Last edited 3 months ago

U-Boot - How to debug

Applicable for STM32MP13x lines, STM32MP15x lines, STM32MP25x lines

1. Debug with console[edit | edit source]

See U-Boot Documentation or doc/develop/logging.rst for U-Boot logging details.

CONFIG_LOG is enable in OpenSTLinux.

By default, traces are available on the U-Boot console which use stdout-path defined in the chosen node of the Linux kernel device tree as described in the Linux kernel binding[1].

See page How to configure U-Boot for your board for configuration details.

The ST boards use the default logging configuration:

  • CONFIG_LOG_DEFAULT_LEVEL = CONFIG_LOG_MAX_LEVEL = LOGL_INFO = 6
    the 'debug' macros used by U-Boot (log_debug(), debug(), pr_debug()...) are removed in the U-Boot binary.
  • CONFIG_LOGF_FILE, CONFIG_LOGF_LINE, CONFIG_LOGF_FUNC are not activated
    no debug information in log messages by default.

To enable all the debug traces in U-Boot you need to increase the max logging level with a major impact on U-Boot size; e.g. set CONFIG_LOG_MAX_LEVEL to LOGL_DEBUG by adding in your defconfig file the line:

 CONFIG_LOG_MAX_LEVEL=7

When the traces are present in U-Boot, you can change the default trace level with CONFIG_LOG_DEFAULT_LEVEL or you can use the log command (CONFIG_CMD_LOG) to dynamically configure and filter the output:

  log level 7
  log format all

1.1. Activate debug trace on one file[edit | edit source]

To turn on this debug logging just in one file, you can define LOG_DEBUG for this file

  • add define before any include in the <file>.c file
 #define LOG_DEBUG
 #include <common.h>
  • with a Makefile
 CFLAGS_<file>.o+= -DLOG_DEBUG

1.2. Debug before console[edit | edit source]

If U-Boot fails before the console configuration (in the first stage of U-Boot execution), trace is not available.

In this case, you need to:

  • debug with GDB (see the next chapter)

or,

  • activate the debug UART feature:
Info white.png Information
For STM32MP1 series, the function board_debug_uart_init() configures the required resources (pad, clock) before initialization by the U-Boot driver and this function can be adapted for your board.
This adaptation is not required for OpenSTLinux because UART is initialized in TF-A and in OP-TEE and debug_uart_init() is not called in mach_cpu_init() .

|

2. Debug with GDB[edit | edit source]

With OpenSTLinux, you can directly use GDB script Setup.gdb:

Or for manual GDB connection, you need to:

  1. get the elf files for U-Boot = u-boot available in the build directory
  2. connect GDB to the target
  3. reset with attach the target with the gdb "monitor reset halt" command:
    execution is stopped in ROM code or at the beginning of FSBL execution.
  4. load the symbols of the binary to be debugged with commands available in next chapter:
    #Load U-Boot symbol
  5. start execution with the "continue" command

2.1. Load U-Boot symbol[edit | edit source]

With U-Boot relocation, symbols are more difficult to load, see doc/README.arm-relocation for details.

If you connect GDB on running target, you can load the debug symbols:

  • Before relocation with "symbol-file" command:
  symbol-file u-boot
  • After relocation with "add-symbol-file" command to relocate the symbol with the code offset = gd->relocaddr:
  • for STM32MP1 series (AARCH32)
  symbol-file u-boot                            --> only for "gd_t" definition
  set $offset = ((gd_t *)$r9)->relocaddr        --> get relocation offset, gd in r9 register
  symbol-file                                   --> clear previous symbol 
  add-symbol-file u-boot $offset
  • for STM32MP2 series (AARCH64)
  symbol-file u-boot                            --> only for "gd_t" definition
  set $offset = ((gd_t *)$x18)->relocaddr       --> get relocation offset, gd in x18 register
  symbol-file                                   --> clear previous symbol 
  add-symbol-file u-boot $offset

The following GDB example scripts automatically loads the U-Boot symbol before and after relocation for a programmed board, after "monitor reset halt" command.

These GDB scripts use a temporary hardware breakpoint "thbreak" to load the symbol when U-Boot code is loaded in DDR by FSBL = TF-A at the U-Boot entry point, CONFIG_SYS_TEXT_BASE.
It allows the symbol to be loaded only when code is executed to avoid DDR access before DDR initialization.

  • for STM32MP1 series (AARCH32)
  thbreak *0xC0100000
  commands
 > symbol-file u-boot
 > thbreak relocate_code
 > commands
   > print "RELOCATE U-Boot..."
   > set $offset = ((gd_t *)$r9)->relocaddr
   > print $offset
   > symbol-file
   > add-symbol-file u-boot $offset
   > thbreak boot_jump_linux
   > continue
   > end
 > continue
 > end

With CONFIG_SYS_TEXT_BASE =

  • 0xC0000000 for STM32MP13x lines More info.png
  • 0xC0100000 for STM32MP15x lines More info.png
  • for STM32MP2 series (AARCH64)
  thbreak *0x84000000
  commands
 > symbol-file u-boot
 > thbreak relocate_code
 > commands
   > print "RELOCATE U-Boot..."
   > set $offset = ((gd_t *)$x18->relocaddr
   > print $offset
   > symbol-file
   > add-symbol-file u-boot $offset
   > thbreak boot_jump_linux
   > continue
   > end
 > continue
 > end

With CONFIG_SYS_TEXT_BASE =

  • 0x84000000 for STM32MP25x lines More info.png

3. References[edit | edit source]

  1. dtschema/schemas/chosen.yaml the Linux kernel binding for chosen node