Hi, Kent,
Thanks for helping me revive this thread, which is exactly what I want to do.:)
There was not a very fully discussion due to time constraints, but we did see 
some valuable points here, thank you everyone for sharing your views.

Regarding option2,  I am still unsure how will things go if there is no 
<intended>(I think it was raised by Balazs, hopefully Balazs can also add 
something here)? Should <system> be implemented along with <intended>?

Option 3 is still unclear, e.g., whether the <system> is copied into <running> 
automatically or manually? If auto-copy is not a good idea because it violates 
the definition of <running>, whether manual-copy is performed towards part or 
all of the system configurations created in <system>?
Should we copy the entire <system> into <running>? Or should there be as few 
system configuration data items in <running> as possible?
Anyway, I agree that option3 may still incur a failed validation of <running> 
when the operators reference the system configuration which is produced through 
the expansion of the system-defined templates.
If the existing mechanism(e.g., edit-config)is sufficient to define referenced 
system data item in <running>, it seems that the flow marked in option3 from 
<system> to <running> can be removed, then it looks no difference between 
option1 and option3.

Best Regards,
Qiufang Ma

From: netmod [mailto:netmod-boun...@ietf.org] On Behalf Of Kent Watsen
Sent: Thursday, July 29, 2021 1:09 AM
To: netmod@ietf.org
Subject: Re: [netmod] system configuration sync mechanism

WG,

Regarding yesterday’s <system> datastore presentation, there seemed to be 
support for "Option #2”, which is to have <system> merge into <intended>.

It was noted that this then would mean that client-validation of <running> 
would necessitate understanding how the merge works, to expand templates, 
resolve leafrefs, etc.

My thoughts are, so?

Firstly, a client that doesn’t understand that there may be some <system> 
defined configuration will, for the most part, be none the wiser.   The client 
*will* discover <system> configuration in <operational>, but this is already 
the case today.  One new thing is that <operational> should use “origin:system” 
for configuration originating from the <system> datastore.  This last point 
might surprise clients…as the definition of “with-origin” doesn’t state that 
clients must ignore any unrecognized “origin” identities: 
https://datatracker.ietf.org/doc/html/rfc8527#section-3.2.2.

Secondly, no shared object defined in <system> will be activated until 
client-supplied config references it.  But any client able to do this already 
knows how <system> merges into <intended> and is accounting for it.

Thoughts?

Kent



On Jul 16, 2021, at 6:24 AM, maqiufang (A) 
<maqiufa...@huawei.com<mailto:maqiufa...@huawei.com>> wrote:

Hi, Kent,
Please see my reply inline.

From: Kent Watsen [mailto:kent+i...@watsen.net]
Sent: Friday, July 16, 2021 2:55 AM
To: maqiufang (A) <maqiufa...@huawei.com<mailto:maqiufa...@huawei.com>>
Cc: netmod@ietf.org<mailto:netmod@ietf.org>
Subject: Re: [netmod] system configuration sync mechanism

Hi Qiufang,

            [snip]
The question is if the server implementation prunes dangling/unused objects 
when <intended> is applied, updating <operational>.  My assumption is that the 
server will discard any object that doesn’t actually impact the running 
configuration of the system (i.e., values are consumed by the underlying 
operating system, drivers, etc.).  Thusly, it is my opinion that only the 
referenced objects are applied.  Hence why, to answer your last question, I 
wrote that these configurations (manufacturer-defined objects) are not applied 
immediately but only after they are referenced.  Makes sense?
[Qiufang Ma] Yes, try to sum up our discussion about the categories of the 
system configuration:

·         Physical-resource-dependent--> whether this sort of system 
configuration exists in <system> dependents on if the physical resource is 
present(e.g., physical interface).

