doc/services/debugging/gdbstub.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _gdbstub:

 GDB stub
 ########

 .. contents::
    :local:
    :depth: 2

 Overview
 ********

 The gdbstub feature provides an implementation of the GDB Remote
 Serial Protocol (RSP) that allows you to remotely debug Zephyr
 using GDB.

 The protocol supports different connection types: serial, UDP/IP and
 TCP/IP. Zephyr currently supports only serial device communication.

 The GDB program acts as a client while the Zephyr gdbstub acts as a
 server. When this feature is enabled, Zephyr stops its execution after
 :c:func:`gdb_init` starts gdbstub service and waits for a GDB
 connection. Once a connection is established it is possible to
 synchronously interact with Zephyr. Note that currently it is not
 possible to asynchronously send commands to the target.

 Features
 ********

 The following features are supported:

 * Add and remove breakpoints
 * Continue and step the target
 * Print backtrace
 * Read or write general registers
 * Read or write the memory

 Enabling GDB Stub
 *****************

 GDB stub can be enabled with the :kconfig:option:`CONFIG_GDBSTUB` option.

 Using Serial Backend
 ====================

 The serial backend for GDB stub can be enabled with
 the :kconfig:option:`CONFIG_GDBSTUB_SERIAL_BACKEND` option.

 Since serial backend utilizes UART devices to send and receive GDB commands,

 * If there are spare UART devices on the board, set ``zephyr,gdbstub-uart``
   property of the chosen node to the spare UART device so that :c:func:`printk`
   and log messages are not being printed to the same UART device used for GDB.

 * For boards with only one UART device, :c:func:`printk` and logging
   must be disabled if they are also using the same UART device for output.
   GDB related messages may interleave with log messages which may have
   unintended consequences. Usually this can be done by disabling
   :kconfig:option:`CONFIG_PRINTK` and :kconfig:option:`CONFIG_LOG`.

 Debugging
 *********

 Using Serial Backend
 ====================

 #. Build with GDB stub and serial backend enabled.

 #. Flash built image onto board and reset the board.

    * Execution should now be paused at :c:func:`gdb_init`.

 #. Execute GDB on development machine and connect to the GDB stub.

    .. code-block:: bash

       target remote <serial device>

    For example,

    .. code-block:: bash

       target remote /dev/ttyUSB1

 #. GDB commands can be used to start debugging.

 Example
 *******

 There is a test application :zephyr_file:`tests/subsys/debug/gdbstub` with one of its
 test cases ``debug.gdbstub.breakpoints`` demonstrating how the Zephyr GDB stub can be used.
 The test also has a case to connect to the QEMU's GDB stub implementation (at a custom
 port ``tcp:1235``) as a reference to validate the test script itself.

 Run the test with the following command from your :envvar:`ZEPHYR_BASE` directory:

    .. code-block:: console

       ./scripts/twister -p qemu_x86 -T tests/subsys/debug/gdbstub

 The test should run successfully, and now let's do something similar step-by-step
 to demonstrate how the Zephyr GDB stub works from the GDB user's perspective.

 In the snippets below use and expect your appropriate directories instead of
 ``<SDK install directory>``, ``<build_directory>``, ``<ZEPHYR_BASE>``.


 #. Open two terminal windows.

 #. On the first terminal, build and run the test application:

    .. zephyr-app-commands::
       :zephyr-app: tests/subsys/debug/gdbstub
       :host-os: unix
       :board: qemu_x86
       :gen-args: '-DCONFIG_QEMU_EXTRA_FLAGS="-serial tcp:localhost:5678,server"'
       :goals: build run

    Note how we set :kconfig:option:`CONFIG_QEMU_EXTRA_FLAGS` to direct QEMU serial
    console port to the ``localhost`` TCP port ``5678`` to wait for a connection
    from the GDB ``remote`` command we are going to do on the next steps.

