One document matched: draft-irtf-dtnrg-ding-network-management-02.txt
Differences from draft-irtf-dtnrg-ding-network-management-01.txt
DTN Research Group G. Clark
Internet-Draft G. Campbell
Expires: August 13, 2010 H. Kruse
S. Ostermann
Ohio University IRG
February 9, 2010
DING Protocol -- A Protocol For Network Management
draft-irtf-dtnrg-ding-network-management-02
Abstract
This memo describes the Diagnostic Interplanetary Network Gateway
protocol (DING). DING is a subscription-based network management
protocol designed specifically for use in situations where SNMP's
request / response model does not perform well, e.g. in heavily
delayed and / or disrupted networks.
Status of this Memo
This Internet-Draft is submitted to IETF in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
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This Internet-Draft will expire on August 13, 2010.
Copyright Notice
Copyright (c) 2010 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
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Provisions Relating to IETF Documents
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Requirements Notation . . . . . . . . . . . . . . . . . . . . 5
3. Service Definitions . . . . . . . . . . . . . . . . . . . . . 6
4. Subscription Requests . . . . . . . . . . . . . . . . . . . . 8
4.1. Subscription Request Overview . . . . . . . . . . . . . . 8
4.2. Schema Section . . . . . . . . . . . . . . . . . . . . . . 10
4.2.1. Schema Format . . . . . . . . . . . . . . . . . . . . 10
4.2.2. Schema / SNMP Compatibility Note . . . . . . . . . . . 11
4.2.3. OID Compression . . . . . . . . . . . . . . . . . . . 11
4.3. Schedule Section . . . . . . . . . . . . . . . . . . . . . 11
4.3.1. Schedule Overview . . . . . . . . . . . . . . . . . . 11
4.4. Example Subscription Request . . . . . . . . . . . . . . . 12
5. Scheduled Frames . . . . . . . . . . . . . . . . . . . . . . . 14
5.1. Scheduled Frame Container Overview . . . . . . . . . . . . 14
5.2. Scheduled Frame Entries . . . . . . . . . . . . . . . . . 15
5.3. Scheduled Frame Entry Example . . . . . . . . . . . . . . 15
6. Removal Requests . . . . . . . . . . . . . . . . . . . . . . . 17
7. Status Requests . . . . . . . . . . . . . . . . . . . . . . . 18
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 19
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1. Introduction
Over the past 20 years, SNMP has firmly established itself as the de
facto standard protocol for network management. There are SNMP
agents available for everything from network switches to
supercomputers. Further, the protocol works extremely well on most
(if not all) terrestrial networks.
In delay tolerant networks (DTNs), however, SNMP tends to perform
poorly. The request / response mechanism SNMP uses does not seem
practical in environments where transmission delays can range from
minutes to days; by the time a query has made it to a remote host and
back again, the information contained in the response is often too
old to be relevant to the device's status at the current point in
time.
Furthermore, in many delay-tolerant networks, there are often severe
restrictions in place on the amount of bandwidth available to a given
device. While SNMP is not an inefficient protocol, there are areas
where existing knowledge about a device could be utilized to
drastically reduce the size of SNMP requests and replies.
The Diagnostic Interplanetary Network Gateway (DING) protocol
described in this document has been designed to address these issues.
Rather than use the request / reply paradigm employed by SNMP, DING
relies on a subscription model.
When a host wishes to receive information about a remote node, the
host (called a "subscriber") sends that node (called a "provider") a
"subscription request". This request consists of two parts: a
"schema" and a "schedule".
The "schema" is a static data model definition that defines exactly
which data the subscriber wishes to receive from the provider. This
schema consists solely of a list of object identifiers (OIDs). The
provider, upon examining the schema, parses this list of OIDs and
compares each OID to a list of known OIDs it has. If the OID matches
a piece of information it knows how to provide, the provider will
transmit that information as instructed by the schedule included with
the subscription request. If the provider does not know how to
translate a given OID into data, the provider will assign 0 to any
field where that OID is requested.
