TRILL Working Group Donald Eastlake
INTERNET-DRAFT Huawei
Intended status: Proposed Standard Vishwas Manral
Updates: RFCtrill IP Infusion
Li Yizhou
Sam Aldrin
Huawei
Dave Ward
Juniper
Expires: October 19, 2011 April 20, 2011
RBridges: TRILL RBridge Channel Support
<draft-ietf-trill-rbridge-channel-00.txt>
Abstract
This document specifies a general channel for sending OAM
(Operations, Administration, and Maintenance) or other messages in an
RBridge campus through extensions to the TRILL (TRansparent
Interconnection of Lots of Links) protocol.
Status of This Memo
This Internet-Draft is submitted to IETF in full conformance with the
provisions of BCP 78 and BCP 79.
Distribution of this document is unlimited. Comments should be sent
to the TRILL working group mailing list.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF), its areas, and its working groups. Note that
other groups may also distribute working documents as Internet-
Drafts.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
The list of current Internet-Drafts can be accessed at
http://www.ietf.org/1id-abstracts.html
The list of Internet-Draft Shadow Directories can be accessed at
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D. Eastlake, et al [Page 1]
INTERNET-DRAFT RBridges: RBridge Channel
Table of Contents
1. Introduction............................................3
1.1 RBridge Channel Requirements...........................3
1.2 Terminology............................................4
2. RBridge Channel Messages................................5
2.1 The RBridge Channel Message Inner Frame................6
2.1.1 RBridge Channel Header...............................6
2.1.2 Inner Ethernet Header................................7
2.1.3 Inner.VLAN Tag.......................................8
2.2 The TRILL Header for RBridge Channel Messages..........8
2.3 Channel Message Ethernet Link Header and Trailer.......9
2.4 Special Transmission and Rate Considerations..........10
3. Processing RBridge Channel Messages....................11
3.1 Processing the RBridge Channel Header.................11
3.2 RBridge Channel Errors................................12
4. Native RBridge Channel Frames..........................14
5. Allocation Considerations..............................15
5.1 IANA Considerations...................................15
5.1.1 TRILL GENAPP ID and APPsub-TLVs.....................15
5.1.2 Other IANA Considerations...........................16
5.2 IEEE Registration Authority Considerations............18
6. Security Considerations................................19
7. References.............................................20
7.1 Normative References..................................20
7.2 Informative References................................20
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1. Introduction
RBridge campuses support transparent forwarding using the TRILL
protocol that builds on IS-IS routing [IS-IS] [RFC1195]. However, the
TRILL base protocol standard [RFCtrill] provides only for TRILL Data
messages to handle end station data and TRILL IS-IS messages.
This document specifies a general channel mechanism for the
transmission of other messages within an RBridge campus, such as OAM
(Operations, Administration, and Maintenance) messages, between
RBridges or between end stations and RBridges. This mechanism
supports a requirement to be able to operate with no or minimal
configuration.
Familiarity with [RFCtrill] and [RFCadj] is assumed in this document.
1.1 RBridge Channel Requirements
It is anticipated that various protocols operating at the TRILL
level, such as OAM protocols, will be desired in RBridge campuses.
For example, there is a need for rapid response continuity checking
with a protocol such as BFD [RFC5880] [RFC5882] and for a variety of
optional reporting, in the spirit of some ICMP [RFC792] messages,
such as reporting Hop Count exhaustion, unknown egress nickname in
the TRILL header, and the like, including ping and trace route
functions.
To avoid having to design and specify a way to carry each new OAM or
similar protocol between RBridges, this document specifies a general
channel for sending messages between RBridges in a campus at the
TRILL level by extending the TRILL protocol. To accommodate a wide
variety of protocols, this RBridge Channel facility accommodates all
the regular modes of TRILL Data transmission including single and
multiple hop unicast as well as VLAN scoped multi-destination
distribution.
To minimize unnecessary burden on transit RBridges and to provide a
more realistic test of network continuity and the like, RBridge
Channel messages are designed to look like TRILL Data frames and, in
the case of multi-hop messages, can normally be handled by transit
RBridges as if they were TRILL Data frames; however, to enable
processing at transit RBridges when required by particular messages,
an optional Alert TRILL extended header flag is specified. The Alert
bit causes a transit RBridge to examine a frame with that flag set,
usually by sending it to the slow path.
