TRILL: Interface Addresses APPsub-TLV
draft-eastlake-trill-ia-appsubtlv-01
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| Document | Type |
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|---|---|---|---|
| Authors | Donald E. Eastlake 3rd , Yizhou Li , Radia Perlman | ||
| Last updated | 2013-09-16 | ||
| Replaced by | draft-ietf-trill-ia-appsubtlv, RFC 7961 | ||
| RFC stream | (None) | ||
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draft-eastlake-trill-ia-appsubtlv-01
INTERNET-DRAFT Donald Eastlake
Intended status: Proposed Standard Yizhou Li
Huawei
Radia Perlman
Intel
Expires: March 15, 2014 September 16, 2013
TRILL: Interface Addresses APPsub-TLV
<draft-eastlake-trill-ia-appsubtlv-01.txt>
Abstract
This document specifies a TRILL (Transparent Interconnection of Lots
of Links) IS-IS application sub-TLV that enables the reporting by a
TRILL switch of sets of addresses such that all of the addresses in
each set designate the same interface (port). For example, an EUI-48
MAC (Extended Unique Identifier 48-bit, Media Access Control)
address, IPv4 address, and IPv6 address can be reported as all
corresponding to the same interface. Such information could be use in
some cases to synthesize responses to or by-pass the need for the
Address Resolution Protocol (ARP), the IPv6 Neighbor Discovery (ND)
protocol, or the flooding of unknown MAC addresses.
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
http://www.ietf.org/shadow.html.
D. Eastlake, et al [Page 1]
INTERNET-DRAFT TRILL: IA APPsub-TLV
Table of Contents
1. Introduction............................................3
1.1 Conventions Used in This Document......................3
2. Format of the Interface Addresses APPsub-TLV............4
3. IA APPsub-TLV sub-sub-TLVs..............................8
3.1 AFN Size sub-sub-TLV...................................8
3.2 Fixed Address sub-sub-TLV..............................9
3.3 Data Label sub-sub-TLV.................................9
3.4 Topology sub-sub-TLV..................................10
4. Security Considerations................................11
5. IANA Considerations....................................12
5.1 Additional AFN Number Allocation......................12
5.2 IA APPsub-TLV Sub-Sub-TLVs SubRegistry................13
Acknowledgments...........................................14
Appendix A: Examples......................................15
A.1 Simple Example........................................15
A.2 Complex Example.......................................15
Normative References......................................18
Informational References..................................18
Authors' Addresses........................................20
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1. Introduction
This document specifies a TRILL (Transparent Interconnection of Lots
of Links) [RFC6325] IS-IS application sub-TLV (APPsub-TLV [RFC6823])
that enables the convenient representation of sets of addresses such
that all of the addresses in each set designate the same interface
(port). For example, an EUI-48 MAC (Extended Unique Identifier
48-bit, Media Access Control [RFC5342bis]) address, IPv4 address, and
IPv6 address can be reported as all three designating the same
interface. In addition, a Data Label (VLAN or Fine Grained Label
(FGL [RFCfgl])) is specified for the interface along with the TRILL
switch and, optional the TRILL switch port, from which the interface
is reachable.
This APPsub-TLV appears inside the TRILL GENINFO TLV specified in
[ESADI] but may also occur in other application contexts. Directory
Assisted TRILL Edge services [DirectoryFramework] [DirectoryScheme]
are expected to make use of this APPsub-TLV.
Although, in some IETF protocols, address field types are represented
by Ethertype [RFC5342bis] or Hardware Type [RFC5494] only Address
Family Number (AFN) is used in this APPsub-TLV to represent address
field type.
1.1 Conventions Used in This Document
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 [RFC6325] are used herein along with
the following additional acronyms and terms:
AFN: Address Family Number
APPsub-TLV: Application sub-TLV [RFC6823].
Data Label: VLAN or FGL.
FGL: Fine Grained Label [RFCfgl].
IA: Interface Addresses.
RBridge: An alternative name for a TRILL switch.
TRILL switch: A device the implements the TRILL protocol.
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2. Format of the Interface Addresses APPsub-TLV
The Interface Addresses (IA) APPsub-TLV is used to advertise that a
set of addresses indicate the same interface (port) within a Data
Label (VLAN or FGL) and to associate that interface with the TRILL
switch, and optionally the TRILL switch port, by which the interface
is reachable. These addresses can be in different address families.
