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Author SHA1 Message Date
Abdellatif El Khlifi 2e2dbc2587 arm/trusted-firmware-m: setting the toolchain file path in PACKAGECONFIG
Toolchain files toolchain_GNUARM.cmake and toolchain_ARMCLANG.cmake are
located at trusted-firmware-m source directory.

This commit sets that.

Change-Id: If9c26f65b0c8111a6ff1f1a7d56610563efd501b
Signed-off-by: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:18 -04:00
Abdellatif El Khlifi ab574b084e arm/trusted-firmware-m: enabling PACKAGECONFIG when using CMake
In case of CMake, PACKAGECONFIG configs take effect when passing
PACKAGECONFIG_CONFARGS to the configure task.

Change-Id: I126ba089c9a5db8e895b8a9545e96ef9fa98ce0d
Signed-off-by: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:18 -04:00
Ross Burton b4f52f2642 arm/lib/oeqa: fix module lookup
As multiple paths can and do provide modules under oeqa.controllers, all
of these paths need to call pkgutil.extend_path() so the lookup works
correctly.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:18 -04:00
Ross Burton 2d22a1f7ae CI: enable testimage for fvp-base
Inherit fvpboot so that the FVP binary is fetched and configuration
generated.

Configure the FVP to forward host port 8022 to port 22 locally, and
tell testimage to SSH to localhost:8022. This has the limitation that
only one testimage can run per machine, but this will be removed shortly.

Disable the parselogs test case, as there are some harmless warnings in
the dmesg which cause it to fail.  Currently meta-arm can't extend the
whitelist of ignorable warnings.

The FVP binaries are x86-64 only, so tag the job appropriately.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton ba86aeb31f CI: install telnet into the images
runfvp currently needs telnet to communicate with the guest, so install
telnet into the image.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton 48524c32d5 arm-bsp/fvp-common: set TEST_TARGET to OEFVPTarget
Set TEST_TARGET so that all FVP machines use the new FVP target out of
the box, instead of attempting to use qemu.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton 4b1a0c7484 arm-bsp/fvp: enable virtio drivers
All FVPs can use virtio networking devices, so enable virtio in all of
the FVP kernels.

Remove our fvp/fvp-virtio.cfg as there's cfg/virtio.scc we can use.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton 2824f6a58b arm/oeqa: add FVP testimage controller target
Add a new oeqa.core.target.OETarget subclass for testimage which starts
a FVP using runfvp. This uses --console to connect to the console so
telnet is needed on the host.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton 0a64644bc9 runfvp: reset the process group on startup
So that it is easy to kill runfvp and everything it starts (such as
telnet or the FVP itself), reset the process group on startup.

Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton 491cac17fe gem5/gem5-native: add missing m4-native DEPENDS
Latest oe-core has less implicit DEPENDS, so gem5 fails to configure:

Error: Can't find version of M4 macro processor.  Please install M4 and try again.

Explicitly add m4-native to DEPENDS.

Change-Id: I2e107ea6448eec399619e0d1922fd29930a95fd8
Signed-off-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-20 14:07:11 -04:00
Ross Burton 328d95e27d CI: use http: to access sstate mirror
The sstate mirrors are not available over HTTPS currently due to a
certificate problem, so use plain HTTP instead.

Change-Id: I5b974d67bc13f7c7234927c6bc62a8c733e454c3
Signed-off-by: Ross Burton <ross.burton@arm.com>
2021-10-19 16:39:48 +01:00
Hugo L'Hostis 99b9ee4470 kas/fvp-baser-aemv8r64: use honister as default branch
Issue-Id: SCM-3532
Signed-off-by: Hugo L'Hostis <hugo.lhostis@arm.com>
Change-Id: I05b529da0f5bbdcee038476d07c42f1b6ac0526f
Signed-off-by: Jon Mason <jon.mason@arm.com>
2021-10-15 10:16:14 -04:00
1025 changed files with 47151 additions and 31412 deletions
-2
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@@ -1,2 +0,0 @@
[b4]
send-series-to = meta-arm@lists.yoctoproject.org
-1
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@@ -1,2 +1 @@
__pycache__
build
+193 -293
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@@ -1,248 +1,151 @@
image: ${MIRROR_GHCR}/siemens/kas/kas:4.4
variables:
# These are needed as the k8s executor doesn't respect the container
# entrypoint by default
FF_KUBERNETES_HONOR_ENTRYPOINT: 1
FF_USE_LEGACY_KUBERNETES_EXECUTION_STRATEGY: 0
# The default value for KUBERNETES_CPU_REQUEST
CPU_REQUEST: ""
# The default machine tag for the build jobs
DEFAULT_TAG: ""
# The machine tag for the ACS test jobs
ACS_TAG: "$DEFAULT_TAG"
# The directory to use as the persistent cache (the root for DL_DIR, SSTATE_DIR, etc)
CACHE_DIR: $CI_BUILDS_DIR/persist
# The container mirror to use
MIRROR_GHCR: ghcr.io
# Whether to run the SystemReady ACS tests
ACS_TEST: 0
# The list of extra Kas fragments to be used when building
EXTRA_KAS_FILES: ""
# The NVD API key to use when fetching CVEs
NVDCVE_API_KEY: ""
image: ghcr.io/siemens/kas/kas
# First do a common bootstrap, and then build all the targets
stages:
- prep
- bootstrap
- build
# Common job fragment to get a worker ready
.setup:
tags:
- $DEFAULT_TAG
stage: build
interruptible: true
variables:
KUBERNETES_CPU_REQUEST: $CPU_REQUEST
KAS_WORK_DIR: $CI_PROJECT_DIR/work
KAS_BUILD_DIR: $KAS_WORK_DIR/build
# Set this in the environment to enable local repository caches
KAS_REPO_REF_DIR: ""
SSTATE_DIR: $CACHE_DIR/sstate
DL_DIR: $CACHE_DIR/downloads
KAS_REPO_REF_DIR: $CI_BUILDS_DIR/persist/repos
SSTATE_DIR: $CI_BUILDS_DIR/persist/sstate
DL_DIR: $CI_BUILDS_DIR/persist/downloads
BB_LOGCONFIG: $CI_PROJECT_DIR/ci/logging.yml
TOOLCHAIN_DIR: $CACHE_DIR/toolchains
IMAGE_DIR: $KAS_BUILD_DIR/tmp/deploy/images
TOOLCHAIN_LINK_DIR: $KAS_BUILD_DIR/toolchains
TOOLCHAIN_DIR: $CI_BUILDS_DIR/persist/toolchains
IMAGE_DIR: $CI_PROJECT_DIR/work/build/tmp/deploy/images
TOOLCHAIN_LINK_DIR: $CI_PROJECT_DIR/work/build/toolchains
before_script:
- echo KAS_WORK_DIR = $KAS_WORK_DIR
- echo SSTATE_DIR = $SSTATE_DIR
- echo DL_DIR = $DL_DIR
- rm -rf $KAS_WORK_DIR
- mkdir --verbose --parents $KAS_WORK_DIR $KAS_REPO_REF_DIR $SSTATE_DIR $DL_DIR $TOOLCHAIN_DIR $TOOLCHAIN_LINK_DIR
# Must do this here, as it's the only way to make sure the toolchain is installed on the same builder
- ./ci/get-binary-toolchains $DL_DIR $TOOLCHAIN_DIR $TOOLCHAIN_LINK_DIR
- sudo apt update && sudo apt install telnet -y
# Generalised fragment to do a Kas build
.build:
extends: .setup
rules:
# Don't run MR pipelines
- if: $CI_PIPELINE_SOURCE == "merge_request_event"
when: never
# Don't run pipelines for tags
- if: $CI_COMMIT_TAG
when: never
# Don't run if BUILD_ENABLE_REGEX is set, but the job doesn't match the regex
- if: '$BUILD_ENABLE_REGEX != null && $CI_JOB_NAME !~ $BUILD_ENABLE_REGEX'
when: never
# Allow the dev kernels to fail and not fail the overall build
- if: '$KERNEL == "linux-yocto-dev"'
allow_failure: true
# Catch all for everything else
- if: '$KERNEL != "linux-yocto-dev"'
script:
- KASFILES=$(./ci/jobs-to-kas "$CI_JOB_NAME" $EXTRA_KAS_FILES):lockfile.yml
- echo KASFILES=$KASFILES
- kas dump --update --force-checkout --resolve-refs --resolve-env $KASFILES
- KASFILES=$(./ci/jobs-to-kas $CI_JOB_NAME)
- kas shell --update --force-checkout $KASFILES -c 'cat conf/*.conf'
- kas build $KASFILES
- ./ci/check-warnings $KAS_BUILD_DIR/warnings.log
- kas shell ci/base.yml:lockfile.yml --command "$CI_PROJECT_DIR/ci/junit.sh $KAS_WORK_DIR/build"
- ./ci/check-warnings $KAS_WORK_DIR/build/warnings.log
# Workaround for Zephyr not currectly handling TESTIMAGE_AUTO
.build_and_test:
extends: .setup
script:
- KASFILES=$(./ci/jobs-to-kas $CI_JOB_NAME)
- kas shell --update --force-checkout $KASFILES -c 'cat conf/*.conf'
- kas build $KASFILES
- kas build $KASFILES -c testimage
- ./ci/check-warnings $KAS_WORK_DIR/build/warnings.log
artifacts:
name: "logs"
when: always
paths:
- $KAS_BUILD_DIR/tmp*/work*/**/temp/log.do_*.*
- $KAS_BUILD_DIR/tmp*/work*/**/testimage/*
reports:
junit: $KAS_BUILD_DIR/tmp/log/oeqa/junit.xml
#
# Prep stage, update repositories once.
# Set the CI variable CI_CLEAN_REPOS=1 to refetch the respositories from scratch
# Prep stage, update repositories once
#
update-repos:
extends: .setup
stage: prep
allow_failure:
exit_codes: 128
script:
- |
exit_code=0
# Dump the environment for reference
printenv
# Update the reference repositories if needed
if [ -n "$KAS_REPO_REF_DIR" ]; then
flock --verbose --timeout 60 $KAS_REPO_REF_DIR --command ./ci/update-repos || exit_code=$?
