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SA2 IPv6 related activities overall status and on going activities

SA2 IPv6 related activities overall status and on going activities. Etienne Dublé - CNRS/UREC EGEE SA2 Mario Reale – GARR EGEE SA2 Thursday, March 26, 2009 – Rome – SA2 All Hands Meeting. content. EGEE II achievements regarding IPV6 (summary)

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SA2 IPv6 related activities overall status and on going activities

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  1. SA2 IPv6 related activitiesoverall status and on going activities Etienne Dublé - CNRS/UREC EGEE SA2 Mario Reale – GARR EGEE SA2 Thursday, March 26, 2009 – Rome – SA2 All Hands Meeting

  2. content EGEE II achievements regarding IPV6 (summary) EGEE III achievements regarding IPV6 (detailed) Current status of the IPv6 compliance of gLite Next steps

  3. EGEE II achievements regarding IPv6 • Summary of EGEE II SA2 IPv6 past work and collaborations 3

  4. Main achievements in EGEE II • Definition of a methodology for IPv6 transition • Collaboration with ETICS (initially also with EuChinaGRID): set up an ETICS pilot project called glite_IPv6: • Goal: automate IPv6 compliance testing of gLite packages • A static code checker was developed in order to test the packages • Results are displayed as the “IPv6 metric” on ETICS website • A demonstration of automated IPv6 regression tests was also set up • Dissemination, including programming tutorials • Development of a first IPv6-compliant gLite node: the BDII • Building of a testbed in Paris, which allowed to show • The NAT-PT protocol usage (ex. with the ported BDII)‏ • The dual-stack environment usage (ex. with the ported BDII)‏ • Building of a testbed in Rome • Report about IPv6 compliance of gLite external dependencies 4

  5. EGEE III achievements regarding IPv6 • EGEE III SA2 IPv6 work and collaborations 5

  6. A distributed IPv6 Testbed • Follow-up of the testbeds built during EGEE II • Goals: • Test IPv6 compliance of gLite components • Demonstrate current gLite IPv6 features • Future: IPv4 non-regression tests (collaboration with SA3)‏ • One site in Rome (GARR), one site in Paris (UREC)‏ • Site-to-site IPv6 connectivity (through UREC / RAP / RENATER / GEANT / GARR networks)‏ • Many relevant deployment modules installed and configured: VOMS, UI, WMS, lcg-CE, CREAM, WNs, DPM-SE, LFC, PX, BDII, LB • All nodes are dual-stack 6

  7. GARR/ROME UREC/PARIS VOMS Server Worker Node (Torque/PBS)‏ VOMS .236 :d LB server VOMS2 .59 LB LB LCG Computing Element LB server WN1 :a CE LCG Computing Element WN1 .50 .233 CE Workload management server Workload management server WMS WMS .227 UI2 :4 .226 .23 Worker Node (Torque/PBS)‏ :3 WN2 .21 CREAM WN2 .22 .232 User Interface :9 BDII DEV .228 :5 .56 PX CREAM Computing Element .51 .27 .34 .234 BDII :b MyProxy server SA2 top level BD-II Grid Job monitoring DB DPM1 SE .24 UREC site BD-II .30 .229 .231 :6 RGMA-BDII :8 Storage Element DPM Storage Element GARR site BD-II UI LFC .29 .29 LFC .235 .230 LFC File Catalog .11 :c Gateway IPv6 LFC File Catalog :7 Gateway User Interface 2001:760::159:242/64 IPv4/IPv6 Internet: Renater/GEANT/GARR 2001:660:3302:7006::1 A distributed IPv6 Testbed 7 7

  8. IPv6 bug reporting • Analysis of the gLite source code • Using the IPv6 metric (IPv6 code checker) in ETICS • Around 110 bugs on non-compliant function calls and data structures in the code reported • This analysis effectively incited developers to work on IPv6, and is a good metric regarding the work needed on this subject. 8

  9. gLite external dependences • Analysis of all gLite external dependencies to assess their IPv6 compliance • Most of them are IPv6 compliant • MySQL is the most relevant package which is not IPv6 compliant • 6 of the 10 non-compliant packages are MySQL-subpackages • However if the server and the client run on the same dual-stack node, there is no problem. 9

  10. Other Reports • IPv6 Programming methods: • Guide to IPv6 compliant programming in C/C++, Java, Python and Perl: • Provides a sample TCP client and server for each programming language • Explains advantages/drawbacks/limitations of each language regarding IPv6 • IPv6 Testing methods: • Report explaining how to test if a TCP server is IPv6 compliant • IPv6 Test reports: • Selected IPv6 compliance studies for specific packages: • gSOAP • Axis and Axis2 • Boost:asio • gridFTP • PythonZSI • PerlSOAPLite • Assessment of the IPv6 compliance of gLite components: DPM & LFC 10 10

  11. IPv6 CARE • Developed by SA2 • Behavior: • It monitors the execution of programsand detects networking function calls • The diagnosis generated helps to assess IPv6 compliance • Very generic: you can use it for any program, even if you don’t have the source code • Available on sourceforge: http://sourceforge.net/projects/ipv6-care 11