This document also provides a format for sending RBridge Channel
messages between end stations and RBridges, in either direction, when
D. Eastlake, et al [Page 3]
INTERNET-DRAFT RBridges: RBridge Channel
appropriate for the protocol involved.
Each particular protocol using the RBridge Channel will likely use
only a subset of the facilities specified herein.
The RBridge Channel is similar to the MPLS Generic Channel specified
in [RFC5586]. Instead of using a special MPLS label to indicate a
special channel message, an RBridge Channel message is indicated by a
special multicast Inner.MacDA.
1.2 Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119].
The terminology and acronyms of [RFCtrill] are used in this document
with the additions listed below.
BFD - Bidirectional Forwarding Detection
CHV - Channel Header Version
ICMP - Internet Control Message Protocol
MH - Multi-Hop
OAM - Operations, Administration, and Maintenance
SL - Silent
D. Eastlake, et al [Page 4]
INTERNET-DRAFT RBridges: RBridge Channel
2. RBridge Channel Messages
RBridge Channel messages are transmitted as TRILL Data frames. They
are identified as RBridge Channel messages by their Inner.MacDA
together with their Ethertype, which are the Egress-RBridges
multicast address and the RBridge-Channel Ethertype. This Ethertype
is part of an RBridge Channel Header. The payload of the encapsulated
frame starts with an RBridge Channel Header that indicates the
protocol being sent through the RBridge Channel.
The diagram below shows the overall structure of a RBridge Channel
Message frame on a link between two RBridges:
Frame Structure Section of This Document
------------------------
+--------------------------------+
| Link Header | Section 2.3 if Ethernet Link
+--------------------------------+
| TRILL Header | Section 2.2
+--------------------------------+
| Inner Ethernet Header | Section 2.1.2
+--------------------------------+
| RBridge Channel Header | Section 2.1.1
+--------------------------------+
| Protocol Specific Payload | See specific channel protocol
+--------------------------------+
| Link Trailer (FCS if Ethernet) |
+--------------------------------+
Some channel messages may require examination of the frame by transit
RBridges that support the RBridge Channel feature, to determine if
they need to take any action. To indicate this, a non-critical hop-
by-hop extended TRILL header flag is allocated as the Alert bit
[RFCext], as further described in Section 3 below.
The Sections 2.1 and 2.2 below describe the Inner frame and the TRILL
Header for frames sent in the RBridge Channel. As always, the Outer
link header is whatever is needed to get a TRILL Data frame to the
next hop RBridge, depends on the technology used by the link, and can
change with each hop for multi-hop messages. Section 2.3 describes
the Outer link header for Ethernet. And Section 2.4 discusses some
special considerations for the first hop transmission of RBridge
Channel messages.
Section 3 describes some details of RBridge Channel message
processing. And Section 4 provides further specifications for
optional native RBridge Channel frames between RBridges and end
stations.
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2.1 The RBridge Channel Message Inner Frame
The encapsulated inner frame within an RBridge Channel message frame
is as shown below.
Inner Ethernet Header:
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Special Inner.MacDA = Egress-RBridges |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Special Inner.MacDA cont. | Inner.MacSA |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Inner.MacSA cont. |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| VLAN Tag Ethertype | Priority, VLAN ID |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
RBridge Channel Header:
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| RBridge-Channel Ethertype | CHV | Channel Protocol |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Flags | ERR |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
RBridge Channel Protocol Specific Information:
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Channel Protocol Specific Data
| ...
The channel protocol specific data contains the information related
to the specific protocol type used in the channel message. Details of
that data are outside the scope of this document, except in the case
of the RBridge Channel Error protocol specified below.
2.1.1 RBridge Channel Header
As shown in the diagram above, the RBridge Channel header starts with
the RBridge-Channel Ethertype (see Section 5.2). Following that is a
four-byte quantity with four sub-fields as follows:
CHV: Gives the RBridge Channel Header Version and MUST be zero.
Channel Protocol: A 12-bit field that specifies the particular
RBridge Channel protocol to which the message applies.
