bgpd
+to an internal address, or to run multiple bgpd processes on one host.
+
@end table
@node BGP router
@@ -104,18 +114,65 @@ This command set distance value to
@node BGP decision process
@subsection BGP decision process
+The decision process Quagga BGP uses to select routes is as follows:
+
@table @asis
@item 1. Weight check
+prefer higher local weight routes to lower routes.
-@item 2. Local preference check.
+@item 2. Local preference check
+prefer higher local preference routes to lower.
+
+@item 3. Local route check
+Prefer local routes (statics, aggregates, redistributed) to received routes.
+
+@item 4. AS path length check
+Prefer shortest hop-count AS_PATHs.
+
+@item 5. Origin check
+Prefer the lowest origin type route. That is, prefer IGP origin routes to
+EGP, to Incomplete routes.
+
+@item 6. MED check
+Where routes with a MED were received from the same AS,
+prefer the route with the lowest MED. @xref{BGP MED}.
+
+@item 7. External check
+Prefer the route received from an external, eBGP peer
+over routes received from other types of peers.
+
+@item 8. IGP cost check
+Prefer the route with the lower IGP cost.
-@item 3. Local route check.
+@item 9. Multi-path check
+If multi-pathing is enabled, then check whether
+the routes not yet distinguished in preference may be considered equal. If
+@ref{bgp bestpath as-path multipath-relax} is set, all such routes are
+considered equal, otherwise routes received via iBGP with identical AS_PATHs
+or routes received from eBGP neighbours in the same AS are considered equal.
-@item 4. AS path length check.
+@item 10 Already-selected external check
-@item 5. Origin check.
+Where both routes were received from eBGP peers, then prefer the route which
+is already selected. Note that this check is not applied if @ref{bgp
+bestpath compare-routerid} is configured. This check can prevent some cases
+of oscillation.
+
+@item 11. Router-ID check
+Prefer the route with the lowest @w{router-ID}. If the
+route has an @w{ORIGINATOR_ID} attribute, through iBGP reflection, then that
+router ID is used, otherwise the @w{router-ID} of the peer the route was
+received from is used.
+
+@item 12. Cluster-List length check
+The route with the shortest cluster-list
+length is used. The cluster-list reflects the iBGP reflection path the
+route has taken.
+
+@item 13. Peer address
+Prefer the route received from the peer with the higher
+transport layer address, as a last-resort tie-breaker.
-@item 6. MED check.
@end table
@deffn {BGP} {bgp bestpath as-path confed} {}
@@ -125,11 +182,36 @@ decision process.
@end deffn
@deffn {BGP} {bgp bestpath as-path multipath-relax} {}
+@anchor{bgp bestpath as-path multipath-relax}
This command specifies that BGP decision process should consider paths
of equal AS_PATH length candidates for multipath computation. Without
the knob, the entire AS_PATH must match for multipath computation.
@end deffn
+@deffn {BGP} {bgp bestpath compare-routerid} {}
+@anchor{bgp bestpath compare-routerid}
+
+Ensure that when comparing routes where both are equal on most metrics,
+including local-pref, AS_PATH length, IGP cost, MED, that the tie is broken
+based on router-ID.
+
+If this option is enabled, then the already-selected check, where
+already selected eBGP routes are preferred, is skipped.
+
+If a route has an @w{ORIGINATOR_ID} attribute because it has been reflected,
+that @w{ORIGINATOR_ID} will be used. Otherwise, the router-ID of the peer the
+route was received from will be used.
+
+The advantage of this is that the route-selection (at this point) will be
+more deterministic. The disadvantage is that a few or even one lowest-ID
+router may attract all trafic to otherwise-equal paths because of this
+check. It may increase the possibility of MED or IGP oscillation, unless
+other measures were taken to avoid these. The exact behaviour will be
+sensitive to the iBGP and reflection topology.
+
+@end deffn
+
+
@node BGP route flap dampening
@subsection BGP route flap dampening
@@ -151,6 +233,285 @@ The route-flap damping algorithm is compatible with @cite{RFC2439}. The use of t
is not recommended nowadays, see @uref{http://www.ripe.net/ripe/docs/ripe-378,,RIPE-378}.
@end deffn
+@node BGP MED
+@section BGP MED
+
+The BGP MED (Multi_Exit_Discriminator) attribute has properties which can
+cause subtle convergence problems in BGP. These properties and problems
+have proven to be hard to understand, at least historically, and may still
+not be widely understood. The following attempts to collect together and
+present what is known about MED, to help operators and Quagga users in
+designing and configuring their networks.