The "schedule" contains two things: a time interval and a set of
conditions. The conditions determine when a provider sends a
scheduled frame: the provider will only send a scheduled frame if all
conditions are met (the expression provided in the schedule frame
evaluates to true). If no conditions are specified, then the
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provider assumes that there are no conditions to meet and will
transmit scheduled frames as determined by the time interval.
The time interval itself (specified in seconds) determines how often
to transmit "scheduled frames" (sets of data encoded using a given
schema). As soon as the conditions in a schedule are met, a single
scheduled frame is transmitted, and then an additional scheduled
frame is transmitted every time_interval seconds. If the time
interval is set to be zero, then the scheduled frame is sent only
when the specified conditions are met and is never repeated.
When a provider sends a scheduled frame to a subscriber as described
by a schema, the scheduled frame includes a "Schema ID" which can be
used by the subscriber to uniquely identify the schema associated
with that scheduled frame. It also includes a "Schedule ID" which
can be used to identify the schedule that triggered the frame.
Assuming Schema IDs are used and agreed upon by both the provider and
the subscriber, data can be encoded far more efficiently than it
would be if encoded in the standard BER and DER formats used by SNMP.
If further compression is desired, DING supports specifying that data
has been compressed; see sections 4.3 and 4.4 of this document for
details.
DING is designed to operate in conjunction with a gateway. This
gateway is designed to act as a kind of SNMP proxy for DTN nodes. To
do this, the gateway subscribes to a number of DING providers running
on a DTN and caches scheduled frames received from each provider.
The gateway also runs an SNMP agent which uses this cached
information to respond to SNMP GET messages and generate SNMP TRAP
messages. The motivation for and operation of this gateway will be
explored further in a separate draft (currently a work in progress).
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2. Requirements Notation
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].
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3. Service Definitions
Frame - A collection of consecutive bytes organized into a single
logical unit.
Provider - A machine that provides a service which processes
subscription requests from and sends scheduled frames to subscribers.
Registration - The act of sending a subscription request to a
provider.
Removal Request - Request to remove a certain schema from a provider
(so that the provider will quit using that schema along with any
associated schedules to send scheduled frames to a subscriber) and /
or remove a certain schedule from a provider.
Schedule - Links a schema with a time interval and a set of
conditions. Assuming that all conditions described in a schedule are
met, the provider is expected to send a scheduled frame every [time
interval] seconds.
Scheduled Frame - A frame sent by a provider to a subscriber as
directed by the "schedule" portion of a subscription request. The
content of this data is described by the "schema" portion of a
subscription request. A scheduled frame may be associated with a
corresponding schema and / or subscription request through the use of
a schema ID.
Scheduled Frame Container - A container meant to transport one or
more scheduled frames from a provider to a subscriber.
Scheduled Frame Entry - A single scheduled frame contained within a
"Scheduled Frame Container".
Schema - A static data model which is included in a subscription
request and defines exactly which pieces of data the subscriber is
requesting from the provider.
Schema ID - A sequence of bytes which can be used to uniquely
identify a given schema. This documents suggests computing an SHA-1
hash of the schema to compute this value, although the particular
method is not as important as is A) ensuring that both subscriber and
provider agree on an ID and B) ensuring ID is as unique as possible.
Self-Delimiting Numeric Value (SDNV) - Encoding for a positive
integer. Supports numbers of any size through the use of a scheme
similar to that used within BER to encode OIDs into numeric values.
See RFC 5050 for a complete explanation of SDNVs and their usage.
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Subscriber - A machine which has sent a subscription request to a
provider.
Unsubscribe - Sending a "removal request" to a provider so that
provider will quit sending certain scheduled frames to a given
subscriber.
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4. Subscription Requests
4.1. Subscription Request Overview
A subscription request is composed of the following fields:
o Type -- Four bit field consisting of the value '0110'.
o Options -- Set of options applying to every field contained within
this subscription request. 4-bit field. The following options are
supported:
0 1 2 3
+-+-+-+-+
|C|H|S|E|
|M|S|C|X|
|P|H|A|T|
+-+-+-+-+
Figure 1: Options
* CMP -- Compression bit. If set, the schema is compressed. The
format is encoded as a one-byte number in the options data.
