Hi Alexander,
see some answers inline.
---
Anton
On 02/08/19 11:25, Alexander Okonnikov wrote:
Hi Acee,
For me current version doesn't change the solution. My comments are follow:
1. Introduction
"TE Extensions to OSPFv2 [RFC3630] and OSPFv3 [RFC5329] have been
described to support intra-area TE in IPv4 and IPv6 networks,
respectively. In both cases, the TE database provides a tight coupling
between the routed protocol and advertised TE signaling information. In
other words, any use of the TE link state database is limited to IPv4
for OSPFv2 [RFC2328] and IPv6 for OSPFv3 [RFC5340]."
What is meant for "routed protocol"? Is it passenger protocol of RSVP-TE
LSPs, protocol used as a transport for RSVP signaling, protocol for
which OSPFv2/OSPFv3 calculate routes?
"Routed protocol" here refers to "protocol for which OSPFv2/OSPFv3
calculate routes".
Words "routed protocol" signify protocol that is subject of somebody's
action, so this wording should exclude options like "protocol used as a
transport for RSVP signaling" (here protocol is object, not subject).
> What does mean "TEDB is limited
> to IPv4/IPv6"? Is it limited to choose IPv4/IPv6 as a transport for
> RSVP-TE LSP signaling?
Among other things selection of [RFC3630] versus [RFC5329] defines if
IPv4 or IPv6 will be used as a transport for RSVP-TE LSP signaling. But
not limited to only this, all other IPv4 vs IPv6 selections become
predefined. As it is written in the draft, currently there exists "a
tight coupling between the routed protocol and advertised TE signaling
information".
"For example, an LSP created based on MPLS TE information propagated by
an OSPFv2 instance can be used to transport both IPv4 and IPv6 traffic,
as opposed to using both OSPFv2 and OSPFv3 to provision a separate LSP
for each address family."
An LSP created based on TEDB from OSPFv2 can be used to transport IPv4
and IPv6 without extensions, proposed in the draft. We are not obligated
to signal RSVP-TE LSPs from OSPFv2 TEDB for IPv4 traffic and other
RSVP-TE LSPs from OSPFv3 TEDB for IPv6 traffic. RSVP-TE LSPs signaled
based on TEDB from either - OSPFv2 or OSPFv3 - can be used for transport
either - IPv4 or IPv6 - traffic. I.e. payload of RSVP-TE LSP and
transport protocol for its signaling are not obligated to be the same. I
guess that authors meant that an LSP, based on MPLS TE from OSPFv2, can
be used for calculation of shortcuts by OSPFv2, and not by OSPFv3.
Correct. Both the description of what protocol can go over what tunnel
and interpretation of the text are correct.
3. Operation
"A node that implements X-AF routing SHOULD advertise, in the
corresponding Node Local Address sub-TLV, all X-AF IPv4 and IPv6
addresses local to the router that can be used by Constrained SPF (CSPF)
to calculate MPLS TE LSPs."
From section 1 we assume that X-AF is used for calculation of
shortcuts. Why does the draft say here about calculation of TE LSPs by CSPF?
CSPF as part of the whole procedure computing MPLS TE path among other
things is defined in terms what IP addresses it uses to define tunnel
tail-end. Reference to the CSPF is made to define set of IP addresses
that would be of interest to X-AF algorithm.
---
Anton
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