Hi Von, *,
Von Welch wrote:
First a meta question - shall we move conversation to the caops
email list?
Yes, done, and set the reply-to address there as well.
Onto the document:
I find the language in the document is really odd in that it
talks about "Authentication Identifiers" and "Issuers".
Particularly if this document is going to end up in CAOPS, shall
we not just bite the X509 bullet and say "X509 certificates" and
"CAs", etc. I think it would make the document much more clear.
I actually agree (it's just the habit that crept in here). I also
think that the "namespace constraints policy collection (file)" should
just be "namespace constraints file" or something similar.
I think one question the document should address is why not use
RFC 3280 Name Constraints? I think this mainly boils down to the
fact that while they look suitable, they are intended for
bridging situations and we'll never get commercial CAs to adopt
them, hence always limiting ourselves to "Grid CAs". If everyone
agrees with that statement, I'll plan on contributing some prose.
I've a few other reasons to add to this as well:
For nameConstraints in the certificate itself is that it's the "wrong"
authority makiong the assertion. For these namespace policies, it's
not the
CA itself but rather the distributor or federation that makes the
claim.
The example again is SwissSign. In the federation, their
(top-level) CA is limited to signing only the "Bronze" CA. This
constraint is coded in the namespace constraints file. But of course,
they'll never but in a nameConstraints assertion in their top-level
limiting it to Bronze only :-)
Also, only a subset of the certificates issued by a CA may be
part of the federation, and limiting the namespace is a relatively
straightforward way of doing that (instead of having to introduce
a subordinate CA for that).
In all cases, the namespace constraints should be outside of the
certificate chain of the constraint CA.
With regards to the example policy, I think the question needs to
be asked - why not use XACML or some other standard policy
language? I suspect its an attempt to address requirement #5 -
human readability. Seems like one could write a tool to display
XACML in a context like this nicely, so I think we need to ask
ourselves if we really want to define a new language.
The other problem will be on the implementation side. As soon as
you start using XACML, you will use external parsing libraries and
thus introduce dependencies on yet more software. A structured
plain-text
format that translated almost one-to-one to a evaluation structure
is easy to process in any language, so I was hoping that more
software would actually implement it (and maybe even that it
ultimately could find it's way down in core OpenSSL, some time down
the road).
The example language translated 1-to-1 into a list of structures that
can be parsed top-down without need for any further libraries.
And a tool would again mean coding and maintenance (and a distribution
problem for the tools), whereas human readable text is self-contained.
But maybe I'm too pessimistic. Can you think of an XACML policy
whose text representation is still somewhat readable. Can we write
XACML "assuming we know the context", do away with all the
embedded schema namespaces, but still make sure that a standard
XACML parser can read it -- and a human as well?
Cheers,
DavidG.
Von
On Sep 15, 2005, at 7:57 AM, David Groep wrote:
Hi,
As Olle pointed out to me over coffee, it might be good to write
down at least the requirements in a real document for GGF. I've
had a go at collecting the information from the email thread
and formatting it as
a GWD. It needs *definitely* work and more text before it could
go public,
but at least we can start hacking at it...
DavidG.
Olle Mulmo wrote:
... did the discussion stop at this point?
There will be an opportunity to talk face-to-face at GGF15.
Should we try to nail down and enumerate the requirements of
what functionality we want until then?
/Olle
On Sep 2, 2005, at 08:28, David Groep wrote:
Hi Von,
Von Welch wrote:
Do I understand correctly that you are suggesting that a
CA's namespace file can include rules for all of its
subordinates? (These seems to be what your example implies.)
I actually think I like this idea, see next comment.
That's indeed what I meant. It would enable new subordinates to
"glide in" without intervention from the admin, as long as they
stay within the namespace assigned for subordinates.
I think that need not even be the same namespace as the root,
and for this the wildcards should likely work in the
issuerName as well.
> If a subordinate file exists, it overrides any policy that
would be
> otherwise inherited.
Since you will have to traverse up the tree anyway for
validity checks,
finding the specialised signing policies should not be much of
a problem,
but I can't find the use case for it either (at least not yet) :-)
Requiring it for root CAs seems like a good thing.
DavidG.
* the action to take if no signing policy file is found
(should you
allow or deny by default) I think should in general be
configurable.
Maybe require them for all root CAs and make them optional
for subordinates? Given the root CA namespace config would
cover the subordinates, I can't think of any situation we
would want one for a subordinate.
If a subordinate file exists, it overrides any policy that
would be otherwise inherited.
Von
On Aug 31, 2005, at 11:08 AM, David Groep wrote:
Hi all,
What I got till now:
* subordinated should be supported without the need to install
any data in the trusted directory (this will work once we have
OCSP support or better, and the new policy format). I
just completely
agree here.
The signing policy file should thus be applicable to
"self" and to any
subordinates that don't have their own singing policy file.
(I'd propose semantics that make a specialised signing_policy
take precedence over any higher-level policy file, so that
once
you find one in the CA tree, you don't have to traverse
further up
to inspect the policies of the parent CAs. The admin
supposedly
is in control of what goes in the trusted directory)
* naming should comply with RFC2235
* format should be easily parseable, and be "logical" for
both C/ OpenSSL
and Java implementations.
This likely precludes the use of c_hash-style CA indexes in
the
singing policy file.
* pattern matching:
Shell-style globs are fine with me as well (I could not
think of
any real-life case where a regex could not be replaced by
a set of
PERMIT statements and shell globs), but the shell globs
should expand
in any position in the DN.
* the action to take if no signing policy file is found
(should you
allow or deny by default) I think should in general be
configurable.
