qemu/tests/avocado/machine_aarch64_sbsaref.py

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# Functional test that boots a Linux kernel and checks the console
#
# SPDX-FileCopyrightText: 2023 Linaro Ltd.
# SPDX-FileContributor: Philippe Mathieu-Daudé <philmd@linaro.org>
# SPDX-FileContributor: Marcin Juszkiewicz <marcin.juszkiewicz@linaro.org>
#
# SPDX-License-Identifier: GPL-2.0-or-later
import os
from avocado import skipUnless
from avocado.utils import archive
from avocado_qemu import QemuSystemTest
from avocado_qemu import wait_for_console_pattern
from avocado_qemu import interrupt_interactive_console_until_pattern
class Aarch64SbsarefMachine(QemuSystemTest):
"""
:avocado: tags=arch:aarch64
:avocado: tags=machine:sbsa-ref
:avocado: tags=accel:tcg
As firmware runs at a higher privilege level than the hypervisor we
can only run these tests under TCG emulation.
"""
timeout = 180
def fetch_firmware(self):
"""
Flash volumes generated using:
- Fedora GNU Toolchain version 13.2.1 20230728 (Red Hat 13.2.1-1)
- Trusted Firmware-A
https://github.com/ARM-software/arm-trusted-firmware/tree/7c3ff62d
- Tianocore EDK II
https://github.com/tianocore/edk2/tree/0f9283429dd4
https://github.com/tianocore/edk2/tree/ad1c0394b177
https://github.com/tianocore/edk2-platforms/tree/d03a60523a60
"""
# Secure BootRom (TF-A code)
fs0_xz_url = (
"https://fileserver.linaro.org/s/rE43RJyTfxPtBkc/"
"download/SBSA_FLASH0.fd.xz"
)
fs0_xz_hash = "cdb8e4ffdaaa79292b7b465693f9e5fae6b7062d"
tar_xz_path = self.fetch_asset(fs0_xz_url, asset_hash=fs0_xz_hash)
archive.extract(tar_xz_path, self.workdir)
fs0_path = os.path.join(self.workdir, "SBSA_FLASH0.fd")
# Non-secure rom (UEFI and EFI variables)
fs1_xz_url = (
"https://fileserver.linaro.org/s/AGWPDXbcqJTKS4R/"
"download/SBSA_FLASH1.fd.xz"
)
fs1_xz_hash = "411155ae6984334714dff08d5d628178e790c875"
tar_xz_path = self.fetch_asset(fs1_xz_url, asset_hash=fs1_xz_hash)
archive.extract(tar_xz_path, self.workdir)
fs1_path = os.path.join(self.workdir, "SBSA_FLASH1.fd")
for path in [fs0_path, fs1_path]:
with open(path, "ab+") as fd:
fd.truncate(256 << 20) # Expand volumes to 256MiB
self.vm.set_console()
self.vm.add_args(
"-drive",
f"if=pflash,file={fs0_path},format=raw",
"-drive",
f"if=pflash,file={fs1_path},format=raw",
"-smp",
"1",
"-machine",
"sbsa-ref",
)
def test_sbsaref_edk2_firmware(self):
"""
:avocado: tags=cpu:cortex-a57
"""
self.fetch_firmware()
self.vm.launch()
# TF-A boot sequence:
#
# https://github.com/ARM-software/arm-trusted-firmware/blob/v2.8.0/\
# docs/design/trusted-board-boot.rst#trusted-board-boot-sequence
# https://trustedfirmware-a.readthedocs.io/en/v2.8/\
# design/firmware-design.html#cold-boot
# AP Trusted ROM
wait_for_console_pattern(self, "Booting Trusted Firmware")
wait_for_console_pattern(self, "BL1: v2.9(release):v2.9")
wait_for_console_pattern(self, "BL1: Booting BL2")
# Trusted Boot Firmware
wait_for_console_pattern(self, "BL2: v2.9(release)")
wait_for_console_pattern(self, "Booting BL31")
# EL3 Runtime Software
wait_for_console_pattern(self, "BL31: v2.9(release)")
# Non-trusted Firmware
wait_for_console_pattern(self, "UEFI firmware (version 1.0")
interrupt_interactive_console_until_pattern(self, "QEMU SBSA-REF Machine")
# This tests the whole boot chain from EFI to Userspace
# We only boot a whole OS for the current top level CPU and GIC
# Other test profiles should use more minimal boots
def boot_alpine_linux(self, cpu):
self.fetch_firmware()
iso_url = (
"https://dl-cdn.alpinelinux.org/"
"alpine/v3.17/releases/aarch64/alpine-standard-3.17.2-aarch64.iso"
)
iso_hash = "5a36304ecf039292082d92b48152a9ec21009d3a62f459de623e19c4bd9dc027"
iso_path = self.fetch_asset(iso_url, algorithm="sha256", asset_hash=iso_hash)
self.vm.set_console()
self.vm.add_args(
"-cpu",
cpu,
"-drive",
f"file={iso_path},format=raw",
"-device",
"virtio-rng-pci,rng=rng0",
"-object",
"rng-random,id=rng0,filename=/dev/urandom",
)
self.vm.launch()
wait_for_console_pattern(self, "Welcome to Alpine Linux 3.17")
def test_sbsaref_alpine_linux_cortex_a57(self):
"""
:avocado: tags=cpu:cortex-a57
"""
self.boot_alpine_linux("cortex-a57")
def test_sbsaref_alpine_linux_neoverse_n1(self):
"""
:avocado: tags=cpu:neoverse-n1
"""
self.boot_alpine_linux("neoverse-n1")
def test_sbsaref_alpine_linux_max(self):
"""
:avocado: tags=cpu:max
"""
self.boot_alpine_linux("max")
# This tests the whole boot chain from EFI to Userspace
# We only boot a whole OS for the current top level CPU and GIC
# Other test profiles should use more minimal boots
def boot_openbsd73(self, cpu):
self.fetch_firmware()
img_url = (
"https://cdn.openbsd.org/pub/OpenBSD/7.3/arm64/miniroot73.img"
)
img_hash = "7fc2c75401d6f01fbfa25f4953f72ad7d7c18650056d30755c44b9c129b707e5"
img_path = self.fetch_asset(img_url, algorithm="sha256", asset_hash=img_hash)
self.vm.set_console()
self.vm.add_args(
"-cpu",
cpu,
"-drive",
f"file={img_path},format=raw",
"-device",
"virtio-rng-pci,rng=rng0",
"-object",
"rng-random,id=rng0,filename=/dev/urandom",
)
self.vm.launch()
wait_for_console_pattern(self,
"Welcome to the OpenBSD/arm64"
" 7.3 installation program.")
def test_sbsaref_openbsd73_cortex_a57(self):
"""
:avocado: tags=cpu:cortex-a57
"""
self.boot_openbsd73("cortex-a57")
def test_sbsaref_openbsd73_neoverse_n1(self):
"""
:avocado: tags=cpu:neoverse-n1
"""
self.boot_openbsd73("neoverse-n1")
def test_sbsaref_openbsd73_max(self):
"""
:avocado: tags=cpu:max
"""
self.boot_openbsd73("max")