That is an udnerstandable argument, ... except:
It does not acknowledge that there is a cost for this capability, or
discuss the tradeoff. PSP clearly has a cost.
Also, that does not match my reading of the definition of the SR domain.
In fact, it becomes very confusing as to whether the PE is or is not
part of the SR domain, since there is nothing in that scenario that
requires any control participation from the egress PE. Many of the
SRv6 arguments rely heavily on the notion of domain. Blurring that
boundary makes things quite confusing. For example, if the egress PE
does not understand SRv6 data plane behavior, can it enforce teh
requisite boundary properties?
Yours,
Joel
On 12/13/2019 5:14 PM, Voyer, Daniel wrote:
I agree 100% with Jingrong,
PSP allows us to bring SRv6 to legacy PE devices that are not capable of
processing the SRH in the dataplane, but are capable of supporting SRv6 in the
control plane.
See this example:
I am streaming traffic from a server to a customer;
The ingress PE (near the server) encapsulates the packet and adds an SRH with a
low-latency list of segments;
The penultimate node in the SRH executes PSP;
The egress PE (near the customer) decapsulates the IPv6 header and forwards the
inner packet to the customer.
We can include SLA unidirectionally from the server to the customer even though that the egress PE has a legacy ASIC. Legacy equipment are a reality and are not easy to replace, hence interoperability with brownfield is key for any innovative approach.
dan
On 2019-12-10, 11:15 PM, "spring on behalf of Xiejingrong (Jingrong)"
<spring-boun...@ietf.org on behalf of xiejingr...@huawei.com> wrote:
I think it's a good idea.
Nothing new, but benefits that people have already said seems notable to
me.
(1) reduce the load of final destination. This benefit can be notable for the following sub reasons.
(1.1) final destination tends to have heavy load. It need to handle all
the EHs and do the delivery/demultiplex the packet to the right overlay service.
(1.2) example 1, the final destination may need to handle the DOH after
the RH.
(1.3) example 2, the final destination may need to do the assembly of
fragmented packets.
(1.4) example 3, the final destination may need to do AH/ESP after the
Fragmentation Header.
(1.5) example 4, the final destination may need to deliver the packet to
the right overlay service.
(2) support the incremental deployment when final destination(s) do not process/recognize SRH. This benefit can be notable for the following sub reasons.
(2.1) A core router may (fan-out) connected with a big number of low-end
routers that do not support SRH but support tunnel-end/service-demultiplex
function of SRv6.
Thanks
Jingrong
-----Original Message-----
From: spring [mailto:spring-boun...@ietf.org] On Behalf Of Joel M. Halpern
Sent: Wednesday, December 11, 2019 10:55 AM
To: spring@ietf.org
Subject: [spring] Is srv6 PSP a good idea
For purposes of this thread, even if you think PSP violates RFC 8200, let us assume that it is legal.
As I understand it, the PSP situation is:
o the packet arrives at the place (let's not argue about whether SIDs are
locators) identified by the SID in the destination address field o that SID is
the next to last SID in the SID list o that sid is marked as / known to be PSP
o at the intended place in the processing pseudocode, the last (first) entry in
the SRH is copied into the destination IPv6 address field of the packet
-> The SRH being used is then removed from the packet.
In order to evaluate whether this is a good idea, we have to have some idea of the benefit. It may be that I am missing some of the benefit, and I would appreciate clarification.
As far as I can tell, the benefit of this removal is that in exchange for
this node doing the work of removing the SRH, the final node in the SRH does
not have to process the SRH at all, as it has been removed.
I have trouble seeing how that work tradeoff can be beneficial.
Removing bytes from the middle of a packet is a complex operation.
Doing so in Silicon (we expect this to be done in the fast path of
significant forwarders as I understand it) requires very special provision.
Even in software, removing bytes from the middle of a packet requires somewhere
between some and a lot of extra work. It is distinctly NOT free.
In contrast, we have assumed that the work of processing SRH itself is tractable, since otherwise all of SRv6 would be problematic. So why is this necessary.
Yours,
Joel
PS: Note that both the MPLS case and the encapsulation case are very different in that the material being removed is at the front of the IP packet. Pop or prepend are MUCH easier than middle-removal (or middle-insertion).
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