Representing Multi-Value Time in Mobile Ad Hoc Networks (MANETs)
draft-ietf-manet-timetlv-08
The information below is for an old version of the document that is already published as an RFC.
| Document | Type | RFC Internet-Draft (manet WG) | |
|---|---|---|---|
| Authors | Christopher Dearlove , Thomas H. Clausen | ||
| Last updated | 2020-01-21 (Latest revision 2008-09-26) | ||
| Replaces | draft-clausen-manet-timetlv | ||
| Stream | Internet Engineering Task Force (IETF) | ||
| Formats | plain text htmlized pdfized bibtex | ||
| Reviews | |||
| Stream | WG state | (None) | |
| Document shepherd | (None) | ||
| IESG | IESG state | RFC 5497 (Proposed Standard) | |
| Consensus boilerplate | Unknown | ||
| Telechat date | (None) | ||
| Responsible AD | Ross Callon | ||
| Send notices to | (None) |
draft-ietf-manet-timetlv-08
Mobile Ad hoc Networking (MANET) T. Clausen
Internet-Draft LIX, Ecole Polytechnique, France
Intended status: Standards Track C. Dearlove
Expires: March 30, 2009 BAE Systems Advanced Technology
Centre
September 26, 2008
Representing multi-value time in MANETs
draft-ietf-manet-timetlv-08
Status of This Memo
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Abstract
This document describes a general and flexible TLV (type-length-value
structure) for representing time-values, such as an interval or a
duration, using the generalized MANET packet/message format. It
defines two message and two address block TLVs for representing
validity and interval times for MANET routing protocols.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1. Motivation and Rationale . . . . . . . . . . . . . . . . . 3
2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 5
3. Applicability Statement . . . . . . . . . . . . . . . . . . . 6
4. Protocol Overview and Functioning . . . . . . . . . . . . . . 6
5. Representing Time . . . . . . . . . . . . . . . . . . . . . . 6
6. General Time TLV Structure . . . . . . . . . . . . . . . . . . 7
6.1. Single-value Time TLVs . . . . . . . . . . . . . . . . . . 8
6.2. Multi-value Time TLVs . . . . . . . . . . . . . . . . . . 9
7. Message TLVs . . . . . . . . . . . . . . . . . . . . . . . . . 10
7.1. INTERVAL_TIME TLV . . . . . . . . . . . . . . . . . . . . 10
7.2. VALIDITY_TIME TLV . . . . . . . . . . . . . . . . . . . . 10
8. Address Block TLVs . . . . . . . . . . . . . . . . . . . . . . 10
8.1. INTERVAL_TIME TLV . . . . . . . . . . . . . . . . . . . . 10
8.2. VALIDITY_TIME TLV . . . . . . . . . . . . . . . . . . . . 11
9. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 11
9.1. Expert Review: Evaluation Guidelines . . . . . . . . . . . 11
9.2. Message TLV Types . . . . . . . . . . . . . . . . . . . . 12
9.3. Address Block TLV Types . . . . . . . . . . . . . . . . . 12
10. Security Considerations . . . . . . . . . . . . . . . . . . . 13
11. References . . . . . . . . . . . . . . . . . . . . . . . . . . 13
11.1. Normative References . . . . . . . . . . . . . . . . . . . 13
11.2. Informative References . . . . . . . . . . . . . . . . . . 13
Appendix A. Acknowledgements . . . . . . . . . . . . . . . . . . 13
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1. Introduction
The generalized packet/message format [packetbb] specifies a
signaling format which MANET routing protocols can employ for
exchanging protocol information. This format presents the ability to
express and associate attributes to packets, messages or addresses,
by way of a general TLV (type-length-value) mechanism.
This document specifies a general Time TLV structure, which can be
used by any MANET routing protocol that needs to express either
single time-values or a set of time-values with each time-value
associated with a range of hop counts, as provided by the message
header of [packetbb]. This allows a receiving node to determine a
single time-value if either it knows its hop count from the
originator node, or the Time TLV specifies a single time-value.
A time-value is, in this context, not an "absolute point in time",
but rather an interval or a duration. An instance of a Time TLV can,
therefore, express an interval or a duration such as "10 seconds".
This document also specifies two message TLV types, which use the TLV
structure proposed. These TLV types are INTERVAL_TIME and
VALIDITY_TIME, specifying respectively the maximum time before
another message of the same type as this message from the same
originator should be received, and the duration for which the
information in this message is valid after receipt. Note that, if
both are present, then the latter will usually be greater than the
former in order to allow for possible message loss.