The following options must be supported:
+ 0 -- No compression.
+ 1 -- GZIP format.
Additional options may be supported assuming both subscriber
and provider agree on a common association between number and
compression scheme.
* HSH -- Hash bit. If set, the provider should run a specified
hash algorithm on each included schema and verify that the
resulting hash matches the specified schema's ID. This is
designed to be used as a simple data integrity check, and could
perhaps be used as a part of a simple authentication scheme as
well. The algorithm to use is specified by the first byte of
the options data section (HSHDATA). The following options must
be supported:
+ 0 -- No hash; IDs of all included schemas are assumed to be
0. Using this option is not recommended, but may be
necessary for some devices depending on hardware
specifications and / or bandwidth requirements.
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+ 1 -- CRC; 16 bit. Using this option is not recommended, but
may be necessary for some devices depending on hardware
specifications and / or bandwidth requirements.
+ 2 -- MD5; 128 bit digest.
+ 3 -- SHA-1; 160 bit digest.
When the hash option is specified, the size of the schema ID
field must be the same size as the size of the digest produced.
When the hash bit is not specified, the schema ID field must
have a size of 20 bytes.
* SCA -- Scaling bit. If this bit is set, NSC and NSM will both
be multiplied by an SDNV provided in the option data.
* EXT -- Extension bit. If this bit is set, then the option data
contains an SDNV integer of value X (after the hash byte and
compression byte, if either and / or both are present),
followed by X bytes of data. This is to allow the inclusion of
additional options, should the need arise.
o Option Data -- Data necessary to support any option bits set in
the Options field. Up to three bytes in length unless EXT bit is
set, at which point the size of this field is unknown.
o Number of Schemas (NSM) -- 4 bits encoding number of schemas
included with this request. Up to 16 * SCA.
o Number of Schedules (NSC) -- 4 bits encoding number of schedules
included with this request. Up to 16 * SCA.
o Schema X (SMX) -- schema number X in a sequence of NSM consecutive
schema fields. Unknown total length, but there can be no more
than NSchma schemas included with a single subscription request.
o Schedule X (SCX) -- schedule number X in a sequence of NSC
consecutive schedule fields. Unknown total length, but there can
be no more than NSched schedules included with a single
subscription request.
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Example schedule request header format (assuming CMP = 1, HSH = 1,
SCA = 0, EXT = 0):
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| TYPE | OPTN | HSHDATA | CMPDATA | NSM | NSC |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| SMX [NSM variable-length schemas] |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
...
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| SCX [NSC variable-length schedules |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 2: Subscription Request Overview
4.2. Schema Section
4.2.1. Schema Format
A schema is composed of an X-bit ID unique ID, followed by a list of
SDNV / OID pairs. Each SDNV specifies the depth of a particular OID
from the root of the OID tree (.1 = 1, .3.2.4 = 3, .6.1.4.7.24 = 5,
etc), and each OID is encoded in standard DER format. The last entry
in a schema must consist of a single "OID_DEPTH" field with a value
of 0.
+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+ ~ +-+-+-+-+ ~ +-+-+-+-+-+-+-+ ~ +-+-+-+ ~ +-+-+
| SCHEMA_ID | | OID_DEPTH | | OID | | OID_DEPTH | | OID | | 0 |
+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+ ~ +-+-+-+-+ ~ +-+-+-+-+-+-+-+ ~ +-+-+-+ ~ +-+-+
Figure 3: Schema Format
Given the nature of DTN, it is a distinct possibility that a request
to remove a schema from a system may arrive before the schema itself.
Thus, requests for the removal of a schema that does not yet exist
should be held for some time, where the exact definition of "some
time" is left up to the system implementing this protocol.