# Exit now if that failed, unless the status was 128 (fetch failed)
test $exit_code != 0 -a $exit_code != 128 && exit 1
fi
# Only generate if doesn't already exist, to allow feature branches to drop one in.
if test -f lockfile.yml; then
echo Using existing lockfile.yml
else
# Be sure that this is the complete list of layers being fetched
kas dump --lock --update ci/qemuarm64.yml:ci/meta-openembedded.yml:ci/clang.yml:ci/meta-virtualization.yml | tee lockfile.yml
fi
exit $exit_code
artifacts:
name: "lockfile"
when: always
paths:
- lockfile.yml
- flock --verbose --timeout 60 $KAS_REPO_REF_DIR ./ci/update-repos
#
# Build stage, the actual build jobs
# Bootstrap stage, bootstrap and machine coverage
#
# Available options for building are (VIRT _must_ be last for ssh override)
# DISTRO: [poky, poky-altcfg, poky-tiny]
# KERNEL: [linux-yocto, linux-yocto-dev, linux-yocto-rt]
# TOOLCHAINS: [gcc, clang]
# TCLIBC: [glibc, musl]
# FIRMWARE: [u-boot, edk2]
# TS: [none, trusted-services]
# TESTING: testimage
# SECUREDEBUG: [none, secure-debug]
# VIRT: [none, xen]
arm-systemready-ir-acs:
# Build a number of native tools first to ensure the other builders don't race
# over them
n1sdp/bootstrap:
extends: .build
timeout: 12h
parallel:
matrix:
# arm-systemready-ir-acs must be specified after fvp-base for ordering
# purposes for the jobs-to-kas output. It is not enough to just have it
# in the job name because fvp-base.yml overwrites the target.
- PLATFORM: [fvp-base, corstone1000-fvp]
ARM_SYSTEMREADY_IR_ACS: arm-systemready-ir-acs
tags:
- ${ACS_TAG}
stage: bootstrap
# Validate layers are Yocto Project Compatible
check-layers:
extends: .setup
script:
- kas shell --update --force-checkout ci/base.yml:ci/meta-openembedded.yml:lockfile.yml --command \
"yocto-check-layer-wrapper $CI_PROJECT_DIR/$LAYER --dependency $CI_PROJECT_DIR/meta-* $KAS_WORK_DIR/meta-openembedded/meta-oe --no-auto-dependency"
parallel:
matrix:
- LAYER: [meta-arm, meta-arm-bsp, meta-arm-toolchain]
corstone1000-fvp:
n1sdp/clang/clang-bootstrap:
extends: .build
parallel:
matrix:
- FIRMWARE: corstone1000-firmware-only
TESTING: [testimage, tftf]
- FIRMWARE: none
TESTING: testimage
- SYSTEMREADY_FIRMWARE: arm-systemready-firmware
corstone1000-mps3:
extends: .build
parallel:
matrix:
- FIRMWARE: corstone1000-firmware-only
TESTING: [none, tftf]
- FIRMWARE: none
SECUREDEBUG: [none, secure-debug]
documentation:
extends: .setup
script:
- |
# This can be removed when the kas container has python3-venv installed
sudo apt-get update && sudo apt-get install --yes python3-venv
python3 -m venv venv
. ./venv/bin/activate
pip3 install -r meta-arm-bsp/documentation/requirements.txt
for CONF in meta-*/documentation/*/conf.py ; do
echo Building $CONF...
SOURCE_DIR=$(dirname $CONF)
MACHINE=$(basename $SOURCE_DIR)
sphinx-build -vW $SOURCE_DIR build-docs/$MACHINE
done
test -d build-docs/
artifacts:
paths:
- build-docs/
fvp-base:
extends: .build
parallel:
matrix:
- TS: [none, fvp-base-ts]
TESTING: testimage
- FIRMWARE: [u-boot, edk2]
TESTING: testimage
- SYSTEMREADY_FIRMWARE: arm-systemready-firmware
fvps:
extends: .build
genericarm64:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, clang]
TESTING: testimage
- KERNEL: linux-yocto-dev
TESTING: testimage
juno:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, clang]
FIRMWARE: [u-boot, edk2]
stage: bootstrap
# What percentage of machines in the layer do we build
machine-coverage:
extends: .setup
stage: bootstrap
interruptible: true
script:
- ./ci/check-machine-coverage
coverage: '/Coverage: \d+/'
metrics:
#
# Build stage, the actual build jobs
#
# Validate layers are Yocto Project Compatible
check-layers:
extends: .setup
coverage: '/Coverage: \d+/'
script:
- kas shell --update --force-checkout ci/base.yml:ci/meta-arm-autonomy.yml:ci/meta-openembedded.yml --command \
"$CI_PROJECT_DIR/ci/check-layers.py $CI_PROJECT_DIR/ci/check-layers.yml $CI_PROJECT_DIR $KAS_WORK_DIR"
pending-updates:
extends: .setup
artifacts:
reports:
metrics: metrics.txt
paths:
- update-report.html
script:
- kas shell --update --force-checkout ci/base.yml --command \
"$CI_PROJECT_DIR/ci/patchreview $CI_PROJECT_DIR/meta-* --verbose --metrics $CI_PROJECT_DIR/metrics.txt"
- kas shell ci/qemuarm64.yml:ci/meta-openembedded.yml -c "$CI_PROJECT_DIR/scripts/machine-summary.py -t updates.html -o $CI_PROJECT_DIR/update-report.html $($CI_PROJECT_DIR/ci/listmachines.py meta-arm meta-arm-bsp)"
corstone500:
extends: .build
corstone700-fvp:
extends: .build
corstone700-mps3:
extends: .build
fvp-base/testimage:
extends: .build
tags:
- x86_64
fvp-base-arm32:
extends: .build
fvp-base-arm32/external-gccarm:
extends: .build
fvp-baser-aemv8r64:
extends: .build
fvps:
extends: .build
gem5-arm64:
extends: .build
gem5-arm64/xen:
extends: .build
gem5-atp-arm64:
extends: .build
generic-arm64:
extends: .build
juno:
extends: .build
juno/clang:
extends: .build
microbit-v1/testimage-zephyr:
extends: .build_and_test
musca-b1:
extends: .build
@@ -250,117 +153,114 @@ musca-b1:
musca-s1:
extends: .build
pending-updates:
extends: .setup
# Only run this job for the default branch (master), or if forced with
# BUILD_FORCE_PENDING_UPDATES.
rules:
- if: $CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH
- if: $BUILD_FORCE_PENDING_UPDATES != null
artifacts:
paths:
- update-report
script:
- rm -fr update-report
# This configuration has all of the layers we need enabled
- kas shell --update --force-checkout ci/qemuarm64.yml:ci/meta-openembedded.yml:ci/meta-secure-core.yml:lockfile.yml --command \
"$CI_PROJECT_DIR/scripts/machine-summary.py -t report -o $CI_PROJECT_DIR/update-report $($CI_PROJECT_DIR/ci/listmachines.py meta-arm meta-arm-bsp)"
qemuarm64-secureboot:
n1sdp:
extends: .build
parallel:
matrix:
- KERNEL: [linux-yocto, linux-yocto-rt]
TOOLCHAINS: [gcc, clang]
TCLIBC: [glibc, musl]
TS: [none, qemuarm64-secureboot-ts]
TESTING: testimage
- TOOLCHAINS: [gcc, clang]
TS: [none, qemuarm64-secureboot-ts]
UEFISB: [none, uefi-secureboot]
TESTING: testimage
- KERNEL: linux-yocto-dev
TESTING: testimage
qemuarm64:
n1sdp/armgcc:
extends: .build
parallel:
matrix:
- DISTRO: poky
KERNEL: [linux-yocto, linux-yocto-rt]
TOOLCHAINS: [gcc, clang]
FIRMWARE: [u-boot, edk2]
TESTING: testimage
- DISTRO: poky-tiny
TESTING: testimage
- VIRT: xen
- KERNEL: linux-yocto-dev
TESTING: testimage
qemuarm-secureboot:
qemu-cortex-a53:
extends: .build
parallel:
matrix:
- KERNEL: [linux-yocto, linux-yocto-rt]
TOOLCHAINS: [gcc, clang]
TCLIBC: [glibc, musl]
TESTING: testimage
- DISTRO: [poky, poky-altcfg]
TESTING: testimage
- KERNEL: linux-yocto-dev
TESTING: testimage
qemuarm:
qemu-cortex-m3/testimage-zephyr:
extends: .build_and_test
qemu-cortex-r5:
extends: .build
parallel:
matrix:
- DISTRO: poky
KERNEL: [linux-yocto, linux-yocto-rt]
TOOLCHAINS: [gcc, clang]
FIRMWARE: [u-boot, edk2]
TESTING: testimage
- DISTRO: poky-tiny
TESTING: testimage
- VIRT: xen
- KERNEL: linux-yocto-dev
TESTING: testimage
qemuarmv5:
qemuarm64-sbsa:
extends: .build
parallel:
matrix:
- DISTRO: poky
KERNEL: [linux-yocto, linux-yocto-dev, linux-yocto-rt]
TESTING: testimage
- DISTRO: poky-tiny
TESTING: testimage
sbsa-ref:
qemuarm64-secureboot/testimage:
extends: .build
parallel:
matrix:
- KERNEL: [linux-yocto, linux-yocto-rt]
TOOLCHAINS: [gcc, clang]
TESTING: testimage
- DISTRO: poky-altcfg
TESTING: testimage
- KERNEL: linux-yocto-dev
TESTING: testimage
selftest:
extends: .setup
script:
- KASFILES=./ci/qemuarm64.yml:./ci/selftest.yml:lockfile.yml
- kas shell --update --force-checkout $KASFILES -c 'oe-selftest --num-processes 2 --select-tag meta-arm --run-all-tests'
qemuarm64-secureboot/clang/testimage:
extends: .build
qemuarm64-secureboot/clang/musl/testimage:
extends: .build
qemuarm64-secureboot/musl/testimage:
extends: .build
qemuarm64/xen:
extends: .build
qemuarm/clang/testimage:
extends: .build
qemuarm/testimage:
extends: .build
qemuarm/xen:
extends: .build
qemuarmv5/testimage:
extends: .build
sgi575:
extends: .build
parallel:
matrix:
- TESTING: testimage
# FVP binary is x86-only
tc0:
extends: .build
tags:
- x86_64
tc1:
extends: .build
tags:
- x86_64
toolchains:
extends: .build
#
# Utility tasks, not executed automatically
#
delete-dl-dir:
extends: .setup
stage: prep
when: manual
script:
- rm -rf $DL_DIR/*
delete-repo-dir:
extends: .setup
stage: prep
when: manual
script:
- rm -rf $KAS_REPO_REF_DIR/*
# Delete all sstate
delete-sstate:
extends: .setup
stage: prep
when: manual
script:
- rm -rf $SSTATE_DIR/*
delete-toolchains:
extends: .setup
stage: prep
when: manual
script:
- rm -rf $TOOLCHAIN_DIR/*
# Wipe out old sstate
prune-sstate:
extends: .setup
stage: prep
when: manual
script:
- du -h -s $SSTATE_DIR
- find $SSTATE_DIR -type f -atime +30 -delete
- du -h -s $SSTATE_DIR
# Report on disk usage
usage:
extends: .setup
stage: prep
when: manual
script:
- du -h -s $DL_DIR $SSTATE_DIR $KAS_REPO_REF_DIR $TOOLCHAIN_DIR
+22 -46
View File
@@ -6,39 +6,41 @@ This repository contains the Arm layers for OpenEmbedded.