Flags: Provides 12 bits of flags described below.
ERR: A four-bit field used in connection with error reporting at
the RBridge Channel level as described in Section 3.
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The flag bits are numbered from 0 to 11 as shown below.
0 1 2 3 4 5 6 7 8 9 10 11
+--+--+--+--+--+--+--+--+--+--+--+--+
|SL|MH|NA| Available Flags |
+--+--+--+--+--+--+--+--+--+--+--+--+
Bit 0, which is the high order bit in network order, is defined as
the SL or Silent bit. If it is a one, it suppresses RBridge Channel
Error messages (see Section 3).
Bit 1 is the MH or Multi-Hop bit. It is used to inform the
destination RBridge protocol that the message was intended to be
multi-hop (MH=1) or one-hop (MH=0).
Bit 2 is the NA or Native bit. It is used as described in Section 4
below.
The RBridge Channel Protocol field specifies the protocol that the
channel message relates to. The initial defined value is listed
below. See Section 5 for IANA Considerations.
Protocol Name - Section of this Document
-------- -------------------------------
0x001 RBridge Channel Error - Section 3
2.1.2 Inner Ethernet Header
The special Inner.MacDA is the Egress-RBridges multicast MAC address
to signal that the frame is intended for the egress RBridge itself
(or the egress RBridges themselves if the frame is multi-destination)
(see Section 5). That the frame is an RBridge Channel message is
indicated by the RBridge-Channel Ethertype. In the future there may
be other Ethertypes that make use of the Egress-RBridges Inner.MacDA.
The RBridge originating the channel message selects the Inner.MacSA.
The Inner.MacSA MUST be set by the originating RBridge to a MAC
address unique within the campus. This MAC address can be considered,
in effect, the MAC address of a virtual internal end station that
handles the RBridge Channel frames originated by or destined for that
RBridge.
D. Eastlake, et al [Page 7]
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2.1.3 Inner.VLAN Tag
As with all TRILL encapsulated frames, a VLAN tag MUST be present.
Use of a VLAN tag Ethertype other than 0x8100 or stacked VLAN tags is
beyond the scope of this document.
Multi-destination RBridge Channel messages are, like all multi-
destination TRILL Data messages, VLAN scoped so the Inner.VLAN ID
MUST be set to the VLAN of interest. To the extent that distribution
tree pruning is in effect in the campus, such channel messages may
only reach RBridges advertising that they have appointed forwarder
connectivity to that VLAN.
For channel messages sent as known unicast TRILL Data frames, if the
message is one-hop it is RECOMMENDED that the Inner.VLAN ID be the
Designated VLAN on that hop. For multi-hop unicast OAM messages, it
is RECOMMENDED that the Inner.VLAN ID be the default VLAN 1.
The Inner.VLAN will also specify a three-bit frame priority for which
the following recommendations apply:
1. For one-hop channel messages critical to network connectivity,
such as one-hop BFD for rapid link failure detection in support of
TRILL IS-IS, the RECOMMENDED priority is 7.
2. For single and multi-hop known unicast channel messages important
to network operation but not critical for connectivity, the
RECOMMENDED priority is 6.
3. For other known unicast channel messages and all multi-destination
channel messages, it is RECOMMENDED that the default priority zero
be used. In any case, priorities higher than 5 SHOULD NOT be used
for such frames.
There is one additional bit in a VLAN tag value beyond the 12 bit
VLAN ID and 3-bit priority. In some applications, this bit is called
the Drop Eligibility Indicator (DEI). It is RECOMMENDED that this bit
be zero for the first two categories of channel messages listed
immediately above. The setting of this bit for channel messages in
the third category may be dependent on the channel protocol and no
general recommendation is made for that case.
2.2 The TRILL Header for RBridge Channel Messages
After the outer Link Header (which, for Ethernet, ends with the TRILL
Ethertype) and before the encapsulated frame, the channel message's
TRILL Header initially appears as follows:
D. Eastlake, et al [Page 8]
INTERNET-DRAFT RBridges: RBridge Channel
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|V=0| R |M| Ext-Len | Hops=0x3F |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Egress Nickname | Ingress Nickname |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
The TRILL Header version V MUST be zero, the R bit are reserved, the
M bit is set appropriately as the channel message is to be forwarded
as known unicast (M=0) or multi-destination (M=1) regardless of the
fact that the Inner.MacDA is always the Egress-RBridges multicast
address, and Ext-Len is set appropriately for the length of the TRILL
Header extensions area, if any, all as specified in [RFCtrill] (where
it is referred to as the options area).
