Geopriv WG James Polk
Internet-Draft Cisco Systems
Intended status: Standards Track (PS) Oct 13, 2010
Expires: April 13, 2011
Dynamic Host Configuration Protocol (DHCP) IPv4 and IPv6
Option for a Location Uniform Resource Identifier (URI)
draft-ietf-geopriv-dhcp-lbyr-uri-option-09
Abstract
This document creates a Dynamic Host Configuration Protocol (DHCP)
Option for transmitting a client's geolocation Uniform Resource
Identifier (URI) of a client, which can be dereferenced in a
separate transaction by the client or an entity the client sends
this URI to.
Status of this Memo
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This Internet-Draft will expire on April 13, 2011.
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document must include Simplified BSD License text as described in
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Format of the DHCP LuriElement Option . . . . . . . . . . . . 4
2.1. Overall Format of LuriElement Option in IPv4 . . . . . 4
2.2. Overall Format of LuriElement Option in IPv6 . . . . . 5
2.3. LuriElement Format for both IPv4 and IPv6 . . . . . . . 5
3. DHC Option Operation . . . . . . . . . . . . . . . . . . . . 6
3.1 Architectural Assumptions . . . . . . . . . . . . . . . . 8
3.2 Harmful URIs and URLs . . . . . . . . . . . . . . . . . . 8
3.3 Valid Location URI Schemes or Types . . . . . . . . . . . 9
4. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 9
5. Security Considerations . . . . . . . . . . . . . . . . . . . 10
6. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 11
7. References . . . . . . . . . . . . . . . . . . . . . . . . . 11
7.1. Normative References . . . . . . . . . . . . . . . . . . 11
7.2. Informative References . . . . . . . . . . . . . . . . . 12
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 13
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].
1. Introduction
This document creates a Dynamic Host Configuration Protocol (DHCP)
Option for transmitting a client's geolocation Uniform Resource
Identifier (URI). The DHCP implementation of the client can then
make this location information available to upper layer protocols
for their usage. This location URI points a Location Server
[RFC5808] which has the geolocation of the client (through means
not defined in this document). In this scenario, the DHCP client
is a Geopriv Target (i.e., the entity whose geolocation is
associated by the location URI).
Applications using upper layer protocols within the Target can then
choose to deference this location URI and/or transmit the URI to
another entity as a means of conveying where the Target is located.
Dereferencing a location URI is described in [ID-SIP-LOC]. Conveying
a location URI is also described in [ID-SIP-LOC]. Session Initiation
Protocol (SIP) is not the only protocol that can dereference a
location URI; there is also HTTP-Enabled Location Delivery (HELD)
[ID-HELD-DEREF].
Having a location URI has advantages over having a PIDF-LO,
especially when a target's location changes. With a location URI,
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when a target moves, the location URI does not change (at least
within the same domain). It can still be given out as the reference
to the Target's current location. The opposite is true if the
location is conveyed by value in a message. Once the Target moves,
the previously given location is no longer valid, and it the Target
wants to inform another entity about its location, it has to send
the PIDF-LO to the location recipient (again).
A Location Server (LS) stores the Target's location as a presence
document, called a Presence Information Date Format - Location
Object (PIDF-LO), defined in RFC 4119 [RFC4119]. The Location Server
is the entity contacted during the act of dereferencing a Target's
location. If the dereferencing entity has permission, defined in
[ID-GEO-POL], the location of the target will be received. The LS
will grant permission to location inquires based on the rules
established by a Rule Holder [RFC3693]. The LS has the ability to
challenge any request for a target's location, thereby providing
additive security properties before location revelation.
A problem exists within existing RFCs that provide location to the
UA ([RFC3825] and [RFC4776]). These DHCP Options for geolocation
values require an update of the entire location information (LI)
every time a client moves. Not all clients will move frequently,
but some will. Refreshing location values every time a client moves
does not scale in certain networks/environments, such as IP-based
cellular networks, enterprise networks or service provider networks
with mobile endpoints. An 802.11 based access network is one
example of this. Constantly updating LCI to endpoints might not
scale in mobile (residential or enterprise or municipal) networks in
which the client is moving through more than one network attachment
point, perhaps as a person walks or drives with their client down a
neighborhood street or apartment complex or a shopping center or
through a municipality (that has IP connectivity as a service).
