[mirror_ubuntu-bionic-kernel.git] / Documentation / networking / ila.txt

Identifier Locator Addressing (ILA)


Introduction
============

Identifier-locator addressing (ILA) is a technique used with IPv6 that
differentiates between location and identity of a network node. Part of an
address expresses the immutable identity of the node, and another part
indicates the location of the node which can be dynamic. Identifier-locator
addressing can be used to efficiently implement overlay networks for
network virtualization as well as solutions for use cases in mobility.

ILA can be thought of as means to implement an overlay network without
encapsulation. This is accomplished by performing network address
translation on destination addresses as a packet traverses a network. To
the network, an ILA translated packet appears to be no different than any
other IPv6 packet. For instance, if the transport protocol is TCP then an
ILA translated packet looks like just another TCP/IPv6 packet. The
advantage of this is that ILA is transparent to the network so that
optimizations in the network, such as ECMP, RSS, GRO, GSO, etc., just work.

The ILA protocol is described in Internet-Draft draft-herbert-intarea-ila.


ILA terminology
===============

  - Identifier	A number that identifies an addressable node in the network
		independent of its location. ILA identifiers are sixty-four
		bit values.

  - Locator	A network prefix that routes to a physical host. Locators
		provide the topological location of an addressed node. ILA
		locators are sixty-four bit prefixes.

  - ILA mapping
		A mapping of an ILA identifier to a locator (or to a
		locator and meta data). An ILA domain maintains a database
		that contains mappings for all destinations in the domain.

  - SIR address
		An IPv6 address composed of a SIR prefix (upper sixty-
		four bits) and an identifier (lower sixty-four bits).
		SIR addresses are visible to applications and provide a
		means for them to address nodes independent of their
		location.

  - ILA address
		An IPv6 address composed of a locator (upper sixty-four
		bits) and an identifier (low order sixty-four bits). ILA
		addresses are never visible to an application.

  - ILA host	An end host that is capable of performing ILA translations
		on transmit or receive.

  - ILA router	A network node that performs ILA translation and forwarding
		of translated packets.

  - ILA forwarding cache
		A type of ILA router that only maintains a working set
		cache of mappings.

  - ILA node	A network node capable of performing ILA translations. This
		can be an ILA router, ILA forwarding cache, or ILA host.


Operation
=========

There are two fundamental operations with ILA:

  - Translate a SIR address to an ILA address. This is performed on ingress
    to an ILA overlay.

  - Translate an ILA address to a SIR address. This is performed on egress
    from the ILA overlay.

ILA can be deployed either on end hosts or intermediate devices in the
network; these are provided by "ILA hosts" and "ILA routers" respectively.
Configuration and datapath for these two points of deployment is somewhat
different.

The diagram below illustrates the flow of packets through ILA as well
as showing ILA hosts and routers.

    +--------+                                                +--------+
    | Host A +-+                                         +--->| Host B |
    |        | |              (2) ILA                   (')   |        |
    +--------+ |            ...addressed....           (   )  +--------+
               V  +---+--+  .  packet      .  +---+--+  (_)
   (1) SIR     |  | ILA  |----->-------->---->| ILA  |   |   (3) SIR
    addressed  +->|router|  .              .  |router|->-+    addressed
    packet        +---+--+  .     IPv6     .  +---+--+        packet
                   /        .    Network   .
                  /         .              .   +--+-++--------+
    +--------+   /          .              .   |ILA ||  Host  |
    |  Host  +--+           .              .- -|host||        |
    |        |              .              .   +--+-++--------+
    +--------+              ................


Transport checksum handling
===========================

When an address is translated by ILA, an encapsulated transport checksum
that includes the translated address in a pseudo header may be rendered
incorrect on the wire. This is a problem for intermediate devices,
including checksum offload in NICs, that process the checksum. There are
three options to deal with this:

- no action	Allow the checksum to be incorrect on the wire. Before
		a receiver verifies a checksum the ILA to SIR address
		translation must be done.