 #. On the second terminal, start GDB:

    .. code-block:: bash

       <SDK install directory>/x86_64-zephyr-elf/bin/x86_64-zephyr-elf-gdb

    #. Tell GDB where to look for the built ELF file:

       .. code-block:: text

          (gdb) symbol-file <build directory>/zephyr/zephyr.elf

       Response from GDB:

       .. code-block:: text

          Reading symbols from <build directory>/zephyr/zephyr.elf...

    #. Tell GDB to connect to the Zephyr gdbstub serial backend which is exposed
       earlier as a server through the TCP port ``-serial`` redirection at QEMU.

       .. code-block:: text

          (gdb) target remote localhost:5678

       Response from GDB:

       .. code-block:: text

          Remote debugging using localhost:5678
          arch_gdb_init () at <ZEPHYR_BASE>/arch/x86/core/ia32/gdbstub.c:252
          252     }

       GDB also shows where the code execution is stopped. In this case,
       it is at :zephyr_file:`arch/x86/core/ia32/gdbstub.c`, line 252.

    #. Use command ``bt`` or ``backtrace`` to show the backtrace of stack frames.

       .. code-block:: text

          (gdb) bt
          #0  arch_gdb_init () at <ZEPHYR_BASE>/arch/x86/core/ia32/gdbstub.c:252
          #1  0x00104140 in gdb_init () at <ZEPHYR_BASE>/zephyr/subsys/debug/gdbstub.c:852
          #2  0x00109c13 in z_sys_init_run_level (level=INIT_LEVEL_PRE_KERNEL_2) at <ZEPHYR_BASE>/kernel/init.c:360
          #3  0x00109e73 in z_cstart () at <ZEPHYR_BASE>/kernel/init.c:630
          #4  0x00104422 in z_prep_c (arg=0x1245bc <x86_cpu_boot_arg>) at <ZEPHYR_BASE>/arch/x86/core/prep_c.c:80
          #5  0x001000c9 in __csSet () at <ZEPHYR_BASE>/arch/x86/core/ia32/crt0.S:290
          #6  0x001245bc in uart_dev ()
          #7  0x00134988 in z_interrupt_stacks ()
          #8  0x00000000 in ?? ()

    #. Use command ``list`` to show the source code and surroundings where
       code execution is stopped.

       .. code-block:: text

          (gdb) list
          247             __asm__ volatile ("int3");
          248
          249     #ifdef CONFIG_GDBSTUB_TRACE
          250             printk("gdbstub:%s GDB is connected\n", __func__);
          251     #endif
          252     }
          253
          254     /* Hook current IDT. */
          255     _EXCEPTION_CONNECT_NOCODE(z_gdb_debug_isr, IV_DEBUG, 3);
          256     _EXCEPTION_CONNECT_NOCODE(z_gdb_break_isr, IV_BREAKPOINT, 3);

    #. Use command ``s`` or ``step`` to step through program until it reaches
       a different source line. Now that it finished executing :c:func:`arch_gdb_init`
       and is continuing in :c:func:`gdb_init`.

       .. code-block:: text

          (gdb) s
          gdb_init () at <ZEPHYR_BASE>/subsys/debug/gdbstub.c:857
          857     return 0;

       .. code-block:: text

          (gdb) list
          852             arch_gdb_init();
          853
          854     #ifdef CONFIG_GDBSTUB_TRACE
          855             printk("gdbstub:%s exit\n", __func__);
          856     #endif
          857             return 0;
          858     }
          859
          860     #ifdef CONFIG_XTENSA
          861     /*

    #. Use command ``br`` or ``break`` to setup a breakpoint. For this example
       set up a breakpoint at :c:func:`main`, and let code execution continue
       without any intervention using command ``c`` (or ``continue``).

       .. code-block:: text

          (gdb) break main
          Breakpoint 1 at 0x10064d: file <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c, line 27.

       .. code-block:: text

          (gdb) continue
          Continuing.

       Once code execution reaches :c:func:`main`, execution will be stopped
       and GDB prompt returns.