When an RBridge Channel message is originated, the hop count field
MUST be set to the maximum value, 0x3F. For messages sent a known
number of hops, particularly one-hop messages or two-hop neighbor
echo messages, checking the Hops (Hop Count) field provides an
additional validity check as discussed in [RFC5082].
The RBridge originating a channel message places a nickname that it
holds into the ingress nickname field.
There are several cases for the egress nickname field. If the channel
message is multi-destination, then the egress nickname designates the
distribution tree to use. If the channel message is a multi-hop
unicast message, then the egress nickname is a nickname of the target
RBridge; this includes the special case of an "echo" OAM message
where the originator places one of its own nicknames in both the
ingress and egress nickname fields. If the channel message is a one-
hop unicast message, there are two possibilities for the egress
nickname.
o The egress nickname can bet set to a nickname of the target
neighbor RBridge.
o The special nickname Any-RBridge may be used. RBridges supporting
the RBridge Channel facility MUST recognize the Any-RBridge
special nickname and accept TRILL Data frames having that value in
the egress nickname field as being sent to them as the egress.
Thus, for such RBridges, using this egress nickname guarantees
processing by an immediate neighbor regardless of the state of
nicknames.
2.3 Channel Message Ethernet Link Header and Trailer
An RBridge Channel frame has the usual link header and trailer
depending on the type of link on which it is sent.
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INTERNET-DRAFT RBridges: RBridge Channel
For an Ethernet link [RFCtrill] the Outer.MacSA is the MAC address of
the port from which the frame is sent. The Outer.MacDA is the MAC
address of the next-hop RBridge port for unicast RBridge Channel
messages or the All-RBridges multicast address for multi-destination
RBridge Channel messages. The Outer.VLAN tag specifies the Designated
VLAN for that hop and the priority should be the same as in the
Inner.VLAN tag; however, the output port may have been configured to
strip VLAN tags, in which case no Outer.VLAN tag appears on the wire.
And the link trailer is the Ethernet FCS.
2.4 Special Transmission and Rate Considerations
If a multi-hop RBridge Channel message is received by an RBridge, the
criteria and method of forwarding it are the same as for any TRILL
Data frame. If it is so forwarded, it will be on a link that was
included in the routing topology because it was in Report state as
specified in [RFCadj].
However, special considerations apply to the first hop because, for
some RBridge Channel protocols, it may be desirable to sent RBridge
Channel messages on links that are not yet fully up. In particular,
it is permissible, if specified by the particular channel protocol,
for the source RBridge that has created an RBridge Channel message to
transmit it to a next hop RBridge when the link is in the Detect or
Two-Way states, as specified in [RFCadj], as well as when it is in
the Report state.
RBridge Channel messages represent a burden on the RBridges and links
in a campus and should be rate limited, especially if they are sent
as high priority, multi-destination, or multi-hop frames or have the
Alert extended flag set.
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3. Processing RBridge Channel Messages
RBridge Channel messages are designed to look like and, to the extent
practical, be forwarded as regular TRILL Data frames. On receiving a
channel message, the initial tests on the Outer.MacDA, Outer
Ethertype, TRILL Header V and Hop Count fields and the Reverse Path
Forwarding Check if the frame is multi-destination, are all performed
as usual. The forwarding and/or decapsulation decisions are the same
as for a regular TRILL Data frame with following exceptions for
RBridges implementing the RBridge Channel facility:
1. An RBridge implementing the RBridge Channel MUST recognize the
Any-RBridge egress nickname in TRILL Data frames, decapsulating
such frames if they meet other checks and not forwarding them
in encapsulated form unless they are an appropriate multi-
destination frame.
2. If the Alert extended flag is set, then the RBridge MUST
process the RBridge Channel message as described below even if
it is not egressing the frame. If it is egressing the frame,
then no additional processing beyond egress processing is
needed even if the Alert flag is set.