This layer contains general recipes for the Arm architecture, such as firmware, FVPs, and Arm-specific integration.
* meta-arm-autonomy
This layer is the distribution for a reference stack for autonomous systems.
* meta-arm-bsp
This layer contains machines for Arm reference platforms, for example FVP Base, Corstone1000, and Juno.
This layer contains machines for Arm reference platforms, for example FVP Base, N1SDP, and Juno.
* meta-arm-toolchain
This layer contains recipes for Arm's binary toolchains (GCC and Clang for -A and -M), and a recipe to build Arm's GCC.
* meta-atp
This layer contains recipes for the Adaptive Traffic Generation integration into meta-gem5.
* meta-gem5
This layer contains recipes and machines for gem5, a system-level and processor simulator.
Other Directories
-----------------
* ci
This directory contains gitlab continuous integration configuration files (KAS yaml files) as well as scripts needed for this.
* documentation
This directory contains information on the files in this repository, building, and other relevant documents.
This directory contains gitlab continuous integration configuration files (KAS yaml files) as well as scripts needed for this
* kas
This directory contains KAS yaml files to describe builds for systems not used in CI.
This directory contains KAS yaml files to describe builds for systems not used in CI
* scripts
This directory contains scripts used in running the CI tests.
Mailing List
------------
To interact with the meta-arm developer community, please email the meta-arm mailing list at <meta-arm@lists.yoctoproject.org>.
Currently, it is configured to only allow emails to members from those subscribed.
To subscribe to the meta-arm mailing list, please go to
https://lists.yoctoproject.org/g/meta-arm
This directory contains scripts used in running the CI tests
Contributing
------------
@@ -46,51 +48,25 @@ Currently, we only accept patches from the meta-arm mailing list. For general
information on how to submit a patch, please read
https://www.openembedded.org/wiki/How_to_submit_a_patch_to_OpenEmbedded
E-mail <meta-arm@lists.yoctoproject.org> with patches created using this process. You can configure git-send-email to automatically use this address for the meta-arm repository with the following git command:
E-mail meta-arm@lists.yoctoproject.org with patches created using this process. You can configure git-send-email to automatically use this address for the meta-arm repository with the following git command:
`$ git config --local --add sendemail.to meta-arm@lists.yoctoproject.org`
$ git config --local --add sendemail.to meta-arm@lists.yoctoproject.org
Commits and patches added should follow the OpenEmbedded patch guidelines:
https://www.openembedded.org/wiki/Commit_Patch_Message_Guidelines
The component being changed in the shortlog should be prefixed with the layer name (without the meta- prefix), for example:
> arm-bsp/trusted-firmware-a: decrease frobbing level
> arm-toolchain/gcc: enable foobar v2
arm-bsp/trusted-firmware-a: decrease frobbing level
All contributions are under the [MIT License](/COPYING.MIT).
For a quick start guide on how to build and use meta-arm, go to [quick-start.md](/documentation/quick-start.md).
For information on the continuous integration done on meta-arm and how to use it, go to [continuous-integration-and-kas.md](/documentation/continuous-integration-and-kas.md).
Backporting
--------------
Backporting patches to older releases may be done upon request, but only after a version of the patch has been accepted into the master branch. This is done by adding the branch name to email subject line. This should be between the square brackets (e.g., "[" and "]"), and before or after the "PATCH". For example,
> [nanbield PATCH] arm/linux-yocto: backport patch to fix 6.5.13 networking issues
Automatic backporting will be done to all branches if the "Fixes: <SHA>" wording is added to the patch commit message. This is similar to how the Linux kernel community does their LTS kernel backporting. For more information see the "Fixes" portion of
https://www.kernel.org/doc/html/latest/process/submitting-patches.html#submittingpatches
Releases and Release Schedule
--------------
We follow the Yocto Project release methodology, schedule, and stable/LTS support timelines. For more information on these, please reference:
* https://docs.yoctoproject.org/ref-manual/release-process.html
* https://wiki.yoctoproject.org/wiki/Releases
* https://wiki.yoctoproject.org/wiki/Stable_Release_and_LTS
For more in-depth information on the meta-arm release and branch methodology, go to </documentation/releases.md>.
arm-toolchain/gcc: enable foobar v2
Reporting bugs
--------------
E-mail <meta-arm@lists.yoctoproject.org> with the error encountered and the steps
E-mail meta-arm@lists.yoctoproject.org with the error encountered and the steps
to reproduce the issue.
Security and Reporting Security Issues
--------------
For information on the security of meta-arm and how to report issues, please consult [SECURITY.md](/SECURITY.md).
Maintainer(s)
-------------
* Jon Mason <jon.mason@arm.com>
-46
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@@ -1,46 +0,0 @@
# Reporting vulnerabilities
Arm takes security issues seriously and welcomes feedback from researchers and
the security community in order to improve the security of its products and
services. We operate a coordinated disclosure policy for disclosing
vulnerabilities and other security issues.
Security issues can be complex and one single timescale doesn't fit all
circumstances. We will make best endeavours to inform you when we expect
security notifications and fixes to be available and facilitate coordinated
disclosure when notifications and patches/mitigations are available.
## How to Report a Potential Vulnerability?
If you would like to report a public issue (for example, one with a released CVE
number), please contact the meta-arm mailing list at
meta-arm@lists.yoctoproject.org and arm-security@arm.com.
If you are dealing with a not-yet released or urgent issue, please send a mail
to the maintainers \(see [README.md](/README.md)\) and arm-security@arm.com, including as much
detail as possible. Encrypted emails using PGP are welcome.
For more information, please visit https://developer.arm.com/support/arm-security-updates/report-security-vulnerabilities.
## Branches maintained with security fixes
meta-arm follows the Yocto release model, so see
[Stable release and LTS](https://wiki.yoctoproject.org/wiki/Stable_Release_and_LTS)
for detailed info regarding the policies and maintenance of stable
branches.
The [Release page](https://wiki.yoctoproject.org/wiki/Releases) contains a list of all
releases of the Yocto Project. Versions in grey are no longer actively maintained with
security patches, but well-tested patches may still be accepted for them for
significant issues.
# Disclaimer
Arm reference solutions are Arm public example software projects that track and
pull upstream components, incorporating their respective security fixes
published over time. Arm partners are responsible for ensuring that the
components they use contain all the required security fixes, if and when they
deploy a product derived from Arm reference solutions.
-6
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@@ -1,6 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 11
includes:
- kas/arm-systemready-firmware.yml
-19
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@@ -1,19 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 11
includes:
- kas/arm-systemready-ir-acs.yml
env:
ACS_TEST: "0"
local_conf_header:
testimage: |
TESTIMAGE_AUTO = "${ACS_TEST}"
target:
- arm-systemready-ir-acs
- arm-systemready-linux-distros-debian
- arm-systemready-linux-distros-opensuse
- arm-systemready-linux-distros-fedora
+6
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@@ -0,0 +1,6 @@
header:
version: 9
local_conf_header:
cc: |
GCCVERSION = "arm-10.3"
+17 -12
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@@ -1,13 +1,11 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
distro: poky
defaults:
repos:
branch: walnascar
refspec: honister
repos:
meta-arm:
@@ -17,7 +15,7 @@ repos:
meta-arm-toolchain:
poky:
url: https://git.yoctoproject.org/poky
url: https://git.yoctoproject.org/git/poky
layers:
meta:
meta-poky:
@@ -29,17 +27,24 @@ env:
local_conf_header:
base: |
CONF_VERSION = "2"
BB_SERVER_TIMEOUT = "300"
setup: |
PACKAGE_CLASSES = "package_ipk"
LICENSE_FLAGS_WHITELIST += "armcompiler Arm-FVP-EULA"
PACKAGECONFIG:remove:pn-qemu-system-native = "gtk+ sdl"
PACKAGECONFIG:append:pn-perf = " coresight"
EXTRA_IMAGE_FEATURES:append = " debug-tweaks"
BB_NUMBER_THREADS = "16"
PARALLEL_MAKE = "-j16"
INHERIT += "rm_work"
extrapackages: |
CORE_IMAGE_EXTRA_INSTALL += "perf opencsd"
CORE_IMAGE_EXTRA_INSTALL:append:aarch64 = " gator-daemon"
PACKAGECONFIG:append:pn-perf = " coresight"
noptest: |
DISTRO_FEATURES:remove = "ptest"
sstate_mirror: |
BB_HASHSERVE_UPSTREAM = "typhoon.yocto.io:8687"
BB_HASHSERVE = "auto"
BB_SIGNATURE_HANDLER = "OEEquivHash"
SSTATE_MIRRORS = "file://.* http://sstate.yoctoproject.org/dev/PATH;downloadfilename=PATH"
machine: unset
target:
- core-image-sato
- core-image-base
- perf
+9
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@@ -0,0 +1,9 @@
header:
version: 9
target:
- binutils-cross-aarch64
- gcc-cross-aarch64
- python3-native
- opkg-native
- rpm-native
+44
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@@ -0,0 +1,44 @@
#! /usr/bin/env python3
import argparse
import pathlib
import re
import subprocess
import sys
import yaml
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument("config", type=argparse.FileType())
parser.add_argument("metaarm", type=pathlib.Path, help="Path to meta-arm")
parser.add_argument("others", type=pathlib.Path, help="Path to parent of dependencies")
args = parser.parse_args()
config = yaml.safe_load(args.config)
layers = config["layers"]
dependencies = config["dependencies"]
found_layers = [p for p in args.metaarm.glob("meta-*") if p.is_dir()]
print(f"Testing {len(layers)} layers: {', '.join(layers)}.")