For example, it can be used to declare that a particular interface
with specified IPv4, IPv6, and EUI-48 MAC addresses in some
particular Data Label is reachable from a particular TRILL switch.
The Template field indicates the exact format of each Address Set in
an Interface Addresses APPsub-TLV. Certain well-known sets of
addresses are represented by special values. Other sets of addresses
are specified by a list of AFNs. The Template format that uses a list
of AFNs provides an explicit pattern for the type and order of
addresses in each Address Set in an IA APPsub-TLV.
A device or application making use of IA APPsub-TLV data is not
required to make use of all IA data. For example, a device or
application that was only interested in MAC and IPv6 addresses could
ignore any IPv4 or other types of address information that was
present.
+-+-+-+-+-+-+-+-+
| Type = TBD | (1 byte)
+-+-+-+-+-+-+-+-+
| Length | (1 byte)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Nickname | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Flags | (1 byte)
+-+-+-+-+-+-+-+-+
| Confidence | (1 byte)
+-+-+-+-+-+-+-+-+
| Addr Sets End | (1 byte)
+-+-+-+-+-+-+-+-+-+-
| Template ... (variable)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-...-+
| Address Set 1 (size determined by Template) |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-...-+
| Address Set 2 (size determined by Template) |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-...-+
| ...
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-...-+
| Address Set N (size determined by Template) |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-...-+
| optional sub-sub-TLVs ...
+-+-+-+-+-+-+-+-+-+-+-+-...
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Figure 1. The Interface Addresses APPsub-TLV
o Type: Interface Addresses TRILL APPsub-TLV type, set to TBD[#2
suggested] (IA-SUBTLV).
o Length: Variable, minimum 6, maximum 250 when inside a TRILL
GENINFO TLV [ESADI], maximum 255 in unconstrained contexts. If
length is 5 or less or if the APPsub-TLV extends beyond an
encompassing TRILL GENINFO TLV, the APPsub-TLV MUST be ignored.
o Nickname: The nickname of the TRILL switch by which the address
sets are reachable. If zero, the address sets are reachable from
the TRILL switch originating the message containing the APPsub-TLV
(for example, an [ESADI] message).
o Flags: A byte of flags as follows:
0 1 2 3 4 5 6 7
+-+-+-+-+-+-+-+-+
|D|L| RESV |
+-+-+-+-+-+-+-+-+
D: If D is one, the APPsub-TLV contains Push Directory
information.
L: If L is one, the APPsub-TLV contains information learned
locally by observing ingressed frames. (Both D and L can one
in the same IA APPsub-TLV.)
RESV: Additional reserved flag bits that MUST be sent as zero
and ignored on receipt.
o Confidence: This 8-bit unsigned quantity in the range 0 to 254
indicates the confidence level in the addresses being transported
[RFC6325]. A value of 255 is treated as if it was 254.
o Addr Sets End: The unsigned offset of the byte, within the IA
APPsub-TLV value part, of the last byte of the last Address Set.
This will be the byte just before the first sub-sub-TLV if any
sub-sub-TLVs are present (see Section 3). If this is equal to
Size, there are no sub-sub-TLVs. If this is less than Size, the IA
APPsub-TLV is corrupt and MUST be discarded.
o Template: The initial byte of this field is the unsigned integer
K. If K has a value from 1 to 32, it indicates that this initial
byte is followed by a list of K AFNs (Address Family Numbers) that
specify the exact structure and order of each Address Set
occurring later in the APPsub-TLV. K can be 1, which is the
minimum valid value. If K is zero, the APPsub-TLV is ignored. If K
is 33 to 254, it indicates that the exact structure of each
D. Eastlake, et al [Page 5]
INTERNET-DRAFT TRILL: IA APPsub-TLV
Address Set corresponds to a specific well known Template as
described below.
If the Template uses explicit AFNs, it looks like the following.
+-+-+-+-+-+-+-+-+
| K | (1 byte)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| AFN 1 | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| AFN 2 | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| ...