If the client were provided a location URI reference to retain and
hand out when it wants or needs to convey its location (in a
protocol other than DHCP), a location URI that would not change as
the client's location changes (within a domain), scaling issues
would be significantly reduced to needing an update of the location
URI only when a client changes administrative domains - which is
much less often. This delivery of an indirect location has the
added benefit of not using up valuable or limited bandwidth to the
client with the constant updates. It also relieves the client from
having to determine when it has moved far enough to consider asking
for a refresh of its location.
In enterprise networks, if a known location is assigned to each
individual Ethernet port in the network, a device that attaches to
the network a wall-jack (directly associated with a specific
Ethernet Switch port) will be associated with a known location via a
unique circuit-ID that's used by the RAIO Option defined in RFC 3046
[RFC3046]. This assumes wall-jacks have an updated wiremap
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database. RFC 3825 and RFC 4776 would return an LCI value of
location. This document specifies how a location URI is returned
using DHCP. Behind the DHCP server, in the backend of the network,
via the (logical entity of an) LS has a PIDF-LO to be dereferenced
with a location URI.
If local configuration has the requirement of only assigning unique
location URIs to each client, then unique location URIs will be
given out, though they will all have the same location at the
record, relieving the backend Sighter or LS from individually
maintaining each location independently.
This Option can be useful in IEEE 802.16e connected endpoints or IP
cellular endpoints. The location URI Option can be configured as a
client if there is a router, such as a residential home gateway,
with the ability to communicate to downstream endpoints as a server.
How an LS responds to a dereference request can vary, and a policy
established by a Ruleholder [RFC3693] for a Location Target as to
what type of challenge(s) is to be used, how strong a challenge is
used or how precise the location information is given to a
Location Recipient (LR). This document does not provide mechanisms
for the LS to tell the client about policies or for the client to
specify a policy for the LS. While an LS should apply an appropriate
access-control policy, clients must assume that the LS will provide
location in response to any request (following the possession model
[RFC5808]). For further discussion of privacy, see the Security
Considerations.
This document IANA registers the new IPv4 and IPv6 DHC Options for a
location URI.
2. Format of the DHCP LuriElement Option
2.1 Overall Format of LuriElement Option in IPv4
The LuriElement Option format for IPv4 is as follows:
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
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Code XXX | Length=XX | .
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ .
. LuriElements... ...
. (see Section 2.3 for details) ... |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 1. IPv4 Fields for this LuriElement Option
Code XXX: The code for this DHCPv4 option (IANA assigned).
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Length=XX: The length of this option, counted in bytes - not
counting the Code and Length bytes. This is a variable
length Option, therefore the length value will change
based on the length of the URI within the Option.
LuriElement: see Section 2.3 for details
2.2 Overall Format of LuriElement Option in IPv6
The LuriElement Option format for IPv6 is as follows:
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
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| option-code | option-len |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| LuriElements... .
. (see Section 2.3 for details) |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 2. IPv6 fields of this LuriElement Option
option-code: The code for this DHCPv6 option (IANA assigned).
option-len: The length of this option, counted in bytes - not
counting the Code and Length bytes. This is a variable
length Option, therefore the length value will change
based on the length of the URI within the Option.
LuriElement: see below (Section 2.3 for details).
2.3 LuriElement Format for both IPv4 and IPv6
The LuriElement, in both DHCPv4 and DHCPv6, have the following
format:
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
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| LuriType | LuriLength | LuriValue ...
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 3. LuriElement Format for both IPv4 and IPv6
LuriType: A one-byte identifier of the data location value.
LuriLength: The length, in bytes, of the LuriValue, not including
the LuriLength field itself, up to a maximum of 255
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bytes.
LuriValue: The LuriElement value, as described in detail below.
The LuriValue is always in UTP-8.
The LuriTypes this document defines (and IANA registers) for a point
are:
LuriType=1 Location URI - This is the URI pointing at the
location record where the PIDF-LO resides which
indicates the location of the Location Target.
LuriType=2 Valid-For - The time, in seconds, this URI is to be
considered Valid for dereferencing. The timer
associated with this LuriType starts upon receipt of
this Option by the client.
