docs/system/gdb.rst - third_party/qemu - Git at Google

 .. _gdb_005fusage:

 GDB usage
 ---------

 QEMU supports working with gdb via gdb's remote-connection facility
 (the "gdbstub"). This allows you to debug guest code in the same
 way that you might with a low-level debug facility like JTAG
 on real hardware. You can stop and start the virtual machine,
 examine state like registers and memory, and set breakpoints and
 watchpoints.

 In order to use gdb, launch QEMU with the ``-s`` and ``-S`` options.
 The ``-s`` option will make QEMU listen for an incoming connection
 from gdb on TCP port 1234, and ``-S`` will make QEMU not start the
 guest until you tell it to from gdb. (If you want to specify which
 TCP port to use or to use something other than TCP for the gdbstub
 connection, use the ``-gdb dev`` option instead of ``-s``.)

 .. parsed-literal::

    |qemu_system| -s -S -kernel bzImage -hda rootdisk.img -append "root=/dev/hda"

 QEMU will launch but will silently wait for gdb to connect.

 Then launch gdb on the 'vmlinux' executable::

    > gdb vmlinux

 In gdb, connect to QEMU::

    (gdb) target remote localhost:1234

 Then you can use gdb normally. For example, type 'c' to launch the
 kernel::

    (gdb) c

 Here are some useful tips in order to use gdb on system code:

 1. Use ``info reg`` to display all the CPU registers.

 2. Use ``x/10i $eip`` to display the code at the PC position.

 3. Use ``set architecture i8086`` to dump 16 bit code. Then use
    ``x/10i $cs*16+$eip`` to dump the code at the PC position.

 Advanced debugging options:

 The default single stepping behavior is step with the IRQs and timer
 service routines off. It is set this way because when gdb executes a
 single step it expects to advance beyond the current instruction. With
 the IRQs and timer service routines on, a single step might jump into
 the one of the interrupt or exception vectors instead of executing the
 current instruction. This means you may hit the same breakpoint a number
 of times before executing the instruction gdb wants to have executed.
 Because there are rare circumstances where you want to single step into
 an interrupt vector the behavior can be controlled from GDB. There are
 three commands you can query and set the single step behavior:

 ``maintenance packet qqemu.sstepbits``
    This will display the MASK bits used to control the single stepping
    IE:

    ::

       (gdb) maintenance packet qqemu.sstepbits
       sending: "qqemu.sstepbits"
       received: "ENABLE=1,NOIRQ=2,NOTIMER=4"

 ``maintenance packet qqemu.sstep``
    This will display the current value of the mask used when single
    stepping IE:

    ::

       (gdb) maintenance packet qqemu.sstep
       sending: "qqemu.sstep"
       received: "0x7"

 ``maintenance packet Qqemu.sstep=HEX_VALUE``
    This will change the single step mask, so if wanted to enable IRQs on
    the single step, but not timers, you would use:

    ::

       (gdb) maintenance packet Qqemu.sstep=0x5
       sending: "qemu.sstep=0x5"
       received: "OK"
	.. _gdb_005fusage:

	GDB usage
	---------

	QEMU supports working with gdb via gdb's remote-connection facility
	(the "gdbstub"). This allows you to debug guest code in the same
	way that you might with a low-level debug facility like JTAG
	on real hardware. You can stop and start the virtual machine,
	examine state like registers and memory, and set breakpoints and
	watchpoints.

	In order to use gdb, launch QEMU with the ``-s`` and ``-S`` options.
	The ``-s`` option will make QEMU listen for an incoming connection
	from gdb on TCP port 1234, and ``-S`` will make QEMU not start the
	guest until you tell it to from gdb. (If you want to specify which
	TCP port to use or to use something other than TCP for the gdbstub
	connection, use the ``-gdb dev`` option instead of ``-s``.)

	.. parsed-literal::

	\|qemu_system\| -s -S -kernel bzImage -hda rootdisk.img -append "root=/dev/hda"

	QEMU will launch but will silently wait for gdb to connect.

	Then launch gdb on the 'vmlinux' executable::

	> gdb vmlinux

	In gdb, connect to QEMU::

	(gdb) target remote localhost:1234

	Then you can use gdb normally. For example, type 'c' to launch the
	kernel::

	(gdb) c

	Here are some useful tips in order to use gdb on system code:

	1. Use ``info reg`` to display all the CPU registers.

	2. Use ``x/10i $eip`` to display the code at the PC position.

	3. Use ``set architecture i8086`` to dump 16 bit code. Then use
	``x/10i $cs*16+$eip`` to dump the code at the PC position.

	Advanced debugging options:

	The default single stepping behavior is step with the IRQs and timer
	service routines off. It is set this way because when gdb executes a
	single step it expects to advance beyond the current instruction. With
	the IRQs and timer service routines on, a single step might jump into
	the one of the interrupt or exception vectors instead of executing the
	current instruction. This means you may hit the same breakpoint a number
	of times before executing the instruction gdb wants to have executed.
	Because there are rare circumstances where you want to single step into
	an interrupt vector the behavior can be controlled from GDB. There are
	three commands you can query and set the single step behavior:

	``maintenance packet qqemu.sstepbits``
	This will display the MASK bits used to control the single stepping
	IE:

	::

	(gdb) maintenance packet qqemu.sstepbits
	sending: "qqemu.sstepbits"
	received: "ENABLE=1,NOIRQ=2,NOTIMER=4"

	``maintenance packet qqemu.sstep``
	This will display the current value of the mask used when single
	stepping IE:

	::

	(gdb) maintenance packet qqemu.sstep
	sending: "qqemu.sstep"
	received: "0x7"

	``maintenance packet Qqemu.sstep=HEX_VALUE``
	This will change the single step mask, so if wanted to enable IRQs on
	the single step, but not timers, you would use:

	::

	(gdb) maintenance packet Qqemu.sstep=0x5
	sending: "qemu.sstep=0x5"
	received: "OK"