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| AFN K | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
For K in the 33 to 254 range, some values indicate combinations of
a specific number of 48-bit MAC addresses, IPv4 addresses, IPv6
addresses, and TRILL switch port IDs in that order. the value of K
is
K = 32 + M + 2*v4 + 6*v6 + 30*P
where M is the number of 48-bit MAC addresses (limited to 1 or 2),
v4 is the number of IPv4 addresses (limited to 0, 1, or 2) and v6
is the number of IPv6 addresses (limited to 0 through 4
inclusive), and P is the number of TRILL switch port IDs (limited
to 0 or 1). That equation specifies values of K from 32 through
91. Values from 92 through 254 are available for assignment by
Expert Review (see Section 5). 255 is reserved. If a Template K
value of 255 or an unknown template value in the range 33 to 254
is received, the IA APPsub-TLV MUST be ignored.
o AFN: A two-byte Address Family Number. The number of AFNs present
is given in first byte of the Template field if that value is less
than 33. There are no AFNs if it is in the range 33 through 255.
This sequence specifies the structure of the Address Sets
occurring later in the TLV. For example, if Template Size is 2 and
the two AFNs present are the AFNs for EUI-48 and IPv4, in that
order, then each Address set present will consist of a 6-byte MAC
address followed by a 4-byte IPv4 address. If any AFNs are present
that are unknown to the receiving IS and the length of the
corresponding address is not provided by a sub-sub-TLV as
specified below, the receiving IS will be unable to parse the
Address Sets and MUST ignore the IA APPsub-TLV.
o Address Set: Each address set in the APPsub-TLV consists of
exactly the same sequence of addresses of the types specified by
the Template earlier in the APPsub-TLV. No alignment, other than
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INTERNET-DRAFT TRILL: IA APPsub-TLV
to a byte boundary, is guaranteed. The addresses in each Address
Set are contiguous with no unused bytes between them and the
Address Sets are contiguous with no unused bytes between
successive Address Sets. The Address Sets must fit within the TLV.
If the product of the size of an Address Set and the number of
Address Sets is so large that this is not true, the IA APPsub-TLV
is ignored.
o sub-sub-TLVs: If the Address Sets indicated by Addr Sets End do
not completely fill the Length of the APPsub-TLV, the remaining
bytes are parsed as sub-sub-TLVs [RFC5305]. Any such sub-sub-TLVs
that are not known to the receiving RBridge are ignored. Should
this parsing not be possible, for example there is only one
remaining byte or an apparent sub-sub-TLV extends beyond the end
of the TLV, the containing IA APPsub-TLV is considered corrupt and
is ignored. (Several sub-sub-TLV types are specified in Section
3.)
Different IA APPsub-TLVs within the same or different LSPs or other
data structures may have different Templates. The same AFN may occur
more than once in a Template and the same address may occur in
different address sets. For example, an EUI-48 MAC address interface
might have three different IPv6 addresses. This could be represented
by an IA APPsub-TLV whose Template specifically provided for one
EUI-48 address and three IPv6 addresses, which might be an efficient
format if there were multiple interfaces with that pattern.
Alternatively, a Template with one EUI-48 and one IPv6 address could
be used in an IA APPsub-TLV with three address sets each having the
same EUI-48 address but different IPv6 addresses, which might be the
most efficient format if only one interface had multiple IPv6
addresses and other interfaces had only one IPv6 address.
In order to be able to parse the Address Sets, a receiving RBridge
must know at least the size of the address each AFN the Template
specifies; however, the presence of the Addr Set End field means that
the sub-sub-TLVs, if any, can always be located by a receiver. An
RBridge can be assumed to know the size of the AFNs list in Section
5. Should an RBridge wish to include an AFN that some receiving
RBridge in the campus may not know, it SHOULD include an AFN-Size
sub-sub-TLV as described below. If an IA APPsub-TLV is received with
one or more AFNs in its template for which the receiving RBridge does
not know the length and for which an AFN-Size sub-sub-TLV is not
present, that IA APPsub-TLV MUST be ignored.
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3. IA APPsub-TLV sub-sub-TLVs
IA APPsub-TLVs can have trailing sub-sub-TLVs [RFC5305] as specified
below. These sub-sub-TLVs occur after the Address Sets and the
amount of space available for sub-sub-TLVs is determined from the
overall IA APPsub-TLV length and the value of the Addr Set End byte.
There is no ordering restriction on sub-sub-TLVs. Unless otherwise
specified each sub-sub-TLV type can occur zero, one, or many times in
an IA APPsub-TLV.