3. On decapsulation, the special Inner.MacDA value of Egress-
RBridges MUST be recognized to trigger checking the
Inner.Ethertype and processing as an RBridge Channel message if
that Ethertype is RBridge-Channel.
RBridge Channel messages SHOULD only be sent to RBridges that
advertise support for that facility as specified in Section 5. If an
RBridge that does not recognize the Egress-RBridges Inner.MacDA
multicast address received an RBridge Channel message, it might
decapsulate the inner frame and sent it out all ports for which that
RBridge is an appointed forwarder for the Inner.VLAN.
All RBridges that recognize the Egress-RBridges multicast address
MUST recognize the RBridge-Channel Ethertype. If the future, there
may be other Inner.Ethertypes defined that use the Egress-RBridges
Inner.MacDA. If the Ethertype is not recognized, this error condition
is handled as described below.
3.1 Processing the RBridge Channel Header
Knowing that it has an RBridge Channel message, the egress RBridge,
and any transit RBridge if the Alert bit is set in the TRILL Header,
looks at the CHV (RBridge Channel Header Version) and Channel
Protocol fields.
D. Eastlake, et al [Page 11]
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If any of the following conditions occur at an egress RBridge, the
frame is not processed and an error may be generated as specified in
Section 3.2; however, if these conditions are detected at a transit
RBridge examining the message because the Alert flag is set, no error
is generated and the frame is still forwarded normally.
1. The Ethertype is not RBridge-Channel or not any other (future)
Ethertype known to the RBridge as usable with the Egress-
RBridges Inner.MacDA, or the frame is so short that the
Ethertype is truncated.
2. The CHV field is non-zero or the frame is so short that the
version zero Channel Header is truncated.
3. The Channel Protocol field is a reserved value or a value
unknown to the processing RBridge.
4. The ERR field is non-zero and Channel Protocol is a value other
than 0x001.
5. The RBridge Channel Header NA flag is set to one indicating
that the frame should have been received as a native frame
rather than an encapsulated frame.
If the CHV field and NA flag are zero and the processing RBridge
recognizes the Channel Protocol value, it processes the message in
accordance with that channel protocol. The processing model is as if
the received frame starting with and including the TRILL Header is
delivered to the Channel protocol along with a flag indicating
whether this is (a) transit RBridge processing due to the Alert flag
being set or (b) egress processing.
Errors within a recognized Channel Protocol are handled by that
channel protocol itself and do not produce OAM Message Channel Error
frames.
3.2 RBridge Channel Errors
A variety of problems at the RBridge Channel level cause the return
of an RBridge Channel Error frame unless (a) the "SL" (Silent) flag
is a one in the channel message for which the problem was detected,
(b) the processing is due to the Alert bit being set, (c) the frame
in error appears, itself, to be an RBridge Channel error frame (has a
non-zero ERR field or an Channel Protocol of 0x001), or (d) the error
is suppressed due to rate limiting.
An RBridge Channel Error frame is a multi-hop unicast RBridge Channel
message with the ingress nickname set to the nickname of the RBridge
D. Eastlake, et al [Page 12]
INTERNET-DRAFT RBridges: RBridge Channel
detecting the error, and the egress nickname set to the value of the
ingress nickname in the channel message for which the error was
detected. The SL and MH flags SHOULD be set to one, the NA flag to
zero, and the ERR field MUST be non-zero as described below. For the
protocol specific data area, an RBridge Channel Message Error frame
has at least the first 256 bytes (or less if less are available) of
the erroneous decapsulated channel message starting with the TRILL
Header. (Note: The TRILL Header does not include the TRILL Ethertype
which is part of the Link Header on Ethernet Links and may be absent
for other link technologies.)
The following values for ERR are specified:
ERR Meaning
--- -------
0 - Not an RBridge Channel error frame.
1 Frame too short (truncated Ethertype or RBridge Channel Header)
2 Unrecognized Ethertype
3 Unimplemented value of CHV
4 Wrong value of NA flag
5 Channel Protocol is reserved or unimplemented
6-14 - Available for allocation, see Section 5.