- adjust transport checksum
		When ILA translation is performed the packet is parsed
		and if a transport layer checksum is found then it is
		adjusted to reflect the correct checksum per the
		translated address.

- checksum neutral mapping
		When an address is translated the difference can be offset
		elsewhere in a part of the packet that is covered by the
		the checksum. The low order sixteen bits of the identifier
		are used. This method is preferred since it doesn't require
		parsing a packet beyond the IP header and in most cases the
		adjustment can be precomputed and saved with the mapping.

Note that the checksum neutral adjustment affects the low order sixteen
bits of the identifier. When ILA to SIR address translation is done on
egress the low order bits are restored to the original value which
restores the identifier as it was originally sent.


Identifier types
================

ILA defines different types of identifiers for different use cases.

The defined types are:

      0: interface identifier

      1: locally unique identifier

      2: virtual networking identifier for IPv4 address

      3: virtual networking identifier for IPv6 unicast address

      4: virtual networking identifier for IPv6 multicast address

      5: non-local address identifier

In the current implementation of kernel ILA only locally unique identifiers
(LUID) are supported. LUID allows for a generic, unformatted 64 bit
identifier.


Identifier formats
==================

Kernel ILA supports two optional fields in an identifier for formatting:
"C-bit" and "identifier type". The presence of these fields is determined
by configuration as demonstrated below.

If the identifier type is present it occupies the three highest order
bits of an identifier. The possible values are given in the above list.

If the C-bit is present,  this is used as an indication that checksum
neutral mapping has been done. The C-bit can only be set in an
ILA address, never a SIR address.

In the simplest format the identifier types, C-bit, and checksum
adjustment value are not present so an identifier is considered an
unstructured sixty-four bit value.

     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |                            Identifier                         |
     +                                                               +
     |                                                               |
     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The checksum neutral adjustment may be configured to always be
present using neutral-map-auto. In this case there is no C-bit, but the
checksum adjustment is in the low order 16 bits. The identifier is
still sixty-four bits.

     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |                            Identifier                         |
     |                               +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |                               |  Checksum-neutral adjustment  |
     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The C-bit may used to explicitly indicate that checksum neutral
mapping has been applied to an ILA address. The format is:

     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |     |C|                    Identifier                         |
     |     +-+                       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |                               |  Checksum-neutral adjustment  |
     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The identifier type field may be present to indicate the identifier
type. If it is not present then the type is inferred based on mapping
configuration. The checksum neutral adjustment may automatically
used with the identifier type as illustrated below.

     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     | Type|                      Identifier                         |
     +-+-+-+                         +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |                               |  Checksum-neutral adjustment  |
     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

If the identifier type and the C-bit can be present simultaneously so
the identifier format would be:

     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     | Type|C|                    Identifier                         |
     +-+-+-+-+                       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
     |                               |  Checksum-neutral adjustment  |
     +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


Configuration
=============

There are two methods to configure ILA mappings. One is by using LWT routes
and the other is ila_xlat (called from NFHOOK PREROUTING hook). ila_xlat
is intended to be used in the receive path for ILA hosts .

An ILA router has also been implemented in XDP. Description of that is
outside the scope of this document.

The usage of for ILA LWT routes is:

ip route add DEST/128 encap ila LOC csum-mode MODE ident-type TYPE via ADDR

Destination (DEST) can either be a SIR address (for an ILA host or ingress
ILA router) or an ILA address (egress ILA router). LOC is the sixty-four
bit locator (with format W:X:Y:Z) that overwrites the upper sixty-four
bits of the destination address.  Checksum MODE is one of "no-action",
"adj-transport", "neutral-map", and "neutral-map-auto". If neutral-map is
set then the C-bit will be present. Identifier TYPE one of "luid" or
"use-format." In the case of use-format, the identifier type field is
present and the effective type is taken from that.

The usage of ila_xlat is:

ip ila add loc_match MATCH loc LOC csum-mode MODE ident-type TYPE

MATCH indicates the incoming locator that must be matched to apply
a the translaiton. LOC is the locator that overwrites the upper
sixty-four bits of the destination address. MODE and TYPE have the
same meanings as described above.