print(f"Found {len(found_layers)} layers in meta-arm.")
print()
cli = ["yocto-check-layer-wrapper",]
cli.extend([args.metaarm / layer for layer in layers])
cli.append("--dependency")
cli.extend([args.others / layer for layer in dependencies])
cli.append("--no-auto-dependency")
passed = 0
process = subprocess.Popen(cli, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, universal_newlines=True)
while True:
line = process.stdout.readline()
if process.poll() is not None:
break
print(line.strip())
if re.search(r"meta-.+ PASS", line):
passed += 1
print(f"Coverage: {int(passed / len(found_layers) * 100)}%")
sys.exit(process.returncode)
+13
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@@ -0,0 +1,13 @@
layers:
- meta-arm
- meta-arm-bsp
- meta-arm-toolchain
- meta-gem5
- meta-arm-autonomy
dependencies:
- meta-openembedded/meta-oe
- meta-openembedded/meta-networking
- meta-openembedded/meta-python
- meta-openembedded/meta-filesystems
- poky/meta-poky
- meta-virtualization
+10
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@@ -0,0 +1,10 @@
header:
version: 9
target:
- binutils-cross-aarch64
- clang-cross-aarch64
- clang-native
- python3-native
- opkg-native
- rpm-native
+3 -4
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@@ -1,12 +1,11 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
repos:
meta-clang:
url: https://github.com/kraj/meta-clang
refspec: master
local_conf_header:
toolchain: |
clang: |
TOOLCHAIN = "clang"
-13
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@@ -1,13 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/base.yml
- ci/meta-openembedded.yml
- ci/meta-secure-core.yml
- kas/corstone1000-image-configuration.yml
target:
- core-image-minimal
- perf
-10
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@@ -1,10 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- kas/corstone1000-firmware-only.yml
target:
- corstone1000-flash-firmware-image
- perf
-9
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@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/corstone1000-common.yml
- ci/fvp.yml
machine: corstone1000-fvp
-8
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@@ -1,8 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/corstone1000-common.yml
machine: corstone1000-mps3
+6
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@@ -0,0 +1,6 @@
header:
version: 9
includes:
- base.yml
machine: corstone500
+10
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@@ -0,0 +1,10 @@
header:
version: 9
includes:
- base.yml
machine: corstone700-fvp
local_conf_header:
image: |
CORE_IMAGE_EXTRA_INSTALL = "corstone700-test-app"
+6
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@@ -0,0 +1,6 @@
header:
version: 9
includes:
- corstone700-fvp.yml
machine: corstone700-mps3
-21
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@@ -1,21 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
cve: |
INHERIT += "cve-check"
# Allow the runner environment to provide an API key
NVDCVE_API_KEY = "${@d.getVar('BB_ORIGENV').getVar('NVDCVE_API_KEY') or ''}"
# Just show the warnings for our layers
CVE_CHECK_SHOW_WARNINGS = "0"
CVE_CHECK_SHOW_WARNINGS:layer-arm-toolchain = "1"
CVE_CHECK_SHOW_WARNINGS:layer-meta-arm = "1"
CVE_CHECK_SHOW_WARNINGS:layer-meta-arm-bsp = "1"
CVE_CHECK_SHOW_WARNINGS:layer-meta-arm-systemready = "1"
# Ignore the kernel, we sometime carry kernels in meta-arm
CVE_CHECK_SHOW_WARNINGS:pn-linux-yocto = "0"
-9
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@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
# Add universally helpful features when testing boards
local_conf_header:
rootlogin: |
EXTRA_IMAGE_FEATURES:append = " allow-empty-password empty-root-password allow-root-login"
-31
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@@ -1,31 +0,0 @@
#! /usr/bin/env python3
"""
Download the lockfile.yml produced by a CI pipeline, specified by the GitLab
server, full name of the meta-arm project, and the refspec that was executed.
For example,
$ ./download-lockfile.py https://gitlab.com/ rossburton/meta-arm master
SPDX-FileCopyrightText: Copyright 2023 Arm Limited and Contributors
SPDX-License-Identifier: GPL-2.0-only
"""
import argparse
import gitlab
import io
import zipfile
parser = argparse.ArgumentParser()
parser.add_argument("server", help="GitLab server name")
parser.add_argument("project", help="meta-arm project name")
parser.add_argument("refspec", help="Branch/commit")
args = parser.parse_args()
gl = gitlab.Gitlab(args.server)
project = gl.projects.get(args.project)
artefact = project.artifacts.download(ref_name=args.refspec, job="update-repos")
z = zipfile.ZipFile(io.BytesIO(artefact))
z.extract("lockfile.yml")
print("Fetched lockfile.yml")
-17
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@@ -1,17 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
bootfirmware: |
PREFERRED_PROVIDER_virtual/bootloader = "edk2-firmware"
MACHINE_FEATURES += "efi"
TFA_UBOOT = "0"
TFA_UEFI = "1"
EXTRA_IMAGEDEPENDS += "edk2-firmware"
EFI_PROVIDER ?= "grub-efi"
QB_DEFAULT_BIOS = "QEMU_EFI.fd"
WKS_FILE ?= "efi-disk.wks.in"
+8
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@@ -0,0 +1,8 @@
header:
version: 9
local_conf_header:
cc: |
PNBLACKLIST[gcc-cross-arm] = "Using external toolchain"
TCMODE = "external-arm"
EXTERNAL_TOOLCHAIN = "${TOPDIR}/toolchains/${TARGET_ARCH}"
+6
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@@ -0,0 +1,6 @@
header:
version: 9
includes:
- base.yml
machine: fvp-base-arm32
-34
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@@ -1,34 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/fvp-base.yml
- ci/meta-openembedded.yml
- ci/testimage.yml
local_conf_header:
trusted_services: |
# Enable the needed test suites
TEST_SUITES = " ping ssh trusted_services"
# Include all Secure Partitions into the image
MACHINE_FEATURES:append = " arm-ffa ts-crypto ts-storage ts-its"
MACHINE_FEATURES:append = " ts-attestation ts-smm-gateway optee-spmc-test"
MACHINE_FEATURES:append = " ts-block-storage ts-fwu"
# Include TS demo/test tools into image
IMAGE_INSTALL:append = " packagegroup-ts-tests"
# Include TS PSA Arch tests into image
IMAGE_INSTALL:append = " packagegroup-ts-tests-psa"
CORE_IMAGE_EXTRA_INSTALL += "optee-test"
# Set the TS environment
TS_ENV="sp"
# Enable and configure semihosting
FVP_CONFIG[cluster0.cpu0.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster0.cpu1.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster0.cpu2.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster0.cpu3.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster1.cpu0.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster1.cpu1.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster1.cpu2.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[cluster1.cpu3.semihosting-cwd] = "${DEPLOY_DIR_IMAGE}"
FVP_CONFIG[semihosting-enable] = "True"
+11 -8
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@@ -1,13 +1,16 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- ci/fvp.yml
- base.yml
machine: fvp-base
target:
- core-image-full-cmdline
- boot-wrapper-aarch64
local_conf_header:
testimagefvp: |
INHERIT = "fvpboot"
# This fails but we can't add to the ignorelist from meta-arm yet
# https://bugzilla.yoctoproject.org/show_bug.cgi?id=14604
TEST_SUITES:remove = "parselogs"
