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authorNeale Ranns <nranns@cisco.com>2018-08-31 00:45:19 -0700
committerNeale Ranns <nranns@cisco.com>2018-08-31 12:45:48 +0000
commit75c276f9e3746b8bd74de368f9c3e23acf186b67 (patch)
tree6bf875cc12fd4f57eae47a14992fcebd3c25a161 /docs/gettingstarted/developers/fib20
parent98eb4c224d9e9a8fb205f991e544e75b9cfb207b (diff)
Docs: update MPLS FIB section with text from the wiki
Change-Id: I9d903db89facc916fb5dd23d564417230e1c76e0 Signed-off-by: Neale Ranns <nranns@cisco.com>
Diffstat (limited to 'docs/gettingstarted/developers/fib20')
-rw-r--r--docs/gettingstarted/developers/fib20/mplsfib.rst201
1 files changed, 152 insertions, 49 deletions
diff --git a/docs/gettingstarted/developers/fib20/mplsfib.rst b/docs/gettingstarted/developers/fib20/mplsfib.rst
index 5fee7d0cd7f..c9f3d5d9ad1 100644
--- a/docs/gettingstarted/developers/fib20/mplsfib.rst
+++ b/docs/gettingstarted/developers/fib20/mplsfib.rst
@@ -1,45 +1,87 @@
.. _mplsfib:
MPLS FIB
-----------
+--------
-There is a tight coupling between IP and MPLS forwarding. MPLS forwarding
-equivalence classes (FECs) are often an IP prefix Рthat is to say that traffic
-matching a given IP prefix is routed into a MPLS label switch path (LSP). It is
-thus necessary to be able to associated a given prefix/route with an [out-going]
-MPLS label that will be imposed when the packet is forwarded. This is configured
-as:
+Implementation
+^^^^^^^^^^^^^^^
+
+The MPLS FIB is implemented using exactly the same data structures as
+the IP FIB. The only difference is the implementation of the
+table. Whereas for IPv4 this is an mtrie and for IPv6 a hash table,
+for MPLS it is a flat array indexed by a 21 bit key (label & EOS
+bit). This implementation is chosen to favour packet forwarding speed.
+
+Basics
+^^^^^^
+
+MPLS is not enabled by default. There are two steps to get
+started. First, create the default MPLS FIB:
.. code-block:: console
- $ ip route add 1.1.1.1/32 via 10.10.10.10 GigabitEthernet0/8/0 out-label 33
+ $ mpls table add 0
+
+With '0' being the magic number for the 'default' table (just like it
+is for IPv[46]). One can create other MPLS tables, but, unlike IP
+tables, one cannot 'bind' non-default MPLS tables to interfaces, in
+other words all MPLS packets received on an interface will always
+result in a lookup in the default table. One has to be more inventive
+to use the non-default tables...
-packets matching 1.1.1.1/32 will be forwarded out GigabitEthernet0/8/0 and have MPLS label
-33 imposed. More than one out-going label can be specified. Out-going MPLS labels
-can be applied to recursive and non-recursive routes, e.g;
+Secondly, for *each* interface on which you wish to *receive* MPLS
+packets, that interface must be MPLS 'enabled'
.. code-block:: console
- $ ip route add 2.2.2.0/24 via 1.1.1.1 out-label 34
+ $ set interface mpls GigEthernet0/0/0 enable
-packets matching 2.2.2.0/24 will thus have two MPLS labels imposed; 34 and 33.
-This is the realisation of, e,g, an MPLS BGP VPNv4.
+there is no equivalent enable for transmit, all that is required is to
+use an interface as an egress path.