       .. code-block:: text

          Breakpoint 1, main () at <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c:27
          27              printk("%s():enter\n", __func__);

       Now GDB is waiting at the beginning of :c:func:`main`:

       .. code-block:: text

          (gdb) list
          22
          23      int main(void)
          24      {
          25              int ret;
          26
          27              printk("%s():enter\n", __func__);
          28              ret = test();
          29              printk("ret=%d\n", ret);
          30              return 0;
          31      }

    #. To examine the value of ``ret``, the command ``p`` or ``print``
       can be used.

       .. code-block:: text

          (gdb) p ret
          $1 = 1273788

       Since ``ret`` has not been initialized, it contains some random value.

    #. If step (``s`` or ``step``) is used here, it will continue execution
       skipping the interior of :c:func:`test`.
       To examine code execution inside :c:func:`test`,
       a breakpoint can be set for :c:func:`test`, or simply using
       ``si`` (or ``stepi``) to execute one machine instruction, where it has
       the side effect of going into the function. The GDB command ``finish``
       can be used to continue execution without intervention until the function
       returns.

       .. code-block:: text

          (gdb) finish
          Run till exit from #0  test () at <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c:17
          0x00100667 in main () at <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c:28
          28              ret = test();
          Value returned is $2 = 30

    #. Examine ``ret`` again which should have the return value from
       :c:func:`test`. Sometimes, the assignment is not done until another
       ``step`` is issued, as in this case. This is due to the assignment
       code is done after returning from function. The assignment code is
       generated by the toolchain as machine instructions which are not
       visible when viewing the corresponding C source file.

       .. code-block:: text

          (gdb) p ret
          $3 = 1273788
          (gdb) step
          29              printk("ret=%d\n", ret);
          (gdb) p ret
          $4 = 30

    #. If ``continue`` is issued here, code execution will continue indefinitely
       as there are no breakpoints to further stop execution. Breaking execution
       in GDB via :kbd:`Ctrl-C` does not currently work as the Zephyr gdbstub does
       not support this functionality yet. Switch to the first console with QEMU
       running the Zephyr image and stop it manually with :kbd:`Ctrl+a x`.
       When the same test is executed by Twister, it automatically takes care of
       stopping the QEMU instance.
	.. _gdbstub:

	GDB stub
	########

	.. contents::
	:local:
	:depth: 2

	Overview
	********

	The gdbstub feature provides an implementation of the GDB Remote
	Serial Protocol (RSP) that allows you to remotely debug Zephyr
	using GDB.

	The protocol supports different connection types: serial, UDP/IP and
	TCP/IP. Zephyr currently supports only serial device communication.

	The GDB program acts as a client while the Zephyr gdbstub acts as a
	server. When this feature is enabled, Zephyr stops its execution after
	:c:func:`gdb_init` starts gdbstub service and waits for a GDB
	connection. Once a connection is established it is possible to
	synchronously interact with Zephyr. Note that currently it is not
	possible to asynchronously send commands to the target.

	Features
	********

	The following features are supported:

	* Add and remove breakpoints
	* Continue and step the target
	* Print backtrace
	* Read or write general registers
	* Read or write the memory

	Enabling GDB Stub
	*****************

	GDB stub can be enabled with the :kconfig:option:`CONFIG_GDBSTUB` option.

	Using Serial Backend
	====================

	The serial backend for GDB stub can be enabled with
	the :kconfig:option:`CONFIG_GDBSTUB_SERIAL_BACKEND` option.

	Since serial backend utilizes UART devices to send and receive GDB commands,

	* If there are spare UART devices on the board, set ``zephyr,gdbstub-uart``
	property of the chosen node to the spare UART device so that :c:func:`printk`
	and log messages are not being printed to the same UART device used for GDB.

	* For boards with only one UART device, :c:func:`printk` and logging
	must be disabled if they are also using the same UART device for output.
	GDB related messages may interleave with log messages which may have
	unintended consequences. Usually this can be done by disabling
	:kconfig:option:`CONFIG_PRINTK` and :kconfig:option:`CONFIG_LOG`.

	Debugging
	*********

	Using Serial Backend
	====================

	#. Build with GDB stub and serial backend enabled.

	#. Flash built image onto board and reset the board.

	* Execution should now be paused at :c:func:`gdb_init`.

