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This document outlines the steps of setting up and running Android Automotive images on Linaro’s Trusted Reference Stack (TRS) using prebuilt images. When completed, you will be able to boot the Android Automotive OS (AAOS) image in a DomU (aka VM) running on top of the Xen Hypervisor using TRS in the Dom0. The AAOS image will utilize the AVA platform's frame buffer (unaccelerated) and use VirtIO serial device to enable keyboard and mouse in order to interact with OS.

If interested in building from source please refer to the following documents ^[1][2] for details.

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You will need the following to run this demo

• ADLink AVA Platform

• Display connected to the VGA interface

• Enough disk space

• x86 Linux desktop (Tested on Ubuntu 22.04.3 LTS and Debian GNU/Linux 12 (bookworm), x86 is fine)

Prebuilt images

Prebuilt images can be pre- downlaoded as follows:

• The TRS prebuilt image is:
  https://people.linaro.org/~leo.yan/arm_blueprint/aaos_on_xen/trs-image-trs-qemuarm64.wic.The prebuilt

• Android automotive image is: https://people.linaro.org/~leo.yan/arm_blueprint/aaos_on_xen/cuttlefish.tgz.

Flash the TRS image

TRS image can be flashed on either an NVME or a USB stick. The below script flash_trs.sh is for flashing TRS wic image onto a block device, the block device can be either a an NVMe or USB stick, it also extends the root file system partition to the end of the device to provide sufficient disk space for storing the Android Automotive OS image.

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By following below steps, you can firstly download the prebuilt TRS wic image and then flash it to NVMe or USB stick.

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Note 1: The shell script requires the e2fsck and resize2fs utilities to be at least version 1.47.0 or newer. if not available, please download the e2fsprogs source and build it and install itfrom source.

Run Android Automotive in a Xen virtual machine

Once TRS system booted up, you need to download Android Cuttlefish automotive image (cuttlefish.tgz) image and uncompress it into the folder (/home/leoy/android-cf-mainline/cf ), this is because the overlay images contains the absolute path so we must uncompress the Cuttlefish image into an absolut absolute path. The commands are:

# wget https://people.linaro.org/~leo.yan/arm_blueprint/aaos_on_xen/cuttlefish.tgz
# wget https://people.linaro.org/~leo.yan/arm_blueprint/aaos_on_xen/aaos_vm.cfg
# wget https://people.linaro.org/~leo.yan/arm_blueprint/aaos_on_xen/u-boot.bin
# mkdir -p /home/leoy/android-cf-mainline/cf/
# tar zxvf cuttlefish.tgz -C /home/leoy/android-cf-mainline/cf/

Launch Xfce4 windows manager:

# startxfcestartxfce4 &

Run AAOS in a Xen virtual machine:

# export DISPLAY=:0
# xl -vvv create aaos_vm.cfg -c

Note, the xen configuration file aaos_vm.cfg is updated to refelect the latest Android images:

# Copyright (c) 2022, Arm Limited.
#
# SPDX-License-Identifier: MIT

name = "aaos-vm"
memory = 6144
vcpus = 4
extra = " earlyprintk=xenboot console=hvc0 rw androidboot.console=hvc0 androidboot.serialconsole=1"
root = "/dev/xvda2"
kernel = "/home/root/u-boot.bin"
disk = ['format=qcow2, vdev=xvda, access=rw, target=/home/leoy/android-cf-mainline/cf/cuttlefish/instances/cvd-1/overlay.img', 'format=qcow2, vdev=xvdb, access=rw, target=/home/leoy/android-cf-mainline/cf/cuttlefish/instances/cvd-1/persistent_composite_overlay.img', 'format=qcow2, vdev=xvdc, access=rw, target=/home/leoy/android-cf-mainline/cf/cuttlefish/instances/cvd-1/sdcard_overlay.img']
vif = ['mac=00:16:3E:74:34:32', 'mac=00:16:3e:5f:48:e4', 'mac=00:16:3E:74:34:32,script=vif-bridge,bridge=xenbr0']
virtio_qemu_domid = 0

Note, the prebuilt TRS image provided uses an outdated Xen repository, resulting in the lack of support for the option virtio = ['transport=pci, backend_type=qemu, bdf=02:00.0']. If you are building a TRS image using the Xen and AOSP maintenance repositories located in the directory xen-aosp, it is necessary to include the virtio configuration to enable the virtio-pci bus.

We have a recorded video which has been uploaded to the server [3]. You can refer to it for how to lanch AAOS on Xen virtual machine.

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