Debugging with gdb ------------------ Gdb is a great way to debug uClinux/ColdFire. Here is some simple gdb usage instructions from Chris Johns . ----------------------------------------------------------------------------- The driver currently uses the P&E BDM interface. For the driver and gdb patch you can get the archive from: ftp://skatter.usask.ca/pub/eric/BDM-Linux-gdb/gdb-4.17-bdm-990115.tar.gz http://www.calm.hw.ac.uk/davidf/coldfire/gdb-4.17-bdm-990115.tar.gz Unpack with a command like : $ cd somewhere; tar zxf gdb-4.17-bdm-990115.tar.gz Then look at the README file contained in the archive. This has the detailed steps you need to follow. Comments and corrects are welcome. Compile the driver, and library module and install. You will need to run the MAKEDEV script in the `local_scripts' directory as root to create the device nodes in the /dev directory. Compile the test program and run it. The command line argument in the release is not quite correct. Try : ./chk /dev/bdmcf0 If your BDM module is not connected to parallel port 0 you need to use a different number at the end of the device filename. If you get failures try : ./chk -d /dev/bdmcf0 On RedHat this should place debug info into `/var/log/messages' and the console. The chk program only raises the driver debug level to 1. It can go higher for more info. High numbers can get quite verbose so watch out. Send me any info or questions if you have problems. The chk test covers most critical areas in the driver. Patch gdb then build and install. The driver is a kernel module and currently only supports 2.0.x kernels. The driver breaks on 2.2.x kernels. I have not received any 2.2.x patches. They are welcome. To test gdb, start it with : $ m68k-bdm-coff-gdb GNU gdb 4.17 Copyright 1998 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-gnulibc1 --target=m68k-bdm-coff". (gdb) Once you have the gdb prompt, connect to the target with the gdb command : (gdb) target bdm /dev/bdmcf0 Remote bdm connected to /dev/bdmcf0 Again change the last number to be the parallel port you are connected to. The driver and gdb patch also supports the cpu32 core as found in the 68360. You connect using another device, eg /dev/bdmcpu320. Your target will have been reset and halted. You can now look at the ROM. To dump the vector table try : (gdb) x /12w 0 0x0: 0x000071c8 0xffe00400 0xffe00518 0xffe00518 0x10: 0xffe00518 0xffe00518 0xffe00518 0xffe00518 0x20: 0xffe00518 0xffe00518 0xffe00518 0xffe00518 This is from my 5206 eval board. GDB has no stack history at this point so dumping all the registers will fail. You can select a frame then gdb will dump the registers. (gdb) p /x $pc $4 = 0xffe0c860 (gdb) info reg No selected frame. (gdb) select-frame 0 (gdb) info reg d0 0x0 0 d1 0x0 0 d2 0xfb9e6ec2 -73503038 d3 0xbd85fe43 -1115292093 d4 0x0 0 d5 0xbd3931fd -1120325123 d6 0xbf3a28d0 -1086707504 d7 0x0 0 a0 0x30000000 0x30000000 a1 0xffe08391 0xffe08391 a2 0x9b1b2fd3 0x9b1b2fd3 a3 0x33ef6c49 0x33ef6c49 a4 0x7fea5983 0x7fea5983 a5 0x2fabcbcf 0x2fabcbcf fp 0x70fc 0x70fc sp 0x70fc 0x70fc ps 0x2704 0x2704 pc 0xffe0c860 0xffe0c860 vbr 0x3fc 0x3fc cacr 0x0 0x0 acr0 0x300f6000 0x300f6000 acr1 0x300f6000 0x300f6000 rambar 0x20000000 0x20000000 mbar 0x10000000 0x10000000 csr 0x1000000 0x1000000 aatr 0x5 0x5 tdr 0x0 0x0 pbr 0x0 0x0 pbmr 0x0 0x0 abhr 0x0 0x0 ablr 0x0 0x0 dbr 0x0 0x0 Notice MBAR is not set. This could be confusing if are expecting to look at devices connected to chip selects. The dbug monitor ROM has not run so no coldfire resources have been