If a schema is received with a Schema ID that matches the Schema ID
of a schema already stored, the newest schema may be either stored
(while waiting for a removal request) or silently discarded. Note
that if a schema arrives with a Schema ID and length that matches any
removal request currently queued by the system, that schema should be
immediately discarded.
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4.2.2. Schema / SNMP Compatibility Note
In an effort to provide some compatibility between DING and SNMP, a
schema may be stored locally on a host as a MIB encoded in standard
ASN.1/SMIng format. To convert a MIB into a schema, a provider or
subscriber should extract each leaf OID defined within the MIB. Once
the provider or subscriber has done this, they may simply use this
list of OIDs as a schema. Note that the order these OIDs appear in
the schema must match the order in which they were defined in the
corresponding MIB.
4.2.3. OID Compression
[Need to do literature review here; found draft on SNMP Payload
Compression by Schoenwaelder et. al.]
[How do OID compression algorithms compare to "standard" compression
algorithms e.g. GZIP / BZIP2?]
4.3. Schedule Section
4.3.1. Schedule Overview
A schedule is composed of an X-bit schema ID, an SDNV-encoded
schedule ID, an SDNV-encoded interval value, and a set of conditions
(an expression).
+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+
| SCHEMA_ID | | SCHED_ID | | INTERVAL | | EXPR |
+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+
Figure 4: Schedule Format
The SCHEMA_ID must refer to an existing schema (which may be defined
by the current subscription request or exist previously); if this
field refers to an unknown schema, the provider may choose to A)
ignore the schedule request or B) hold the schedule request for an
unknown time in the hopes of receiving a relevant schema.
The SCHED_ID is an SDNV which can be used, in conjunction with the
schema ID, to uniquely reference this schedule.
The INTERVAL is a time interval, specified in seconds and encoded as
an SDNV. Assuming all conditions are met, this value specifies the
amount of time the provider should wait between each scheduled frame
it transmits.
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EXPR is an expression (a set of conditions) that determine whether or
not a scheduled frame should be transmitted. Each condition is
composed of a single operator (<, >, <=, >=, ==, !=, &&, ||) and two
operands, where an operand can be an OID, a constant, or a condition.
o If an operand is an OID, the value of any sensors associated with
that OID should be inserted into the expression when the
expression is evaluated. If a provider does not have a sensor
associated with a given OID, the OID should be treated as the
integer '0'.
o An expression must evaluate to be either TRUE or FALSE.
o If the value of an expression changes from FALSE to TRUE, a
scheduled frame should be immediately sent unless a scheduled
frame has already been sent within the last INTERVAL seconds.
o Example: .3.2.7.4 <= 4 && .3.2.7.5 > .3.2.7.4
o [*** TODO *** : Specify how EXPR is encoded in schedule data (e.g.
NOT plaintext). Specify BNF. Perhaps move conditions to its own
section?]
4.4. Example Subscription Request
NOTE: This is a contrived example; the OIDs used here are not valid,
and are used for the sole purpose of saving space. Also, the schema
ID here is not necessarily valid.
Assume a satellite (the provider) knows that OID .92.2.3.1
corresponds to a thermal sensor and that OID .92.2.3.2 corresponds to
a battery charge sensor. A subscriber sends a subscription request
to this satellite, with the following OIDs listed in the schema
portion of the subscription request:
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+ ~ +-+-+
| 0xf73492aaecb | | 4 | .92.2.3.1 | | 4 | .92.2.3.2 | | 0 |
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+ ~ +-+-+
Figure 5: Example Schema Section
This schema says every scheduled frame that the satellite sends with
a Schema ID corresponding to that of this schema (0xf73492aaecb) will
contain two data values: the data from the thermal sensor and the
data from the battery charge sensor.
The schedule part of the subscription request looks like:
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+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| 0xf73492aaecb | | 108000 | .92.2.3.1 > 120 |
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 6: Example Schedule Section
The schedule says that scheduled frames with a format corresponding
to this schema with ID 0xf73492aaecb will be sent every 30 minutes
(108000 seconds) ONLY IF the value corresponding to .92.2.3.1 (in
this case, the reading from the thermal sensor) is greater than 120.