Some examples
=============

# Configure an ILA route that uses checksum neutral mapping as well
# as type field. Note that the type field is set in the SIR address
# (the 2000 implies type is 1 which is LUID).
ip route add 3333:0:0:1:2000:0:1:87/128 encap ila 2001:0:87:0 \
     csum-mode neutral-map ident-type use-format

# Configure an ILA LWT route that uses auto checksum neutral mapping
# (no C-bit) and configure identifier type to be LUID so that the
# identifier type field will not be present.
ip route add 3333:0:0:1:2000:0:2:87/128 encap ila 2001:0:87:1 \
     csum-mode neutral-map-auto ident-type luid

ila_xlat configuration

# Configure an ILA to SIR mapping that matches a locator and overwrites
# it with a SIR address (3333:0:0:1 in this example). The C-bit and
# identifier field are used.
ip ila add loc_match 2001:0:119:0 loc 3333:0:0:1 \
    csum-mode neutral-map-auto ident-type use-format

# Configure an ILA to SIR mapping where checksum neutral is automatically
# set without the C-bit and the identifier type is configured to be LUID
# so that the identifier type field is not present.
ip ila add loc_match 2001:0:119:0 loc 3333:0:0:1 \
    csum-mode neutral-map-auto ident-type use-format
Commit	Line	Data
7afc19bc TH	1	Identifier Locator Addressing (ILA)
	2
	3
	4	Introduction
	5	============
	6
	7	Identifier-locator addressing (ILA) is a technique used with IPv6 that
	8	differentiates between location and identity of a network node. Part of an
	9	address expresses the immutable identity of the node, and another part
	10	indicates the location of the node which can be dynamic. Identifier-locator
	11	addressing can be used to efficiently implement overlay networks for
	12	network virtualization as well as solutions for use cases in mobility.
	13
	14	ILA can be thought of as means to implement an overlay network without
	15	encapsulation. This is accomplished by performing network address
	16	translation on destination addresses as a packet traverses a network. To
	17	the network, an ILA translated packet appears to be no different than any
	18	other IPv6 packet. For instance, if the transport protocol is TCP then an
	19	ILA translated packet looks like just another TCP/IPv6 packet. The
	20	advantage of this is that ILA is transparent to the network so that
	21	optimizations in the network, such as ECMP, RSS, GRO, GSO, etc., just work.
	22
	23	The ILA protocol is described in Internet-Draft draft-herbert-intarea-ila.
	24
	25
	26	ILA terminology
	27	===============
	28
	29	- Identifier A number that identifies an addressable node in the network
	30	independent of its location. ILA identifiers are sixty-four
	31	bit values.
	32
	33	- Locator A network prefix that routes to a physical host. Locators
	34	provide the topological location of an addressed node. ILA
	35	locators are sixty-four bit prefixes.
	36
	37	- ILA mapping
	38	A mapping of an ILA identifier to a locator (or to a
	39	locator and meta data). An ILA domain maintains a database
	40	that contains mappings for all destinations in the domain.
	41
	42	- SIR address
	43	An IPv6 address composed of a SIR prefix (upper sixty-
	44	four bits) and an identifier (lower sixty-four bits).
	45	SIR addresses are visible to applications and provide a
	46	means for them to address nodes independent of their
	47	location.
	48
	49	- ILA address
	50	An IPv6 address composed of a locator (upper sixty-four
	51	bits) and an identifier (low order sixty-four bits). ILA
	52	addresses are never visible to an application.
	53
	54	- ILA host An end host that is capable of performing ILA translations
	55	on transmit or receive.
	56
	57	- ILA router A network node that performs ILA translation and forwarding
	58	of translated packets.
	59
	60	- ILA forwarding cache
	61	A type of ILA router that only maintains a working set
	62	cache of mappings.
	63
	64	- ILA node A network node capable of performing ILA translations. This
65	can be an ILA router, ILA forwarding cache, or ILA host.
66
67
68	Operation
69	=========
70
71	There are two fundamental operations with ILA:
72
73	- Translate a SIR address to an ILA address. This is performed on ingress
74	to an ILA overlay.
75
76	- Translate an ILA address to a SIR address. This is performed on egress
