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Jira reference:  REQ-631 - Getting issue details... STATUS

Test lab: CMCC Lab

Legend:

NOT STARTED IN PROGRESS DEFERRED COMPLETED

Italics - Regression test cases

S. No.TopicTest Case DescriptionPriorityDependency/IssueTesterStatusRemarks
NSMF_01Service/template designSuccessful design of CST and Service Profile Templates1

NOT STARTED


NSMF_02Service/template designSuccessful design of NST (option 1 and option 2)1

NOT STARTED


NSMF_03Service instantiationService instantiation via CSMF Portal (UUI) for Option 1/2 resulting in NST Selection request from SO towards OOF, and receiving the NST details in the callback from OOF. Note: Since OOF fetches NST details from SDC, there is no need for any manual configuration to onboard templates in a flat file.1



NSMF_04Service instantiation (Option 1)After NST selection, NSMF (SO) fetches sub-net capabilities for the 3 constituent sub-nets (RAN, Core and Transport) for Option 1.2



NSMF_05Service instantiation (Option 1) - New NSINSMF (SO) triggers OOF for NSI selection (passing Service Profile, NST and sub-net capabilities), resulting in OOF providing Slice Profiles (in callback API) for new NSI creation (Option 1). Note: In the RAN Slice Profile, coverageAreaTAList shall contain a valid list of TAs corresponding to the coverageArea provided by the user (and passed in the Service Profile by SO (NSMF) to OOF) - see Remarks.1


This test case requires setup of CPS (including TBDMT manually).
NSMF_06Service instantiation (Option 1) - New NSISO (NSMF) presents the NSI solution to NSMF Portal (UUI) for manual intervention. NSMF Portal (UUI) provides endpoints for RAN and Core sub-nets while allowing creation of new NSI.1



NSMF_07Service instantiation (Option 1) - New NSINSMF (SO) triggers RAN NSSMF with allocateNSSI operation via the NSSMF adaptor, and RAN NSSI is allocated successfully.1



NSMF_08Service instantiation (Option 1) - New NSINSMF (SO) triggers Core NSSMF with allocateNSSI operation via the NSSMF adaptor, and Core NSSI is allocated successfully.1



NSMF_09Service instantiation (Option 1) - New NSINSMF (SO) triggers TN NSSMF with allocateNSSI operation via the NSSMF adaptor along with the RAN & Core endpoint info, and TN NSSI is allocated successfully.1



NSMF_10Service instantiation (Option 2) - New NSINSMF (SO) triggers OOF for NSI selection (passing Service Profile, NST and sub-net capabilities), resulting in OOF providing Slice Profiles (in callback API) for new NSI creation (Option 2). Note: In the RAN Slice Profile, coverageAreaTAList shall contain a valid list of TAs corresponding to the coverageArea provided by the user (and passed in the Service Profile by SO (NSMF) to OOF) - see Remarks.4


This test case requires setup of CPS (including TBDMT manually).
NSMF_11Service instantiation (Option 2) - New NSINSMF (SO) calls OOF using selectNSSI API for the RAN NSSI selection (in case of external RAN NSSMF) with RAN Slice Profile and RAN sub-net capabilities. OOF provides (empty) response that no RAN NSSI exists (that can be reused).4



NSMF_12Service instantiation (Option 2) - New NSINSMF (SO) triggers External RAN NSSMF with allocateNSSI operation via the NSSMF adaptor (it also sends Slice Profile info), and new RAN NSSI is created successfully. RAN EP info is updated in AAI by NSMF Adaptor.4



NSMF_13Service instantiation (Option 2) - New NSINSMF (SO) triggers Core NSSMF with allocateNSSI operation via the NSSMF adaptor, and Core NSSI is allocated successfully. (This is more of a regression test case as new Core NSSI is already covered in COM_08)41


NSMF_14Service instantiation (Option 2) - New NSINSMF (SO) triggers TN NSSMF with allocateNSSI operation via the NSSMF adaptor along with the RAN & Core endpoint info, and TN NSSI is allocated successfully. (This is more of a regression test case as new TN NSSI is already covered in COM_09)41


NSMF_16Service instantiation (Option 1) - New NSINSMF (SO) triggers RAN NSSMF with allocateNSSI operation via the NSSMF adaptor, and RAN NSSMF responds that an existing RAN NSSI can be reused.52