-To associate/allocate a local-label for a prefix, and thus have packets to that
-local-label forwarded equivalently to the prefix do;
+Entries in the MPLS FIB can be displayed with:
.. code-block:: console
- $ mpls local-label 99 2.2.2.0/24
+ $ sh mpls fib [table X] [label]
+
+There is a tight coupling between IP and MPLS forwarding. MPLS
+forwarding equivalence classes (FECs) are often an IP prefix – that is
+to say that traffic matching a given IP prefix is routed into a MPLS
+label switch path (LSP). It is thus necessary to be able to associated
+a given prefix/route with an [out-going] MPLS label that will be
+imposed when the packet is forwarded. This is configured as:
+
+.. code-block:: console
+
+ $ ip route add 1.1.1.1/32 via 10.10.10.10 GigEthernet0/0/0 out-labels 33
+
+packets matching 1.1.1.1/32 will be forwarded out GigEthernet0/0/0 and have
+MPLS label 33 imposed. More than one out-going label can be
+specified. Out-going MPLS labels can be applied to recursive and
+non-recursive routes, e.g;
+
+.. code-block:: console
-In the API this action is called a *bind*.
+ $ ip route add 2.2.2.0/24 via 1.1.1.1 out-labels 34
-The router receiving the MPLS encapsulated packets needs to be programmed with
-actions associated which each label value Рthis is the role of the MPLS FIB.
-The MPLS FIB Is a table, whose key is the MPLS label value and end-of-stack (EOS)
-bit, which stores the action to perform on packets with matching encapsulation.
+packets matching 2.2.2.0/24 will thus have two MPLS labels imposed; 34
+and 33. This is the realisation of, e,g, an MPLS BGP VPNv4.
-Currently supported actions are:
+To associate/allocate a local-label for a prefix, and thus have
+packets to that local-label forwarded equivalently to the prefix do;
+
+.. code-block:: console
+
+ $ mpls local-label 99 2.2.2.0/24
+
+In the API this action is called a ‘bind’.
+The router receiving the MPLS encapsulated packets needs to be
+programmed with actions associated which each label value – this is
+the role of the MPLS FIB. The MPLS FIB Is a table, whose key is the
+MPLS label value and end-of-stack (EOS) bit, which stores the action
+to perform on packets with matching encapsulation. Currently supported
+actions are:
#. Pop the label and perform an IPv[46] lookup in a specified table
#. Pop the label and forward via a specified next-hop (this is penultimate-hop-pop, PHP)
@@ -47,44 +89,105 @@ Currently supported actions are:
These can be programmed respectively by:
-#. mpls local-label 33 ip4-lookup-in-table X
-#. mpls local-label 33 via 10.10.10.10 GigabitEthernet0/8/0
-#. mpls local-label 33 via 10.10.10.10 GigabitEthernet0/8/0 out-label 66
+#. mpls local-label 33 eos ip4-lookup-in-table X
+#. mpls local-label 33 [eos] via 10.10.10.10 GigEthernet0/0/0
+#. mpls local-label 33 [eos] via 10.10.10.10 GigEthernet0/0/0 out-labels 66
-the latter is an example of an MPLS cross connect. Any description of a next-hop,
-recursive, non-recursive, labelled, non-labelled, etc, that is valid for an IP
-prefix, is also valid for an MPLS local-label.
+the latter is an example of an MPLS cross connect. Any description of
+a next-hop, recursive, non-recursive, labelled, non-labelled, etc,
+that is valid for an IP prefix, is also valid for an MPLS
+local-label. Note the use of the 'eos' keyword which indicates the
+programming is for the case when the label is end-of-stack. The last
+two operations can apply to both eos and non-eos packets, but the pop
+and IP lookup only to an eos packet.
-Implementation
-^^^^^^^^^^^^^^^
-The MPLS FIB is implemented using exactly the same data structures as the IP FIB.
-The only difference is the implementation of the table. Whereas for IPv4 this is
-an mtrie and for IPv6 a hash table, for MPLS it is a flat array indexed by a 21
-bit key (label & EOS bit). This implementation is chosen to favour packet
-forwarding speed.
+MPLS VPN
+^^^^^^^^
+
+To configure an MPLS VPN for a PE the follow example can be used.