3.1 AFN Size sub-sub-TLV
Using this sub-TLV, the originating RBridge can specify the size of
an address type. This is useful under two circumstances as follows:
1. One or more AFNs that are unknown to the receiving RBridge appears
in the template. If an AFN Size sub-sub-TLV is present for each
such AFN, then at least the IA APPsub-TLV can be parsed and
possibly other addresses in each address set can still be used.
2. If an AFN occurs in the Template that represents a variable length
address, this sub-sub-TLV gives its size for all occurrences in
that IA APPsub-TLV. (It is believed that the addresses specified
by all currently assigned AFNs are fixed length.)
+-+-+-+-+-+-+-+-+
| Type = AFNsz | (1 byte)
+-+-+-+-+-+-+-+-+
| Length | (1 byte)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| AFN Size Record(s) | (3 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Where each AFN Size Record is structured as follows:
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| AFN | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| AdrSize | (1 byte)
+-+-+-+-+-+-+-+-+
o Type: AFN-Size sub-sub-TLV type, set to 1 (AFNsz).
o Length: 3*n where n is the number of AFN Size Records present. If
n is not a multiple of 3, the sub-sub-TLV MUST be ignored.
o AFN Size Record(s): Zero or more 3-byte records, each giving the
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INTERNET-DRAFT TRILL: IA APPsub-TLV
size of an address type identified by an AFN,
o AFN: The AFN whose length is being specified by the AFN Size
Record.
o AdrSize: The length of the address specified by the AFN field as
an unsigned integer byte.
An AFN Size sub-sub-TLV for any AFN known to the receiving RBridge is
compared with the size known to the RBridge and if they differ, the
IA APPsub-TLV is assumed to be corrupt and MUST be ignored.
3.2 Fixed Address sub-sub-TLV
There may be cases where, in an Interface Addresses APP-subTLV, the
same address would appear across every address set in the APP-subTLV.
To avoid wasted space, this sub-sub-TLV can be used to indicate such
a fixed address. The address or addresses incorporated into the sets
by this sub-sub-TLV are NOT mentioned in the IA APPsub-TLV Template.
+-+-+-+-+-+-+-+-+
|Type=FIXEDADR | (1 byte)
+-+-+-+-+-+-+-+-+
| Length | (1 byte)
+-+-+-+-+-+-+-+-+
| AFN | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-...
| Fixed Address (variable)
+-+-+-+-+-+-+-+-+-+-+-+-+-...
o Type: Data Label sub-sub-TLV type, set to 2 (FIXEDADR).
o Length: variable, minimum 3. If Length is 2 or less, the sub-sub-
TLV MUST be ignored.
o AFN: Address Family Number of the Fixed Address.
o Fixed Address: The address of the type indicated by the preceding
AFN field that is considered to be part of every Address Set in
the IA APPsub-TLV.
3.3 Data Label sub-sub-TLV
This sub-sub-TLV indicates the Data Label within which the interfaces
listed in the IA APPsub-TLV are reachable. It is useful if the IA
APPsub-TLV occurs outside of the context of an [ESADI] or other type
D. Eastlake, et al [Page 9]
INTERNET-DRAFT TRILL: IA APPsub-TLV
of message specifying the Data Label or if it is desired to override
that specification. Multiple occurrences of this sub-sub-TLV
indicate that the interface is reachable in all of the Data Labels
given.
+-+-+-+-+-+-+-+-+
|Type=DATALEN | (1 byte)
+-+-+-+-+-+-+-+-+
| Length | (1 byte)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-...
| Data Label (variable)
+-+-+-+-+-+-+-+-+-+-+-+-+-...
o Type: Data Label sub-TLV type, set to 3 (LABEL).
o Length: 2 or 3
o Data Label: If length is 2, the bottom 12 bits of the Data
Label are a VLAN ID and the top 4 bits are reserved (MUST be
sent as zero and ignored on receipt). If the length is 3, the
three Data Label bytes contain an FGL [RFCfgl].
3.4 Topology sub-sub-TLV
The presence of this sub-sub-TLV indicates that the interfaces given
in the IA APPsub-TLV are reachable in the topology give. It is useful
if the IA APPsub-TLV occurs outside of the context of an [ESADI] or
other type of message specifying the topology or if it is desired to
override that specification. If it occurs multiple times, then the
Address Sets are in all of the topologies given.
