acrn-hypervisor/doc/tutorials/using_grub.rst

.. _using_grub:

Using GRUB to Boot ACRN
#######################

`GRUB <http://www.gnu.org/software/grub/>`_ is a multiboot bootloader
used by many popular Linux distributions. It also supports booting the
ACRN hypervisor.  See
`<http://www.gnu.org/software/grub/grub-download.html>`_ to get the
latest GRUB source code and
`<https://www.gnu.org/software/grub/grub-documentation.html>`_ for
detailed documentation.

The ACRN hypervisor can boot from the `multiboot protocol
<http://www.gnu.org/software/grub/manual/multiboot/multiboot.html>`_ or
`multiboot2 protocol
<http://www.gnu.org/software/grub/manual/multiboot2/multiboot.html>`_. Compared
with the multiboot protocol, the multiboot2 protocol adds UEFI support.

The multiboot protocol is supported by the ACRN hypervisor natively. The
multiboot2 protocol is supported when :option:`hv.FEATURES.MULTIBOOT2` is
enabled in the scenario configuration. The :option:`hv.FEATURES.MULTIBOOT2` is
enabled by default. To load the hypervisor with the multiboot protocol, run the
GRUB ``multiboot`` command. To load the hypervisor with the multiboot2 protocol,
run the ``multiboot2`` command. To load a VM kernel or ramdisk, run the
GRUB ``module`` command for the multiboot protocol or the ``module2`` command
for the multiboot2 protocol.

The ACRN hypervisor binary is built with two formats: ``acrn.32.out`` in
ELF format and ``acrn.bin`` in RAW format. The GRUB ``multiboot``
command supports ELF format only and does not support binary relocation,
even if :option:`hv.FEATURES.RELOC` is set. The GRUB ``multiboot2``
command supports
ELF format when :option:`hv.FEATURES.RELOC` is not set, or RAW format when
:option:`hv.FEATURES.RELOC` is set.

.. note::
   * :option:`hv.FEATURES.RELOC` is set by default, so use ``acrn.32.out`` in
     the multiboot protocol and ``acrn.bin`` in the multiboot2 protocol.

   * Per ACPI specification, the RSDP pointer is described in the EFI System
     Table instead of the legacy ACPI RSDP area on a UEFI-enabled platform. To
     make sure the ACRN hypervisor gets the correct ACPI RSDP information, we
     recommend using ``acrn.bin`` with the multiboot2 protocol to load the
     hypervisor on a UEFI platform.

.. _pre-installed-grub:

Using Pre-Installed GRUB
************************

Most Linux distributions use GRUB version 2 by default. For version
2.02 or higher, we can reuse the pre-installed GRUB to load the ACRN
hypervisor.

Here's an example using Ubuntu to load ACRN on a scenario with two
pre-launched VMs:

#. Copy the ACRN hypervisor binary ``acrn.32.out`` (or ``acrn.bin``) and the
   pre-launched VM kernel images to ``/boot/``;

#. Modify the ``/etc/default/grub`` file as follows to make the GRUB
   menu visible when booting:

   .. code-block:: none

      # GRUB_HIDDEN_TIMEOUT=0
      GRUB_HIDDEN_TIMEOUT_QUIET=false

#. Append the following configuration in the ``/etc/grub.d/40_custom`` file:

   Configuration template for multiboot protocol:

   .. code-block:: none

      menuentry 'Boot ACRN hypervisor from multiboot' {
         insmod part_gpt
         insmod ext2
         echo 'Loading ACRN hypervisor ...'
         multiboot --quirk-modules-after-kernel /boot/acrn.32.out $(HV bootargs) $(Service VM bootargs)
         module /boot/kernel4vm0 xxxxxx $(VM0 bootargs)
         module /boot/kernel4vm1 yyyyyy $(VM1 bootargs)
      }

   Configuration template for multiboot2 protocol:

   .. code-block:: none

      menuentry 'Boot ACRN hypervisor from multiboot2' {
         insmod part_gpt
         insmod ext2
         echo 'Loading ACRN hypervisor ...'
         multiboot2 /boot/acrn.bin $(HV bootargs) $(Service VM bootargs)
         module2 /boot/kernel4vm0 xxxxxx $(VM0 bootargs)
         module2 /boot/kernel4vm1 yyyyyy $(VM1 bootargs)
      }


   .. note::
      The module ``/boot/kernel4vm0`` is the VM0 kernel file. The param
      ``xxxxxx`` is VM0's kernel file tag and must exactly match the
      ``kernel_mod_tag`` of VM0 configured in the
      ``misc/vm_configs/scenarios/$(SCENARIO)/vm_configurations.c`` file. The
      multiboot module ``/boot/kernel4vm1`` is the VM1 kernel file and the
      param ``yyyyyy`` is its tag and must exactly match the
      ``kernel_mod_tag`` of VM1 in the
      ``misc/vm_configs/scenarios/$(SCENARIO)/vm_configurations.c`` file.