77	from the ILA overlay.
78
79	ILA can be deployed either on end hosts or intermediate devices in the
80	network; these are provided by "ILA hosts" and "ILA routers" respectively.
81	Configuration and datapath for these two points of deployment is somewhat
82	different.
83
84	The diagram below illustrates the flow of packets through ILA as well
85	as showing ILA hosts and routers.
86
87	+--------+ +--------+
88	\| Host A +-+ +--->\| Host B \|
89	\| \| \| (2) ILA (') \| \|
90	+--------+ \| ...addressed.... ( ) +--------+
91	V +---+--+ . packet . +---+--+ (_)
92	(1) SIR \| \| ILA \|----->-------->---->\| ILA \| \| (3) SIR
93	addressed +->\|router\| . . \|router\|->-+ addressed
94	packet +---+--+ . IPv6 . +---+--+ packet
95	/ . Network .
96	/ . . +--+-++--------+
97	+--------+ / . . \|ILA \|\| Host \|
98	\| Host +--+ . .- -\|host\|\| \|
99	\| \| . . +--+-++--------+
100	+--------+ ................
101
102
103	Transport checksum handling
104	===========================
105
106	When an address is translated by ILA, an encapsulated transport checksum
107	that includes the translated address in a pseudo header may be rendered
108	incorrect on the wire. This is a problem for intermediate devices,
109	including checksum offload in NICs, that process the checksum. There are
110	three options to deal with this:
111
112	- no action Allow the checksum to be incorrect on the wire. Before
113	a receiver verifies a checksum the ILA to SIR address
114	translation must be done.
115
116	- adjust transport checksum
117	When ILA translation is performed the packet is parsed
118	and if a transport layer checksum is found then it is
119	adjusted to reflect the correct checksum per the
120	translated address.
121
122	- checksum neutral mapping
123	When an address is translated the difference can be offset
124	elsewhere in a part of the packet that is covered by the
125	the checksum. The low order sixteen bits of the identifier
126	are used. This method is preferred since it doesn't require
127	parsing a packet beyond the IP header and in most cases the
128	adjustment can be precomputed and saved with the mapping.
129
130	Note that the checksum neutral adjustment affects the low order sixteen
131	bits of the identifier. When ILA to SIR address translation is done on
132	egress the low order bits are restored to the original value which
133	restores the identifier as it was originally sent.
134
135
136	Identifier types
137	================
138
139	ILA defines different types of identifiers for different use cases.
140
141	The defined types are:
142
143	0: interface identifier
144
145	1: locally unique identifier
146
147	2: virtual networking identifier for IPv4 address
148
149	3: virtual networking identifier for IPv6 unicast address
150
151	4: virtual networking identifier for IPv6 multicast address
152
153	5: non-local address identifier
154
155	In the current implementation of kernel ILA only locally unique identifiers
156	(LUID) are supported. LUID allows for a generic, unformatted 64 bit
157	identifier.
158
159
160	Identifier formats
161	==================
162
163	Kernel ILA supports two optional fields in an identifier for formatting:
164	"C-bit" and "identifier type". The presence of these fields is determined
165	by configuration as demonstrated below.
166
167	If the identifier type is present it occupies the three highest order
168	bits of an identifier. The possible values are given in the above list.
169
170	If the C-bit is present, this is used as an indication that checksum
171	neutral mapping has been done. The C-bit can only be set in an
172	ILA address, never a SIR address.
173
174	In the simplest format the identifier types, C-bit, and checksum
175	adjustment value are not present so an identifier is considered an
176	unstructured sixty-four bit value.
177
178	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
179	\| Identifier \|
180	+ +
181	\| \|
182	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
183
184	The checksum neutral adjustment may be configured to always be
185	present using neutral-map-auto. In this case there is no C-bit, but the
186	checksum adjustment is in the low order 16 bits. The identifier is
187	still sixty-four bits.
188
189	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