	#. Execute GDB on development machine and connect to the GDB stub.

	.. code-block:: bash

	target remote <serial device>

	For example,

	.. code-block:: bash

	target remote /dev/ttyUSB1

	#. GDB commands can be used to start debugging.

	Example
	*******

	There is a test application :zephyr_file:`tests/subsys/debug/gdbstub` with one of its
	test cases ``debug.gdbstub.breakpoints`` demonstrating how the Zephyr GDB stub can be used.
	The test also has a case to connect to the QEMU's GDB stub implementation (at a custom
	port ``tcp:1235``) as a reference to validate the test script itself.

	Run the test with the following command from your :envvar:`ZEPHYR_BASE` directory:

	.. code-block:: console

	./scripts/twister -p qemu_x86 -T tests/subsys/debug/gdbstub

	The test should run successfully, and now let's do something similar step-by-step
	to demonstrate how the Zephyr GDB stub works from the GDB user's perspective.

	In the snippets below use and expect your appropriate directories instead of
	``<SDK install directory>``, ``<build_directory>``, ``<ZEPHYR_BASE>``.


	#. Open two terminal windows.

	#. On the first terminal, build and run the test application:

	.. zephyr-app-commands::
	:zephyr-app: tests/subsys/debug/gdbstub
	:host-os: unix
	:board: qemu_x86
	:gen-args: '-DCONFIG_QEMU_EXTRA_FLAGS="-serial tcp:localhost:5678,server"'
	:goals: build run

	Note how we set :kconfig:option:`CONFIG_QEMU_EXTRA_FLAGS` to direct QEMU serial
	console port to the ``localhost`` TCP port ``5678`` to wait for a connection
	from the GDB ``remote`` command we are going to do on the next steps.

	#. On the second terminal, start GDB:

	.. code-block:: bash

	<SDK install directory>/x86_64-zephyr-elf/bin/x86_64-zephyr-elf-gdb

	#. Tell GDB where to look for the built ELF file:

	.. code-block:: text

	(gdb) symbol-file <build directory>/zephyr/zephyr.elf

	Response from GDB:

	.. code-block:: text

	Reading symbols from <build directory>/zephyr/zephyr.elf...

	#. Tell GDB to connect to the Zephyr gdbstub serial backend which is exposed
	earlier as a server through the TCP port ``-serial`` redirection at QEMU.

	.. code-block:: text

	(gdb) target remote localhost:5678

	Response from GDB:

	.. code-block:: text

	Remote debugging using localhost:5678
	arch_gdb_init () at <ZEPHYR_BASE>/arch/x86/core/ia32/gdbstub.c:252
	252 }

	GDB also shows where the code execution is stopped. In this case,
	it is at :zephyr_file:`arch/x86/core/ia32/gdbstub.c`, line 252.

	#. Use command ``bt`` or ``backtrace`` to show the backtrace of stack frames.

	.. code-block:: text

	(gdb) bt
	#0 arch_gdb_init () at <ZEPHYR_BASE>/arch/x86/core/ia32/gdbstub.c:252
	#1 0x00104140 in gdb_init () at <ZEPHYR_BASE>/zephyr/subsys/debug/gdbstub.c:852
	#2 0x00109c13 in z_sys_init_run_level (level=INIT_LEVEL_PRE_KERNEL_2) at <ZEPHYR_BASE>/kernel/init.c:360
	#3 0x00109e73 in z_cstart () at <ZEPHYR_BASE>/kernel/init.c:630
	#4 0x00104422 in z_prep_c (arg=0x1245bc <x86_cpu_boot_arg>) at <ZEPHYR_BASE>/arch/x86/core/prep_c.c:80
	#5 0x001000c9 in __csSet () at <ZEPHYR_BASE>/arch/x86/core/ia32/crt0.S:290
	#6 0x001245bc in uart_dev ()
	#7 0x00134988 in z_interrupt_stacks ()
	#8 0x00000000 in ?? ()

	#. Use command ``list`` to show the source code and surroundings where
	code execution is stopped.

