Hi Ekr,
Eric Rescorla wrote:
At Sun, 25 May 2008 19:19:58 +0300,
Hannes Tschofenig wrote:
Hi Ekr,
Eric Rescorla wrote:
$Id: draft-ietf-geopriv-http-location-delivery-07-rev.txt,v 1.1 2008/05/24
15:03:19 ekr Exp $
TECHNICAL
S 4.2.
which a Location Recipient (LR) can use to retrieve LI. A location
URI provided by a LIS can be assumed to be globally-addressable; that
is, anyone in possession of the URI can access the LIS. However,
this does not in any way suggest that the LIS is bound to reveal the
location associated with the location URI. This issue is deemed out
I don't understand this point. anyone in possession of the URI can
access the URI but the LIS isn't required to reveal it? Those
seem kind of contradictory.
Compare this with a HTTP URL where you might know it but still there are
access policies that control access.
Possession does not necessarily mean that you can always get the location.
OK. That makes sense. Perhaps rewrite:
"access the LIS and request the location associated with the URI.
However, this this does not imply that the LIS is bound to service
the request. For instance, the LIS might reject the request for
access control reasons."
Sounds good.
S 4.3.1.
Devices that establish VPN connections for use by other devices
inside a LAN or other closed network could serve as a LIS, that
implements the HELD protocol, for those other Devices. Devices
within the closed network are not necessarily able to detect the
presence of the VPN and rely on the VPN device. To this end, a VPN
device should provide the address of the LIS server it provides, in
response to discovery queries, rather than passing such queries
through the VPN tunnel.
How do you envision this happening? Isn't this going to require
changing every VPN protocol? I think some more text would be
appropriate here...
It requires location information to be obtained before the tunnel is setup.
OK, but I still don't understand how this is going to work. Say that
I'm on a local network with a DHCP server and the VPN server is a couple
of hops away. How does the VPN device "provide the address of the LIS
server" to me?
When you operate a network and you want this stuff to work then you have
to consider this aspect.
In the past a few folks have suggested to write a BCP about how
different deployments may deal with this aspect but I believe it is far
too early todo so for a BCP.
S 5.1.
o The HELD protocol must provide authentication, confidentiality and
protection against modification per Section 10.3.
Are you talking about HELD, which doesn't seem to have these
features, or about the transport protocol? Also, authentication
for who? Based on what model?
The solution for HELD is to provide these capabilities as part of TLS.
Perhaps this should be rewritten, then as:
"The HELD protocol assumes that the underlying transport provides..."
Yep, sounds good.
For the client to LIS interaction we are talking about server-side
authentication and not client-side authentication.
It would be important to spell this out.
I agree.
S 6.5.
I'm having trouble keeping straight two kinds of URIs:
- URIs that a Device uses to get its own LI.
- LbyR references that the LIS hands out.
This text seems to imply that an LIS can hand out a helds:
URI. Is that *also* the URI that a Device derferences?
The reference points to the device. What the Target uses this reference
either for itself (if it wants to learn it's own location) or (more
likely) it forwards that URI to someone else, for example to a PSAP.
OK, but then what protocol is spoken over that URI? (see my
comments on S 8 below).
The answer is:
http://tools.ietf.org/id/draft-winterbottom-geopriv-deref-protocol-00.txt
S 6.5.1.
A "locationURI" SHOULD NOT contain any information that could be used
to identify the Device or Target. Thus, it is RECOMMENDED that the
"locationURI" element contain a public address for the LIS and an
anonymous identifier, such as a local identifier or unlinked
pseudonym.
1. This seems like it should be clearer about what is desired.
In particular it's not just "identify" but also "link".
Also this needs to be clarified to indicate the implications
of idetntifiction by position.
2. Shouldn't this be MUST strength?
This is a MUST when possession of the reference also means access to the
resource without any additional authorization policy being used by the
LIS when access to location is being requested.
This is a SHOULD when such policies are applied.
It might make sense to differentiate these two cases in the document.
I would agree.
S 8.
Does this say somewhere what "helds" actually means? I see the
definitition of the URI, but it doesn't say what the
underlying transport is, as far as I can tell. Given
a "helds:" URI, what am I supposed to do with it?
S 9.
OK and here's how I get confusied about the two types of URI,
since this is an HTTP binding, but there's no corresponding
URI.
The implementation of HTTP as a transport mechanism MUST implement
TLS as described in [RFC2818].
Is this MUST implement or MUST use? Don't the next two sentences
imply MUST use?
TLS provides message integrity and
privacy
"privacy" -> "confidentiality"
between Device and LIS. The LIS MUST use the server
authentication method described in [RFC2818]; the Device MUST fail a
request if server authentication fails, except in the event of an
emergency.
This is incomplete, because 2818 assumes the presence of a URI to
compare against. Where does that come from?
How is client authentication supposed to work here?
The client learns the URI using a discovery method, see
http://tools.ietf.org/wg/geopriv/draft-ietf-geopriv-lis-discovery/
This URI is then used for comparison.
This seems like it should be explicitly stated.
S 10.3.
o The network SHOULD have mechanisms that protect against IP address
spoofing, such as those defined in [RFC3704].
Is this WG really in a position to levy a SHOULD level requirement
for network ingress filtering? Recall that this is really a global level
technology. Or do you mean something else?
Being able to deal with IP address spoofing is a useful in certain
environments.
Hence, saying that in a document is very useful.
Well, lots of protocols would benefit from not having IP address
spoofing, but again, you're making a levy on network operations
on a global scale, no?
If you want to deal with certain attacks then you may want todo
something about it.
Ciao
Hannes
-Ekr
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