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5. Scheduled Frames
5.1. Scheduled Frame Container Overview
A scheduled frame container is composed of the following fields:
o Type -- Four bit field consisting of the value '0111'.
o Options -- Set of options applying to every field contained within
this scheduled frame. 4 bit field. The following options are
supported:
0 1 2 3
+-+-+-+-+
|C|U|S|E|
|M|N|C|X|
|P|U|A|T|
+-+-+-+-+
Figure 7: Options
* CMP -- Compression bit. If set, all data within the scheduled
frame is compressed. The format is encoded as a one-byte
number in the options data. The following options must be
supported:
+ 0 -- No compression.
+ 1 -- GZIP format.
Additional options may be supported assuming both subscriber
and provider agree on a common association between number and
compression scheme.
* UNU -- Unused bit. The value of this bit must be ignored.
* SCA -- Scaling bit. If this bit is set, NSF will be multiplied
by an SDNV provided in the option data.
* EXT -- Extension bit. If this bit is set, then the option data
contains an SDNV integer of value X (after the hash byte and
compression bytes, if either and / or both are present),
followed by X bytes of data. This is to allow the inclusion of
additional options, should the need arise.
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o Option Data -- Data necessary to support any option bits set in
the Options field. Up to two bytes in length unless EXT bit is
set, at which point the size of this field is unknown.
o Number of Scheduled Frames (NSF) -- 8 bits encoding number of
entries included within this scheduled frame. Up to 256.
o Scheduled Frame X (SFX) -- scheduled frame number X in a sequence
of NSF consecutive scheduled frame fields.
Example scheduled frame container header (assuming CMP = 0, SCA = 0,
EXT = 0):
0 1
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| TYPE | OPTN | NSF |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| SFX [NSF entries] |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 8: Scheduled Frame Container Overview
5.2. Scheduled Frame Entries
Each individual scheduled frame entry within a scheduled frame
container consists of the following fields:
Schema ID -- ID of the schema that should be used to parse this data.
Variable length field.
Sched ID -- ID of the schedule that generated this scheduled frame.
Data -- Data which corresponds to a schema. Each 'Data' field in the
schema corresponds to the value mapped from a single OID.
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+
| SCHEMA_ID | | SCHED_ID | | DATA | | DATA | | ... |
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+-+-+-+ ~ +-+-+-+
Figure 9: Scheduled Frame Entry Format
5.3. Scheduled Frame Entry Example
Assuming a subscriber has registered with the provider described in
the "Subscription Request Example" section, then an entry in the
scheduled frame container originating from the provider (the
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satellite, in this case) might look like:
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| 0xf73492aaecb | | 170 | 252 |
+-+-+-+-+-+-+-+-+ ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 10: Satellite's Scheduled Frame Entry
assuming that the thermal and charge sensors reported values of 170
and 252, respectively.
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6. Removal Requests
Sent by a subscriber to unsubscribe (quit receiving scheduled frames
from a provider) or to remove a schedule associated with a given
schema (referenced by schema ID and schedule ID). *** TODO ***
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7. Status Requests
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Authors' Addresses
Gilbert Clark
Ohio University Internetworking Research Group
301 Stocker Center
Ohio University
Athens, OH 45701
US
Email: gc355804@ohio.edu
URI: http://irg.cs.ohiou.edu/
Greg Campbell
Ohio University Internetworking Research Group
301 Stocker Center
Ohio University
Athens, OH 45701
US
URI: http://irg.cs.ohiou.edu/
Hans Kruse
Ohio University Internetworking Research Group
292 Lindley Hall
Ohio University
Athens, OH 45701
US
URI: http://irg.cs.ohiou.edu/
Shawn Ostermann
Ohio University Internetworking Research Group
322b Stocker Center
Ohio University
Athens, OH 45701
US
URI: http://irg.cs.ohiou.edu/
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