This document also specifies two address block TLV types, which use
the TLV structure proposed. These TLV types are INTERVAL_TIME and
VALIDITY_TIME, defined equivalently to the two message TLVs with the
same names.
1.1. Motivation and Rationale
The Time TLV structure, specified in this document, is intended to be
used as a component in a MANET routing protocol, e.g. to indicate the
expected spacing between successive transmissions of a given message
type, by including a Time TLV in transmitted messages.
Some MANET routing protocols may employ very short spacing for some
messages and very long spacing for others, or may change the message
transmission rate according to observed behavior. For example, if a
network is observed at some point in time to exhibit a highly dynamic
topology, a very short (sub-second) message spacing could be
appropriate, whereas if the network later is observed to stabilize,
multi-hour message spacing may become appropriate. Different MANET
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routing protocols and different deployments of MANET routing
protocols may have different granularity requirement and bounds on
shortest and longest spacing between successive message
transmissions.
In addition, MANET routing protocol deployments typically use
bandwidth limited wireless network interfaces, and therefore prefer
to trade off computational complexity for a saving in the number of
bits transmitted. This is practical in this case, because the
intended usages of Time TLVs, including the specified examples of
message interval time and information validity time, do not require
high precision values of time.
The Time TLV structure, specified in this document, caters to these
characteristics by:
o encoding time-values, such as an interval or a duration, in an 8
bit field; while
o allowing these time-values to range from "very small" (e.g. 1/1024
second) to "very long" (e.g. 45 days); and
o allowing a MANET routing protocol, or a deployment, to parametrize
this (e.g. to attain finer granularity at the expense of a lower
upper bound) through a single parameter, C.
The parameter C must be the same for all MANET routers in the same
deployment.
The TLV mechanism as specified in [packetbb] allows associating a
"value" to either a packet, a message or to addresses. The data
structure for doing so - the TLV - is identical in each of the three
cases, however the TLV's position in a received packet allows
determining if that TLV is a "packet TLV" (it appears in the packet
header, before any messages), a "message TLV" (it appears in the TLV
block immediately following a message header) or an "address block
TLV" (it appears in the TLV block immediately following an address
block).
While TLVs may be structurally identical, that which they express may
be different. This is determined from the kind (packet, message or
address block) and type of the TLV. For example one TLV might
associate a lifetime to an address, another a content sequence number
to a message, and another a cryptographic signature to a packet. For
this reason, [packetbb] specifies separate registries for packet,
message and address block TLV types, and does not specify any
structure in the TLV value field.
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The TLVs defined in this document express, essentially, that "this
information will be refreshed within X seconds" and that "this
information is valid for X seconds after being received", each
allowing the "X seconds" to be specified as a function of the number
of hops from the originator of the information. This document
specifies a general format allowing expressing and encoding this as
the value field of a TLV. This representation uses a compact (8 bit)
representation of time, as message size is an issue in many MANETs,
and the offered precision and range is appropriate for MANET routing
protocols.
A TLV of this format may be used for packets, messages or addresses.
For example, a proactive MANET routing protocol periodically
reporting link state information could include a TLV of this format
as a message TLV. This may indicate a different periodicity in
different scopes (possibly frequently up to a few hops, less
frequently beyond that) because some messages may be sent with
limited scope, as specified in [packetbb]. A reactive MANET routing
protocol could include a TLV of this format as an address block TLV
for reporting the lifetime of routes to individual addresses.
In addition to defining the general format as outlined above, this
document requests IANA assignments for INTERVAL_TIME and
VALIDITY_TIME TLVs. These IANA assignments are requested in this
document in order to avoid interdependencies between otherwise
unrelated MANET protocols and in order to not exhaust the TLV type
spaces by having different protocols request types for essentially
identical data structures. Only message and address block TLVs are
requested, as these are those for which a need has been demonstrated.
2. Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
[RFC2119].
Additionally, this document uses terminology from [packetbb], and
introduces the following terminology:
hop count - the number of hops from the message originator to the
message recipient. This is defined to equal the <msg-hop-count>
field in the <msg-header> element defined in [packetbb], if
present, after it is incremented on reception. If the <msg-hop-
count> field is not present, or in a packet TLV, then hop count is
defined to equal 255.
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time-value - a time, measured in seconds.
time-code - an 8 bit field, representing a time-value.