  12. $ ipv6_care check -v telnet localhost 9876 IPV6 CARE detected:inet_addr() with [ cp=localhost ] IPV6 CARE detected:gethostbyname() with [ name=localhost ] IPV6 CARE detected:inet_ntoa() with [ in=127.0.0.1 ] Trying 127.0.0.1... IPV6 CARE detected:socket() with [ domain=AF_INET type=SOCK_STREAM protocol=ip ] IPV6 CARE detected:connect() with [ socket=3 address.ip=127.0.0.1 address.port=9876 ] telnet: Unable to connect to remote host: Connection refused ------------------------------------------------------------------------------ IPv6 diagnosis for 'telnet localhost 9876' was generated in: /tmp/ipv6_diagnosis/telnet/by_pid/pid_6541 ------------------------------------------------------------------------------ $ IPv6 CARE: Usage example • Usage example: we want to test the “telnet” program • We run the program as usual except that we prefix the command by “ipv6_care check”: • The standard behavior of ‘telnet’ is not affected (it works as it should, see its output in black). • The diagnosis (network function calls log file, non-IPv6 compliant calls detected, etc.) can be reviewed in the mentioned directory. 12

  13. LD_PRELOAD=/path/to/libipv6_care.so Preloaded libipv6_care.so library ----------------------------------------------- gethostbyname(…)‏ { Diagnose problem in /tmp/ipv6_diagnosis/<name>/… Call RTLD_NEXT gethostbyname()‏ } ... <other_non_ipv6_compliant functions> IPv6 CARE mechanism Program <name> ------------------------- Main()‏ { … gethostbyname(…)…} libc Standard Shared Library ---------------------- gethostbyname()‏ {… } … libc Standard Shared Library ---------------------- gethostbyname()‏ {… } … 13

  14. Dissemination • EGEE 08 conference, Istanbul • IPv6 session targeted at gLite developers and testers • JRA1 / SA3 All-hands meeting, Prague • “IPv6 Testing” session • IPv6 basics needed by developers & testers • IPv6 methods & tools for testing • “IPv6 Programming” session • Tutorial C/C++, Perl, Python, Java • High-level programming topic • EGEE UF / OGF, Catania • IPv6 session • Main work done / to be done about IPv6 in gLite and other middlewares • Point of view of the European Commission and of RIPE about IPv6 • A demo booth • An automatic demo script running on the testbed, showing the current IPv6 features of gLite (see next slide)‏ • A poster “gLite IPv6 compliance” • A poster “IPv6 compliance testing: dedicated tools” • An explanatory video

  15. Dissemination: the demo script • Automatic script sending commands in ssh sessions, running in the testbed environment • Content of the script: most noticeable current IPv6 features of gLite • Show that gLite is working properly in a dual-stack environment (i.e. when IPv6 is enabled on nodes)‏ • by submitting jobs and checking that they are run correctly • Show current IPv6 compliant services • Show that the prototype version of the BDII (Information System) is able to use IPv6 • Show that DPM & LFC (Storage Element) can be used over IPv6

  16. Current status of the IPv6 compliance of gLite • How far are we from having gLite fully IPv6 compliant ? 16

  17. Current stand on gLite and IPv6 IPv6 compliance Full IPv6 compliance – for the production version LFC DPM globus-url-copy/gridFTP Full IPv6 compliance – for a prototype version BDII(perl)‏ IPv6 compliance to be tested/verified by SA2 – gLite part of the deployment module claimed to be IPv6 compliant WMproxy/Job submission CREAM BDII(python)‏ blah IPv6 porting currently on-going gfal lcgutils VOMS WMS-server IPv6 porting plan exist FTS No porting plan yet (we are not aware of)‏ PX VObox MON dCache Torque C/S MPIutils Condorutils AMGA

  18. JRA1 workplan for IPv6 porting VOMS Server BLAH RGMA GFAL LCG util VOMS Client and APIs WMS / WMproxy Job Management FTS Feb 09 Apr 09 Jun 09 Aug 09 Oct 09 Dic 09 Feb 10 Apr 10

  19. The IPv6 Metric • Based on the results of the static code checker • Detection of non-IPv6 compliant patterns in the source code • This method is not fully accurate, but gives a good overview • Here is the evolution obtained on the gLite repository of ETICS:

  20. Next steps • What will keep us busy in the next months ? 20

  21. Future work / Outlook • To be considered • One goal was to provide results soon in order for JRA1 and SA3 to benefit from them • Consequently the most relevant initial objectives are already completed • The time (man power) initially planned for the IPv6 sub-task has been already mostly used • Main foreseen tasks • Test IPV6 compliance of ported nodes • Add an FTS node in the distributed testbed • Collaboration with SA3 for the integration of IPv6 in the validation process • Collaboration with the team responsible for the deployment tools, in order to have IPv6 enabled on nodes at installation time • Improvement of the static code checker • New overall analysis of the gLite source code and update of IPv6 non compliance bugs • Writing of the milestone document

  22. Future work / Outlook • Optional tasks: • Automation of the execution on IPv6 CARE within the ETICS test system • Automation of the IPv6 functional testing by means of the ETICS build system • Organization of tutorials on IPv6 network programming and IPv6 in general for JRA1 and SA3, if needed • Support to JRA1 for specific studies on the IPv6 compliance of packages and tools, if needed • Organization of a final demo on IPv6

  23. Thank You. https://twiki.cern.ch/twiki/bin/view/EGEE/IPv6FollowUp (or google “SA2 IPv6 follow up”)‏ 23 23

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