Difference between revisions of "DevGuide/GDB OpenOCD Debug"

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== JTAG debugging ==
 
== JTAG debugging ==
 
[[Image:lpcjtag.jpg|thumb|JTAG USB Board]]
 
[[Image:lpcjtag.jpg|thumb|JTAG USB Board]]
Paparazzi boards do not have a JTAG interface. The one time we needed a JTAG debugger because of some strange problems we used Keil/Olimex LPC2148 boards with a professional JTAG tool. All the parallel port Wiggler adapters and the software for that showed poor performance and were abandoned.
+
Paparazzi boards do not have a [[JTAG]] interface. The one time we needed a [[JTAG]] debugger because of some strange problems we used Keil/Olimex LPC2148 boards with a professional [[JTAG]] tool. All the parallel port Wiggler adapters and the software for that showed poor performance and were abandoned.
  
Recently some new JTAG adapters that use the FTDI2232 USB-parallel converter were introduced through OpenOCD (you can try your Wiggler with that, too). The USB JTAG adapters are available from Olimex or Amontec and work fine with Windows (Yagarto). Getting them to work with Linux is still a little adventure. This is collected info from various sites. The paparazzi-dev packages should be installed.
+
Recently some new [[JTAG]] adapters that use the FTDI2232 USB-parallel converter were introduced through OpenOCD (you can try your Wiggler with that, too). The USB [[JTAG]] adapters are available from Olimex or Amontec and work fine with Windows (Yagarto). Getting them to work with Linux is still a little adventure. This is collected info from various sites. The paparazzi-dev packages should be installed.
  
 
== Install ==
 
== Install ==

Revision as of 12:26, 4 December 2011

JTAG debugging

JTAG USB Board

Paparazzi boards do not have a JTAG interface. The one time we needed a JTAG debugger because of some strange problems we used Keil/Olimex LPC2148 boards with a professional JTAG tool. All the parallel port Wiggler adapters and the software for that showed poor performance and were abandoned.

Recently some new JTAG adapters that use the FTDI2232 USB-parallel converter were introduced through OpenOCD (you can try your Wiggler with that, too). The USB JTAG adapters are available from Olimex or Amontec and work fine with Windows (Yagarto). Getting them to work with Linux is still a little adventure. This is collected info from various sites. The paparazzi-dev packages should be installed.

Install

The low level interfacing is done by libftdi, get it from http://www.intra2net.com/de/produkte/opensource/ftdi/ It is possible to use a closed source version from FTDI, too.

wget http://www.intra2net.com/de/produkte/opensource/ftdi/TGZ/libftdi-0.10.tar.gz
tar xvfz libftdi-0.10.tar.gz
cd libftdi-0.10
./configure
make
make install

Get the OpenOCD software http://openfacts.berlios.de/index-en.phtml?title=Building_OpenOCD It needs some additional packages to be built.

apt-get install autoconf
apt-get install automake
apt-get install subversion
svn checkout svn://svn.berlios.de/openocd/trunk
cd trunk
./bootstrap
./configure --enable-ft2232_libftdi
make
make install

For some debian distributions you might have to add '/usr/local/lib' to /etc/ld.so.conf.d/i486-linux-gnu.conf and call

ldconfig

Put an entry with the vendor/device ID into your udev rules directory to get the correct access rights (or use the file from cvs in conf/system/udev/rules). This applies to Amontec JTAG-Tiny.

add 'BUS=="usb", SYSFS{idVendor}=="0403", SYSFS{idProduct}=="cff8", GROUP="plugdev"' 

Generate an OpenOCD config - this one worked for me, might need some polishing

#daemon configuration
telnet_port 4444
gdb_port 3333

#interface
interface ft2232
ft2232_layout "jtagkey"
ft2232_vid_pid 0x0403 0xcff8
jtag_speed 2

# reset_config <signals> [combination] [trst_type] [srst_type]
reset_config trst_and_srst

#jtag scan chain
jtag_device 4 0x1 0xf 0xe
jtag_nsrst_delay 333
jtag_ntrst_delay 333

#target configuration, what to do on a target reset
target arm7tdmi little run_and_halt 0 arm7tdmi-s_r4
run_and_halt_time 0 30
daemon_startup reset
#target_script 0 reset openocd.script
working_area 0 0x40000000 0x4000 nobackup
 
# flash bank lpc2000 <base> <size> 0 0 <variant> <target#> <clock> ['calc_checksum']
# mthomas: LPC2138 @ 12MHz 0x7D000 from 500*1024 (not 512!)
flash bank lpc2000 0x0 0x7D000 0 0 lpc2000_v2 0 12000 calc_checksum

The arm-gdb is not in the Paparazzi package yet, you have to get it from somwhere else for now. This .gdbinit should start gdb in the correct way:

#set directories $cdir:$cwd:../lcds16x2/
set can-use-hw-watchpoints 2
set complaints 33
set history save
set history size 333
set logging on
set output-radix 0x10
set step-mode on
set trust-readonly-sections on
set verbose on
set watchdog 15

target remote localhost:3333
monitor soft_reset_halt
# only for RAM: monitor arm7_9 sw_bkpts enable
monitor arm7_9 force_hw_bkpts enable
hbreak main
#load
#continue

Get Eclipse 3.2.2 (Debian Etch Eclipse package does not work, there is some problem with JRE 1.4.x)

wget http://download.eclipse.org/eclipse/downloads/drops/R-3.2.2-200702121330/download.php?dropFile=eclipse-SDK-3.2.2-linux-gtk.tar.gz
tar xvfz eclipse-SDK-3.2.2-linux-gtk.tar.gz

Unzip the Eclipse embedded CDT from Zylin for embedded debugging http://www.zylin.com/embeddedcdt.html

wget http://www.zylin.com/embeddedcdt-linux-gtk-20060908.zip
wget http://www.zylin.com/zylincdt-20060908.zip
cd eclipse
unzip embeddedcdt-linux-gtk-20060908.zip
unzip zylincdt-20060908.zip

Now you have to get used to Eclipse, read this using the LPC2148 examples: http://www.yagarto.de/howto/yagarto2/index.html