Let's try the SWITCH CA example. They have a fairly complex
structure
with a hierarchy 5-levels deep:
SwissSign Root (7b2d086c)
+- SwissSign Bronze (e36e7a72)
+- SwissSign Silver (e9d08b40)
+- SWITCH CA (c4435d12)
+- ... end-entities
This would lead to a singing policy for the top-level
SwissSign Root CA, that contains all subordinate CAs down
to the SWITCH EE- issuing CA.
To get the signing policy, the algorithm would start at the
end- entity
cert, and traverse up the chain until it finds a CA with a
signing
policy file. In this case, we could do with a singing policy
file for
the root only ("7b2d086c.namespace") that contains the
limitations
for all subordinates, like:
#
# @(#)7b2d086c.namespace
#
TO "CN=SwissSign CA (RSA IK May 6 1999
18:00:58),O=SwissSign,C=CH" \
PERMIT \
"C=CH,O=SwissSign,Email=bronze@swisssign.com,CN=SwissSign
Bronze CA"
TO "C=CH,O=SwissSign,Email=bronze@swisssign.com,CN=SwissSign
Bronze CA" \
PERMIT \
"C=CH,O=SwissSign,Email=silver@swisssign.com,CN=SwissSign
Silver CA"
TO "C=CH,O=SwissSign,Email=silver@swisssign.com,CN=SwissSign
Silver CA" \
PERMIT \
"C=CH,O=Switch - Teleinformatikdienste,CN=SWITCH CA"
TO "C=CH,O=Switch - Teleinformatikdienste,CN=SWITCH CA" \
DENY \
"*,O=CERN,C=CH"
TO "C=CH,O=Switch - Teleinformatikdienste,CN=SWITCH CA" \
DENY \
"*,O=SwissSign,C=CH"
TO "C=CH,O=Switch - Teleinformatikdienste,CN=SWITCH CA" \
PERMIT \
"*,O=*,C=CH"
(but now of course "*" and "?" should be escaped when the're
part of the actual RDN).
In the Java world it seems slightly more complex. In the
CertPath API,
the TrustAnchor class takes a nameConstraints byte array,
but the byte
array must contain an ASN.1 DER encoding of a NameConstrains
extension
(as per RFC3280). There is AFAIK no way to express wildcards
in a
GeneralName, so I think it will just not be possible to use
TrustAnchor.nameConstrains to encode this formation.
Moreover, it
has no support for subordinated either. Like for C, in Java
we will
have to implement it ourselves...
What concerns the matching algorithm: the only advantage
that formal
regex's would bring is to combine the two DENY statements
into one
DENY "*,O=(CERN|SwissSign),C=CH", and that is no great loss.
DavidG.
Von Welch wrote:
And one more point that just occurred to me, hierarchical
CAs. A definite downside to our current signing policy
scheme is that subordinate CAs are required to have a
signing policy file, which means that they can't just
show up unannounced (which is what people want to have
happen, when a subordinate is replaced, just swap it out
and go on with life).
Von
On Aug 31, 2005, at 5:46 AM, Olle Mulmo wrote:
Hi David,
Revamping this is definitely worth pursuing -- but we have
to think hard to get the design right. Von had some
excellent comments as well:
This needs better specification, btw, how is whitespace
handled? I'm not sure I like the use of the formal regex
as opposed to the unix glob style ('.*' vs '*'). Do we
want to continue using the forward slash style vs the
more standard comma-separated?
If we are doing something like this, I would suggest that
we try to move towards RFC2253-style DN encoding: It's
the format that almost everything else but openssl spits
out by default nowadays, and it is UTF-8(!!!).
/Olle
On Aug 26, 2005, at 23:13, David Groep wrote:
Hi all,
After a discussion on the CA mailing list, it is quite clear
that the current way of expressing the namespace
constraints for
CAs is quite tedious: the EACLs have a far too
complicated syntax
for their simple use in the ca_signing_policy.conf file,
their
full syntax does not work, and they are used nowhere else.
Also, at this time only a few parts of the system actually
use
the signing_policy file (only the C-based stuff that still
calls the "oldgaa" callback), and a lot of implementation in
other languages and systems is still to be done.
This is true for the Java part of GT, for the EGEE Java
stuff,
and also I'm quite sure that Unicore does not do anything
in this
area (Jules, Ron?)
What about changing to a new format for the
signing_policy before
we start all that work, a format like a simple set of
ordered lines
with an action and a regular expression. Like:
# namespace constraint file
#
PERMIT /DC=org/DC=mydomain/.*
PERMIT /DC=org/DC=alsomine/.*
DENY /DC=org/DC=friend/OU=hisdept/.*
PERMIT /DC=org/DC=friend/.* # my friend
delegated rest to me
#
which would be almost trivial to parse in any language. I
suggest
adding the "DENY" because that would solve by problem with
the
SWITCH CA (they own all of "/C=CH/*", except for "/C=CH/
O=CERN/*",
so a ordered list with DENY prevents enumeration of all the
possible "O="'s there).
But if you don't like the deny we can even go to just a plain
list of regex's.
Of cource, we should distributed the "EACL" style policy
files
still for a long time, but eventually they would go away.
For the standard CA distribution I can easily add the new
format.
Would this be useful and possible to do in a reasonable time?
Is it possible to put this as a feature request on the
current GT?
Cheers,
DavidG.
--
David Groep
** National Institute for Nuclear and High Energy Physics, PDP/Grid
group **
** Room: H1.56 Phone: +31 20 5922179, PObox 41882, NL-1009DB
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