15 Reserved
All RBridges implementing the RBridge Channel feature MUST recognize
the RBridge Channel Error protocol value (0x001). They MUST NOT
generate an RBridge Channel Error message in response to a RBridge
Channel Error message, that is, a channel message with a protocol
value of 0x001 or with a non-zero ERR field.
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4. Native RBridge Channel Frames
If provided for by the channel protocol involved, native RBridge
channel messages may be sent between end-stations and RBridges in
either direction. Such native frames have the RBridge-Channel
Ethertype and are like the encapsulated frame inside an RBridge
Channel message with the following exceptions:
1. TRILL does not require the presence of VLAN tagging on such
native RBridge channel frames. However, port configuration,
link characteristics, or the channel protocol involved may
require such tagging.
2. If the frame is unicast, the destination MAC address is the
unicast MAC address of the RBridge or end-station port that is
its intended destination. If the frame is multicast to all the
RBridges on a link that support an RBridge Channel protocol
that uses this transport, the destination MAC address is the
Egress-RBridges multicast address. If the frame is multicast to
all the devices that TRILL considers to be end stations on a
link that support an RBridge Channel protocol that uses this
transport, the destination MAC address is the TRILL-End-
Stations multicast address (see Section 5). The RBridge-Channel
Ethertype must be present. In the future there may be other
protocols using the Egress-RBridges and/or TRILL-End-Stations
multicast addresses distinguished by a different Ethertype.
3. The NA bit in the RBridge Channel Header flags must be a one.
4. As with any native frame, the source MAC address is that of the
port sending the frame.
A native frame with the RBridge-Channel Ethertype must meet the usual
VLAN and destination MAC address restrictions to be accepted by an
RBridge. If provided for by the channel protocol involved, the
receipt of such a native frame MAY lead to the generation and
transmission of one or more native or TRILL encapsulated RBridge
Channel frames. The decapsulation and processing of an encapsulated
RBridge Channel frame MAY, if provided for by the channel protocol
involved, result in the sending of one or more native RBridge channel
frames to one or more end stations.
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5. Allocation Considerations
The following subsections give IANA and IEEE allocation
considerations. In this document, the allocation procedures
"Standards Action", "IETF Review", "RFC Publication", and "Private
Use" are as specified in [RFC5226].
5.1 IANA Considerations
The following subsections give IANA allocation considerations.
5.1.1 TRILL GENAPP ID and APPsub-TLVs
IANA is requested to allocate an IS-IS Application Identifier under
the Generic Information TLV (#251) for TRILL [RFCgenapp] and to
create a subregistry in the TRILL Parameters Registry for "TRILL
APPsub-TLVs under IS-IS TLV #251 Application Identifier #TBD". The
initial contents of this subregistry are as follows:
Type Name MI0? Reference
------ -------- ------ -----------
0 Reserved -
1 Data Capabilities Y <this RFC>
2-254 Available - <this RFC>
255 Reserved -
The V, I, D, and S flags in the initial flags byte of a TRILL Generic
Information TLV [RFCgenapp] are not used as TRILL operates as a Level
1 IS-IS area and no meaning is hereby assigned to the inclusion of an
IPv4 and/or IPv6 address via the I and V flags. Thus these flags will
be zero; however, use of multi-level IS-IS is an obvious extension of
TRILL and a future IETF Standards Action may update this
specification to provide for the use of any or all of these flags.
TRILL APPsub-TLVs MUST NOT alter basic IS-IS protocol operation
including the establishment of adjacencies, the update process, and
the decision process [IS-IS] [RFC1195].
TRILL APPsub-TLV Types 2 through 254 are available for allocation by
Standard Action as modified by [RFC4020]. The standards track RFC
making such allocation shall specify whether a TRILL Generic
Information TLV containing an instance of that TRILL APPsub-TLV is
permitted to occur in instance zero LSPs and a column in the TRILL
APPsub-TLV registry will indicate this. The RFC will also include a
discussion of security issues and of the rate of change of the
information being advertised.