·         Physical-resource-independent-->which is provided by the device system

o   Further classification from the perspective of “applied” time(dependents on 
whether the system configuration impacts the running of the system)

§  Config that is applied immediately(e.g., the loopback, the predefined 
minimum length of password…)

§  Config that is applied only after being referenced by other configs(e.g, 
definitions for applications ftp/tftp…)

o   Further classification from the perspective of generation time

§  Config that is generated unconditionally at each boot time(e.g, loopback, 
predefined minimum length of password, ftp/tftp…)

§  Config that is generated conditionally during the device running(e.g., 
system-generated local-port and remote-port for a new established BGP 
connection)

Keep in mind that what is described above is just one aspect of what can be in 
<system>.  In addition to defining reference-able objects, <system> can also 
define/apply configuration immediately (e.g., the loopback interface).  That 
is, configuration not does not have to be referenced in order to become 
activated.
[Qiufang Ma] Noted.





Note that, <running> by itself would not pass validation, due to missing 
leafrefs.  Thankfully, NMDA never says that validation runs on <running>.  But 
once <running> and <system> have been merged, to become <intended>, the result 
does pass validation.

 [Qiufang Ma] The referenced instance must also exist for the data to be valid 
since the require-instance defaults to true if not present. Is this what you 
had in your mind? Yes, NMDA says that it is <intended> which is subject to 
validation. But I also notice that In section 5.1.3 of the NMDA:”<running> MUST 
always be a valid configuration data tree, as defined  in Section 8.1 of 
[RFC7950]. ” So my thought here is that <running> should also conform to the 
YANG model constraints and that’s to say, a referenced system-defined data item 
should also exists in <running>.

Therefore, if system configurations do not exist in <running>, they still need 
to be  configured in <running> manually in order for being referenced. In this 
case, the original purpose of predefining some system configurations for user 
convenience is lost. This is the reason why we would like to define some 
mechanism here to synchronize <system> into <running>.


I see in RFC 8342 "<running> MUST always be a valid configuration data tree, as 
defined in Section 8.1 of [RFC7950]”.

But the question remains if it is possible for the system is able to validate 
<running> without, e.g., expanding templates.  There may be a 'leafref' or 
‘must’ expression somewhere that will fail because the evaluation occurs 
without expanding a template that supplies the missing parts.
[Qiufang Ma] On condition that <running> should be valid, the operators will 
need to retrieve from the <intended> or <operational> to get the 
template-expanded configurations and then create them in the <running>, right?
My feeling is that it loses the meaning of predefining and seems no differences 
between operator-defined configurations if operators have to create system 
configures in <running> before they use them. So I am beginning to think, if 
it’s possible to expand the system-defined template during the copying between 
<system> and <running>?

If this draft “updates” RFC 8342 (NMDA), then it can supply a clarifying 
statement about what it means that "<running> MUST always be a valid 
configuration data tree”.  Either that, or an Errata if it’s determined that 
the statement isn’t correct.

You make a good technical point, but I think that we should *want* to avoid 
having to copy <system> (or <operational>) configuration into <running> if we 
can avoid it.  Agreed?
[Qiufang Ma] tend to agree. Maybe we should try to avoid it, unless we have to.

FWIW, also in RFC 8342, Section 5.1.4.:


   <intended> is tightly coupled to <running>.  Whenever data is written

   to <running>, the server MUST also immediately update and validate

   <intended>.



   <intended> MAY also be updated independently of <running> if the

   effect of a configuration transformation changes, but <intended> MUST

   always be a valid configuration data tree, as defined in Section 
8.1<https://datatracker.ietf.org/doc/html/rfc7950#section-8.1>

   of [RFC7950]<https://datatracker.ietf.org/doc/html/rfc7950#section-8.1>.








> I am wondering if these configuration will present in the <operational> 
> (which contains all the configuration actually used by the device) before 
> they’re referenced.



I think that it would depend in the specific server’s behavior, regarding if 
*unused* predefine objects are present in <operational>.  Certainly the unused 
objects would not have to be present in <operational>.  If I were implementing 
the server, the unused objects would NOT be present in <operational>.

[Qiufang Ma] Yes, if the predefined system configurations is unused, then I 
also tend to agree that they would not be present in <operational> but may also 
depend on the vendor implementation.


Yup, this is the same conclusion is in my response above.
[Qiufang Ma] :)





> It would be good if we could determine if there are any other 
> "resource-independent” configuration categories here.

> [Qiufang Ma] Do you think there exists conditional system configuration (if 
> the preceding configurations you mentioned above is not)? For example, if SSH 
> is enabled on a device, SSH-related keys are automatically generated. Such 
> configurations are generated at the moment when a special functionality is 
> enabled.