3. Applicability Statement
The TLV structure described in this document is applicable whenever a
single time-value, or a time-value that varies with the number of
hops from the originator of a message, is required in a protocol
using the generalized MANET packet/message format [packetbb].
Examples of time-values that may be included in a protocol message
are:
o The maximum time interval until the next message of the same type
is to be generated by the message's originator node.
o The validity time of the information with which the time-value is
associated.
Either of these may vary with the hop count between the originating
and receiving nodes, e.g. if messages of the same type are sent with
different hop limits as defined in [packetbb].
Parts of this document have been generalized from material in the
proactive MANET routing protocol OLSR (The Optimized Link State
Routing Protocol) [RFC3626].
4. Protocol Overview and Functioning
This document does not specify a protocol nor does it mandate
specific node or protocol behavior. Rather, it outlines mechanisms
for encoding time-values using the TLV mechanism of [packetbb].
5. Representing Time
This document specifies a TLV structure in which time-values are each
represented in an 8 bit time-code, one or more of which may be used
in a TLV's <value> field. Of these 8 bits, the least significant 3
bits represent the mantissa (a), and the most significant 5 bits
represent the exponent (b), so that:
o time-value = (1 + a/8) * 2^b * C
o time-code = 8 * b + a
All nodes in the MANET MUST use the same value of the constant C,
which will be specified in seconds, hence so will be all time-values.
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C MUST be greater than 0 seconds. Note that ascending values of the
time-code represent ascending time-values, time-values may thus be
compared by comparison of time-codes.
An algorithm for computing the time-code representing the smallest
representable time-value not less than the time-value t is:
1. find the largest integer b such that t/C >= 2^b;
2. set a = 8 * (t / (C * 2^b) - 1), rounded up to the nearest
integer;
3. if a == 8 then set b = b + 1 and set a = 0;
4. if 0 <= a <= 7, and 0 <= b <= 31, then the required time-value
can be represented by the time-code 8 * b + a, otherwise it can
not.
The minimum time-value that can be represented in this manner is C.
The maximum time-value that can be represented in this manner is 15 *
2^28 * C, or about 4.0 * 10^9 * C. If, for example, C = 1/1024
second, then this is about 45 days.
A protocol using this time representation MUST define the value of C.
A protocol using this specification MAY specify that the all bits
zero time-value (0) represents a time-value of zero and/or that the
all bits one time-value (255) represents an indefinitely large time-
value.
6. General Time TLV Structure
The following data structure allows the representation of a single
time-value, or of a default time-value plus pairs of (time-values,
hop counts) for when hop count dependent time-values are required.
The time-values are represented as time-codes as defined in
Section 5. This <time-data> data structure is specified, using the
regular expression syntax of [packetbb], by:
<time-data> = (<time-code><hop-count>)*<time-code>
where:
<time-code> is an 8 bit unsigned integer field containing a time-
code as defined in Section 5.
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<hop-count> is an 8 bit unsigned integer field specifying a hop
count from the message originator.
A <time-data> structure thus consists of an odd number of octets;
with a repetition factor of n for the (time, hop count) pairs in the
regular expression syntax, it contains 2n+1 octets. On reception, n
is determined from the length.
A <time-data> field may be thus represented by:
<t_1><d_1><t_2><d_2> ... <t_i><d_i> ... <t_n><d_n><t_default>
<d_1>, ... <d_n>, if present, MUST be a strictly increasing sequence,
with <d_n> < 255. Then, at the receiving node's hop count from the
originator node, the time-value indicated is that represented by the
time-code:
o <t_1>, if n > 0 and hop count <= <d_1>;
o <t_i+1>, if n > 1 and <d_i> < hop count <= <d_i+1> for some i such
that 1 <= i < n;
o <t_default> otherwise, i.e. if n == 0 or hop count > <d_n>.
If included in a message without a <msg-hop-count> field in its
message header, or in a packet TLV, then the form of this data
structure with a single time-code in <time-data> (i.e. n == 0) SHOULD
be used.
6.1. Single-value Time TLVs
The purpose of a single value Time TLV is to allow a single time-
value to be determined by a node receiving an entity containing the
Time TLV, based on its hop count from the entity's originator. The
Time TLV may contain information that allows that time-value to be a
function of the hop count, and thus different receiving nodes may
determine different time-values.
A single-value Time TLV may be a packet TLVs, a message TLV or an
address block TLV.