+
+The BGP @acronym{MED, Multi_Exit_Discriminator} attribute is intended to
+allow one AS to indicate its preferences for its ingress points to another
+AS. The MED attribute will not be propagated on to another AS by the
+receiving AS - it is `non-transitive' in the BGP sense.
+
+E.g., if AS X and AS Y have 2 different BGP peering points, then AS X
+might set a MED of 100 on routes advertised at one and a MED of 200 at the
+other. When AS Y selects between otherwise equal routes to or via
+AS X, AS Y should prefer to take the path via the lower MED peering of 100 with
+AS X. Setting the MED allows an AS to influence the routing taken to it
+within another, neighbouring AS.
+
+In this use of MED it is not really meaningful to compare the MED value on
+routes where the next AS on the paths differs. E.g., if AS Y also had a
+route for some destination via AS Z in addition to the routes from AS X, and
+AS Z had also set a MED, it wouldn't make sense for AS Y to compare AS Z's
+MED values to those of AS X. The MED values have been set by different
+administrators, with different frames of reference.
+
+The default behaviour of BGP therefore is to not compare MED values across
+routes received from different neighbouring ASes. In Quagga this is done by
+comparing the neighbouring, left-most AS in the received AS_PATHs of the
+routes and only comparing MED if those are the same.
+
+@c TeXInfo uses the old, non-UTF-8 capable, pdftex, and so
+@c doesn't render TeX the unicode precedes character correctly in PDF, etc.
+@c Using a TeX code on the other hand doesn't work for non-TeX outputs
+@c (plaintext, e.g.). So, use an output-conditional macro.
+
+@iftex
+@macro mprec{}
+@math{\\prec}
+@end macro
+@end iftex
+
+@ifnottex
+@macro mprec{}
+@math{≺}
+@end macro
+@end ifnottex
+
+Unfortunately, this behaviour of MED, of sometimes being compared across
+routes and sometimes not, depending on the properties of those other routes,
+means MED can cause the order of preference over all the routes to be
+undefined. That is, given routes A, B, and C, if A is preferred to B, and B
+is preferred to C, then a well-defined order should mean the preference is
+transitive (in the sense of orders @footnote{For some set of objects to have
+an order, there @emph{must} be some binary ordering relation that is defined
+for @emph{every} combination of those objects, and that relation @emph{must}
+be transitive. I.e.@:, if the relation operator is @mprec{}, and if
+a @mprec{} b and b @mprec{} c then that relation must carry over
+and it @emph{must} be that a @mprec{} c for the objects to have an
+order. The ordering relation may allow for equality, i.e.
+a @mprec{} b and b @mprec{} a may both be true amd imply that
+a and b are equal in the order and not distinguished by it, in
+which case the set has a partial order. Otherwise, if there is an order,
+all the objects have a distinct place in the order and the set has a total
+order.}) and that A would be preferred to C.
+
+@c No longer need the precedes character definition
+@unmacro mprec
+
+However, when MED is involved this need not be the case. With MED it is
+possible that C is actually preferred over A. So A is preferred to B, B is
+preferred to C, but C is preferred to A. This can be true even where BGP
+defines a deterministic ``most preferred'' route out of the full set of
+A,B,C. With MED, for any given set of routes there may be a
+deterministically preferred route, but there need not be any way to arrange
+them into any order of preference. With unmodified MED, the order of
+preference of routes literally becomes undefined.
+
+That MED can induce non-transitive preferences over routes can cause issues.
+Firstly, it may be perceived to cause routing table churn locally at
+speakers; secondly, and more seriously, it may cause routing instability in
+iBGP topologies, where sets of speakers continually oscillate between
+different paths.
+
+The first issue arises from how speakers often implement routing decisions.
+Though BGP defines a selection process that will deterministically select
+the same route as best at any given speaker, even with MED, that process
+requires evaluating all routes together. For performance and ease of
+implementation reasons, many implementations evaluate route preferences in a
+pair-wise fashion instead. Given there is no well-defined order when MED is
+involved, the best route that will be chosen becomes subject to
+implementation details, such as the order the routes are stored in. That
+may be (locally) non-deterministic, e.g.@: it may be the order the routes
+were received in.
+
+This indeterminism may be considered undesirable, though it need not cause
+problems. It may mean additional routing churn is perceived, as sometimes
+more updates may be produced than at other times in reaction to some event .