190	\| Identifier \|
191	\| +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
192	\| \| Checksum-neutral adjustment \|
193	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
194
195	The C-bit may used to explicitly indicate that checksum neutral
196	mapping has been applied to an ILA address. The format is:
197
198	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
199	\| \|C\| Identifier \|
200	\| +-+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
201	\| \| Checksum-neutral adjustment \|
202	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
203
204	The identifier type field may be present to indicate the identifier
205	type. If it is not present then the type is inferred based on mapping
206	configuration. The checksum neutral adjustment may automatically
207	used with the identifier type as illustrated below.
208
209	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
210	\| Type\| Identifier \|
211	+-+-+-+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
212	\| \| Checksum-neutral adjustment \|
213	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
214
215	If the identifier type and the C-bit can be present simultaneously so
216	the identifier format would be:
217
218	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
219	\| Type\|C\| Identifier \|
220	+-+-+-+-+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
221	\| \| Checksum-neutral adjustment \|
222	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
223
224
225	Configuration
226	=============
227
228	There are two methods to configure ILA mappings. One is by using LWT routes
229	and the other is ila_xlat (called from NFHOOK PREROUTING hook). ila_xlat
230	is intended to be used in the receive path for ILA hosts .
231
232	An ILA router has also been implemented in XDP. Description of that is
233	outside the scope of this document.
234
235	The usage of for ILA LWT routes is:
236
237	ip route add DEST/128 encap ila LOC csum-mode MODE ident-type TYPE via ADDR
238
239	Destination (DEST) can either be a SIR address (for an ILA host or ingress
240	ILA router) or an ILA address (egress ILA router). LOC is the sixty-four
241	bit locator (with format W:X:Y:Z) that overwrites the upper sixty-four
242	bits of the destination address. Checksum MODE is one of "no-action",
243	"adj-transport", "neutral-map", and "neutral-map-auto". If neutral-map is
244	set then the C-bit will be present. Identifier TYPE one of "luid" or
245	"use-format." In the case of use-format, the identifier type field is
246	present and the effective type is taken from that.
247
248	The usage of ila_xlat is:
249
250	ip ila add loc_match MATCH loc LOC csum-mode MODE ident-type TYPE
251
252	MATCH indicates the incoming locator that must be matched to apply
253	a the translaiton. LOC is the locator that overwrites the upper
254	sixty-four bits of the destination address. MODE and TYPE have the
255	same meanings as described above.
256
257
258	Some examples
259	=============
260
261	# Configure an ILA route that uses checksum neutral mapping as well
262	# as type field. Note that the type field is set in the SIR address
263	# (the 2000 implies type is 1 which is LUID).
264	ip route add 3333:0:0:1:2000:0:1:87/128 encap ila 2001:0:87:0 \
265	csum-mode neutral-map ident-type use-format
266
267	# Configure an ILA LWT route that uses auto checksum neutral mapping
268	# (no C-bit) and configure identifier type to be LUID so that the
269	# identifier type field will not be present.
270	ip route add 3333:0:0:1:2000:0:2:87/128 encap ila 2001:0:87:1 \
271	csum-mode neutral-map-auto ident-type luid
272
273	ila_xlat configuration
274
275	# Configure an ILA to SIR mapping that matches a locator and overwrites
276	# it with a SIR address (3333:0:0:1 in this example). The C-bit and
277	# identifier field are used.
278	ip ila add loc_match 2001:0:119:0 loc 3333:0:0:1 \
279	csum-mode neutral-map-auto ident-type use-format
280
281	# Configure an ILA to SIR mapping where checksum neutral is automatically
282	# set without the C-bit and the identifier type is configured to be LUID
283	# so that the identifier type field is not present.
284	ip ila add loc_match 2001:0:119:0 loc 3333:0:0:1 \
285	csum-mode neutral-map-auto ident-type use-format