# Tell testimage to connect to localhost:8022, and forward that to SSH in the FVP.
TEST_TARGET_IP = "localhost:8022"
FVP_CONFIG[bp.virtio_net.hostbridge.userNetPorts] ?= "8022=22"
+7
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@@ -0,0 +1,7 @@
header:
version: 9
includes:
- base.yml
machine: fvp-baser-aemv8r64
-9
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@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
testimagefvp: |
LICENSE_FLAGS_ACCEPTED += "Arm-FVP-EULA"
IMAGE_CLASSES += "fvpboot"
+6 -17
View File
@@ -1,31 +1,20 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
# Simple target to build the FVPs that are publically available
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
machine: qemuarm64
local_conf_header:
license: |
LICENSE_FLAGS_ACCEPTED += "Arm-FVP-EULA"
sdk: |
SDKMACHINE = "x86_64"
target:
# Target packages to test aarch64
- fvp-base-a-aem
- fvp-corstone1000
- fvp-rd1-ae
- fvp-v3-r1
# Nativesdk to test x86-64
- nativesdk-fvp-base-a-aem
- nativesdk-fvp-corstone1000
- nativesdk-fvp-rd1-ae
- nativesdk-fvp-v3-r1
# These are x86 only... :(
- nativesdk-fvp-n1-edge
- nativesdk-fvp-sgi575
- nativesdk-fvp-tc3
- nativesdk-fvp-corstone500
- nativesdk-fvp-corstone700
- nativesdk-fvp-tc0
-9
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@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
#NOTE: This is the default for poky. This is only being added for completeness/clarity
local_conf_header:
toolchain: |
TOOLCHAIN = "gcc"
+17
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@@ -0,0 +1,17 @@
header:
version: 9
includes:
- base.yml
- meta-openembedded.yml
repos:
meta-arm:
layers:
meta-gem5:
machine: gem5-arm64
target:
- core-image-minimal
- perf
- gem5-aarch64-native
+15
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@@ -0,0 +1,15 @@
header:
version: 9
includes:
- gem5-arm64.yml
repos:
meta-arm:
layers:
meta-atp:
machine: gem5-atp-arm64
target:
- atp-native
- core-image-minimal
+6
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@@ -0,0 +1,6 @@
header:
version: 9
includes:
- base.yml
machine: generic-arm64
-21
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@@ -1,21 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/base.yml
repos:
poky:
layers:
meta-yocto-bsp:
local_conf_header:
bootloader: |
# If running genericarm64 in a qemu we need to manually build the bootloader
EXTRA_IMAGEDEPENDS += "virtual/bootloader"
sshpregen: |
# Allow the use of the pregen keys as this is CI so safe
COMPATIBLE_MACHINE:pn-ssh-pregen-hostkeys:genericarm64 = "genericarm64"
machine: genericarm64
+46
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@@ -0,0 +1,46 @@
#!/bin/bash
set -u
HOST_ARCH=$(uname -m)
VER="10.3-2021.07"
DOWNLOAD_DIR=$1
TOOLCHAIN_DIR=$2
TOOLCHAIN_LINK_DIR=$3
# These should be already created by .gitlab-ci.yml, but do here if run outside of that env
mkdir -p $DOWNLOAD_DIR $TOOLCHAIN_DIR $TOOLCHAIN_LINK_DIR
if [ $HOST_ARCH = "aarch64" ]; then
#AArch64 Linux hosted cross compilers
#AArch32 target with hard float (arm-none-linux-gnueabihf)
wget -P $DOWNLOAD_DIR -nc https://developer.arm.com/-/media/Files/downloads/gnu-a/$VER/binrel/gcc-arm-$VER-$HOST_ARCH-arm-none-linux-gnueabihf.tar.xz
elif [ $HOST_ARCH = "x86_64" ]; then
#x86_64 Linux hosted cross compilers
#AArch32 target with hard float (arm-linux-none-gnueabihf)
wget -P $DOWNLOAD_DIR -nc https://developer.arm.com/-/media/Files/downloads/gnu-a/$VER/binrel/gcc-arm-$VER-$HOST_ARCH-arm-none-linux-gnueabihf.tar.xz
#AArch64 GNU/Linux target (aarch64-none-linux-gnu)
wget -P $DOWNLOAD_DIR -nc https://developer.arm.com/-/media/Files/downloads/gnu-a/$VER/binrel/gcc-arm-$VER-$HOST_ARCH-aarch64-none-linux-gnu.tar.xz
#AArch64 GNU/Linux target (aarch64_be-none-linux-gnu)
wget -P $DOWNLOAD_DIR -nc https://developer.arm.com/-/media/Files/downloads/gnu-a/$VER/binrel/gcc-arm-$VER-$HOST_ARCH-aarch64_be-none-linux-gnu.tar.xz
else
echo "ERROR - Unknown build arch of $HOST_ARCH"
exit 1
fi
for i in arm aarch64 aarch64_be; do
if [ ! -d $TOOLCHAIN_DIR/gcc-arm-$VER-$HOST_ARCH-$i-none-linux-gnu*/ ]; then
if [ ! -f $DOWNLOAD_DIR/gcc-arm-$VER-$HOST_ARCH-$i-none-linux-gnu*.tar.xz ]; then
continue
fi
tar -C $TOOLCHAIN_DIR -axvf $DOWNLOAD_DIR/gcc-arm-$VER-$HOST_ARCH-$i-none-linux-gnu*.tar.xz
fi
# Setup a link for the toolchain to use local to the building machine (e.g., not in a shared location)
ln -s $TOOLCHAIN_DIR/gcc-arm-$VER-$HOST_ARCH-$i-none-linux-gnu* $TOOLCHAIN_LINK_DIR/$i
done
-9
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@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
#NOTE: This is the default for poky. This is only being added for completeness/clarity
local_conf_header:
libc: |
TCLIBC = "glibc"
+11 -35
View File
@@ -1,43 +1,19 @@
#! /bin/bash
# This script is expecting an input of machine name, optionally followed by a
# colon and a list of one or more parameters separated by commas between
# brackets. For example, the following are acceptable:
# corstone1000-mps3
# fvp-base: [testimage]
# qemuarm64-secureboot: [clang, glibc, testimage]
# This argument should be quoted to avoid expansion and to be handled
# as a single value.
#
# Any further arguments will be handled as further yml file basenames.
#
# Turn this list into a series of yml files separated by colons to pass to kas
# Read a GitLab CI job name on $1 and transform it to a
# list of Kas yaml files
set -e -u
# First, parse the GitLab CI job name (CI_JOB_NAME via $1) and accumulate a list
# of Kas files.
JOBNAME="$1"
shift
# Read Job namne from $1 and split on /
IFS=/ read -r -a PARTS<<<$1
# The base name of the job
FILES="ci/$(echo $JOBNAME | cut -d ':' -f 1).yml"
# Prefix each part with ci/
PARTS=("${PARTS[@]/#/ci/}")
# The list of matrix variations
for i in $(echo $JOBNAME | cut -s -d ':' -f 2 | sed 's/[][,]//g'); do
# Given that there are no yml files for gcc or glibc, as those are the
# defaults, we can simply ignore those parameters. They are necessary
# to pass in so that matrix can correctly setup all of the permutations
# of each individual run.
if [[ $i == 'none' ]]; then
continue
fi
FILES+=":ci/$i.yml"
done
# Suffix each part with .yml
PARTS=("${PARTS[@]/%/.yml}")
# Now pick up any further names
for i in $*; do
FILES+=":ci/$i.yml"
done
echo $FILES
# Print colon-separated
IFS=":"
echo "${PARTS[*]}"
-15
View File
@@ -1,15 +0,0 @@
#! /bin/bash
# $ ci/junit.sh <build directory>
#
# If there is a OEQA test report in JSON format present in the build directory,
# transform it to JUnit XML using resulttool.
set -e -u
BUILDDIR=$1
JSON=$BUILDDIR/tmp/log/oeqa/testresults.json
if test -f $JSON; then
resulttool junit $JSON
fi
+2 -4
View File
@@ -1,8 +1,6 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
machine: juno
-8
View File
@@ -1,8 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
kernel: |
PREFERRED_PROVIDER_virtual/kernel = "linux-yocto-dev"
-8
View File
@@ -1,8 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
kernel: |
PREFERRED_PROVIDER_virtual/kernel = "linux-yocto-rt"
-9
View File
@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
#NOTE: This is the default for poky. This is only being added for completeness/clarity
local_conf_header:
kernel: |
PREFERRED_PROVIDER_virtual/kernel = "linux-yocto"
+10
View File
@@ -0,0 +1,10 @@
header:
version: 9
includes:
- meta-openembedded.yml
- meta-virtualization.yml
repos:
meta-arm:
layers:
meta-arm-autonomy:
+1 -4
View File
@@ -1,7 +1,5 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
repos:
meta-openembedded:
@@ -11,4 +9,3 @@ repos:
meta-networking:
meta-oe:
meta-python:
meta-perl:
-13
View File
@@ -1,13 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
repos:
meta-secure-core:
url: https://github.com/Wind-River/meta-secure-core.git
layers:
meta-secure-core-common:
meta-signing-key:
meta-efi-secure-boot:
+3 -5
View File
@@ -1,10 +1,8 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/meta-openembedded.yml
- meta-openembedded.yml
repos:
meta-virtualization:
url: https://git.yoctoproject.org/meta-virtualization
url: git://git.yoctoproject.org/meta-virtualization
+9
View File
@@ -0,0 +1,9 @@
header:
version: 9
includes:
- meta-openembedded.yml
repos:
meta-zephyr:
url: https://git.yoctoproject.org/git/meta-zephyr
refspec: master
+16
View File
@@ -0,0 +1,16 @@
header:
version: 9
includes:
- base.yml
- meta-zephyr.yml
local_conf_header:
nonbuilding_tests: |
ZEPHYRTESTS:remove = "common"
failing_tests: |
ZEPHYRTESTS:remove = "context early_sleep sleep"
machine: microbit-v1
target:
- zephyr-kernel-test-all
+4 -5
View File
@@ -1,12 +1,11 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- ci/meta-openembedded.yml
- base.yml
- meta-zephyr.yml
machine: musca-b1
target:
- trusted-firmware-m
- zephyr-philosophers
+3 -5
View File
@@ -1,10 +1,8 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- ci/meta-openembedded.yml
- base.yml
- meta-openembedded.yml
machine: musca-s1
+1 -3
View File
@@ -1,7 +1,5 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
local_conf_header:
libc: |
+6
View File
@@ -0,0 +1,6 @@
header:
version: 9
includes:
- base.yml
machine: n1sdp
-286
View File
@@ -1,286 +0,0 @@
#! /usr/bin/env python3
#
# SPDX-License-Identifier: GPL-2.0-only
#
# TODO
# - option to just list all broken files
# - test suite
# - validate signed-off-by
import argparse
import collections
import json
import os
import re
import subprocess
status_values = (
"accepted",
"pending",
"inappropriate",
"backport",
"submitted",
"denied",
)
class PatchResult:
# Whether the patch has an Upstream-Status or not
missing_upstream_status = False
# If the Upstream-Status tag is malformed in some way (string for bad bit)
malformed_upstream_status = None
# If the Upstream-Status value is unknown (boolean)
unknown_upstream_status = False
# The upstream status value (Pending, etc)
upstream_status = None
# Whether the patch has a Signed-off-by or not
missing_sob = False
# Whether the Signed-off-by tag is malformed in some way
malformed_sob = False
# The Signed-off-by tag value
sob = None
# Whether a patch looks like a CVE but doesn't have a CVE tag
missing_cve = False
class Summary:
total = 0
cve_missing = 0
sob_missing = 0
sob_malformed = 0
status_missing = 0
status_malformed = 0
status_pending = 0
def blame_patch(patch):
"""
From a patch filename, return a list of "commit summary (author name <author
email>)" strings representing the history.