setup. The Coldfire has a nice feature for BDM reset debugging. If you do not change the program counter with a command such as: (gdb) set $pc=start or (gdb) set $pc=0xdeaddead The coldfire core will perform the normal stack pointer and reset vector fetch. For the sbc5206 eval board I am connected to, to step the dbug boot code do : (gdb) display /i $pc 1: x/i $pc 0xffe0c860: moveb %a0@(21),%d0 (gdb) si 0xffe00404 in ?? () 1: x/i $pc 0xffe00404: movel #-2097152,%d0 (gdb) 0xffe0040a in ?? () 1: x/i $pc 0xffe0040a: moveal %d0,%sp (gdb) 0xffe0040c in ?? () 1: x/i $pc 0xffe0040c: movec %sp,%vbr (gdb) 0xffe00410 in ?? () 1: x/i $pc 0xffe00410: movel #16777216,%d0 (gdb) 0xffe00416 in ?? () 1: x/i $pc 0xffe00416: movec %d0,%cacr (gdb) You might notice GDB repeats the last command entered if you just hit enter. When you run gdb connected to an embedded target like this the `run' command is not used. The `target' command connects you to an existing "process". The run command when used on a native system such as Linux creates the "process" to be debugged. Your embedded target is an existing "process" so no need to use the run command. You just step or continue. Now to running some code you have compiled with the -g option. The driver has an example gdb init script. Look in `gdbScripts/5206.gdb'. I usually copy this script to the directory where the coff file to be debugged sits and rename it to `.gdbinit'. I am working on a boot rom for the sbc5206 eval board. All I added to the end of the file in the driver archive is : dir ../../../kernel/boot/net dir ../../../kernel/boot/net/drivers/clock dir ../../../kernel/boot/net/drivers/net dir ../../../kernel/boot/net/loaders dir ../../../kernel/boot/support dir ../../../arch/m68k/5206/boot target bdm /dev/bdmcf0 addresses setup-cs setup-dram load set print pretty set print asm-demangle I then run : $ m68k-bdm-coff-gdb sbc5206.coff GNU gdb 4.17 Copyright 1998 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-gnulibc1 --target=m68k-bdm-coff"... (gdb) si 0x404 in start () (gdb) x /20i $pc 0x404 : lea 0x0 ,%sp 0x40a : movec %sp,%vbr 0x40e : movel #536870913,%d0 0x414 : movec %d0,3076 0x418 : moveal #536871420,%sp 0x41e : nop 0x420 : nop 0x422 : moveal #536870912,%a0 0x428 : moveq #51,%d0 0x42a : moveq #0,%d1 0x42c : moveb %d0,%a0@ 0x42e : moveb %a0@,%d1 0x430 : cmpl %d1,%d0 0x432 : bnew 0x518 <_stop_cf> 0x436 : notl %d0 0x438 : andil #255,%d0 0x43e : moveb %d0,%a0@ 0x440 : moveb %a0@,%d1 0x442 : cmpl %d1,%d0 0x444 : bnew 0x518 <_stop_cf> (gdb) b boot_cpu Breakpoint 1 at 0x522: file cpuboot.c, line 63. (gdb) c Continuing. Breakpoint 1, boot_cpu () at cpuboot.c:63 63 CF_DISABLE_AND_INVALIDATE_CACHE(); (gdb) l 58 UINT32 i; 59 #endif 60 61 /* disable and invalidate the instruction cache */ 62 63 CF_DISABLE_AND_INVALIDATE_CACHE(); 64 65 /* program the system protection register */ 66 67 CF_SIM_WRITE_SYPCR(CF5206_BASE, (gdb) What happens here is the .gdbinit script programs the MBAR, chip selects and enables the DRAM. DRAM is at 0. My linker command file places `.text', '.data', and '.bss' one after each other at address 0. The first part of the text seciton is the vector table. This how-ever is moving away from gdb to the other tools and this mail is long enough at it is. -- Chris Johns Networks, Plessey Asia Pacfic Pty. Ltd. mailto:ccj@acm.org mailto:cjohns@plessey.com.au ________________________________________________________________________ ColdFire Discussion List See: -----------------------------------------------------------------------------