D. Eastlake, et al [Page 15]
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The Data Capabilities TRILL APPsub-TLV has as its value a bit vector
where a one bit indicates support of a particular TRILL Data frame
format, encapsulation, or sub-type. The bits in the value of this
APPsub-TLV are numbered in network order, the high order bit of the
first byte being 0, the low order bit of that byte being 7, the high
order bit of the second byte being 8, etc. The maximum value length
permitted is 64 so the highest available bit is number 511. A longer
value is processed but bytes beyond the 64th are ignored. By
implication, the value of all bits higher numbered than those present
is zero. The absence of this APPsub-TLV implies that all bits are
zero and the relevant RBridge supports no TRILL data capabilities
other than those in the TRILL base protocol standard [RFCtrill]. To
avoid wasted space, a Data Capabilities TRILL APPsub-TLV SHOULD have
the smallest length that will accommodate all the one bits in its
value.
This Data Capabilities information is expected to be very compact and
slow changing. It would typically change only on manual re-
configuration, software/firmware update, or the like. The Data
Capabilities TRILL APPsub-TLV may occur in instance zero LSPs. The
security implications of each defined bit in the value of a Data
Capabilities TRILL APPsub-TLV will be discussed in the RFC specifying
that bit.
IANA is requested to create a "Data Capabilities APPsub-TLV Bits"
subregistry in the TRILL Parameters Registry. The initial table of
bits is as follows:
Bit Name Reference
----- ------ -----------
0 RBridge Channel <this document>
1-511 Available
Bits will be allocated in ascending numeric order without gaps based
on IETF Review for single bits and Standards Action as modified by
[RFC4020] for more than one bit.
5.1.2 Other IANA Considerations
IANA is requested to allocate a previously unassigned TRILL Nickname
as follows:
Any-RBridge TBD (0xFFCO suggested)
IANA is requested to allocate two previously unassigned TRILL
Multicast address as follows:
Egress-RBridges TBD (01-80-C2-00-00-43 suggested)
D. Eastlake, et al [Page 16]
INTERNET-DRAFT RBridges: RBridge Channel
TRILL-End-Stations TBD (01-80-C2-00-00-44 suggested)
IANA is request to allocate a previously unassigned TRILL non-
critical hop-by-hop extended flag bit [RFCext] as follows:
TBD Alert
IANA is requested to create an additional sub-registry in the TRILL
Parameter Registry for RBridge Channel Protocols, with initial
contents as follows:
Protocol Use
-------- ---
0x000 Reserved
0x001 RBridge Channel Error
0x002-0x0FF Available for allocation (1)
0x100-0xFF7 Available for allocation (2)
0xFF8-0xFFE Private Use
0xFFF Reserved
(1) RBridge Channel protocol code points from 0x002 to 0x0FF require
a Standards Action as modified by [RFC4020] for allocation.
(2) RBridge Channel protocol code points from 0x100 to 0xFF7 require
RFC Publication to allocate a single value or IETF Review to allocate
multiple values.
IANA is requested to create an additional sub-registry in the TRILL
Parameter Registry for RBridge Channel Header Flags with initial
contents as follows:
Flag Bit Mnemonic Allocation
-------- -------- ----------
0 SL Silent
1 MH Multi-hop
2 NA Native
3-11 - Available for allocation
Allocation of an RBridge Channel Header Flag is based on Standards
Action as modified by [RFC4020].
IANA is requested to create an additional sub-registry in the TRILL
Parameter Registry for RBridge Channel Error codes with initial
contents as listed in Section 4.2 above and with available values
allocated by Standards Action as modified by [RFC4020].
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5.2 IEEE Registration Authority Considerations
The IEEE Registration Authority has been assigned the Ethertype TBD
for RBridge-Channel.
D. Eastlake, et al [Page 18]
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6. Security Considerations
See [RFCtrill] for general RBridge Security Considerations.
No general integrity, authentication, or encryption mechanisms are
provided herein for RBridge Channel messages. If these services are
required for a particular RBridge Channel protocol, they must be
supplied by that channel protocol. (See, for example, the BFD
Authentication mechanism [RFC5880].)
