# # $Id$ # # Author: Radzislaw Galler (rgaller@et.put.poznan.pl) # Getting started with EVB7045F and gensh2 ======================================== This is a capture of success path to put a RTEMS sample 'hello.exe' on the evaluation board EVB7045F. What you need --------------- * Computer with two operating systems: Linux and Wndows 2000 (tm) - that was in my case (see section 'Variations') * Flash Development Toolkit (FDT) - available on HMSE homepage (http://www.hmse.com/products/fdt/support.htm) * 'gdbstubs' - available on SourceForge (http://sourceforge.net/projects/gdbstubs/) * working GNU C compiler for Hitach SH processors; do-it-yourself (on Linux) or download ready stuff for Windows'9x/NT/2k from (http://www.hitachi-eu.com/hel/ecg/) or from Hitach Databook 2001 CD-ROM (if no luck try to search on the net for gnu99r1p1.zip) * GDB compiled for target sh-rtems - do-it-yourself or download from ftp://ftp.oarcorp.com:21/pub/rtems/snapshots/c_tools/ * RTEMS (ofcourse) you probably already have if you are reading this document Instalation of 'gdbstubs' -------------------------- Once you downladed and unzipped gdbstubs you have to compile it. First modify the Makefile to use the compiler installed on your machine. Then issue the command: $ make This should produce the default target sh2-7045edk.out. This is the S-record file which should be added to FDT project (renaming it to *.mot extension helps a bit). If you are lucky you will be able to put the file into the FLASH following the instuctions in FDT and EVB manuals. Well I wasn't lucky so I had to bypass the Universal Programming Board (see EVB7045F User Manual) and manually put the processor into BOOT mode. This can be done by shortening the capacitor C8 (or C108 on schematics) which puts the UPB into permanent reset state, and by removing jumper JP4 (or JP104 on schematics) and connecting its middle pin to the ground. After pressing CRES button the processor is in BOOT mode. In FDT select "direct connection": Menu Project->Properties->Device->Select Interface After that there should be no problem in putting the program into the FLASH. Loading 'hello.exe' on board ------------------------------ I assume you are able to compile RTEMS with 'gensh2' BSP and necessary tools. If not please refer to 'started.pdf' document which describes the procedure (http://www.oarcorp.com/). At the time of writing this document 'gdbstubs' default communication port was SCI1. So it was the default port for /dev/console in RTEMS. To avoid problems I had check these settings both in 'gdbstubs' and $RTEMS_ROOT/c/src/lib/libbsp/sh/gensh2/include/bsp.h After changing the line #define BSP_CONSOLE_DEVNAME "/dev/sci1" to #define BSP_CONSOLE_DEVNAME "/dev/sci0" in 'bsp.h' and rebuilding RTEMS there should no problem in running 'hello.exe' and other samples. For downloading connect a serial cable to computer and EVB. You will also need a second cable and second serial port to see the effects of your work. Assuming you are working in Linux and Xwindows fire up two terminal windows. In the first one run sh-rtems-gdb, in the second run a serial port terminal (for example 'minicom'). Set up the serial terminal to a port connected to SCI0 and leave the window in a visible place on the desktop. The debugger should be invoked best from the directory where 'hello.exe' is placed. Assuming that here is a GDB session: --------start------ $ sh-rtems-gdb hello.exe GNU gdb 5.0 Copyright 2000 Free Software Foundation, Inc. GDB is free software, covered by the GNU General Public License, and you are welcome to change it and/or distribute copies of it under certain conditions. Type "show copying" to see the conditions. There is absolutely no warranty for GDB. Type "show warranty" for details. This GDB was configured as "--host=i686-pc-linux-gnu --target=sh-rtems"... (gdb) set remotebaud 115200 (gdb) target remote /dev/ttyS0 Remote debugging using /dev/ttyS0 0x0 in ?? () (gdb) load Loading section .text, size 0x12d70 lma 0x444000 Loading section .data, size 0xb80 lma 0x456df0 Loading section .stack, size 0x10 lma 0xfffffec0 Start address 0x444000 , load size 80128 Transfer rate: 58274 bits/sec, 153 bytes/write. (gdb) continue Continuing. Program received signal 0, Signal 0. 0x44ec36 in exit (code=0) at exit.c:70 70 exit.c: No such file or directory. (gdb) --------end------- And here is a capture from the serial terminal window: *** HELLO WORLD TEST *** Hello World *** END OF HELLO WORLD TEST *** Beautiful, isn't it? That's all! Variations ------------ I'm sure that not every one can afford having two operating systems on one computer. I believe there will be a day that nobody will need an MS stuff anymore... ;) It is possible to repeat the success on MS Windows only. To do the same on Linux only you need a tool to downlad 'gdbstubs' on the board. This should be no problem to find it on the net but right now I don't know about it. For your convenience there are several graphical interfaces for GDB available on the net. I just name two of them: DDD - stands for Data Display Debugger (http://www.gnu.org/software/ddd/) Insight - a Tcl/Tk interface available both for MS Windows and Xwindows (http://sources.redhat.com/insight/)