The LuriType=2 (Valid-For) indicates how long, in seconds, the
client is to consider this LuriType=1 (location URI) valid
before performing a refresh of this Option, with a refreshed
LuriType=2 (Valid-For) value. A Location URI refresh SHOULD be done
the normal DHCP refresh rate, or necessitated by this timer, perhaps
with the client only requesting this Option be refreshed.
If the LuriType=2 (Valid-For) timer is received (solicited or
unsolicited), it is RECOMMENDED that the client refresh the Location
URI when the (Valid-For) counter value has reaches the halfway
point. For example, if 16000 was the initial value of the
LuriType=2 (Valid-For) value, when 8000 seconds have passed, the
Option SHOULD be refreshed.
The LuriType=2 (Valid-For) is not mandated for use by this document.
However, its presence MUST NOT cause any error in handling the
location URI (i.e., if not understood, it MUST be ignored).
This Option format is highly extensible. Additional LuriType types
created MUST be done so through IANA registration with a standards
track RFC.
3. DHC Option Operation
The [RFC3046] RAIO can be utilized to provide the appropriate
indication to the DHCP Server where this DISCOVER or REQUEST message
came from, in order to supply the correct response.
Caution SHOULD always be used involving the creation of large
Options, meaning that this Option MAY need to be in its own INFORM,
OPTION or ACK message.
It is RECOMMENDED to avoid building URIs, with any parameters,
larger than what a single DHCP response can be. However, if a
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message is larger than 255 bytes, concatenation is allowed, per RFC
3396 [RFC3396].
Per [RFC2131], subsequent LuriElement Options, which are
non-concatenated, overwrite the previous value.
Location URIs MUST NOT reveal identity information of the user of
the device, since DHCP is a cleartext delivery protocol. For
example, location URIs such as
sips:34LKJH534663J54@example.com
are to be done, providing no identity information, rather than a
location URI such as this
sips:aliceisat123mainstalanta@example.com
In the <presence> element of a PIDF-LO document, there is an
'entity' attribute that identities what entity *this* document
(including the associated location) refers to. It is up to the
PIDF-LO generator, either Location Server or an application in the
endpoint, to insert the identity in the 'entity' attribute. This
can be seen in [RFC4119]. The entity= discussion is orthogonal to
the identification information contained within the location URI.
This Option is used only for communications between a DHCP client
and a DHCP server. It can be solicited (requested) by the client,
or it can be pushed by the server without a request for it. DHCP
Options not understood are ignored. A DHCP server supporting this
Option might or might not have the location of a client. If a
server does not have a client's location, but needs to provide this
Location URI Option to a client (for whatever reason), an LS is
contacted. This server-to-LS transaction is not DHCP, therefore it
is out of scope of this document.
The deference of a target's location URI would not involve DHCP, but
an application layer protocol, such as SIP or HTTP, therefore
dereferencing is out of scope of this document.
In the case of residential gateways being DHCP servers, they usually
perform as DHCP clients in a hierarchical fashion up into a service
provider's network DHCP server(s), or learn what information to
provide via DHCP to residential clients through a protocol, such as
PPP. In these cases, the location URI would likely indicate the
residence's civic address to all wired or wireless clients within
that residence.
3.1 Architectural Assumptions
The following assumptions have been made for use of this LuriElement
Option for a client to learn its location URI (in no particular
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order):
o Any user control (what [RFC3693] calls a 'Ruleholder') for access
to the dereferencing step is assumed to be out of scope of this
document. An example authorization policy is in [ID-GEO-POL].
o The authorization vs. possession security model can be found in
[RFC5808], describing what is expected in each model of
operation. It should be assumed that a location URI attained
using DHCP will operate under an authorization model. This means
possessing the location URI does not give that entity the right
to view the PIDF-LO of the target whose location is indicated in
a presence document. The dereference transaction will be, in
many environments, challenged by the Location Server. The nature
of this challenge is out of scope of this document.
o This document does not prevent some environments from operating
in a possession model, for example - tightly controlled
enterprise networks, but this operation SHOULD NOT be assumed to
exist as a matter of local policy. The costs associated with
authorization vs. possession models are discussed in Section
3.3.2 of [RFC5606].
