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doc/bird.sgml
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doc/bird.sgml
@ -341,10 +341,9 @@ Configuration keywords are <cf/flow4/ and <cf/flow6/.
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<sect1>MPLS switching rules
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<label id="mpls-routes">
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<p>This nettype is currently a stub before implementing more support of <rfc id="3031">.
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BIRD currently does not support any label distribution protocol nor any label assignment method.
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Only the Kernel, Pipe and Static protocols can use MPLS tables.
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Configuration keyword is <cf/mpls/.
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<p>MPLS routes control MPLS forwarding in the same way as IP routes control IP
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forwarding. MPLS-aware routing protocols produce both labeled IP routes and
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corresponding MPLS routes. Configuration keyword is <cf/mpls/.
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<itemize>
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<item>(PK) MPLS label
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@ -403,6 +402,79 @@ regular <ref id="cli-down" name="down"> command. In this way routing neighbors
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are notified about planned graceful restart and routes are kept in kernel table
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after shutdown.
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<sect>MPLS
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<label id="mpls">
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<p>Multiprotocol Label Switching (MPLS) is a networking technology which works
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below IP routing but above the link (e.g. ethernet) layer. It is described in
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<rfc id="3031">.
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In regular IP forwarding, the destination address of a packet is independently
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examined in each hop, a route with longest prefix match is selected from the
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routing table, and packet is processed accordingly. In general, there is no
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difference between border routers and internal routers w.r.t. IP forwarding.
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In MPLS forwarding, when a packet enters the network, it is classified (based on
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destination address, ingress interface and other factors) into one of forwarding
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equivalence classes (FECs), then a header with a MPLS label identifying the FEC
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is attached to it, and the packet is forwarded. In internal routers, only the
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MPLS label is examined, the matching MPLS route is selected from the MPLS
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routing table, and the packet is processed accordingly. The specific value of
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MPLS label has local meaning only and may change between hops (that is why it is
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called label switching). When the packet leaves the network, the MPLS header is
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removed.
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The advantage of the MPLS approach is that other factors than the destination
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address can be considered and used consistently in the whole network, for
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example IP traffic with multiple overlapping private address ranges could be
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mixed together, or particular paths for specific flows could be defined. Another
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advantage is that MPLS forwarding by internal routers can be much simpler than
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IP forwarding, as instead of the longest prefix match algorithm it uses simpler
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exact match for MPLS route selection. The disadvantage is additional complexity
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in signalling. For further details, see <rfc id="3031">.
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MPLS-aware routing protocols not only distribute IP routing information, but
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they also distribute labels. Therefore, they produce labeled routes - routes
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representing label switched paths (LSPs) through the MPLS domain. Such routes
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have IP prefix and next hop address like regular (non-labeled) routes, but they
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also have local MPLS label (in route attribute <ref id="rta-mpls-label"
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name="mpls_label">) and outgoing MPLS label (as a part of the next hop). They
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are stored in regular IP routing tables.
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Labeled routes are used for exchange of routing information between routing
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protocols and for ingress (IP -> MPLS) forwarding, but they are not directly
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used for MPLS forwarding. For that purpose <ref id="mpls-routes" name="MPLS
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routes"> are used. These are routes that have local MPLS label as a primary key
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and they are stored in the MPLS routing table.
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In BIRD, the whole process generally works this way: A MPLS-aware routing
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protocol (say BGP) receives routing information including remote label. It
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produces a route with attribute <ref id="rta-mpls-policy" name="mpls_policy">
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specifying desired <ref id="mpls-channel-label-policy" name="MPLS label policy">.
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Such route then passes the import filter (which could modify the MPLS label
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policy or perhaps assign a static label) and when it is accepted, a local MPLS
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label is selected (according to the label policy) and attached to the route,
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producing labeled route. When a new MPLS label is allocated, the MPLS-aware
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protocol automatically produces corresponding MPLS route. When all labeled
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routes that use specific local MPLS label are retracted, the corresponding MPLS
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route is retracted too.
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There are three important concepts for MPLS in BIRD: MPLS domains, MPLS tables
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and MPLS channels. MPLS domain represents an independent label space, all
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MPLS-aware protocols are associated with some MPLS domain. It is responsible for
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label management, handling label allocation requests from MPLS-aware protocols.
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MPLS table is just a routing table for MPLS routes. Routers usually have one
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MPLS domain and one MPLS table, with Kernel protocol to export MPLS routes into
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kernel FIB.
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MPLS channels make protocols MPLS-aware, they are responsible for keeping track
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of active FECs (and corresponding allocated labels), selecting FECs / local
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labels for labeled routes, and maintaining correspondence between labeled routes
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and MPLS routes.