A Time TLV which has the tismultivalue flag cleared ('0') in its
<tlv-flags> field, as defined in [packetbb], contains a single <time-
data>, as defined above, in its <value> field. For such a Time TLV:
o The <length> field in the TLV MUST contain the value 2n+1, with n
being the number of (time-value, hop count) pairs in the Time TLV.
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o The number of (time-value, hop count) pairs MUST be identified by
inspecting the <length> field in the TLV. The number of such
pairs, n, is:
* n = (<length> - 1) / 2
This MUST be an integer value.
6.2. Multi-value Time TLVs
The purpose of a multi-value Time TLV is to associate a set of <time-
data> structures to an identically sized set of addresses, as
described in [packetbb]. For each of these <time-data> structures, a
single time-value can be determined by a node receiving an entity
containing the Time TLV, based on its hop count from the entity's
originator. The Time TLV may contain information that allows that
time-value to be a function of the hop count, and thus different
receiving nodes may determine different time-values.
Multi-value Time TLVs MUST be address block TLVs. A multi-value Time
TLV MUST NOT be a packet or message TLV.
A Time TLV which has the tismultivalue flag set ('1') in its <tlv-
flags> field, as defined in [packetbb], contains a sequence of <time-
data> structures, as defined above, in its <value> field. For such a
Time TLV:
o The <length> field in the TLV MUST contain the value m * (2n+1),
with n being the number of (time-value, hop count) pairs in the
Time TLV, and m being number-values as defined in [packetbb].
o The number of <time-data> structures included in the <value> field
is equal to number-values as defined in [packetbb].
o The number of (time-value, hop count) pairs in each <time-data>
structure MUST be the same, and MUST be identified by inspecting
the <length> field in the TLV and using number-values as defined
in [packetbb]. The number of such pairs in each <time-data>
structure, n, is:
* n = ((<length> / number-values) - 1) / 2
This MUST be an integer value. The lists of hop count values MAY
be different.
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7. Message TLVs
Two message TLVs are defined, for signaling message interval
(INTERVAL_TIME) and message validity time (VALIDITY_TIME).
7.1. INTERVAL_TIME TLV
An INTERVAL_TIME TLV is a message TLV that defines the maximum time
before another message of the same type as this message from the same
originator should be received. This interval time MAY be specified
to depend on the hop count from the originator. (This is appropriate
if messages are sent with different hop limits, so that receiving
nodes at greater hop counts have an increased interval time.)
A message MUST NOT include more than one INTERVAL_TIME TLV.
An INTERVAL_TIME TLV is an example of a Time TLV specified as in
Section 5.
7.2. VALIDITY_TIME TLV
A VALIDITY_TIME TLV is a message TLV that defines the validity time
of the information carried in the message in which the TLV is
contained. After this time the receiving node MUST consider the
message content to no longer be valid (unless repeated in a later
message). The validity time of a message MAY be specified to depend
on the hop count from its originator. (This is appropriate if
messages are sent with different hop limits, so that receiving nodes
at greater hop counts receive information less frequently and must
treat is as valid for longer.)
A message MUST NOT include more than one VALIDITY_TIME TLV.
A VALIDITY_TIME TLV is an example of a Time TLV specified as in
Section 5.
8. Address Block TLVs
Two address block TLVs are defined, for signaling address
advertisement interval (INTERVAL_TIME) and address validity time
(VALIDITY_TIME).
8.1. INTERVAL_TIME TLV
An INTERVAL_TIME TLV is an address block TLV that defines the maximum
time before this address from the same originator should be received
again. This interval time MAY be specified to depend on the hop
count from the originator. (This is appropriate if addresses are
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contained in messages sent with different hop limits, so that
receiving nodes at greater hop counts have an increased interval
time.)
A protocol using this TLV and the similarly named message TLV MUST
specify how to interpret the case when both are present (typically
that the former over-rides the latter for those addresses which are
covered by the former).
An INTERVAL_TIME TLV is an example of a Time TLV specified as in
Section 5.
8.2. VALIDITY_TIME TLV
A VALIDITY_TIME TLV is an address block TLV that defines the validity
time of the addresses to which the TLV is associated. After this
time the receiving node MUST consider the addresses to no longer be
valid (unless these are repeated in a later message). The validity
time of an address MAY be specified to depend on the hop count from
its originator. (This is appropriate if addresses are contained in
messages sent with different hop limits, so that receiving nodes at
greater hop counts receive information less frequently and must treat
is as valid for longer.)