"""
return subprocess.check_output(("git", "log",
"--follow", "--find-renames", "--diff-filter=A",
"--format=%s (%aN <%aE>)",
"--", patch)).decode("utf-8").splitlines()
def patchreview(patches):
# General pattern: start of line, optional whitespace, tag with optional
# hyphen or spaces, maybe a colon, some whitespace, then the value, all case
# insensitive.
sob_re = re.compile(r"^[\t ]*(Signed[-_ ]off[-_ ]by:?)[\t ]*(.+)", re.IGNORECASE | re.MULTILINE)
status_re = re.compile(r"^[\t ]*(Upstream[-_ ]Status:?)[\t ]*(\w*)", re.IGNORECASE | re.MULTILINE)
cve_tag_re = re.compile(r"^[\t ]*(CVE:)[\t ]*(.*)", re.IGNORECASE | re.MULTILINE)
cve_re = re.compile(r"cve-[0-9]{4}-[0-9]{4,6}", re.IGNORECASE)
results = {}
for patch in patches:
result = PatchResult()
results[patch] = result
content = open(patch, encoding="ascii", errors="ignore").read()
# Find the Signed-off-by tag
match = sob_re.search(content)
if match:
value = match.group(1)
if value != "Signed-off-by:":
result.malformed_sob = value
result.sob = match.group(2)
else:
result.missing_sob = True
# Find the Upstream-Status tag
match = status_re.search(content)
if match:
value = match.group(1)
if value != "Upstream-Status:":
result.malformed_upstream_status = value
value = match.group(2).lower()
# TODO: check case
if value not in status_values:
result.unknown_upstream_status = True
result.upstream_status = value
else:
result.missing_upstream_status = True
# Check that patches which looks like CVEs have CVE tags
if cve_re.search(patch) or cve_re.search(content):
if not cve_tag_re.search(content):
result.missing_cve = True
# TODO: extract CVE list
return results
def analyse(results, want_blame=False, verbose=True):
"""
want_blame: display blame data for each malformed patch
verbose: display per-file results instead of just summary
"""
# want_blame requires verbose, so disable blame if we're not verbose
if want_blame and not verbose:
want_blame = False
summary = Summary()
for patch in sorted(results):
r = results[patch]
summary.total += 1
need_blame = False
# Build statistics
if r.missing_sob:
summary.sob_missing += 1
if r.malformed_sob:
summary.sob_malformed += 1
if r.missing_upstream_status:
summary.status_missing += 1
if r.malformed_upstream_status or r.unknown_upstream_status:
summary.status_malformed += 1
# Count patches with no status as pending
summary.status_pending += 1
if r.missing_cve:
summary.cve_missing += 1
if r.upstream_status == "pending":
summary.status_pending += 1
# Output warnings
if r.missing_sob:
need_blame = True
if verbose:
print("Missing Signed-off-by tag (%s)" % patch)
if r.malformed_sob:
need_blame = True
if verbose:
print("Malformed Signed-off-by '%s' (%s)" % (r.malformed_sob, patch))
if r.missing_cve:
need_blame = True
if verbose:
print("Missing CVE tag (%s)" % patch)
if r.missing_upstream_status:
need_blame = True
if verbose:
print("Missing Upstream-Status tag (%s)" % patch)
if r.malformed_upstream_status:
need_blame = True
if verbose:
print("Malformed Upstream-Status '%s' (%s)" % (r.malformed_upstream_status, patch))
if r.unknown_upstream_status:
need_blame = True
if verbose:
print("Unknown Upstream-Status value '%s' (%s)" % (r.upstream_status, patch))
if want_blame and need_blame:
print("\n".join(blame_patch(patch)) + "\n")
return summary
def display_summary(summary, verbose):
def percent(num):
try:
return "%d (%d%%)" % (num, round(num * 100.0 / summary.total))
except ZeroDivisionError:
return "N/A"
if verbose:
print()
print("""Total patches found: %d
Patches missing Signed-off-by: %s
Patches with malformed Signed-off-by: %s
Patches missing CVE: %s
Patches missing Upstream-Status: %s
Patches with malformed Upstream-Status: %s
Patches in Pending state: %s""" % (summary.total,
percent(summary.sob_missing),
percent(summary.sob_malformed),
percent(summary.cve_missing),
percent(summary.status_missing),
percent(summary.status_malformed),
percent(summary.status_pending)))
def generate_metrics(summary, output):
# https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md
# Summary attribute name, MetricPoint help
mapping = (
("total", "Total patches"),
("cve_missing", "Patches missing CVE tag"),
("sob_malformed", "Patches with malformed Signed-off-by"),
("sob_missing", "Patches with missing Signed-off-by"),
("status_malformed", "Patches with malformed Upstream-Status"),
("status_missing", "Patches with missing Upstream-Status"),
("status_pending", "Patches with Pending Upstream-Status")
)
for attr, help in mapping:
metric = f"patch_check_{attr}"
value = getattr(summary, attr)
output.write(f"""
# TYPE {metric} gauge
# HELP {help}
{metric} {value}
""")
output.write("\n# EOF\n")
def histogram(results):
import math
from toolz import dicttoolz, recipes
counts = recipes.countby(lambda r: r.upstream_status, results.values())
bars = dicttoolz.valmap(lambda v: "#" * int(math.ceil(float(v) / len(results) * 100)), counts)
for k in bars:
print("%-20s %s (%d)" % (k.capitalize() if k else "No status", bars[k], counts[k]))
def gather_patches(directories):
patches = []
for directory in directories:
filenames = subprocess.check_output(("git", "-C", directory, "ls-files", "recipes-*/**/*.patch", "recipes-*/**/*.diff")).decode("utf-8").split()
patches += [os.path.join(directory, f) for f in filenames]
return patches
if __name__ == "__main__":
args = argparse.ArgumentParser(description="Patch Review Tool")
args.add_argument("-b", "--blame", action="store_true", help="show blame for malformed patches")
args.add_argument("-v", "--verbose", action="store_true", help="show per-patch results")
args.add_argument("-g", "--histogram", action="store_true", help="show patch histogram")
args.add_argument("-j", "--json", help="update JSON")
args.add_argument("-m", "--metrics", type=argparse.FileType('w'), help="write OpenMetrics")
args.add_argument("dirs", metavar="DIRECTORY", nargs="+", help="directory to scan")
args = args.parse_args()
patches = gather_patches(args.dirs)
results = patchreview(patches)
summary = analyse(results, want_blame=args.blame, verbose=args.verbose)
display_summary(summary, verbose=args.verbose)
if args.json:
if os.path.isfile(args.json):
data = json.load(open(args.json))
else:
data = []
row = collections.Counter()
row["total"] = len(results)
row["date"] = subprocess.check_output(["git", "-C", args.dirs[0], "show", "-s", "--pretty=format:%cd", "--date=format:%s"]).decode("utf-8").strip()
for r in results.values():
if r.upstream_status in status_values:
row[r.upstream_status] += 1
if r.malformed_upstream_status or r.missing_upstream_status:
row["malformed-upstream-status"] += 1
if r.malformed_sob or r.missing_sob:
row["malformed-sob"] += 1
data.append(row)
json.dump(data, open(args.json, "w"))
if args.metrics:
generate_metrics(summary, args.metrics)
if args.histogram:
print()
histogram(results)
-4
View File
@@ -1,4 +0,0 @@
header:
version: 14
distro: poky-altcfg
-16
View File
@@ -1,16 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
distro: poky-tiny
local_conf_header:
hacking: |
TEST_SUITES = "_qemutiny ping"
extrapackages: |
# Intentionally blank to prevent perf from being added to the image in base.yml
target:
- core-image-minimal
- perf
-6
View File
@@ -1,6 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
distro: poky
+14
View File
@@ -0,0 +1,14 @@
header:
version: 9
includes:
- base.yml
- meta-zephyr.yml
local_conf_header:
nonbuilding_tests: |
ZEPHYRTESTS:remove += "common device poll queue sleep"
machine: qemu-cortex-a53
target:
- zephyr-kernel-test-all
+16
View File
@@ -0,0 +1,16 @@
header:
version: 9
includes:
- base.yml
- meta-zephyr.yml
local_conf_header:
tclibc: |
TCLIBC = "newlib"
nonbuilding_tests: |
ZEPHYRTESTS:remove = "common context pending poll sleep"
machine: qemu-cortex-m3
target:
- zephyr-kernel-test-all
+10
View File
@@ -0,0 +1,10 @@
header:
version: 9
includes:
- base.yml
- meta-zephyr.yml
machine: qemu-cortex-r5
target:
- zephyr-philosophers
-16
View File
@@ -1,16 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/base.yml
machine: qemuarm-secureboot
target:
- core-image-base
local_conf_header:
optee: |
IMAGE_INSTALL:append = " optee-test optee-client optee-os-ta"
TEST_SUITES:append = " optee ftpm"
+2 -4
View File
@@ -1,8 +1,6 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
machine: qemuarm
+11
View File
@@ -0,0 +1,11 @@
header:
version: 9
includes:
- base.yml
machine: qemuarm64-sbsa
target:
- core-image-base
- perf
- sbsa-acs
-17
View File
@@ -1,17 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/meta-openembedded.yml
local_conf_header:
trusted_services: |
TEST_SUITES:append = " trusted_services"
# Include TS Crypto, TS Protected Storage, and TS Internal Trusted Storage and SPs into optee-os image
# FIXME - remove TS SMM Gateway due to QEMU v9.0.0 test failures
MACHINE_FEATURES:append = " arm-ffa ts-crypto ts-storage ts-its"
# Include TS demo/test tools into image
IMAGE_INSTALL:append = " packagegroup-ts-tests"
# Include TS PSA Arch tests into image
IMAGE_INSTALL:append = " packagegroup-ts-tests-psa"
+9 -9
View File
@@ -1,16 +1,16 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
machine: qemuarm64-secureboot
local_conf_header:
bugs: |
# Only ping until errors can be resolved
TEST_SUITES = "ping"
target:
- core-image-base
local_conf_header:
optee: |
IMAGE_INSTALL:append = " optee-test optee-client optee-os-ta"