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Note that local labels are allocated to individual MPLS-aware protocols and
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therefore it is not possible to share local labels between different protocols.
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<chapt>Configuration
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<label id="config">
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@ -631,6 +703,12 @@ include "tablename.conf";;
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defined by this option. See the <ref id="rtable-opts"
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name="routing table configuration section"> for routing table options.
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<tag><label id="opt-mpls-domain">mpls domain <m/name/ [ { <m/option/; [<m/.../] } ]</tag>
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Define a new MPLS domain. MPLS domains represent independent label
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spaces and are responsible for MPLS label management. All MPLS-aware
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protocols are associated with some MPLS domain. See the <ref id="mpls-opts"
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name="MPLS configuration section"> for MPLS domain options.
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<tag><label id="opt-eval">eval <m/expr/</tag>
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Evaluates given filter expression. It is used by the developers for testing of filters.
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</descrip>
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@ -1043,6 +1121,96 @@ protocol bgp from {
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</code>
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<sect>MPLS options
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<label id="mpls-opts">
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<p>The MPLS domain definition is mandatory for a MPLS router. All MPLS channels
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and MPLS-aware protocols are associated with some MPLS domain (although usually
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implicitly with the sole one). In the MPLS domain definition you can configure
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details of MPLS label allocation. Currently, there is just one option:
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<descrip>
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<tag><label id="mpls-domain-label-range">label range <m/name/ { start <m/number/; length <m/number/; [<m/.../] }</tag>
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Define a new label range, or redefine implicit label ranges <cf/static/
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and <cf/dynamic/. MPLS channels use configured label ranges for dynamic
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label allocation, while <cf/static/ label range is used for static label
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allocation. The label range definition must specify the extent of the
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range. By default, the range <cf/static/ is 16-1000, while the range
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<cf/dynamic/ is 1000-10000.
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</descrip>
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<p>MPLS channel should be defined in each MPLS-aware protocol in addition to its
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regular channels. It is responsible for label allocation and for announcing MPLS
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routes to the MPLS routing table. Besides common <ref id="channel-opts"
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name="channel options">, MPLS channels have some specific options:
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<descrip>
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<tag><label id="mpls-channel-domain">domain <m/name/</tag>
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Specify a MPLS domain to which this channel and protocol belongs.
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Default: The first defined MPLS domain.
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<tag><label id="mpls-channel-label-range">label range <m/name/</tag>
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Use specific label range for dynamic label allocation. Note that static
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labels always use the range <cf/static/. Default: the range <cf/dynamic/.
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<tag><label id="mpls-channel-label-policy">label policy static|prefix|aggregate|vrf</tag>
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Label policy specifies how routes are grouped to forwarding equivalence
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classes (FECs) and how labels are assigned to them.
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The policy <cf/static/ means no dynamic label allocation is done, and
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static labels must be set in import filters using the route attribute
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<ref id="rta-mpls-label" name="mpls_label">.
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The policy <cf/prefix/ means each prefix uses separate label associated
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with that prefix. When a labeled route is updated, it keeps the label.
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This policy is appropriate for IGPs.
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The policy <cf/aggregate/ means routes are grouped to FECs according to
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their next hops (including next hop labels), and one label is used for
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all routes in the same FEC. When a labeled route is updated, it may
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change next hop, change FEC and therefore change label. This policy is
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appropriate for BGP.
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The policy <cf/vrf/ is only valid in L3VPN protocols. It uses one label
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for all routes from a VRF, while replacing the original next hop with
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lookup in the VRF.
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Default: <cf/prefix/.
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</descrip>
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<p>This is a trivial example of MPLS setup:
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<code>
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mpls domain mdom {
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label range bgprange { start 2000; length 1000; };
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}
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mpls table mtab;
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protocol static {
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ipv6;
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mpls;
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route 2001:db8:1:1/64 mpls 100 via 2001:db8:1:2::1/64 mpls 200;
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}
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protocol bgp {
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# regular channels
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ipv6 mpls { ... };
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vpn6 mpls { ... };
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# MPLS channel
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mpls {
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# domain mdom;
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# table mtab;
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label range bgprange;
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label policy aggregate;
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};
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...
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}
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</code>
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<chapt>Remote control
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<label id="remote-control">
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@ -1885,6 +2053,29 @@ Common route attributes are:
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network for routes that do not have a native protocol metric attribute
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(like <cf/ospf_metric1/ for OSPF routes). It is used mainly by BGP to
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compare internal distances to boundary routers (see below).
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<tag><label id="rta-mpls-label"><m/int/ mpls_label</tag>
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Local MPLS label attached to the route. This attribute is produced by
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MPLS-aware protocols for labeled routes. It can also be set in import
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filters to assign static labels, but that also requires static MPLS
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label policy.