+
+This first issue can be fixed with a more deterministic route selection that
+ensures routes are ordered by the neighbouring AS during selection.
+@xref{bgp deterministic-med}. This may reduce the number of updates as
+routes are received, and may in some cases reduce routing churn. Though, it
+could equally deterministically produce the largest possible set of updates
+in response to the most common sequence of received updates.
+
+A deterministic order of evaluation tends to imply an additional overhead of
+sorting over any set of n routes to a destination. The implementation of
+deterministic MED in Quagga scales significantly worse than most sorting
+algorithms at present, with the number of paths to a given destination.
+That number is often low enough to not cause any issues, but where there are
+many paths, the deterministic comparison may quickly become increasingly
+expensive in terms of CPU.
+
+Deterministic local evaluation can @emph{not} fix the second, more major,
+issue of MED however. Which is that the non-transitive preference of routes
+MED can cause may lead to routing instability or oscillation across multiple
+speakers in iBGP topologies. This can occur with full-mesh iBGP, but is
+particularly problematic in non-full-mesh iBGP topologies that further
+reduce the routing information known to each speaker. This has primarily
+been documented with iBGP route-reflection topologies. However, any
+route-hiding technologies potentially could also exacerbate oscillation with
+MED.
+
+This second issue occurs where speakers each have only a subset of routes,
+and there are cycles in the preferences between different combinations of
+routes - as the undefined order of preference of MED allows - and the routes
+are distributed in a way that causes the BGP speakers to 'chase' those
+cycles. This can occur even if all speakers use a deterministic order of
+evaluation in route selection.
+
+E.g., speaker 4 in AS A might receive a route from speaker 2 in AS X, and
+from speaker 3 in AS Y; while speaker 5 in AS A might receive that route
+from speaker 1 in AS Y. AS Y might set a MED of 200 at speaker 1, and 100
+at speaker 3. I.e, using ASN:ID:MED to label the speakers:
+
+@example
+
+ /---------------\
+ X:2------|--A:4-------A:5--|-Y:1:200
+ Y:3:100--|-/ |
+ \---------------/
+
+@end example
+
+Assuming all other metrics are equal (AS_PATH, ORIGIN, 0 IGP costs), then
+based on the RFC4271 decision process speaker 4 will choose X:2 over
+Y:3:100, based on the lower ID of 2. Speaker 4 advertises X:2 to speaker 5.
+Speaker 5 will continue to prefer Y:1:200 based on the ID, and advertise
+this to speaker 4. Speaker 4 will now have the full set of routes, and the
+Y:1:200 it receives from 5 will beat X:2, but when speaker 4 compares
+Y:1:200 to Y:3:100 the MED check now becomes active as the ASes match, and
+now Y:3:100 is preferred. Speaker 4 therefore now advertises Y:3:100 to 5,
+which will also agrees that Y:3:100 is preferred to Y:1:200, and so
+withdraws the latter route from 4. Speaker 4 now has only X:2 and Y:3:100,
+and X:2 beats Y:3:100, and so speaker 4 implicitly updates its route to
+speaker 5 to X:2. Speaker 5 sees that Y:1:200 beats X:2 based on the ID,
+and advertises Y:1:200 to speaker 4, and the cycle continues.
+
+The root cause is the lack of a clear order of preference caused by how MED
+sometimes is and sometimes is not compared, leading to this cycle in the
+preferences between the routes:
+
+@example
+
+ /---> X:2 ---beats---> Y:3:100 --\
+ | |
+ | |
+ \---beats--- Y:1:200 <---beats---/
+
+@end example
+
+This particular type of oscillation in full-mesh iBGP topologies can be
+avoided by speakers preferring already selected, external routes rather than
+choosing to update to new a route based on a post-MED metric (e.g.
+router-ID), at the cost of a non-deterministic selection process. Quagga
+implements this, as do many other implementations, so long as it is not
+overridden by setting @ref{bgp bestpath compare-routerid}, and see also
+@ref{BGP decision process}, .
+
+However, more complex and insidious cycles of oscillation are possible with
+iBGP route-reflection, which are not so easily avoided. These have been
+documented in various places. See, e.g., @cite{McPherson, D. and Gill, V.
+and Walton, D., "Border Gateway Protocol (BGP) Persistent Route Oscillation
+Condition", IETF RFC3345}, and @cite{Flavel, A. and M. Roughan, "Stable
+and flexible iBGP", ACM SIGCOMM 2009}, and @cite{Griffin, T. and G. Wilfong,
+"On the correctness of IBGP configuration", ACM SIGCOMM 2002} for concrete
+examples and further references.