TEST_SUITES:append = " optee ftpm"
- perf
- optee-examples
+2 -4
View File
@@ -1,8 +1,6 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
machine: qemuarm64
+2 -4
View File
@@ -1,8 +1,6 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
machine: qemuarmv5
-12
View File
@@ -1,12 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/base.yml
machine: sbsa-ref
target:
- core-image-sato
- sbsa-acs
-8
View File
@@ -1,8 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
secure-debug: |
MACHINE_FEATURES += "secure-debug"
-9
View File
@@ -1,9 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
setup: |
BB_LOGCONFIG = ""
SANITY_TESTED_DISTROS = ""
+2 -10
View File
@@ -1,14 +1,6 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- ci/fvp.yml
local_conf_header:
sshpregen: |
# Allow the use of the pregen keys as this is CI so safe
COMPATIBLE_MACHINE:pn-ssh-pregen-hostkeys:sgi575 = "sgi575"
- base.yml
machine: sgi575
-11
View File
@@ -1,11 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
sstate_mirror: |
BB_HASHSERVE_UPSTREAM = "wss://hashserv.yoctoproject.org/ws"
SSTATE_MIRRORS = "file://.* http://cdn.jsdelivr.net/yocto/sstate/all/PATH;downloadfilename=PATH"
BB_HASHSERVE = "auto"
BB_SIGNATURE_HANDLER = "OEEquivHash"
+10
View File
@@ -0,0 +1,10 @@
header:
version: 9
includes:
- base.yml
machine: tc0
target:
- tc-artifacts-image
- perf
+10
View File
@@ -0,0 +1,10 @@
header:
version: 9
includes:
- base.yml
machine: tc1
target:
- tc-artifacts-image
- perf
+8
View File
@@ -0,0 +1,8 @@
header:
version: 9
local_conf_header:
testimage: |
IMAGE_CLASSES += "testimage"
TEST_TARGET = "QemuTargetZephyr"
TEST_SUITES = "zephyr"
+9 -13
View File
@@ -1,21 +1,17 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
includes:
- ci/debug.yml
version: 9
local_conf_header:
testimage: |
IMAGE_CLASSES += "testimage"
TESTIMAGE_AUTO = "1"
kvm: |
QEMU_USE_KVM = ""
slirp: |
TEST_RUNQEMUPARAMS = "slirp"
sshd: |
IMAGE_FEATURES += "ssh-server-dropbear"
sshkeys: |
CORE_IMAGE_EXTRA_INSTALL += "ssh-pregen-hostkeys"
universally_failing_tests: |
TEST_SUITES:remove = "opkg"
TEST_SERVER_IP = "127.0.0.1"
QEMU_USE_SLIRP = "1"
packages: |
IMAGE_FEATURES:append = " ssh-server-dropbear"
# Multiple targets are available, put it down to just one
target:
- core-image-base
-10
View File
@@ -1,10 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
tftf: |
TFA_UBOOT = "0"
TFA_UEFI = "0"
TFTF_TESTS = "1"
+4 -4
View File
@@ -1,9 +1,7 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/base.yml
- base.yml
# Target is arm64 and SDK is x86-64 to ensure that we exercise both
# architectures
@@ -13,7 +11,9 @@ local_conf_header:
toolchains: |
SDKMACHINE = "x86_64"
# No target armcompiler as currently there is no arm64 build
target:
- nativesdk-armcompiler
- gcc-aarch64-none-elf
- nativesdk-gcc-aarch64-none-elf
- gcc-arm-none-eabi
-10
View File
@@ -1,10 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
bootfirmware: |
PREFERRED_PROVIDER_virtual/bootloader = "u-boot"
TFA_UBOOT = "1"
TFA_UEFI = "0"
-51
View File
@@ -1,51 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
# UEFI Secure Boot: A mechanism to ensure that only trusted software is executed
# during the boot process.
header:
version: 14
includes:
- ci/meta-openembedded.yml
- ci/meta-secure-core.yml
local_conf_header:
uefi_secureboot: |
SBSIGN_KEYS_DIR = "${TOPDIR}/sbkeys"
BB_ENV_PASSTHROUGH_ADDITIONS = "SBSIGN_KEYS_DIR"
# Detected by passing kernel parameter
QB_KERNEL_ROOT = ""
# kernel is in the image, should not be loaded separately
QB_DEFAULT_KERNEL = "none"
WKS_FILE = "efi-disk.wks.in"
KERNEL_IMAGETYPE = "Image"
MACHINE_FEATURES:append = " efi uefi-secureboot uefi-http-boot uefi-capsule-updates"
EFI_PROVIDER = "systemd-boot"
# Use systemd as the init system
INIT_MANAGER = "systemd"
IMAGE_INSTALL:append = " systemd systemd-boot util-linux coreutils"
TEST_SUITES:append = " uefi_secureboot uki"
IMAGE_CLASSES += "uki"
IMAGE_CLASSES += "sbsign"
UKI_SB_KEY = "${SBSIGN_KEY}"
UKI_SB_CERT = "${SBSIGN_CERT}"
QB_KERNEL_ROOT = ""
IMAGE_BOOT_FILES:remove = "Image"
INITRAMFS_IMAGE = "core-image-initramfs-boot"
# not for initramfs image recipe
IMAGE_CLASSES:remove:pn-core-image-initramfs-boot = "uki"
IMAGE_CLASSES:remove:pn-core-image-initramfs-boot = "sbsign"
IMAGE_CLASSES:remove:pn-core-image-initramfs-boot = "testimage"
IMAGE_FEATURES:remove:pn-core-image-initramfs-boot = "ssh-server-dropbear"
CORE_IMAGE_EXTRA_INSTALL:remove:pn-core-image-initramfs-boot = "ssh-pregen-hostkeys"
+5 -18
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@@ -4,7 +4,6 @@
import sys
import os
import shutil
import subprocess
import pathlib
@@ -20,9 +19,10 @@ def repo_shortname(url):
.replace('*', '.'))
repositories = (
"https://git.yoctoproject.org/poky",
"https://git.yoctoproject.org/git/poky",
"https://git.openembedded.org/meta-openembedded",
"https://git.yoctoproject.org/meta-virtualization",
"https://git.yoctoproject.org/git/meta-virtualization",
"https://git.yoctoproject.org/git/meta-zephyr",
"https://github.com/kraj/meta-clang",
)
@@ -32,25 +32,12 @@ if __name__ == "__main__":
sys.exit(1)
base_repodir = pathlib.Path(os.environ["KAS_REPO_REF_DIR"])
failed = False
for repo in repositories:
repodir = base_repodir / repo_shortname(repo)
if "CI_CLEAN_REPOS" in os.environ:
print("Cleaning %s..." % repo)
shutil.rmtree(repodir, ignore_errors=True)
if repodir.exists():
try:
print("Updating %s..." % repo)
subprocess.run(["git", "-C", repodir, "-c", "gc.autoDetach=false", "fetch", repo], check=True)
except subprocess.CalledProcessError as e:
print(e)
failed = True
print("Updating %s..." % repo)
subprocess.run(["git", "-C", repodir, "fetch"], check=True)
else:
print("Cloning %s..." % repo)
subprocess.run(["git", "clone", "--bare", repo, repodir], check=True)
if failed:
sys.exit(128)
+2 -7
View File
@@ -1,16 +1,11 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
version: 9
includes:
- ci/meta-virtualization.yml
- ci/poky-altcfg.yml
- meta-virtualization.yml
local_conf_header:
meta-virt: |
DISTRO_FEATURES:append = " virtualization xen"
sshd: |
IMAGE_FEATURES:append = " ssh-server-openssh"
target:
- xen-image-minimal
@@ -1,67 +0,0 @@
# **CI for Yocto Project and meta-arm**
# **CI for Yocto Project**
The Yocto Project has an autobuilder that performs nightly builds and image tests on all of the defined QEMU machines, including qemuarm and qemuarm64 Also, it currently runs builds on the hardware reference platforms including genericarm64 and meta-arm mahines fvp-base and sbsa-ref. More information on the autobuilder can be found at <https://autobuilder.yoctoproject.org/>.
More information on the image tests can be found at <https://wiki.yoctoproject.org/wiki/Image_tests>.
The Yocto Project also has the ability to have individual package tests, ptests.  For more information on those, go to <https://wiki.yoctoproject.org/wiki/Ptest>.
# **CI for meta-arm**
meta-arm is using the Gitlab CI infrastructure.  This is currently being done internal to Arm, but an external version can be seen at <https://gitlab.com/jonmason00/meta-arm/-/pipelines>.
This CI is constantly being expanded to provide increased coverage of the software and hardware supported in meta-arm. All platforms are required to add a kas file and `.gitlab-ci.yml` entry as part of the initial patch series. More information on kas can be found at <https://github.com/siemens/kas>.
To this end, it would be wise to run kas locally to verify everything works prior to pushing to the CI build system.
## **Running kas locally**
### **Install kas**
kas can be installed with pip, for example:
```
$ pip3 install --user kas
```
See <https://kas.readthedocs.io/en/latest/userguide/getting-started.html> for information on the dependencies and more.
This assumes that the kas path ($HOME/.local/bin) is in $PATH. If not, the user will need to manually add this or the kas command will not be found.
### **Run kas locally**
```
$ cd ~/meta-arm/
$ kas build kas/juno.yml
```
By default kas will create a build directory under meta-arm to contain the checked out layers, build directory, and downloads.  You can change this by setting environment variables. DL\_DIR and SSTATE\_DIR are respected so these can point at existing directories, and setting KAS\_WORK\_DIR to the directory where repositories are already cloned will save having to re-fetch. This can look something like:
```
$ SSTATE_DIR=/builds/persist/sstate DL_DIR=/builds/persist/downloads kas build ci/qemuarm64.yml:ci/testimage.yml
```
See the [quick start guide](/documentation/quick-start.md) for more information on how to set this up.
## **Locked Revisions in CI with lockfiles**
The CI in meta-arm will generate a kas "lock file" when it starts to ensure that all of the builds checkout the same revision of the various different layers that are used. If this isn't done then there's a chance that a layer will be modified upstream during the CI, which results in some builds failing and some builds passing.
This lock file is saved as an artefact of the update-repos job by the CI, and only generated if it doesn't already exist in the repository. This can be used to force specific revisions of layers to be used instead of HEAD, which can be useful if upstream changes are causing problems in development.