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<tag><label id="rta-mpls-policy"><m/enum/ mpls_policy</tag>
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For MPLS-aware protocols, this attribute defines which
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<ref id="mpls-channel-label-policy" name="MPLS label policy"> will be
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used for the route. It can be set in import filters to change it on
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per-route basis. Valid values are <cf/MPLS_POLICY_NONE/ (no label),
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<cf/MPLS_POLICY_STATIC/ (static label), <cf/MPLS_POLICY_PREFIX/
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(per-prefix label), <cf/MPLS_POLICY_AGGREGATE/ (aggregated label),
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and <cf/MPLS_POLICY_VRF/ (per-VRF label). See <ref
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id="mpls-channel-label-policy" name="MPLS label policy"> for details.
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<tag><label id="rta-mpls-class"><m/int/ mpls_class</tag>
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When <ref id="mpls-channel-label-policy" name="MPLS label policy"> is
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set to <cf/aggregate/, it may be useful to apply more fine-grained
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aggregation than just one based on next hops. When routes have different
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value of this attribute, they will not be aggregated under one local
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label even if they have the same next hops.
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</descrip>
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<p>Protocol-specific route attributes are described in the corresponding
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@ -3062,6 +3253,18 @@ together with their appropriate channels follows.
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</tabular>
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</table>
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<p>The BGP protocol can be configured as MPLS-aware (by defining both AFI/SAFI
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channels and the MPLS channel). In such case the BGP protocol assigns labels to
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routes imported from MPLS-aware SAFIs (i.e. <cf/ipvX mpls/ and <cf/vpnX mpls/)
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and automatically announces corresponding MPLS route for each labeled route. As
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BGP generally processes a large amount of routes, it is suggested to set MPLS
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label policy to <cf/aggregate/.
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<p>Note that even BGP instances without MPLS channel and without local MPLS
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configuration can still propagate third-party MPLS labels, e.g. as route
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reflectors, they just will not assign local labels to imported routes and will
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not announce MPLS routes for local MPLS forwarding.
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<p>Due to <rfc id="8212">, external BGP protocol requires explicit configuration
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of import and export policies (in contrast to other protocols, where default
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policies of <cf/import all/ and <cf/export none/ are used in absence of explicit
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@ -5454,6 +5657,11 @@ but only routes of the same network type are allowed, as the static protocol
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has just one channel. E.g., to have both IPv4 and IPv6 static routes, define two
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static protocols, each with appropriate routes and channel.
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<p>The Static protocol can be configured as MPLS-aware (by defining both the
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primary channel and MPLS channel). In that case the Static protocol assigns
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labels to IP routes and automatically announces corresponding MPLS route for
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each labeled route.
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<p>Global options:
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<descrip>
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@ -5477,16 +5685,20 @@ static protocols, each with appropriate routes and channel.
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<ref id="type-prefix" name="dependent on network type">.
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<descrip>
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<tag>route <m/prefix/ via <m/ip/|<m/"interface"/ [<m/per-nexthop options/] [via ...]</tag>
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Regular routes may bear one or more <ref id="route-next-hop" name="next hops">.
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Every next hop is preceded by <cf/via/ and configured as shown.
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<tag>route <m/prefix/ [mpls <m/number>] via <m/ip/|<m/"interface"/ [<m/per-nexthop options/] [via ...]</tag>
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Regular routes may bear one or more <ref id="route-next-hop" name="next
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hops">. Every next hop is preceded by <cf/via/ and configured as shown.
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<tag>route <m/prefix/ recursive <m/ip/ [mpls <m/num/[/<m/num/[/<m/num/[...]]]]</tag>
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When the Static protocol is MPLS-aware, the optional <cf/mpls/ statement
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after <m/prefix/ specifies a static label for the labeled route, instead
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of using dynamically allocated label.
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<tag>route <m/prefix/ [mpls <m/number>] recursive <m/ip/ [mpls <m/num/[/<m/num/[/<m/num/[...]]]]</tag>
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Recursive nexthop resolves the given IP in the configured IGP table and
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uses that route's next hop. The MPLS stacks are concatenated; on top is
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the IGP's nexthop stack and on bottom is this route's stack.
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<tag>route <m/prefix/ blackhole|unreachable|prohibit</tag>
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<tag>route <m/prefix/ [mpls <m/number>] blackhole|unreachable|prohibit</tag>
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Special routes specifying to silently drop the packet, return it as
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unreachable or return it as administratively prohibited. First two
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targets are also known as <cf/drop/ and <cf/reject/.
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