1 Scope
2 References
3 Definitions
     3.1 Terms defined elsewhere
     3.2 Terms defined in this Recommendation
4 Abbreviations and acronyms
5 Conventions
     5.1 Information modelling conventions
          5.1.1 UML modelling conventions
          5.1.2 Model artefact lifecycle stereotypes conventions
          5.1.3 Forwarding entity terminology conventions
          5.1.4 Conditional package conventions
          5.1.5 Pictorial diagram conventions
     5.2 Equipment function conventions
          5.2.1 Maintenance entity group end point (MEP) [ITU-T G.8121]
          5.2.2 Maintenance entity group intermediate point (MIP) [ITU-T G.8121]
          5.2.3 MEPs and MIPs along a maintenance entity
     5.3 Colour code conventions
6 Functions of MPLS-TP OAM
     6.1 Proactive OAM for performance measurement
          6.1.1 Proactive loss measurement (LM)
          6.1.2 Proactive delay measurement
     6.2 On-demand for performance measurement
          6.2.1 On-demand loss measurement
          6.2.2 On-demand delay measurement
          6.2.3 Throughput measurement
     6.3 Proactive fault management
          6.3.1 Continuity check and connectivity verification (CC/CV)
          6.3.2 Remote defect indication (RDI)
          6.3.3 Alarm indication signal (AIS)
          6.3.4 Locked signal (Lock report) (LCK)
          6.3.5 Client signal failure (CSF)
     6.4 On-demand fault management
          6.4.1 Connectivity verification (CV)
          6.4.2 Diagnostic test (DT)
7 Information model of MPLS-TP OAM
     7.1 IETF CO-OAM UML Re-engineered from CO-OAM YANG
     7.2 MPLS-TP OAM UML
          7.2.1 G.8152 based object classes considered
          7.2.2 Augmentation to the IETF re-engineered UML
               7.2.2.1 Maintenance association name choice
               7.2.2.2 MEP and measurement jobs
               7.2.2.3 MIP
               7.2.2.4 Operations
          7.2.3 OAM functions modelling
               7.2.3.1 Proactive OAM for performance measurement
                    7.2.3.1.1 Proactive loss measurement (LM)
                    7.2.3.1.2 Proactive delay measurement (DM)
               7.2.3.2 On-demand OAM for performance measurement
                    7.2.3.2.1 On-demand loss measurement
                    7.2.3.2.2 On-demand delay measurement
                    7.2.3.2.3 Throughput measurement
               7.2.3.3 Proactive fault management
                    7.2.3.3.1 Continuity check and connectivity verification (CC/CV)
                    7.2.3.3.3 Alarm indication signal (AIS)
                    7.2.3.3.4 Locked signal (Lock report)
                    7.2.3.3.5 Client signal failure (CSF)
               7.2.3.4 On-demand fault management
                    7.2.3.4.1 Connectivity verification (CV)
     7.3 UML model files
8 Data models of MPLS-TP OAM
     8.1 MPLS-TP YANG data models
Appendix I  Overview of the MPLS-TP OAM model configuration cases
     I.1 MEP and MIP configuration
     I.2 OAM Pac configuration
Appendix II  Analysis of ITU-T G.8152 attributes and operations for ITU-T G.8152.1
Appendix III  Examples of using the IETF MPLS static lsp model with MPLS-TP co-oam models
     III.1 MPLS-TP trail monitoring examples
          III.1.1 Set-up of an MPLS-TP trail with trail monitoring
          III.1.2 Add trail monitoring on existing MPLS-TP trail
          III.1.3 Remove trail monitoring keeping MPLS-TP trail
     III.2 MPLS-TP tandem connection monitoring (TCM) examples
          III.2.1 Set-up of an MPLS-TP SNC with TCM
          III.2.2 Add TCM on existing MPLS-TP SNC
          III.2.3 Remove TCM keeping MPLS-TP SNC
Appendix IV  IETF MPLS static UML re-engineered from MPLS static YANG
Bibliography