doc/board/xen/xenguest_arm64.rst

   1 .. SPDX-License-Identifier: GPL-2.0+
   2
   3 Xen guest ARM64 board
   4 =====================
   5
   6 This board specification
   7 ------------------------
   8
   9 This board is to be run as a virtual Xen [1] guest with U-Boot as its primary
  10 bootloader. Xen is a type 1 hypervisor that allows multiple operating systems
  11 to run simultaneously on a single physical server. Xen is capable of running
  12 virtual machines in both full virtualization and para-virtualization (PV)
  13 modes. Xen runs virtual machines, which are called “domains”.
  14
  15 Paravirtualized drivers are a special type of device drivers that are used in
  16 a guest system in the Xen domain and perform I/O operations using a special
  17 interface provided by the virtualization system and the host system.
  18
  19 Xen support for U-Boot is implemented by introducing a new Xen guest ARM64
  20 board and porting essential drivers from MiniOS [3] as well as some of the work
  21 previously done by NXP [4]:
  22
  23 - PV block device frontend driver with XenStore based device enumeration and
  24   UCLASS_PVBLOCK class;
  25 - PV serial console device frontend driver;
  26 - Xen hypervisor support with minimal set of the essential headers adapted from
  27   the Linux kernel;
  28 - Xen grant table support;
  29 - Xen event channel support in polling mode;
  30 - XenBus support;
  31 - dynamic RAM size as defined in the device tree instead of the statically
  32   defined values;
  33 - position-independent pre-relocation code is used as we cannot statically
  34   define any start addresses at compile time which is up to Xen to choose at
  35   run-time;
  36 - new defconfig introduced: xenguest_arm64_defconfig.
  37
  38
  39 Board limitations
  40 -----------------
  41
  42 1. U-Boot runs without MMU enabled at the early stages.
  43    According to Xen on ARM ABI (xen/include/public/arch-arm.h): all memory
  44    which is shared with other entities in the system (including the hypervisor
  45    and other guests) must reside in memory which is mapped as Normal Inner
  46    Write-Back Outer Write-Back Inner-Shareable.
  47    Thus, page attributes must be equally set for all the entities working with
  48    that page.
  49    Before MMU is set up the data cache is turned off and pages are seen by the
  50    vCPU and Xen in different ways - cacheable by Xen and non-cacheable by vCPU.
  51    So it means that manual data cache maintenance is required at the early
  52    stages.
  53
  54 2. No serial console until MMU is up.
  55    Because data cache maintenance is required until the MMU setup the
  56    early/debug serial console is not implemented. Therefore, we do not have
  57    usual prints like U-Boot’s banner etc. until the serial driver is
  58    initialized.
  59
  60 3. Single RAM bank supported.
  61    If a Xen guest is given much memory it is possible that Xen allocates two
  62    memory banks for it. The first one is allocated under 4GB address space and
  63    in some cases may represent the whole guest’s memory. It is assumed that
  64    U-Boot most likely won’t require high memory bank for its work andlaunching
  65    OS, so it is enough to take the first one.
  66
  67
  68 Board default configuration
  69 ---------------------------
  70
  71 One can select the configuration as follows:
  72
  73  - make xenguest_arm64_defconfig
  74
  75 [1] - https://xenproject.org/
  76
  77 [2] - https://wiki.xenproject.org/wiki/Paravirtualization_(PV)
  78
  79 [3] - https://wiki.xenproject.org/wiki/Mini-OS
  80
  81 [4] - https://source.codeaurora.org/external/imx/uboot-imx/tree/?h=imx_v2018.03_4.14.98_2.0.0_ga