An incorrect value of the RBridge Channel bit in the TRILL APPsub-TLV
can have the following effects: (1) If improperly set to zero, it
could deny RBridge Channel services, for example OAM services, for
the RBridge in question. (2) If improperly set to one, it could
encourage RBridge Channel messages to be sent to an RBridge that does
not support this feature. The inner frame of such messages would be
decapsulated and that inner frame would likely be sent out all ports
that are appointed forwarders for the frame's Inner.VLAN. However,
this is unlikely to cause harm. There are two possibilities: (2a) If
the end stations does not recognize the RBridge-Channel Ethertype of
that inner frame it will drop the frame. (2b) If the end station does
recognize the RBridge-Channel Ethertype, it should refuse to process
the frame due to an incorrect value of the RBridge Channel Header NA
flag.
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7. References
The following sections list normative and informative references for
this document.
7.1 Normative References
[IS-IS] - ISO/IEC 10589:2002, Second Edition, "Intermediate System to
Intermediate System Intra-Domain Routing Exchange Protocol for
use in Conjunction with the Protocol for Providing the
Connectionless-mode Network Service (ISO 8473)", 2002.
[RFC1195] - Callon, R., "Use of OSI IS-IS for routing in TCP/IP and
dual environments", RFC 1195, December 1990.
[RFC2119] - Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997
[RFC4020] - Kompella, K. and A. Zinin, "Early IANA Allocation of
Standards Track Code Points", BCP 100, RFC 4020, February 2005.
[RFC5226] - Narten, T. and H. Alvestrand, "Guidelines for Writing an
IANA Considerations Section in RFCs", BCP 26, RFC 5226, May
2008.
[RFCtrill] - R. Perlman, D. Eastlake, D. Dutt, S. Gai, and A.
Ghanwani, "RBridges: Base Protocol Specification", draft-ietf-
trill-rbridge-protocol-16.txt, in RFC Editor's queue.
[RFCgenapp] - L. Ginsberg, S. Previdi, M. Shand, "Advertising Generic
Information in IS-IS", draft-ietf-isis-genapp-04.txt, in RFC
Editor's queue.
[RFCadj] - D. Eastlake, R. Perlman, A. Ghanwani, D. Dutt, V. Manral,
"RBridges: Adjacency", draft-ietf-trill-adj, work in progress.
[RFCext] - D. Eastlake, A. Ghanwani, V. Manral, C. Bestler,
"RBridges: TRILL Header Extensions", draft-ietf-trill-rbridge-
options, work in progress.
7.2 Informative References
[RFC792] - Postel, J., "Internet Control Message Protocol", STD 5,
RFC 792, September 1981.
D. Eastlake, et al [Page 20]
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[RFC5082] - Gill, V., Heasley, J., Meyer, D., Savola, P., Ed., and C.
Pignataro, "The Generalized TTL Security Mechanism (GTSM)", RFC
5082, October 2007
[RFC5586] - Bocci, M., Ed., Vigoureux, M., Ed., and S. Bryant, Ed.,
"MPLS Generic Associated Channel", RFC 5586, June 2009.
[RFC5880] - D. Katz, D. Ward, "Bidirectional Forwarding Detection
(BFD)", June 2010.
[RFC5882] - D. Katz, D. Ward, "Generic Application of Bidirectional
Forwarding Detection (BFD)", June 2010.
D. Eastlake, et al [Page 21]
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Authors' Addresses
Donald Eastlake 3rd
Huawei Technologies
155 Beaver Street
Milford, MA 01757 USA
Tel: +1-508-333-2270
EMail: d3e3e3@gmail.com
Vishwas Manral
IP Infusion
1188 E. Arques Ave.
Sunnyvale, CA 94089 USA
Tel: +1-408-400-1900
EMail: vishwas@ipinfusion.com
Yizhou Li
Huawei Technologies
101 Software Avenue,
Nanjing 210012, China
Phone: +86-25-56622310
Email: liyizhou@huawei.com
Sam Aldrin
Huawei Technologies
2330 Central Expressway
Santa Clara, CA 95050 USA
Phone: +1-408-330-5000
Email: sam.aldrin@huawei.com
Dave Ward
Juniper Networks
1194 N. Mathilda Ave.
Sunnyvale, CA 94089-1206 USA
Phone: +1-408-745-2000
EMail: dward@juniper.net
D. Eastlake, et al [Page 22]
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D. Eastlake, et al [Page 23]
