Hi Erik,
Yes, I am referring to WD-19, when I am saying "leave it as it is".
However (sorry), that being said, I do think there is some
additional "clean-up"
required on this overall issue.
There is also an additional unrelated typo we found in section A.13.
I will just list the following "clarifications" to WD-19 and Erik's
current email:
- "from the appendix to section 9" ?? I think you mean section
7.13 (or earlier (see below)).
- Since we are introducing Ind{P,D,DP} in section 7, I think it
needs to also be included
in Table 4 for Rule evaluation, and possibly other places.
- I think we also need to consider having more explanation in
the old C.1 section about
the "extended Inds", which describes the underlying cause: which
imo is that when
you have an "-overrides" type comb-alg, the relative "weight" of
the return values
suddenly has a "precedence" that would otherwise not be there,
namely:
- for example for a "deny-overrides Policy:
Ind{P} < P < Ind{D} < D
which means if a Rule that evaluates to D is encountered, the
processing for
the policy can end, since that is the final answer, no matter
what follows.
However, until a D is encountered processing must continue.
When all Rules are processed, the "answer" is the greatest
value in the
precedence chain above.
- Also, considering the above bullet, I think the current
algorithms should be modified
back to look more like the original 2.0 algs. For example
compare the
"denyOverridesCombiningAlgorithm" of section C.2 (new) w C.10
(legacy):
- In C.2 the parameter to the algorithm is "Decision[]
decisions", where as
in C.10 the parameter to the algorithm is "Rule[] rules".
- Also, in section C.10, within the loop, the first thing is:
decision = evaluate(rules[i]);
if (decision == Deny) return Deny;
- I think it is important to retain this logic so it can be
shown where the breakout
occurs, which cuts off unnecessary evaluation of subsequent
rules.
- Also, we can retain the criteria for choosing Ind{d} vs
Ind{p} where the
if (effect(rules[i]) ...
is evaluated.
- Finally, rather than passing in (Rule[] rules), or (Policy[]
policies), we might want to
consider using a neutral term, such as (Node[] nodes) or
(Child[] children) where
Node or Child could refer to either a Rule or Policy.
- And, finally, the typo in section A.3.14, under
rfc822Name-match:
In cs-01 line 4992 (next to last para), the phrase: "matches a
value in the first argument"
should say "matches a value in the second argument". I
think this is just a typo, esp when
compared w the next para.
Thanks,
Rich
On 5/11/2011 5:37 AM, Erik Rissanen wrote:
4DCA58DB.4080406@axiomatics.com" type="cite">
Hi All,
Rich, when you say "leave it as it is", I assume you mean the new
working draft which evaluates the children of policy sets.
If so, I think everybody is in agreement.
I will still post an updated draft which moves the definitions of
the text from the appendix to section 9, so everything is in one
place.
Best regards,
Erik
On 2011-05-09 06:27, rich levinson wrote:
4DC76D48.7030208@oracle.com" type="cite">
Hi again, Paul, Erik, Hal, and TC:
I have spent some additional time looking at this problem and I
am now leaning
toward leaving the spec as is, at least as far as I have
analyzed it.
For anyone interested, my reassessment is based on the
following:
The intention has always been to maintain consistency with XACML
2.0, while at
the same time enabling the "D" and "P" types of Indeterminates
to propagate up
the PolicySet hierarchy in addition to the "DP" which was all
that was propagated
up in 2.0, despite the fact that D and P were determined and
used on the first
hop up, they were unnecessarily cut off at that point and
information was lost.
It appears that I inadvertently lost sight of this big picture
when looking at the
details from the top down. However, in order to go from the top
down one
has to allow the existing algorithms on the bottom level to
remain the same,
and obviously by assuming that the Rules do not need to be
evaluated is a
direct contradiction with the existing XACML 2.0 algorithms
which first evaluate
the Rule, then look directly at the effect later if there was an
indeterminate.
Bottom line: I withdraw this sidebar issue, about not needing to
evaluate the
Rules when the Policy or PolicySet Target produces an
Indeterminate. In 2.0 the
spec was able to say that because it did not propagate the D and
P properties up,
however, to do the complete job of propagating all the D and P
properties, we
do need to evaluate the Rules, and the changes in the spec to
this effect I believe
are correct.
Thanks,
Rich
On 5/6/2011 11:06 PM, rich levinson wrote:
4DC4B750.2070402@oracle.com" type="cite">
Hi Paul and TC,
I think the toothpaste is out of the tube on this one: i.e. I
think too much has been
invested in the analysis for one member to unilaterally shut
down the issue by
"withdrawal". In any event, that's my opinion, but,
regardless, based on
yesterday's mtg, I believe there is more to be said on this
issue, and hopefully
we can channel it to a clean resolution.
