Re: [Perc] Last Call: <draft-ietf-perc-private-media-framework-08.txt> (A Solution Framework for Private Media in Privacy Enhanced RTP Conferencing) to Proposed Standard

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On Sat 2 Feb 2019 at 18:53, Bernard Aboba <bernard.aboba@xxxxxxxxx> wrote:
Emil said: 

"Applications will apply SRTP-double first and, those that need to use FEC and RTX would have to apply them only after. 

It was quickly pointed out that this not only destroys the stated “don’t-change-the-app” goal, but also leaves RTX and mostly FEC unprotected and FEC receivers vulnerable to DoS. To this the proponents of this approach simply replied with: “well, those of you who use FEC/RTX will simply do a third round of SRTP”, thus arriving at a total of three encryptions for every packet."

[BA] Thank you for this explanation.  The PERC Framework document has no discussion of this problem at all. 

"The discussions around this topic were highly contentious."

[BA] Since this IETF last call, wherein IETF-wide consensus is to be determined, I take it you are against the "triple encryption" decision and believe that FEC/RTX should be applied only to the encrypted payload and then SRTP applied afterward? 

That is correct.

Emil








On Sat, Feb 2, 2019 at 12:43 PM Emil Ivov <emcho@xxxxxxxxx> wrote:


On Sat 2 Feb 2019 at 16:50, Bernard Aboba <bernard.aboba@xxxxxxxxx> wrote:
Emil said:

"The need to do a triple encryption for example is a particularly egregious consequence of the order problem. That’s a problem specific to the “double” documents."

[BA] Can you describe how the need for "triple encryption" arises?  The framework document doesn't even mention the issues with ordering of FEC/RTX/RED and encryption, let alone the need for "triple encryption". 

One of the goals that some members of the group seemed to have was to allow specific applications to become PERC-compliant without changing the app code itself and by simply replacing the libsrtp library with a PERC-enabled one. 

I don’t know that this goal is a direct consequence of the framework’s conceptual approach (contrary to the imposition of key distribution and negotiation). I think it simply carries a promise for some minimal pragmatic value to some implementers.

The issue with this approach is that it leaves hop-by-hop protection mechanisms such FEC and RTC unavailable to the SFU as they are usually performed before SRTP, which would make them e2e encrypted.

The solution to that is simple. One merely needs to perform e2e encryption first, then apply FEC and/or RTX and only then apply the second (hop-by-hop) layer of SRTP.

This approach was referred to as “wedging RTX and FEC” as it places them in between the two encryption operations.

While wedging appeared to have overall support in hallway discussions by all SFU implementors except potentially one, it was mysteriously rejected by a subset of the WG and replaced with the following:

Applications will apply SRTP-double first and, those that need to use FEC and RTX would have to apply them only after. 

It was quickly pointed out that this not only destroys the stated “don’t-change-the-app” goal, but also leaves RTX and mostly FEC unprotected and FEC receivers vulnerable to DoS. To this the proponents of this approach simply replied with: “well, those of you who use FEC/RTX will simply do a third round of SRTP”, thus arriving at a total of three encryptions for every packet.

The discussions around this topic were highly contentious.

Hope this makes things clear,
Emil



On Sat, Feb 2, 2019 at 11:46 AM Emil Ivov <emcho@xxxxxxxxx> wrote:
Yes pretty much those.

The need to do a triple encryption for example is a particularly egregious consequence of the order problem. That’s a problem specific to the “double” documents.

I would however also say that the decision to bake one specific way of performing key negotiation into the framework rather than leaving it open was both unnecessary and quite problematic.

Emil

On Sat 2 Feb 2019 at 12:23, Bernard Aboba <bernard.aboba@xxxxxxxxx> wrote:
"on the consensus not reached on this and other topics."