+-+-+-+-+-+-+-+-+
|Type=DATALEN | (1 byte)
+-+-+-+-+-+-+-+-+
| Length | (1 byte)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| RESV | Topology | (2 bytes)
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
o Type: Topology sub-TLV type, set to 4 (TOPOLOGY).
o Length: 2.
RESV: Four reserved bits. MUST be sent as zero and ignored on
receipt.
o Topology: The 12-bit topology number [RFC5120].
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4. Security Considerations
The integrity of address mapping information and the correctness of
Data Labels (VLANs or FLGs [RFCfgl]) are very important. Forged,
altered, or incorrect address mapping or Data Labeling can lead to
delivery of packets to the incorrect party, violating security
policy. However, this document merely describes a data format and
does not provide any explicit mechanisms for securing that data,
other than a few trivial consistency checks that might detect some
corrupted data. Security on the wire, or in storage, for this data is
to be providing by the transport or storage used. For example, when
transported with [ESADI], [ESADI] security mechanisms can be used.
The address mapping data, if known to be complete and correct, can be
used to detect some cases of forged packet source addresses
[DirectoryFramework]. In particular, if a native frame is received by
a TRILL switch that would otherwise accept it but authoritative data
indicates the source address should not be reachable from the
receiving TRILL switch, that frame should be discarded. The data
format specified in this document may optionally include RBridge Port
ID number so that this forged address filtering can be optionally
applied with port granularity.
See [RFC6325] for general TRILL Security Considerations.
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5. IANA Considerations
As discussed below, IANA will allocate some new AFN numbers and
create the TRILL IS-APPsub-TLV sub-sub-TLV subregistry.
5.1 Additional AFN Number Allocation
IANA is requested to allocate four new AFN numbers as follows:
Number Description References
------ ----------- ----------
TBD OUI [RFC5342bis]
TBD MAC/24 This document.
TBD MAC/40 This document.
TBD IPv6/64 This document.
TBD RBridge Port ID [RFC6325]
The OUI AFN is provided so that MAC addresses can be abbreviated if
they have the same upper 24 bits. In particular, if there is an OUI
provided as a Fixed Address sub-sub-TLV (see Section 5.2.2) then,
whenever a MAC/24 or MAC/40 address appears within an Address Set (as
indicated by the Template), the OUI is used as the first 24 bits of
the actual MAC address for the Address Set. An OUI provided by a
Fixed Address sub-sub-TLV is ignored is the IA APPsub-TLV has no
MAC/24 or MAC/40 in its template.
MAC/24 is a 24-bit suffix intended to be pre-fixed by an OUI as in
the previous paragraph. In the absence of an OUI specified as a Fixed
Address in the same APPsub-TLV, an Address Set containing an MAC/24
address cannot be used.
MAC/40 is a suffix as specified above except that it is 40-bit so the
result of combining it with an OUI is a 64-bit MAC address.
IPv6/64 is an 8-byte quantity that is the first 64 bits of an IPv6
address. If present, there will normally be an EUI-48 or EUI-64
address in the address set to provide the lower 64 bits of the IPv6
address. For this purpose, an EUI-48 is expanded to 64 bits as
described in [RFC5342bis].
Other AFNs can be found at http://www.iana.org/assignments/address-
family-numbers
The following AFN values may be particularly useful for IA APPsub-
TLVs:
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Hex Decimal Description References
----- ------- ----------- ----------
0001 1 IPv4
0002 2 IPv6
4005 16,389 48-bit MAC [RFC5342bis]
4006 16,390 64-bit MAC [RFC5342bis]
5.2 IA APPsub-TLV Sub-Sub-TLVs SubRegistry
IANA is requested to establish a new subregistry for sub-sub-TLVs of
the Interface Addresses APPsub-TLV with initial contents as shown
below.
Name: Interface Addresses APPsub-TLV Sub-Sub-TLVs
Procedure: Expert Review
Reference: This document
Type Description Reference
---- ----------- ---------
0 Reserved
1 AFN Size This document
2 Fixed Address This document
3 Data Label This document
4 Topology This document
5-254 Available
255 Reserved
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Acknowledgments
The authors gratefully acknowledge the contributions and review by
the following:
Linda Dunbar
The document was prepared in raw nroff. All macros used were defined
within the source file.