      The VM kernel command-line arguments are configured in the
      hypervisor source code by default if no ``$(VMx bootargs)`` is present.
      If ``$(VMx bootargs)`` is present, the default command-line arguments
      are overridden by the ``$(VMx bootargs)`` parameters.

      The ``$(Service VM bootargs)`` parameter in the multiboot command is
      appended to the end of the Service VM kernel command line. If a
      command-line configuration parameter is specified more than once, the last
      one wins and earlier ones are ignored. For example, adding
      ``root=/dev/sda3`` will override the original root device for the Service
      VM kernel.

      All parameters after a ``#`` character are ignored since GRUB
      treats them as comments.

      ``\``, ``$``, ``#`` are special characters in GRUB. An escape character
      ``\`` must be added before these special characters if they are included
      in ``$(HV bootargs)`` or ``$(VM bootargs)``.  For example,
      ``memmap=0x200000$0xE00000`` for the VM kernel command line must be
      written as ``memmap=0x200000\$0xE00000``.


#. Update GRUB::

      sudo update-grub

#. Reboot the platform. On the platform's console, select the
   **Boot ACRN hypervisor xxx** entry to boot the ACRN hypervisor.
   The GRUB loader will boot the hypervisor, and the hypervisor will
   start the VMs automatically.


Installing Self-Built GRUB
**************************

If the GRUB version on your platform is outdated or has issues booting
the ACRN hypervisor, you can use a self-built GRUB binary. Get
the latest GRUB code and follow the `GRUB Manual
<https://www.gnu.org/software/grub/manual/grub/grub.html#Installing-GRUB-using-grub_002dinstall>`_
to build and install your own GRUB, and then follow the steps described
earlier in :ref:`pre-installed-grub`.


Here we provide another simple method to build GRUB in EFI application format:

#. Make a GRUB EFI application:

   .. code-block:: none

      git clone https://git.savannah.gnu.org/git/grub.git
      cd grub
      ./bootstrap
      ./configure --with-platform=efi --target=x86_64
      make
      ./grub-mkimage -p /EFI/BOOT -d ./grub-core/ -O x86_64-efi -o grub_x86_64.efi \
            boot efifwsetup efi_gop efinet efi_uga lsefimmap lsefi lsefisystab \
            exfat fat multiboot2 multiboot terminal part_msdos part_gpt normal \
            all_video aout configfile echo file fixvideo fshelp gfxterm gfxmenu \
            gfxterm_background gfxterm_menu legacycfg video_bochs video_cirrus \
            video_colors video_fb videoinfo video net tftp

   This will build a ``grub_x86_64.efi`` binary in the current directory and
   copy it to the ``/EFI/boot/`` directory on the EFI partition (it is typically
   mounted under the ``/boot/efi/`` directory on rootfs).

#. Create ``/EFI/boot/grub.cfg`` file containing the following:

   .. code-block:: none

      set default=0
      set timeout=5
      # set correct root device which stores acrn binary and kernel images
      set root='hd0,gpt3'

      menuentry 'Boot ACRN hypervisor from multiboot' {
         insmod part_gpt
         insmod ext2
         echo 'Loading ACRN hypervisor ...'
         multiboot --quirk-modules-after-kernel /boot/acrn.32.out $(HV bootargs) $(Service VM bootargs)
         module /boot/kernel4vm0 xxxxxx $(VM0 bootargs)
         module /boot/kernel4vm1 yyyyyy $(VM1 bootargs)
      }

      menuentry 'Boot ACRN hypervisor from multiboot2' {
         insmod part_gpt
         insmod ext2
         echo 'Loading ACRN hypervisor ...'
         multiboot2 /boot/acrn.bin $(HV bootargs) $(Service VM bootargs)
         module2 /boot/kernel4vm0 xxxxxx $(VM0 bootargs)
         module2 /boot/kernel4vm1 yyyyyy $(VM1 bootargs)
      }

#. Copy the ACRN binary and VM kernel images to the GRUB-configured
   directory, e.g., the ``/boot/`` directory on ``/dev/sda3/``.

#. Run ``/EFI/boot/grub_x86_64.efi`` in the EFI shell.