[BA] Out of curiosity, what other topics do you consider to be problematic within the framework?  I am aware of at least two others where implementers have chosen different paths than in the PERC framework:

* Order of application of encryption versus FEC/RTX/RED
* Whole frame encryption versus payload encryption

With respect to consensus, this is IETF last call, one of whose purposes is to determine whether there is IETF consensus to publish this document as a Proposed Standard.  Are you saying that you do not agree that there is an IETF consensus to publish this document as a Proposed Standard?  Or that there is no IETF consensus to publish *any* of the PERC WG output as a Proposed Standard? 

On Sat, Feb 2, 2019 at 5:40 AM Alexandre GOUAILLARD <alex.gouaillard@xxxxxxxxxxxxxxxx> wrote:
+1 on ssrc rewriting, and on the consensus not reached on this and other topics.

Sent from my iPhone

On 2 Feb 2019, at 17:18, Lorenzo Miniero <lorenzo@xxxxxxxxxxxx> wrote:

+1, SSRC rewriting is pretty much fundamental to all SFUs out there.

Lorenzo

Il 2 febbraio 2019 10:19:06 CET, Emil Ivov <emcho@xxxxxxxxx> ha scritto:
I want to second that as it is a particularly major problem: not allowing SSRC rewriting makes the entire framework unusable with SFU implementation I represent as well as every other SFU I am familiar with.

I am also not sure that I agree with “SSRC rewriting could not be allowed” is a conclusion that ever had any consensus in PERC, regardless of what WG leadership is trying to make everyone believe.

On Sat 2 Feb 2019 at 06:21, Bernard Aboba <bernard.aboba@xxxxxxxxx> wrote:
Richard said:

"Again, the answer is clear here, but the document should be clearer.  The working group discussed SSRC rewriting several times, and concluded that SSRC rewriting could not be allowed in this system.  This decision is reflected, e.g., in the fact that the Double transform does not allow modification of SSRCs."

[BA]  Not being able to rewrite SSRCs has some major implications with respect to requirements on PERC endpoints.  Typically today's MDD will switch between the simulcast streams provided by an endpoint, forwarding only a single stream to other participants, based on the bandwidth, resolution and framerates.  If rewriting of SSRCs is not possible, do PERC endpoints need to be able to receive simulcast? If PERC endpoints do need to be able to receive simulcast, what are the requirements for endpoints?  For example, should endpoints expect the MDD to use RID header extensions to identify the incoming simulcast streams? 

Receiving of simulcast is tricky because the endpoint is receiving multiple streams with different sequence number spaces which may contain holes because of reordering or loss. This not only complicates the application of RTX, RED and FEC, but also the operation of the endpoint.  As a result, as noted in the WEBRTC specification Section 5.4.1, support for reception of simulcast is optional. I am aware of two ORTC implementations that have attempted to support simulcast reception, neither of which is robust in scenarios with considerable loss and/or reordering.  And neither implementation supports the RID header extension on received simulcast streams.




On Fri, Feb 1, 2019 at 12:23 PM Sergio Garcia Murillo <sergio.garcia.murillo@xxxxxxxxx> wrote:
On 01/02/2019 17:18, Richard Barnes wrote:
So I would propose we add something like the following to this definition:

"In the context of WebRTC, where control of a session is divided between a _javascript_ application and a browser, the browser acts as the Trusted Endpoint for purposes of this framework (just as it acts as the endpoint for DTLS-SRTP in one-to-one calls).


If we decide to adopt perc (big if) in webrtc, shouldn't this be defined within the https://tools.ietf.org/html/draft-ietf-rtcweb-security-arch-17 doc ?


   Optimally, we would not rely on trust in any entities other than the
   browser.  However, this is unfortunately not possible if we wish to
   have a functional system.  Other network elements fall into two
   categories: those which can be authenticated by the browser and thus
   can be granted permissions to access sensitive resources, and those
   which cannot be authenticated and thus are untrusted.


WebRTC already IdP as trusted for identity purposes, so it should be up to the RTCWEB group to decide what is a trusted endpoint and what is not in webrtc. As Bernard is stating, we could decide that there are other key management solutions trusted (even in JS or WASM), as for for example is being done in EME:

https://github.com/WICG/media-capabilities/blob/master/explainer.md#encryption

Best regards

Sergio

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