HOSC DTN Gateway Test Report

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Presentation transcript:

HOSC DTN Gateway Test Report Cleveland, OH 2012 May 2010 1 1

Status Goals of this activity Current activity Test the HOSC DTN Gateway for operational use Current activity Test the Implementation of a new DTN2 gateway at the HOSC Confirm integration of DTN nodes into the S-band uplink and Ku-band downlink of the ISS for limited use Implement Aggregate Custody Signal to ISS platforms Verify operational support for CU onboard components Verify ability to support METERON OpsCon-2 May 2010

Status HOSC DTN Node Couples payload uplink architecture with downlink delivery at the HOSC Upgrade and virtualize the HOSC DTN nodes to 64 bit O/S Move the implementation to DTN2.8 Add Aggregate Custody Signal into the HOSC DTN2 node Implement ACS independently of ION Feedback lessons learned and patches into the DTN2 community Transition the HOSC with build 15 to support upcoming payload activities May 2010

Status Basic test configuration Prior to external testing, extensive test was completed internally DTN2 to DTN2 ION (IOS) to DTN2 Live downlink stream thanks to cooperation from CU-Boulder MSFC system requirements IVV/Simulation String - EHS software 15.x (MOP – IN32:Test) Test and Simulation Processor (TASP) - 5.0.1-6 Payload Data Services System (PDSS) - PDSS 5.0.2 PDSS DTN - DTN 2.1 (modified DTN2.8) Payload Rack Checkout Unit (PRCU) Telescience Resource Kit (TReK) Command Bridge CU-Boulder system requirements CGBA4-0 CGBA4-gse-0 - UCB telemetry - ION BP/TCP/ACS/ECOS ET2 – UCB command May 2010

Multi-site test layout Status Multi-site test layout May 2010

Status Features to Be Tested Remote access to HOSC DTN services via an IPSec-compliant VPN CGBA's utilization of the Aggregate Custody Signal (ACS) generated by a DTN2 implementation Bundle traffic compliance with RFC 6260 (CBHE) HOSC DTN nodes ability to support the Aggregate Custody Signal (forward telemetry bundles to CU-Boulder) EHS software implementations for HM-3388/3410 to support DTN2 The mapping of DTN bundle activity to a UserID The CU-Boulder onboard gateway's ability to support the HOSC DTN uplink capability RFC 5050 compliant acknowledgements sent from the intermediate HOSC DTN node using DTN URI and IPN URI Measuring sustained throughput capabilities of BP on Ku-downlink and with ACS in the S-band uplink. May 2010

Basic Bundle protocol behavior was verified Status Six test scenarios were exercised Test Acceptance of simple custody signal (non- ACS) AOS CLA and DTN2 router processed APID 949 (CGBA4) bundles correctly HOSC DTN router sends BP Custody Signals to the EHS command system for uplink to CGBA-0 via SSITF successfully CGBA-4 at SSITF accepts command, CGBA4_DTN, properly HOSC DTN router (DTN01a) sends non-ACS bundle to CU-Boulder (CGBA4-gse-0) CU-Boulder receives non-ACS bundle and verifies content DTN01A receives Custody Signals and bundles are deleted from the bundle store Basic Bundle protocol behavior was verified May 2010

Basic ACS protocol behavior was verified Status Six test scenarios were exercised Test Acceptance of Aggregate Custody Signals (ACS) AOS CLA and DTN2 router processed APID 949 (CGBA4) bundles correctly HOSC DTN router (dtn01a) sends ACS to the EHS command system for uplink to CGBA-0 at SSITF successfully CGBA4-0 at SSITF accepts command, CGBA4_DTN, properly HOSC DTN router sends ACS enabled bundles to CU-Boulder CU-Boulder receives ACS bundles and verifies content DTN01A receives Aggregate Custody Signals (ACS) and bundles are deleted from the bundle store Basic ACS protocol behavior was verified May 2010

CBHE behavior was verified Status Six test scenarios were exercised Test IPN URI (w/ACS) AOS CLA and DTN2 router processed APID 949 (CGBA4) bundles correctly HOSC DTN router sends ACS utilizing IPN to the EHS command system for uplink to CGBA-0 at SSITF successfully Bundle primary block was in CBHE format because all EIDs are IPN scheme compatible CGBA4-0 at SSITF accepts command, CGBA4_DTN, properly HOSC DTN router sends ACS enabled bundles to CU-Boulder (CGBA4-gse-0) Bundle primary block was in CBHE format because all EIDs are ipn scheme compatible CU-Boulder receives ACS enabled bundles and verifies content DTN01A receives Aggregate Custody Signals (ACS) and bundles are deleted from the bundle store CBHE behavior was verified May 2010

Status Six test scenarios were exercised Test gaps in processed Custody IDs (induced manually) between bundles while utilizing ACS AOS CLA and DTN2 router processed APID 949 (CGBA4) bundles correctly HOSC DTN router sends ACS with multiple fills to the EHS command system for uplink to CGBA-0 at SSITF successfully CGBA4-0 at SSITF accepts command, CGBA4_DTN and processes ACS with multiple fills properly HOSC DTN router sends non-ACS telemetry bundles to CU-Boulder (CGBA4-gse-0) CU-Boulder receives non-ACS telemetry bundles and verifies content DTN01A receives custody signals (non-ACS) and bundles are deleted from the bundle store HOSC expects missed bundles to be resent and subsequently acknowledged successfully HOSC verifies that the gaps are represented accurately in the Command Delog (EHS application) Result 3 and 7 were not achieved. Unacknowledged previously received bundles were retransmitted indicating only the first fill of the ACS was processed May 2010

Status Six test scenarios were exercised Test for Queued ACKs on the HOSC-side AOS CLA and DTN2 router processed APID 949 (CGBA4) bundles correctly HOSC DTN router sends ACS to the EHS command system. EHS command system holds the ACS in a queue ready for uplink when uplink conditions are acceptable. EHS command system uplinks ACS bundles to CGBA-0 successfully CGBA4-0 accepts command, CGBA4_DTN, properly HOSC DTN router sends non-ACS bundles to CU-Boulder (CGBA4-gse-0) HOSC expects missed bundles to be resent from CGBA4-0 at SSITF CGBA4-0 receives first acknowledgement command and ignores the second acknowledgement command CU-Boulder (CGBA4-gse-0) receives ACS bundles and verifies content All items were successful but there were test unique items that required extra analysis. These were associated with the SSITF May 2010

Status Six test scenarios were exercised Test of throughput of BP via Ku band downlink and S band uplink Unable to test due to ION node being overwhelmed on the initial flood attempt May 2010

Status Follow-up testing is schedule for the last week of October into November Performance testing at the platform and link level Resolve and retest any areas where analysis has indicated concern Validate the operational configuration May 2010

Backups May 2010

May 2010