3.2 Harmful URIs and URLs
There are, in fact, some types of URIs that are not good to receive,
due to security concerns. For example, any URLs that can have
scripts, such as "data:" URLs, and some "HTTP:" URLs that go to web
pages that have scripts. Therefore,
o URIs received via this Option SHOULD NOT be sent to a
general-browser to connect to a web page, because they could have
harmful scripts.
o This Option SHOULD NOT contain "data:" URLs, because they could
contain harmful scripts.
Instead of listing all the types of URIs and URLs that can be
misused or potentially have harmful affects, Section 3.3 IANA
registers acceptable location URI schemes (or types).
3.3 Valid Location URI Schemes or Types
This section specifies which URI types are acceptable as a location
URI scheme (or type) for this DHCP Option:
1. sip:
2. sips:
3. pres:
4. http:
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5. https:
URIs using the "pres" scheme are dereferenced using the presence
event package for SIP [RFC3856], so they will reference a PIDF-LO
document when location is available. Responses to requests for URIs
with other schemes ("sip", "sips", "http", and "https") MUST have
MIME type 'application/pidf+xml'. Alternatively, HTTP and HTTPS
URIs MAY refer to information with MIME type 'application/held+xml',
in order to support HELD dereferencing [ID-HELD-DEREF]. Clients can
indicate which MIME types they support using the "Accept" header
field in SIP [RFC3261] or HTTP [RFC2616].
These location URI types are IANA registered in Section 4.2 of this
document.
4. IANA Considerations
4.1 The IPv4 Option number for this Option
This document IANA registers this IPv4 Option number XXX (to be
assigned by IANA once this document becomes an RFC).
4.2 The IPv6 Option-Code for this Option
This document IANA registers this IPv6 Option-Code XXX (to be
assigned by IANA once this document becomes an RFC).
4.3 IANA Considerations for Acceptable Location URI Types
IANA is requested to create a new registry for acceptable location
URI types.
The following 3 URI types are registered by this document:
1. sip:
2. sips:
3. pres:
4. http:
5. https:
Any additional location URI types to be defined for use via
this DHC Option need to be created and IANA registered with peer
review and an RFC.
4.4 IANA Considerations for LuriTypes
IANA is requested to create a new registry for acceptable location
types defined in Section 3.2 of this document, arranged similar to
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this:
+------------+----------------------------------------+-----------+
| LuriType | Name | Reference |
+------------+----------------------------------------+-----------+
| 1 | Location URI | RFC XXXX* |
| 2 | Valid-For | RFC XXXX* |
+------------+----------------------------------------+-----------+
* RFC XXXX is to be replaced with this document's RFC-Editor RFC
number.
Additions to this registry require a standards track RFC.
5. Security Considerations
Where critical decisions might be based on the value of this
location URI option, DHCP authentication in [RFC3118] SHOULD be used
to protect the integrity of the DHCP options.
A real concern with RFC 3118 it is that not widely deployed because
it requires pre-shared keys to successfully work (i.e., in the
client and in the server). Most implementations do not
accommodate this.
DHCP, initially, is a broadcast request (a client looking for a
server), and a unicast response (answer from a server) type of
protocol. It does not provide security at the network layer.
Instead, it relies on lower-layer security mechanisms. In today's
infrastructures, DHCP will be primarily used over a wired, switched
Ethernet network, requiring physical access to within a wire to gain
access. Further, within an 802.11 wireless network, the 802.11
specs offer layer 2 security mechanisms to prevent a location URI
from being learned by an unauthorized entity.
Once a client has a URI, it needs information on how the location
server will control access to dereference requests. A client might
treat a tightly access-controlled URI differently from one that can
be dereferenced by anyone on the Internet (i.e., one following the
"possession model"). With the LuriTypes defined in this document,
the DHCP option for delivering location URIs can only tell the user
how long the URI will be valid. Since the client does not know what
policy will be applied during this validity interval, clients MUST
handle location URIs as if they could be dereferenced by anybody
until they expire. For example, such open location URIs should only
be transmitted in encrypted channels. Nonetheless, location servers
SHOULD apply appropriate access control policies, for example by
limiting the number of queries that any given client can make, or
limiting access to users within an enterprise.
Extensions to this option, such as [ID-POLICY-URI] can provide
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mechanisms for accessing and provisioning policy. Giving users
access to policy information will allow them to make more informed
decisions about how to use their location URIs. Allowing users to
provide policy information to the LS will enable them to tailor
access control policies to their needs (within the bounds of policy
that the LS will accept).
