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Progress

MLN/MRN draft-ietf-ccamp-gmpls-mln-reqs-02.txt draft-ietf-ccamp-gmpls-mln-eval-02.txt draft-papadimitriou-ccamp-gmpls-mrn-extensions-03.txt. Kohei Shiomoto (NTT), Dimitri Papadimitriou (Alcatel), Jean-Louis Le Roux (France Telecom), Martin Vigoureux (Alcatel) Deborah Brungard (AT&T)

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Progress

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  1. MLN/MRNdraft-ietf-ccamp-gmpls-mln-reqs-02.txtdraft-ietf-ccamp-gmpls-mln-eval-02.txt draft-papadimitriou-ccamp-gmpls-mrn-extensions-03.txt Kohei Shiomoto (NTT), Dimitri Papadimitriou (Alcatel), Jean-Louis Le Roux (France Telecom), Martin Vigoureux (Alcatel) Deborah Brungard (AT&T) dimitri.papadimitriou@alcatel.be

  2. Progress • Req document - editorial update no modification from last revision • Eval document - editorial update no modification from last revision • Open points • Terminology: virtual TE link => induced TE link • Requirement on SRLG inheritance process (base mechanism in RFC4206)

  3. Solution Doc. • Extensions of GMPLS protocols and procedures • GMPLS routing extension for the advertisement of the internal adaptation capability of hybrid nodes. • GMPLS signaling extension for constrained multi-region signaling (SC inclusion/exclusion) • GMPLS signaling extension for the setup/deletion of the virtual TE-links (as well as exact trigger for its actual provisioning) • GMPLS routing and signaling extension for graceful TE-link deletion (covered in [GR-TELINK])

  4. Approach • Focus on protocol extensions and mechanisms not “applicability” or “policy” of existing GMPLS mechanisms and/or extensions

  5. Edge to edge association • No state maintenance on transit LSRs • Relies on extensions to the GMPLS RSVP-TE Call procedure ([GMPLS-CALL]) • Mechanism • exchanging identification and TE attributes information directly between TE link end points (= LSP head and tail-end points of the LSP(s) that may be established) • Once call is established, resulting association populates the local TEDB and the resulting TE link is advertized as any other TE link. • Once an upper layer/lower region LSP makes use of this TE link. A set of one or more LSPs must be initially established before the FA LSP can be used for nesting the incoming LSP

  6. Edge to edge association • In order to distinguish usage of such call from a classical call (as defined e.g. in [RFC4139]), a CALL ATTRIBUTE object is introduced • CALL_ATTRIBUTES object is used to signal attributes required in support of a call, or to indicate the nature or use of a call • built on the LSP-ATTRIBUTES object defined in [RFC4420] • Specific flag to indicate that the association initiated between the end-points belonging to as call is to be mapped into a TE link advertisement.

  7. Soft FA • Setup FA LSP at the control plane level without actually committing resources in the data plane. • Once such FA is established the corresponding TE link can be advertized following the procedures described in [RFC 4206]. • New flag in Attributes Flags TLV of LSP_REQUIRED ATTRIBUTES object [RFC4420]: pre-planned LSP Flag. • The pre-planned LSP Flag can take one of the following values: • Flag = 0 - the LSP should be fully provisioned • Flag = 1 - the LSP should be provisioned in the control plane only. • Operation of committing data plane resources occurs by re-signaling the same LSP with the pre-planned Flag set to 0

  8. Path Provisioned only LSPs • Difference b/w • LSP that is established with 0 bandwidth (path only provisioning) • LSP that is established with a certain bandwidth value not committed at the data plane level (i.e. pre-planned LSP). • The former is currently not possible using the GMPLS protocol suite (following technology specific SENDER_TSPEC/FLOWSPEC) • GMPLS Traffic Parameters do not support setup of 0 bandwidth LSPs • However a soft FA could itself lead to a path only provisioned LSP (packet case) … • Question: in this document or separate I-D (more generic usage ?)

  9. Next steps • Req and eval doc ready for LC • Note: editorial revision may be needed • Solution doc as WG I-D ? • Close the MLN/MRN trilogy by 1q’07

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