	.. code-block:: text

	(gdb) list
	247 __asm__ volatile ("int3");
	248
	249 #ifdef CONFIG_GDBSTUB_TRACE
	250 printk("gdbstub:%s GDB is connected\n", __func__);
	251 #endif
	252 }
	253
	254 /* Hook current IDT. */
	255 _EXCEPTION_CONNECT_NOCODE(z_gdb_debug_isr, IV_DEBUG, 3);
	256 _EXCEPTION_CONNECT_NOCODE(z_gdb_break_isr, IV_BREAKPOINT, 3);

	#. Use command ``s`` or ``step`` to step through program until it reaches
	a different source line. Now that it finished executing :c:func:`arch_gdb_init`
	and is continuing in :c:func:`gdb_init`.

	.. code-block:: text

	(gdb) s
	gdb_init () at <ZEPHYR_BASE>/subsys/debug/gdbstub.c:857
	857 return 0;

	.. code-block:: text

	(gdb) list
	852 arch_gdb_init();
	853
	854 #ifdef CONFIG_GDBSTUB_TRACE
	855 printk("gdbstub:%s exit\n", __func__);
	856 #endif
	857 return 0;
	858 }
	859
	860 #ifdef CONFIG_XTENSA
	861 /*

	#. Use command ``br`` or ``break`` to setup a breakpoint. For this example
	set up a breakpoint at :c:func:`main`, and let code execution continue
	without any intervention using command ``c`` (or ``continue``).

	.. code-block:: text

	(gdb) break main
	Breakpoint 1 at 0x10064d: file <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c, line 27.

	.. code-block:: text

	(gdb) continue
	Continuing.

	Once code execution reaches :c:func:`main`, execution will be stopped
	and GDB prompt returns.

	.. code-block:: text

	Breakpoint 1, main () at <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c:27
	27 printk("%s():enter\n", __func__);

	Now GDB is waiting at the beginning of :c:func:`main`:

	.. code-block:: text

	(gdb) list
	22
	23 int main(void)
	24 {
	25 int ret;
	26
	27 printk("%s():enter\n", __func__);
	28 ret = test();
	29 printk("ret=%d\n", ret);
	30 return 0;
	31 }

	#. To examine the value of ``ret``, the command ``p`` or ``print``
	can be used.

	.. code-block:: text

	(gdb) p ret
	$1 = 1273788

	Since ``ret`` has not been initialized, it contains some random value.

	#. If step (``s`` or ``step``) is used here, it will continue execution
	skipping the interior of :c:func:`test`.
	To examine code execution inside :c:func:`test`,
	a breakpoint can be set for :c:func:`test`, or simply using
	``si`` (or ``stepi``) to execute one machine instruction, where it has
	the side effect of going into the function. The GDB command ``finish``
	can be used to continue execution without intervention until the function
	returns.

	.. code-block:: text

	(gdb) finish
	Run till exit from #0 test () at <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c:17
	0x00100667 in main () at <ZEPHYR_BASE>/tests/subsys/debug/gdbstub/src/main.c:28
	28 ret = test();
	Value returned is $2 = 30

	#. Examine ``ret`` again which should have the return value from
	:c:func:`test`. Sometimes, the assignment is not done until another
	``step`` is issued, as in this case. This is due to the assignment
	code is done after returning from function. The assignment code is
	generated by the toolchain as machine instructions which are not
	visible when viewing the corresponding C source file.

	.. code-block:: text

	(gdb) p ret
	$3 = 1273788
	(gdb) step
	29 printk("ret=%d\n", ret);
	(gdb) p ret
	$4 = 30

	#. If ``continue`` is issued here, code execution will continue indefinitely
	as there are no breakpoints to further stop execution. Breaking execution
	in GDB via :kbd:`Ctrl-C` does not currently work as the Zephyr gdbstub does
	not support this functionality yet. Switch to the first console with QEMU
	running the Zephyr image and stop it manually with :kbd:`Ctrl+a x`.
	When the same test is executed by Twister, it automatically takes care of
	stopping the QEMU instance.