That being said, following is additional analysis I have done
and some conclusions that
I believe we can reach agreement on, and that I think I can
describe in terms that everyone
can follow (for "clarity" I will just add an "s" for the
plural of "Policy"). There are 2 arguments
I would like to make.
Argument 1:
- First, there are 3 "types" of Policys:
- Policys{P} where all Rules have Effect="Permit" and
therefore
these Policys can never return a "Deny".
- Policys{D} where all Rules have Effect="Deny" and
therefore
these Policys can never return a "Permit"
- Policys{DP} where there are a mix of Rules, some of
which are "Permit",
and some of which are "Deny", and therefore, there is no
apriori way
to look at such a Policy and know whether or not it can
return either
a Permit or a Deny.
- Therefore, the 3 types of Policys each have an inherent
property, which
can be determined simply by inspection of the Policy w/o
regard to
evaluation of any Attributes.
- In fact, 2 out of 3 of the types retain their
"property" regardless of
evaluation of the attributes.
i.e. Policy{P} is always Policy{P}, it can never change
its property and
become either Policy{D} or Policy{DP}
i.e. same can be said for Policy{D}
I would therefore refer to these as "static properties"
- The third type Policy{DP} has a run-time
characteristic, where if
current values of the Attributes happen to exclude all
the Rules
of either D or P, then the current run-time "property"
of the Policy{DP}
for a single evaluation can effectively become either
Policy{P} or Policy{D}.
On subsequent evaluations the Policy{DP} can again by
happenstance
become any one of the 3 types.
I would therefore consider this a "runtime property" if
we allow its
definition to be subject to Attribute evaluation.
Therefore, I think we can say that the problem we are
discussing reduces to only the
evaluation of Policy{DP} elements.
We can then ask whether we want our combining algorithms to be
subject to runtime
values of Attributes that on any given evaluation can cause a
Policy{DP} to become a
Policy{D} or a Policy{P}, thus rendering the property of the
Policy indeterminate
until runtime values are plugged in.
I would also suggest that it is this indeterminacy, which
would cause Policys not to
be comparable for "equivalence", because the Policys
themselves have a built-in
uncertainty depending on how one regards this property.
I would also suggest that for the purpose of "equivalence"
this runtime characteristic could
be considered a "performance optimization", which could be a
property of the Policy Engine,
whereas the inherent D and P properties can be considered a
Policy language characteristic
independent of runtime, which could be included in an
equivalence algorithm.
Argument 2:
There is one additional argument I would like to add for
consideration. In XACML 2.0,
there is a statement in section 7.10 for Policy Evaluation,
which says:
'If the target value is "No-match" or
“Indeterminate” then the policy value SHALL be
“NotApplicable” or “Indeterminate”, respectively,
regardless of the value of the rules.
For these cases, therefore, the rules need not be
evaluated.'
By comparison, in XACML 3.0, WD 19, the corresponding
statement in section 7.11 has
been modified to say:
'If the target value is "No-match" then the policy
value SHALL be
"NotApplicable", regardless of the value of the rules.
For this case, therefore, the rules need not be evaluated.'
The "Indeterminate" part of this statement has been modified
to say:
'If the target value is "Indeterminate", then the
policy value SHALL be
determined as specified in Table 7, in section 7.13.'
Therefore, the "meaning" of the spec has been changed, because
in order to select
an entry in Table 7, now the rules do have to be evaluated,
which is not obvious
unless one does a very careful and complete reading of the
changes that are
being proposed.
Additional Consideration:
One other side effect that I think is of concern, is that if
we allow the Policy property
(P, D, or DP) to be subject to runtime determination then when
an Indeterminate is
obtained at the top of the tree, then it would be necessary to
evaluate the complete
subtree in order to determine what this property is. By
comparison, the static property
can be determined at any time by processing the tree once and
recording the property
for all subsequent evaluations.
My Conclusions:
Bottom line: my recommendation is that we define the D,P,DP
property in such a way
that it is a static characteristic of the Policy definition,
which presumably allow it to
be used in "equivalence" determinations. I would also
recommend that runtime
optimization be a configurable option, and it will be clear
that if this option is activated,
that any presumption of equivalence should be disregarded as
far as runtime behavior
would be concerned.
Comments, suggestions welcome.
Thanks,
Rich
On 5/6/2011 12:51 PM, Tyson, Paul H wrote:
3898C40CCD069D4F91FCD69C9EFBF096064B3D1C@txamashur004.ent.textron.com"
type="cite">
I withdraw my objection to the Section 7 changes made by Erik in the 3.0
core spec wd-19.
I'm still concerned that the policy evaluation specification (in section
7) may cause unexpected variations in the results from two seemingly
"equivalent" policies, but I need to produce some theoretical or
empirical evidence to demonstrate this (or to relieve my concern). In
any case, the wd-19 changes probably do not make this any better or
worse.
Regards,
--Paul
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