NSMF_17Service instantiation (Option 1) - New NSINSMF (SO) triggers Core NSSMF with allocateNSSI operation via the NSSMF adaptor, and Core NSSMF responds that an existing Core NSSI can be reused.52


NSMF_18Service instantiation (Option 2) - New NSINSMF (SO) calls OOF using selectNSSI API for the RAN NSSI selection (in case of external RAN NSSMF) with RAN Slice Profile and RAN sub-net capabilities. OOF provides response with a suitable RAN NSSI exists (that can be reused).62


NSMF_19Service instantiation (Option 1) - Reuse existing NSINSMF (SO) triggers OOF for NSI selection (passing Service Profile, NST and sub-net capabilities), resulting in OOF providing details of existing NSI to be reused in the response.72


NSMF_20Service instantiation (Option 1) - Reuse existing NSINSMF (SO) triggers OOF for obtaining Slice Profiles for the new Service Profile when an existing NSI is reused, and OOF provides the Slice Profiles72


NSMF_21Service instantiation (Option 1) - Reuse existing NSINSMF (SO) provides details of existing NSI and Slice Profiles to UUI (NSMF Portal) for manual intervention. Existing NSI is chosen via UUI (regression)72


NSMF_22Service instantiation (Option 1) - Reuse existing NSINSMF then calls modifyNSSI API towards RAN, Core and Transport NSSMFs with details of existing NSI to be reused and the respective Slice Profile72


NSMF_23

Service instantiation (Option 2) - Reuse existing NSI

(similar to testcases COM_17 and 18)

NSMF (SO) triggers OOF for NSI selection (passing Service Profile, NST and sub-net capabilities), resulting in OOF providing existing NSI to be reused in the response. NSMF (SO) triggers OOF for obtaining Slice Profiles for the new Service Profile when an existing NSI is reused, and OOF provides the Slice Profiles.82


NSMF_24Service instantiation (Option 1) - Reuse existing NSINSMF (SO) provides details of existing NSI and Slice Profiles to UUI (NSMF Portal) for manual intervention. Existing NSI is chosen via UUI (regression)82


NSMF_25

Service instantiation (Option 2) - Reuse existing NSI

(similar to testcase COM_20)

NSMF then calls modifyNSSI API towards internal Core and Transport NSSMFs, and external RAN NSSMF with details of NSI to be reused and the respective Slice Profile82


NSMF_26Service activation (Option 1)

Service activation from CSMF portal (UUI) for Option 1/2 resulting in NSI Activation API called towards SO (NSMF). SO (NSMF) calls activateNSSI APIs towards RAN, Core and Transport NSSMFs

92


NSMF_27Service activation (Option 2)Service activation from CSMF portal (UUI) for Option 1/2 resulting in NSI Activation API called towards SO (NSMF). SO (NSMF) calls activateNSSI APIs towards internal Core and Transport NSSMFs, and external RAN NSSMF92


NSMF_28Service deactivation (Option 1)

Service deactivation from CSMF portal (UUI) for Option 1/2 resulting in NSI Deactivation API called towards SO (NSMF). SO (NSMF) calls DeactivateNSSI APIs towards RAN, Core and Transport NSSMFs

102


NSMF_29Service deactivation (Option 2)Service deactivation from CSMF portal (UUI) for Option 1/2 resulting in NSI Dectivation API called towards SO (NSMF). SO (NSMF) calls deactivateNSSI APIs towards internal Core and Transport NSSMFs, and external RAN NSSMF102


NSMF_30Service termination (Option 1/2)Service termination from CSMF portal (UUI) for Option 1/2. SO (NSMF) triggers OOF to check for NSI termination, OOF returns NSI should not be terminated112


NSMF_31Service termination (Option 1/2)SO (NSMF) triggers RAN, Core and TN NSSMF with modifyNSSI API to remove S-NSSAI from the respective NSSIs. Service and Slice profiles and their links are also removed.112


NSMF_32Service termination (Option 1)Service termination from CSMF portal (UUI) for Option 1/2. SO (NSMF) triggers OOF to check for NSI termination, OOF returns NSI should be terminated122


NSMF_33Service termination (Option 1)SO (NSMF) triggers RAN, Core and TN NSSMF with deallocateNSSI API. NSI is also removed by SO(NSMF).122


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