Penetrating an LS is supposed to be hard, and hopefully vendors that
implement an LS accomplish this goal.
As to the concerns about the location URI itself, as stated in the
document here (in Section 3), it MUST NOT have any user identifying
information in the URI user-part/string itself. The location URI
also needs to be hard to guess that it belongs to a specific user.
When implementing a DHC server that will serve clients across an
uncontrolled network, one should consider the potential security
risks therein.
6. Acknowledgements
Thanks to James Winterbottom, Marc Linsner, Roger Marshall and
Robert Sparks for their useful comments. And to Lisa Dusseault for
her concerns about the types of URIs that can cause harm. To
Richard Barnes for inspiring a more robust Security Considerations
section, and for offering the text to incorporate HTTP URIs. To
Hannes Tschofenig and Ted Hardie for riding me to comply with their
concerns, including a good scrubbing of the nearly final doc. To
Richard Barnes for his guidance with respect to the model used by
this document and fine tuning the security considerations section.
7. References
7.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC3046] Patrick, M., "DHCP Relay Agent Information Option", RFC
3046, January 2001.
[RFC2131] Droms, R., "Dynamic Host Configuration Protocol", RFC 2131,
March 1997.
[RFC3118] Droms, R. and W. Arbaugh, "Authentication for DHCP
Messages", RFC 3118, June 2001.
[RFC3261] J. Rosenberg, H. Schulzrinne, G. Camarillo, A. Johnston, J.
Peterson, R. Sparks, M. Handley, and E. Schooler, "SIP:
Session Initiation Protocol", RFC 3261, May 2002.
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[RFC3396] T. Lemon, S. Cheshire, "Encoding Long Options in the Dynamic
Host Configuration Protocol (DHCPv4)", RFC 3396, November
2002
[RFC4119] J. Peterson, "A Presence-based GEOPRIV Location Object
Format", RFC 4119, December 2005
[RFC3856] J. Rosenberg, "A Presence Event Package for the Session
Initiation Protocol (SIP)", RFC 3856, August 2004
[RFC5808] R. Marshall, Ed., "Requirements for a Location-by-Reference
Mechanism", RFC 5808, May 2010
7.2. Informative References
[ID-SIP-LOC] J. Polk, B. Rosen, J. Peterson, "SIP Location
Conveyance", "work in progress", July 2010
[ID-HELD-DEREF] J. Winterbottom, H. Tschofenig, H. Schulzrinne, M.
Thomson, M. Dawson, "A Location Dereferencing Protocol Using
HELD", "work in progress", January 2010
[RFC3825] J. Polk, J. Schnizlein, M. Linsner, "Dynamic Host
Configuration Protocol Option for Coordinate-based Location
Configuration Information", RFC 3825, July 2004
[RFC4776] H. Schulzrinne, " Dynamic Host Configuration Protocol
(DHCPv4 and DHCPv6) Option for Civic Addresses Configuration
Information ", RFC 4776, November 2006
[RFC5808] R. Marshall, "Requirements for a Location-by-Reference
Mechanism", RFC 5808, May 2010
[RFC3693] J. Cuellar, J. Morris, D. Mulligan, J. Peterson. J. Polk,
"Geopriv Requirements", RFC 3693, February 2004
[ID-GEO-POL] H. Schulzrinne, H. Tschofenig, J. Morris, J. Cuellar, J.
Polk, "Geolocation Policy: A Document Format for Expressing
Privacy Preferences for Location Information", "work in
progress", July 2010
[RFC5606] J. Peterson, T. Hardie, J. Morris, " Implications of
'retransmission-allowed' for SIP Location Conveyance",
August 2009
[RFC2616] R. Fielding, J. Gettys, J., Mogul, H. Frystyk, L.,
Masinter, P. Leach, T. Berners-Lee, "Hypertext Transfer
Protocol - HTTP/1.1", RFC 2616, June 1999
[ID-POLICY-URI] R. Barnes, M. Thomson, J. Winterbottom, "Location
Configuration Extensions for Policy Management", "work in
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progress", May 2010
Authors' Address
James Polk
3913 Treemont Circle
Colleyville, Texas 76034
USA
Email: jmpolk@cisco.com
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