+
+Step 1; Configure routes to the iBGP peers - note these route MUST
+have out-going labels;
+
+.. code-block:: console
+
+ $ ip route add 10.0.0.1/32 via 192.168.1.2 Eth0 out-labels 33
+ $ ip route add 10.0.0.2/32 via 192.168.2.2 Eth0 out-labels 34
+
+Step 2; Configure the customer 'VRF'
+
+.. code-block:: console
+
+ $ ip table add 2
+
+Step 3; add a route via the iBGP peer[s] with the MPLS label
+advertised by that peer
+
+.. code-block:: console
+
+ $ ip route add table 2 10.10.10.0/24 via 10.0.0.2 next-hop-table 0 out-label 122
+ $ ip route add table 2 10.10.10.0/24 via 10.0.0.1 next-hop-table 0 out-label 121
+
+Step 4; add a route via the eBGP peer
+
+.. code-block:: console
+
+ $ ip route add table 2 10.10.20.0/24 via 172.16.0.1 next-hop-table 2
+
+Step 5; depending on the label allocation scheme used, add routes to
+the MPLS FIB to accept incoming labelled packets:
+
+#. per-prefix label scheme - this command 'binds' the label to the same
+ forwarding as the IP route
+
+ .. code-block:: console
+
+ $ mpls local-label 99 10.10.20.0/24
+
+#. per-CE label scheme - this pops the incoming label and forwards via
+ the next-hop provided. Append config for 'out-labels' if so desired.
+
+ .. code-block:: console
+
+ $ mpls local-label 99 via 172.16.0.1 next-hop-table 2
+
+#. per-VRF label scheme
+
+ .. code-block:: console
+
+ $ mpls local-label 99 via ip4-lookup-in-table 2
MPLS Tunnels
-^^^^^^^^^^^^^
+^^^^^^^^^^^^
-VPP no longer supports MPLS tunnels that are coupled to a particular transport,
+MPLS tunnels are unidirectional and can impose a stack of labels. They
+are 'normal' interfaces and thus can be used, for example, as the
+target for IP routes and L2 cross-connects. To construct a tunnel:
-i.e. MPLSoGRE or MPLSoEth. Such tight coupling is not beneficial. Instead VPP supports;
+.. code-block:: console
-#. MPLS LSPs associated with IP prefixes and MPLS local-labels (as described above) which are transport independent (i.e. the IP route could be reachable over a GRE tunnel, or any other interface type).
-#. A generic uni-directional MPLS tunnel interface that is transport independent.
+ $ mpls tunnel add via 10.10.10.10 GigEthernet0/0/0 out-labels 33 44 55
-An MPLS tunnel is effectively an LSP with an associated interface. The LSP can be
-described by any next-hop type (recursive, non-recursive etc), e.g.:
+and to then have that created tunnel to perform ECMP:
-mpls tunnel add via 10.10.10.10 GigabitEthernet0/8/0 out-label 66
-IP routes and/or MPLS x-connects can be routed via the interface, e.g.
+.. code-block:: console
+
+ $ mpls tunnel add mpls-tunnel0 via 10.10.10.11 GigEthernet0/0/0 out-labels 66 77 88
+
+use
.. code-block:: console
- $ ip route add 2.2.2.0/24 via mpls-tunnel0
+ $ sh mpls tunnel [X]
-packets matching the route for 2.2.2.0/24 would thus have label 66 imposed since
-it is transmitted via the tunnel.
+to see the monster you have created.
+
+An MPLS tunnel interface is an interface like any other and now ready
+for use with the usual set of interface commands, e.g.:
+
+.. code-block:: console
-These MPLS tunnels can be used to realise MPLS RSVP-TE tunnels.
+ $ set interface state mpls-tunnel0 up
+ $ set interface ip address mpls-tunnel0 192.168.1.1/30
+ $ ip route 1.1.1.1/32 via mpls-tunnel0