| .. _GDB usage: |
| |
| 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" |
| |
| |
| Another feature that QEMU gdbstub provides is to toggle the memory GDB |
| works with, by default GDB will show the current process memory respecting |
| the virtual address translation. |
| |
| If you want to examine/change the physical memory you can set the gdbstub |
| to work with the physical memory rather with the virtual one. |
| |
| The memory mode can be checked by sending the following command: |
| |
| ``maintenance packet qqemu.PhyMemMode`` |
| This will return either 0 or 1, 1 indicates you are currently in the |
| physical memory mode. |
| |
| ``maintenance packet Qqemu.PhyMemMode:1`` |
| This will change the memory mode to physical memory. |
| |
| ``maintenance packet Qqemu.PhyMemMode:0`` |
| This will change it back to normal memory mode. |