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Appendix A: Examples
Below are example IA APPsub-TLVs.
A.1 Simple Example
Below is an annotated IA APPsub-TLV carrying two simple pairs of
EUI-48 MAC addresses and IPv4 addresses from a Push Directory
[DirectoryFramework]. No sub-sub-TLVs are included.
0x02(TBD) Type: Interface Addresses
26 Size: 26 (=0x1A)
0x1234 RBridge Nickname from which reachable
0b10000000 Flags: Push Directory data
0xE3 Confidence
26 Address Sets End: 26 (=0x1A)
36 Template: 36(=0x24) = 32 + 1(MAC48) + 2*1(IPv4)
Address Set One
0x00005E0053A9 48-bitMAC address
198.51.100.23 IPv4 address
Address Set Two
0x00005E00536B 48-bit MAC address
203.0.113.201 IPv4 address
Size includes 6 for the fixed fields though and including the one
byte template, plus 2 times the Address Set size. Each Address Set is
10 bytes, 6 for the 48-bit MAC address plus 4 for the IPv4 address.
So total size is 6 + 2*10 = 26.
See Section 2 for more information on Template.
A.2 Complex Example
Below is an annotated IA APPsub-TLV carrying three sets of addresses,
each consisting of an EUI-48 MAC address, an IPv4 addresses, an IPv6
address, and an RBridge Port ID, all from a Push Directory
[DirectoryFramework]. The IPv6 address for each address set is
synthesized from the MAC address given in that set and the IPv6/64
64-bit prefix provided through a Fixed Address sub-sub-TLV. In
addition, a sub-sub-TLV is included that provides an FGL which
overrides whatever Data Label may be provided by the envelope (for
example [ESADI]) within which this IA APPsub-TLV occurs.
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0x02(TBD) Type: Interface Addresses
59 Size: 59 (=0x3B)
0x4321 RBridge Nickname from which reachable
0b10000000 Flags: Push Directory data
0xD3 Confidence
42 Address Sets End: 42 (=0x2A)
65 Template: 65(0x41)=32+1(MAC48)+2*1(IPv4)+30*1(P)
Address Set One
0x00005E0053DE 48-bitMAC address
198.51.100.105 IPv4 address
0x1DE3 RBridge Port ID
Address Set Two
0x00005E0053E3 48-bit MAC address
203.0.113.89 IPv4 address
0x1DEE RBridge Port ID
Address Set Three
0x00005E0053D3 48-bit MAC address
192.0.2.139 IPv4 address
0x01DE RBridge Port ID
sub-sub-TLV One
0x03 Type: Data Label
0x03 Length: implies FGL
0xD3E3E3 Fine Grained Label
sub-sub-TLV Two
0x02 Type: Fixed Address
0x0A Size: 0x0A = 10
0xTBDx AFN: IPv6/64
0x0x20010DB800000000 IPv6 Prefix: 2001:DB8::
See Section 2 for more information on Template.
The Fixed Address sub-sub-TLV causes the IPv6/64 value give to be
treated as if it occurred as a 4th entry inside each of the three
Address Sets. When there is an IPv6/64 entry and a 48-bit MAC entry,
the MAC value is expanded by inserting 0xFFFE immediately after the
OUI and the resulting 64-bit value is used as the lower 64 bits of
the resulting IPv6 address [RFC5342bis]. As a result, a receiving
TRILL would treat the three Address Sets shown as if they had an IPv6
address in them as follows:
D. Eastlake, et al [Page 16]
INTERNET-DRAFT TRILL: IA APPsub-TLV
Address Set One
0x20010DB80000000000005EFFFE0053DE IPv6 Address
Address Set Two
0x20010DB80000000000005EFFFE0053E3 IPv6 Address
Address Set Three
0x20010DB80000000000005EFFFE0053D3 IPv6 Address
As an alternative to the compact "well know value" Template encoding
used in this example above, the less compact explicit AFN encoding
could have been used. In that case, the IA APPsub-TLV would have
started as follows:
0x02(TBD) Type: Interface Addresses
65 Size: 65 (=0x41)
0x4321 RBridge Nickname from which reachable
0b10000000 Flags: Push Directory data
0xD3 Confidence
48 Address Sets End: 48 (=0x30)
0x3 Template: 3 AFNs
0x4005 AFN: 48-bit MAC
0x0001 AFN: IPv4
0xTBDz AFN: RBridge Port ID
As a final point, since the 48-bit MAC addresses in these three
Address Sets all have the same OUI (the IANA OUI [RFC5342bis]), it
would have been possible to just have a MAC/24 value giving the lower
24 bits of the MAC in each Address Set. The OUI would them be
supplied by a second Fixed Address sub-sub-TLV proving the OUI. With
N Address Sets, this would have save 3*N or 9 bytes in this case at
the cost of 7 bytes (1 each for the type and length of the sub-sub-
TLV, 2 for the OUI AFN number, and 3 for the OUI). So, even with just
three Address Sets, there would be a small net saving. The savings
would grow with a larger number of Address Sets.