A protocol using this TLV and the similarly named message TLV MUST
specify how to interpret the case when both are present (typically
that the former over-rides the latter for those addresses which are
covered by the former).
A VALIDITY_TIME TLV is an example of a Time TLV specified as in
Section 5.
9. IANA Considerations
This specification defines two message TLV types, which must be
allocated from the "Assigned Message TLV Types" repository of
[packetbb] as specified in Table 1 and two address block TLV types,
which must be allocated from the "Assigned Address Block TLV Types"
repository of [packetbb] as specified in Table 2.
IANA is requested to assign the same numerical value to the message
TLV and address block TLV types with the same name.
9.1. Expert Review: Evaluation Guidelines
For the registries for TLV type extensions where an Expert Review is
required, the designated expert SHOULD take the same general
recommendations into consideration as are specified by [packetbb].
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9.2. Message TLV Types
+---------------+------+-----------+--------------------------------+
| Name | Type | Type | Description |
| | | Extension | |
+---------------+------+-----------+--------------------------------+
| INTERVAL_TIME | TBD1 | 0 | The maximum time before |
| | | | another message of the same |
| | | | type as this message from the |
| | | | same originator should be |
| | | | received |
| | | 1-223 | Expert Review |
| | | 224-255 | Experimental Use |
| VALIDITY_TIME | TBD2 | 0 | The time from receipt of the |
| | | | message during which the |
| | | | information contained in the |
| | | | message is to be considered |
| | | | valid |
| | | 1-223 | Expert Review |
| | | 224-255 | Experimental Use |
+---------------+------+-----------+--------------------------------+
Table 1
9.3. Address Block TLV Types
+---------------+------+-----------+--------------------------------+
| Name | Type | Type | Description |
| | | extension | |
+---------------+------+-----------+--------------------------------+
| INTERVAL_TIME | TBD1 | 0 | The maximum time before |
| | | | another message of the same |
| | | | type as this message from the |
| | | | same originator and containing |
| | | | this address should be |
| | | | received |
| | | 1-223 | Expert Review |
| | | 224-255 | Experimental Use |
| VALIDITY_TIME | TBD2 | 0 | The time from receipt of the |
| | | | address during which the |
| | | | information regarding this |
| | | | address is to be considered |
| | | | valid |
| | | 1-223 | Expert Review |
| | | 224-255 | Experimental Use |
+---------------+------+-----------+--------------------------------+
Table 2
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10. Security Considerations
This document specifies how to add data structures (TLVs) which
provide timing information to packets and messages specified using
[packetbb]. In particular, information validity durations and
reporting intervals may be added.
The general security threats that apply are those general to
[packetbb] and described therein, problems of integrity and
confidentiality. With regard to the former, modification of a time
TLV can cause information to have an invalid validity time, or
expected interval time. This may cause incorrect protocol
performance. Modification or addition of timed information can add
to a protocol's workload (especially if a short validity time is
specified) and storage requirements (especially if a long validity
time is specified).
To counter these threats, the security suggestions in [packetbb], for
the use of authentication and encryption, are appropriate.
11. References
11.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", RFC 2119, BCP 14, March 1997.
[packetbb] Clausen, T., Dearlove, C., Dean, J., and C. Adjih,
"Generalized MANET Packet/Message Format",
draft-ietf-manet-packetbb-16.txt (work in progress),
September 2008.
11.2. Informative References
[RFC3626] Clausen, T. and P. Jacquet, "The Optimized Link State
Routing Protocol", RFC 3626, October 2003.
Appendix A. Acknowledgements
The authors would like to thank Brian Adamson and Justin Dean (both
NRL) and Ian Chakeres (Motorola) for their contributions, and Alan
Cullen (BAE Systems) and Jari Arkko (Ericsson, Finland) for their
careful reviews of this specification.
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Authors' Addresses
Thomas Heide Clausen
LIX, Ecole Polytechnique, France
Phone: +33 6 6058 9349
EMail: T.Clausen@computer.org
URI: http://www.ThomasClausen.org/
Christopher Dearlove
BAE Systems Advanced Technology Centre
Phone: +44 1245 242194
EMail: chris.dearlove@baesystems.com
URI: http://www.baesystems.com/
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http://www.ietf.org/ipr.
The IETF invites any interested party to bring to its attention any
copyrights, patents or patent applications, or other proprietary
rights that may cover technology that may be required to implement
this standard. Please address the information to the IETF at
ietf-ipr@ietf.org.
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