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Porting iocCore onto - ITRON real-time kernel

Porting iocCore onto - ITRON real-time kernel. EPICS collaboration meeting 2004 12/10/2004 G.Jiang, A.Akiyama, J.Odagiri, N.Yamamoto. What is - ITRON?. An API-specification of real-time kernel Developed by Prof . Ken Sakamura of Tokyo Univ.

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Porting iocCore onto - ITRON real-time kernel

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  1. Porting iocCore onto -ITRON real-time kernel EPICS collaboration meeting 2004 12/10/2004 G.Jiang, A.Akiyama, J.Odagiri, N.Yamamoto

  2. What is -ITRON? • An API-specification of real-time kernel • Developed by Prof. Ken Sakamura of Tokyo Univ. • Many different implementations of products are available on the market • Widely used in consumer electronics fields in Japan • Mobile phones • TV-games • Automobile Navigation System • Details : See • http://tron.um.u-tokyo.ac.jp/TRON/ITRON/home-e.html

  3. Why -ITRON? • Running iocCore on intelligent device controllers • Many intelligent device controllers come with an Ethernet interface • Many of those have an SHx CPU and enough ROM/RAM capacity to run iocCore • Many of those run -ITRON Proprietary Protocol OPI OPI CA CA IOC Controller IOC VME or PC Controller

  4. Intelligent device controllers running -ITRON • Commercial Devices • PLC • Yokogawa FA-M3, used for Ion-source, vacuum etc. • WE7000 measurement station • Digital oscilloscope (100kS/s, 1MS/s, 100MS/s and 1GS/s) • Custom Device Controllers • EMB-LAN100 • Initially designed for the Power supplies of DTL Q-magnet • NDIM (Network Device Interface Module) • Developed by RIKEN for various control/monitoring

  5. Commercial devices FA-M3 PLC (Made by Yokogawa) WE7000 (Made by Yokogawa)

  6. Custom device controllers N-DIM (Developed by RIKEN) EMB-LAN100 (Developed by KEK)

  7. What are the benefits? • More distributed • More load distribution • More robust • Flatter hierarchy • Save IOCs being used as “protocol transformer” • No need for asynchronous driver Proprietary Protocol OPI OPI CA CA IOC Controller IOC MicroIOC Controller

  8. What’s available on the market • The kernel, NORTi4, from MISPO • Development environment • SHC (Super Hitachi Compiler) with a standard C/C++ library • Cygwin on Windows • Kasago TCP/IP + BSD socket library, from Elmic Systems, Inc. • We assume BSPs are available from the HW-manufactures

  9. How hard is it? • We have implemented OSD libraries (not yet tested) • We have asked Elmic Systems, Inc. to port the TCP/IP + BSD socket onto our target board • There are some missing functions in STC library needed by iocCore • Recent versions of EPICS base use lots of C++ codes • We have gotten linkage errors with some of those

  10. OSD implementation • -ITRON has abundant functions for synchronization and communication • It’s relatively easy • For example: itron case: const T_CMTX cmtx = {TA_TINHERIT,0,""}; struct epicsMutexOSD * epicsMutexOsdCreate(void) { ID id; ER ercd; ercd = acre_sem(&cmtx); … } Vxworks case: struct epicsMutexOSD * epicsMutexOsdCreate(void) { return((struct epicsMutexOSD *) semMCreate(SEM_DELETE_SAFE|SEM_INVERSION_SAFE|SEM_Q_PRIORITY)); }

  11. BSD socket library Elmic Systems, Inc. is going to develop libraries which interface their TCP/IP protocol stack with -ITRON/LAN controller driver

  12. Missing functions in STC library extern FILE *fdopen(int handle, const char * tmp) {...} extern char *getenv (char * tmp) {...} extern int putenv (char * tmp) {...} extern char *tmpnam (char * tmp) {...} extern FILE *tmpfile (void) {...} extern int atexit (void (*function)(void)) {...} extern void exit(int status) {...} void abort(void) {...}

  13. Building problems with C++ code • iocCore uses some methods not in SHC’s STD C++ library • logic_error::logic_error(); • Some of external references can’t be resolved • Related with class • Related with template • Related with inline function

  14. Status and future plans • We are trying to solve the linkage problems with C++ code • If not, we are going to try another compiler exeGCC, based on gcc • We lose support from the companies on BSP&BSD socket library • We hope we can succeed in running iocCore on a target board before Mar. 2005

  15. MCU made by Nichizou MCU running -ITRON SH4 (SH7751R-200 MHz) FLASH ROM 16MB SDRAM 64MB

  16. External references can’t be resolvedrelated with class • Example: L2310 (W) Undefined external symbol "type identifier for tcpRecvThread" referenced in "tcpiiu" • Details: In "epics\base-3.14.6\src\ca\virtualCircuit.h", class was declared, class tcpRecvThread : public epicsThreadRunable {…}; In "epics\base-3.14.6\src\ca\tcpiiu.cpp", the method is like this, tcpRecvThread::tcpRecvThread ( … ) {…}

  17. External references can’t be resolvedrelated with template • Example: L2310 (W) Undefined external symbol "type identifier for tsSLNode<tcpiiu>" referenced in "tcpiiu" • Details: In "epics\base-3.14.6\include\tsSLList.h",declare is like this: Template <class T> class tsSLNode { … };

  18. External references can’t be resolvedrelated with inline function • Example: L2310 (W) Undefined external symbol "comBuf::operator new(unsigned long)" referenced in "tcpiiu" • Details: In "epics\base-3.14.6\src\ca\comBuf.h", inline void * comBuf::operator new ( size_t size, comBufMemoryManager & mgr ) { return mgr.allocate ( size ); }

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