D. Eastlake, et al [Page 17]
INTERNET-DRAFT TRILL: IA APPsub-TLV
Normative References
[RFC2119] - Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997
[RFC5120] - Przygienda, T., Shen, N., and N. Sheth, "M-ISIS: Multi
Topology (MT) Routing in Intermediate System to Intermediate
Systems (IS-ISs)", RFC 5120, February 2008.
[RFC5305] - Li, T. and H. Smit, "IS-IS Extensions for Traffic
Engineering", RFC 5305, October 2008.
[RFC5342bis] - Eastlake 3rd, D., "IANA Considerations and IETF
Protocol Usage for IEEE 802 Parameters", BCP 141, RFC 5342,
September 2008.
[RFC6325] - Perlman, R., Eastlake 3rd, D., Dutt, D., Gai, S., and A.
Ghanwani, "Routing Bridges (RBridges): Base Protocol
Specification", RFC 6325, July 2011.
[RFC6823] - Ginsberg, L., Previdi, S., and M. Shand, "Advertising
Generic Information in IS-IS", RFC 6823, December 2012.
[RFCfgl] - D. Eastlake, M. Zhang, P. Agarwal, R. Perlman, D. Dutt,
"TRILL: Fine-Grained Labeling", draft-ietf-trill-fine-
labeling-07.txt, in RFC Editor's queue.
Informational References
[ARP reduction] - Shah, et. al., "ARP Broadcast Reduction for Large
Data Centers", Oct 2010.
[DirectoryFramework] - Dunbar, L., D. Eastlake, R. Perlman, I.
Gashinsky, "TRILL Edge Directory Assistance Framework", draft-
ietf-trill-directory-framework-07.txt, in RFC Editor's queue.
[DirectoryScheme] - Dunbar, L., D. Eastlake, R. Perlman, I.
Gashinsky, Y. Li, "TRILL": Directory Assistance Mechanisms",
draft-dunbar-trill-scheme-for-directory-assist, work in
progress.
[ESADI] - Zhai, H., F. Hu, R. Perlman, D. Eastlake, O. Stokes, "TRILL
(Transparent Interconnection of Lots of Links): The ESADI (End
Station Address Distribution Information) Protocol", draft-
ietf-trill-esadi-03.txt, work in progress.
[RFC5494] - Arkko, J. and C. Pignataro, "IANA Allocation Guidelines
for the Address Resolution Protocol (ARP)", RFC 5494, April
D. Eastlake, et al [Page 18]
INTERNET-DRAFT TRILL: IA APPsub-TLV
2009.
D. Eastlake, et al [Page 19]
INTERNET-DRAFT TRILL: IA APPsub-TLV
Authors' Addresses
Donald Eastlake
Huawei Technologies
155 Beaver Street
Milford, MA 01757 USA
Phone: +1-508-333-2270
Email: d3e3e3@gmail.com
Yizhou Li
Huawei Technologies
101 Software Avenue,
Nanjing 210012 China
Phone: +86-25-56622310
Email: liyizhou@huawei.com
Radia Perlman
Intel Labs
2200 Mission College Blvd.
Santa Clara, CA 95054-1549 USA
Phone: +1-408-765-8080
Email: Radia@alum.mit.edu
D. Eastlake, et al [Page 20]
INTERNET-DRAFT TRILL: IA APPsub-TLV
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D. Eastlake, et al [Page 21]