+
+There is as of this writing @emph{no} known way to use MED for its original
+purpose; @emph{and} reduce routing information in iBGP topologies;
+@emph{and} be sure to avoid the instability problems of MED due the
+non-transitive routing preferences it can induce; in general on arbitrary
+networks.
+
+There may be iBGP topology specific ways to reduce the instability risks,
+even while using MED, e.g.@: by constraining the reflection topology and by
+tuning IGP costs between route-reflector clusters, see RFC3345 for details.
+In the near future, the Add-Path extension to BGP may also solve MED
+oscillation while still allowing MED to be used as intended, by distributing
+"best-paths per neighbour AS". This would be at the cost of distributing at
+least as many routes to all speakers as a full-mesh iBGP would, if not more,
+while also imposing similar CPU overheads as the "Deterministic MED" feature
+at each Add-Path reflector.
+
+More generally, the instability problems that MED can introduce on more
+complex, non-full-mesh, iBGP topologies may be avoided either by:
+
+@itemize
+
+@item
+Setting @ref{bgp always-compare-med}, however this allows MED to be compared
+across values set by different neighbour ASes, which may not produce
+coherent desirable results, of itself.
+
+@item
+Effectively ignoring MED by setting MED to the same value (e.g.@: 0) using
+@ref{routemap set metric} on all received routes, in combination with
+setting @ref{bgp always-compare-med} on all speakers. This is the simplest
+and most performant way to avoid MED oscillation issues, where an AS is happy
+not to allow neighbours to inject this problematic metric.
+
+@end itemize
+
+As MED is evaluated after the AS_PATH length check, another possible use for
+MED is for intra-AS steering of routes with equal AS_PATH length, as an
+extension of the last case above. As MED is evaluated before IGP metric,
+this can allow cold-potato routing to be implemented to send traffic to
+preferred hand-offs with neighbours, rather than the closest hand-off
+according to the IGP metric.
+
+Note that even if action is taken to address the MED non-transitivity
+issues, other oscillations may still be possible. E.g., on IGP cost if
+iBGP and IGP topologies are at cross-purposes with each other - see the
+Flavel and Roughan paper above for an example. Hence the guideline that the
+iBGP topology should follow the IGP topology.
+
+@deffn {BGP} {bgp deterministic-med} {}
+@anchor{bgp deterministic-med}
+
+Carry out route-selection in way that produces deterministic answers
+locally, even in the face of MED and the lack of a well-defined order of
+preference it can induce on routes. Without this option the preferred route
+with MED may be determined largely by the order that routes were received
+in.
+
+Setting this option will have a performance cost that may be noticeable when
+there are many routes for each destination. Currently in Quagga it is
+implemented in a way that scales poorly as the number of routes per
+destination increases.
+
+The default is that this option is not set.
+@end deffn
+
+Note that there are other sources of indeterminism in the route selection
+process, specifically, the preference for older and already selected routes
+from eBGP peers, @xref{BGP decision process}.
+
+@deffn {BGP} {bgp always-compare-med} {}
+@anchor{bgp always-compare-med}
+
+Always compare the MED on routes, even when they were received from
+different neighbouring ASes. Setting this option makes the order of
+preference of routes more defined, and should eliminate MED induced
+oscillations.
+
+If using this option, it may also be desirable to use @ref{routemap set
+metric} to set MED to 0 on routes received from external neighbours.
+
+This option can be used, together with @ref{routemap set metric} to use MED
+as an intra-AS metric to steer equal-length AS_PATH routes to, e.g., desired
+exit points.
+@end deffn
+
+
+
@node BGP network
@section BGP network
@@ -188,7 +549,7 @@ This command specifies an aggregate address.
@end deffn
@deffn {BGP} {aggregate-address @var{A.B.C.D/M} as-set} {}
-This command specifies an aggregate address. Resulting routes inlucde
+This command specifies an aggregate address. Resulting routes include
AS set.
@end deffn
diff --git a/doc/routemap.texi b/doc/routemap.texi
index c2de36c6d..b3ef7ca76 100644
--- a/doc/routemap.texi
+++ b/doc/routemap.texi
@@ -175,6 +175,7 @@ Set the route's weight.
@end deffn
@deffn {Route-map Command} {set metric @var{metric}} {}
+@anchor{routemap set metric}
Set the BGP attribute MED.
@end deffn