I’m unsure what you mean in general by "conditional configuration”, but I can 
speak to your specific example. Though I must preface my comments that I 
imagine there are a number of ways servers might go about enabling `sshd`.  
What follows is my personal view, forged by being around systems for awhile  ;)



In general:



         - `sshd` is NOT enabled by default.

         - `sshd` is enabled via a configuration knob.

         - the SSH host key is dynamically generated the first time `sshd` is 
enabled.

         - the SSH host key itself is in <operational> (not <running>)



This view is consistent with the first paragraph in Section 3 of the “keystore” 
draft (reproduced below):



         3.  Support for Built-in Keys



            In some implementations, a server may support built-in keys.  Built-

            in keys MAY be set during the manufacturing process or be 
dynamically

            generated the first time the server is booted or a particular 
service

            (e.g., SSH) is enabled.



As a closing thought, this model (which I stated upfront may not be universal) 
would have no presence-in or interaction-with <system>…though, perhaps, there 
may be some predefined values for what key-algorithms and/or key-lengths to use 
when generating the SSH host key...

[Qiufang Ma] By “conditional system configuration”, I was meaning some of the 
system configurations are not generated immediately after the device is powered 
on. Instead, they are generated when a specific condition is satisfied during 
the device running(e.g., a functionality is enabled due to some client 
configurations). I am not sure if it really exists, maybe not, just try to 
explore the possibilities of various resource-independent system 
configurations.:)

To this point I agree..as does RFC 8342 (NMDA), Section 5.3.3.:


   Sometimes, resources are controlled by the device and the

   corresponding system-controlled data appears in (and disappears from)

   <operational> dynamically.  If a system-controlled resource has

   matching configuration in <intended> when it appears, the system will

   try to apply the configuration; this causes the configuration to

   appear in <operational> eventually (if application of the

   configuration was successful).

[Qiufang Ma] See above, as I summarized as the system configurations that is 
generated conditionally during the device running.



Firstly, I again have to preface my comment that there are likely many ways 
that templating mechanisms can be defined.    But, in general, once a 
templating mechanism has been defined, then it stands to reason that templates 
could be defined either in <running> (by operators) or in <system> (by the 
manufacturer).  In one implementation I’m familiar with, the templates are 
objects that are referenced/parameterized by other parts of the configuration.  
(Same as with the predefined objects discussion above.)



To answer your questions:



1) Yes, it is my opinion that *activated* templates in <system> will be 
expanded and present in <intended>.



2) I would never suggest that the system-defined templates are present in 
<running>, though they may be referenced/parameterized by config in <running>.



3) if a config-template is configured in <running> (i.e., it is 
operator-defined) then, yes, the expanded configuration in <intended> is 
"client configuration” (note, "client configuration” is not a formal term).  
That said, it seems fair to say that a template defined in <system> and then 
referenced by "client configuration” in <running> is also expanded as "client 
configuration” in <intended>.



4) I don’t not understand your last sentence, that the expansion of <system> 
templates are only present in <operational>.  Maybe you’re saying something 
subtle, e.g., that servers currently don’t support GET on <intended>.  But, in 
theory, the expansion of <system> templates should (IMO) be present in 
<intended>, so that they may be subject to validation.   Of course, all the 
<intended> configuration (whether originating in <running> or <system>) that is 
successfully “applied” will also be present in <operational>.

[Qiufang Ma] Assume that there is no <system> and this work, the expansion of 
system templates are only present in <operational>. Because this is compatible 
with system configuration definition in NMDA.

But if system configurations are only present in <operational>, the predefined 
system configurations still need to be retrieved and created into <running> 
explicitly when being referenced. I think we’ve reached an agreement on the 
need for <system> to exist, and our main point of disagreement is whether 
<system> should be copied into <running>. Your point is that being merged into 
<intended> is enough to make sure a success validation. But my understanding is 
that the referenced system configuration data item must also exist in the 
<running> to obey the model constraints.

Yes, I believe that you provided an accurate description of the difference in 
our opinions.  Per my earlier response, you make a valid technical point, my 
goal is to waive that interpretation to the side so that a simpler solution can 
emerge.  It would be good to get other opinions on list, otherwise we’ll take 
it into the meeting.
[Qiufang Ma] OK.  Hopefully someone else would share some opinions here. 
Otherwise let’s take this into the IETF meeting.

[BTW, in keeping with this thread moving from the NETCONF to the NETMOD mailing 
lists, would it make sense to move the IETF 111 presentation slot from NETCONF 
to NETMOD too?  I think it does and, further, it would help with scheduling 
(NETCONF is over, NETMOD is under).  Would you be okay with this?   AD Rob and 
the NETCONF chairs discussed this morning, and think it's okay, but would still 
need to confirm with the NETMOD chairs.]
[Qiufang Ma] I am happy with the proposal, if it’s also okay for NETMOD 
chairs:-). I have sent an email to the NETMOD chairs to request to move this 
presentation slot from NETCONF to NETMOD.
A new version of the draft will also be submitted to NETMOD when the 
draft-submitting window reopens.




 <big snip>

> I’m beginning to think that:

> ·         auto-copying into <running> is likely never a good idea, because it 
> violates the definition of <running>

> [Qiufang Ma] I am quite aware that different datastores in NMDA represents 
> different views of data nodes.  And <running> represents a configuration 
> datastore holding the current configuration of the device.

> Should we consider system configuration also be part of current configuration 
> of the device? From my perspective, the difference between system 
> configuration and  client-configuration lies only in who provides it.



<running> holds the current *operator-specified* configuration of the device.  
System-provided configuration is NOT specified by operators (though 
system-defined objects may be referenced by operator-specified config in 
<running>).   I believe that this arrangement is consistent with the definition 
of <running>.  Agreed?

[Qiufang Ma] Yes. Actually we are not trying to violate the principles of NMDA 
and the definition of <running>.  The issue we try to resolve here is that 
system configurations cannot be used(referenced or overwritten) by the 
operators directly and need to be created into <running> explicitly. This 
actually loses the meaning of “predefining and bringing convenience”. If 
auto-copying is not a good idea, what do you think about defining an RPC 
operation for the operators to do the copy(which is also what Rob suggests at 
the meeting)?

If we have to copy into <running>, then I think that I agree an RPC 
(<edit-config>?) would be better.
[Qiufang Ma] From my perspective, <edit-config> is feasible but not efficient 
because operators still need to retrieve <system>/<operational> firstly. If we 
could define a RPC to copy the entire <system> into <running>, it seems more 
convenient for operators. However, some system configurations which are not 
going to be referenced or modified may also be copied into <running>. I don't 
have a strong feeling about which one is preferred. Anyway, we need to figure 
out whether it would be fine for <running> to missing referenced system 
configurations.

You mention “overwritten” by the operators?  Why wouldn’t the operators just 
define their own?  For instance, if they don’t like the vendor’s 
“vendor-foobar” object, they could copy/paste/edit their own “my-foobar” object 
with the values needed, yes?
[Qiufang Ma] Yes, defining their own would be okay. By overwriting, I mean 
sometimes the operators would like to modify the specific system configuration, 
e.g., the MTU value of a specified interface(identified by its name).
If the operators want to modify the system configurations, there is no way but 
redefine them in <running>.


Best Regards,
Qiufang Ma









> ·         having in <operational> doesn’t make sense, since the tweaks 
> wouldn’t go thru <running> --> <intended> validation.

>

> I’m wondering if a model like below would work for everyone - thoughts?

> [Qiufang Ma] <intended> represents the configuration after all configuration 
> transformations to <running> have been performed, so I think it is only 
> coupled to <running>.

> Anyway, the <system> should also interacts with <operational>.  Agreed?



I don’t agree that <intended> must only be coupled to <running>.  Specifically, 
I think that it is okay (compatible with NMDA) to define a <system> that also 
impacts <intended>.   This is the only (IMO) sane approach, as it enables the 
combination <running> + <system> to be validated.

[Qiufang Ma] Please see above. If <running> is OK to miss referenced system 
configuration, your proposal makes sense to me.

Ack.





 Best Regards,

Qiufang Ma


Kent // contributor

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