The lockfile.yml can be downloaded manually, but there's a script in meta-arm to fetch the lock file for the latest successful build of the specified branch:
```
$ ./ci/download-lockfile.py --help
usage: download-lockfile.py [-h] server project refspec
positional arguments:
server GitLab server name
project meta-arm project name
refspec Branch/commit
$ ./ci/download-lockfile.py https://gitlab.com/jonmason00/meta-arm master
Fetched lockfile.yml
Commit this lockfile.yml to the top-level of the meta-arm repository and the CI will use it automatically.
```
# **Relevant Links for kas, CI, and testing**
<https://github.com/siemens/kas.git>
<https://wiki.yoctoproject.org/wiki/Oe-selftest>
<https://wiki.yoctoproject.org/wiki/Image_tests>
<https://wiki.yoctoproject.org/wiki/Ptest>
<https://wiki.yoctoproject.org/wiki/BSP_Test_Plan>
-49
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@@ -1,49 +0,0 @@
# OEQA on Arm FVPs
OE-Core's [oeqa][OEQA] framework provides a method of performing runtime tests on machines using the `testimage` Yocto task. meta-arm has good support for writing test cases against [Arm FVPs][FVP], meaning the [runfvp][RUNFVP] boot configuration can be re-used.
Tests can be configured to run automatically post-build by setting the variable `TESTIMAGE_AUTO="1"`, e.g. in your Kas file or local.conf.
meta-arm provides the OEFVPTarget which must be set up in the machine configuration:
```
TEST_TARGET = "OEFVPTarget"
TEST_SERVER_IP = "127.0.0.1"
TEST_TARGET_IP = "127.0.0.1:2222"
IMAGE_FEATURES:append = " ssh-server-dropbear"
FVP_CONFIG[bp.virtio_net.hostbridge.userNetPorts] ?= "2222=22"
FVP_CONSOLES[default] = "terminal_0"
FVP_CONSOLES[tf-a] = "s_terminal_0"
```
The test target also generates a log file with the prefix 'fvp_log' in the image recipe's `${WORKDIR}/testimage` containing the FVP's stdout.
OEFVPTarget supports two different test interfaces - SSH and pexpect.
## SSH
As in OEQA in OE-core, tests cases can run commands on the machine using SSH. It therefore requires that an SSH server is installed in the image.
This uses the `run` method on the target, e.g:
```
(status, output) = self.target.run('uname -a')
```
which executes a single command on the target (using `ssh -c`) and returns the status code and the output. It is therefore useful for running tests in a Linux environment.
For examples of test cases, see meta/lib/oeqa/runtime/cases in OE-Core. The majority of test cases depend on `ssh.SSHTest.test_ssh`, which first validates that the SSH connection is functioning.
## pexpect
To support firmware and baremetal testing, OEFVPTarget also allows test cases to make assertions against one or more consoles using the pexpect library.
Internally, this test target launches a [Pexpect][PEXPECT] instance for each entry in FVP_CONSOLES which can be used with the provided alias. The whole Pexpect API is exposed on the target, where the alias is always passed as the first argument, e.g.:
```
self.target.expect('default', r'root@.*\:~#', timeout=30)
self.assertNotIn(b'ERROR:', self.target.before('tf-a'))
```
For an example of a full test case, see meta-arm/lib/oeqa/runtime/cases/linuxboot.py This test case can be used to minimally verify that a machine boots to a Linux shell. The default timeout is 10 minutes, but this can be configured with the variable TEST_FVP_LINUX_BOOT_TIMEOUT, which expects a value in seconds.
[OEQA]: https://docs.yoctoproject.org/test-manual/intro.html
[FVP]: https://developer.arm.com/tools-and-software/simulation-models/fixed-virtual-platforms
[RUNFVP]: runfvp.md
[PEXPECT]: https://pexpect.readthedocs.io/en/stable/overview.html
-105
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@@ -1,105 +0,0 @@
# **Yocto Project quick start for Arm system software developers**
If you want to read the The Yocto Project official quick start documentation, go to <https://docs.yoctoproject.org/brief-yoctoprojectqs/index.html>
If that looks like too much reading, then here is how to do it even faster!
# **Step 0: Install build deps and kas**
```
$ sudo apt install gawk wget git diffstat unzip texinfo gcc build-essential chrpath socat cpio python3 python3-pip python3-pexpect xz-utils debianutils iputils-ping python3-git python3-jinja2 libegl1-mesa libsdl1.2-dev python3-subunit mesa-common-dev zstd liblz4-tool file locales libacl1
$ pip install kas
```
OR, if you prefer to use a docker will all that stuff already installed:
```
$ sudo docker run -it --name kas-test --volume /mnt/yocto/:/builds/persist ghcr.io/siemens/kas/kas /bin/bash
```
> **_NOTE:_**
> the “--volume” is the directory where your persistent stuff (like downloads and build artifacts) will go to help speed up your builds and can be sharable amongst your builds/containers.  If you want to go completely clean-room, feel free to remove it
# **Step 1: clone meta-arm and build meta-arm**
```
$ git clone https://git.yoctoproject.org/meta-arm
$ cd meta-arm/
$ SSTATE_DIR=/builds/persist/sstate DL_DIR=/builds/persist/downloads kas build ci/fvp-base.yml:ci/testimage.yml
```
> **_NOTE:_**
> “ci/testimage.yml” will cause the build to run some basic system tests.  If you dont care about verifying basic functionality, then remove it and it should be faster (a few less programs will be added to the system image and the 2-3mins that it takes to run the test will not happen).
> **_NOTE:_**
> You may wish to add the Yocto Project SSTATE Mirror (especially the first time) to speed up the build by downloading the build fragments (built by the Yocto Project autobuilder) from the internet. This can be done by adding "ci/sstate-mirror.yml" in kas or adding the relevant lines to your local.conf. Using the above example:
```
$ SSTATE_DIR=/builds/persist/sstate DL_DIR=/builds/persist/downloads kas build ci/fvp-base.yml:ci/sstate-mirror.yml
```
> **_NOTE:_**
> This only fetches the parts necessary for your build and may take several minutes depending on your internet connection speed. Also, it only fetches what is available. There may still be a need to build things depending on your configuration.
For more information on kas and various commands, please reference <https://kas.readthedocs.io/en/latest/>.
Depending on what software you are building, fvp-base might not be the machine you want to build for.
The following website provides an EXTREMELY rough way to tell what software is in what machines, and what versions are being run:
<https://gitlab.com/jonmason00/meta-arm/-/jobs/artifacts/master/file/update-report/index.html?job=pending-updates>
If, as an example, were wanting to develop trusted-firmware-a; then fvp-base will work for us. 
### **Okay, you are done!  VICTORY!**
### **Oh, you actually wanted to mess around with the system software source code?**
# **Step 2: use devtool to get your source**
Setup your environment via the (non-kas) Yocto Project tools
```
$ source poky/oe-init-build-env
```
Use devtool to checkout the version of software being used on the machine above (in the above example, this will be trusted-firmware-a for fvp-base).
```
$ devtool modify trusted-firmware-a
```
This will download the source, hopefully in git (depending on how the Yocto Project recipe was written), and should print a path at the end where the source code was checked out.  In the trusted-firmware-a example, I got:
> /builder/meta-arm/build/workspace/sources/trusted-firmware-a
Inside of that directory, you should see the relevant source code.  In this example, it is a standard git tree.  So, you can add remotes, checkout different SHAs, etc
Ok, so you are set with your changes and want to build them.
```
$ devtool build trusted-firmware-a
```
This should build the software in question, but it is not yet integrated into a system image.  To do that, run:
```
$ devtool build-image core-image-sato
```
The image should match the image being used on your machine above.  Most of them in meta-arm are set to core-image-sato.  
Also, if you used testimage above, it will run testimage now
### **Okay, you are done!  VICTORY!**
# **Step 3.  Testing your patches outside of devtool**
At this point I will assume you have a patch and want to add it to the base recipe.  Using the above example, in the devtool directory:
```
$ git format-patch -1
0001-example.patch
$ mv 0001-example.patch ~/meta-arm/meta-arm/recipes-bsp/trusted-firmware-a/files/
$ cd ~/meta-arm
$ devtool reset trusted-firmware-a
$ echo SRC_URI:append = " file://0001-example.patch" >> meta-arm/recipes-bsp/trusted-firmware-a/trusted-firmware-a_2.10.3.bb
```
> **_NOTE:_**
> there is a space before the “file” and yes it matters very much
At this point, you can go back using kas and verify that the patch works in a clean-ish tree.
```
$ SSTATE_DIR=/builds/persist/sstate DL_DIR=/builds/persist/downloads kas build ci/fvp-base.yml:ci/testimage.yml
```
There is obviously much more that can be done and other ways to do similar things.
## **If there are issues or questions then please ask them on the #meta-arm irc channel on libera.chat**
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@@ -1,43 +0,0 @@
# **meta-arm Releases and Branching**
## **Release and Branching background**
The Yocto Project releases twice a year (April and October): "stable" releases are made every six months and have a lifetime of seven months to allow for migration, while "long term support" (LTS) releases are picked every two years starting from Dunfell in April 2020. The standard practice for all Yocto Compatible layers is to create a "named" branch consistent with the code name of that release. For example, the “dunfell” release of the Yocto Project will have a branch named “dunfell” in the official git repository, and layers compatible with dunfell will have a branch named “dunfell”. Thus, a customer can easily organize a collection of appropriate layers to make a product.
In the Yocto Project, these named branches are “stable”, and only take bug fixes or security-critical upgrades. Active development occurs on the master branch. However, this methodology can be problematic if mimicked with the compatible layers. Companies, like Arm, may not wish to release a snapshot of the relevant “master” branches under active development, due to the amount of testing, fixing, and hardening necessary to make a product from a non-stable release. Also, changes to keep the master branch of a layer working with the upstream master branch of the Yocto Project may result in that branch no longer being compatible with named branches (e.g., it might not be possible to mix and match master and dunfell). So, a decision must be made on the branching policy of meta-arm.
## **Adding new Hardware or Software features**
There are many different ways to resolve this issue. After some discussion, the best solution for us is to allow new hardware enablement (and relevant software features) to be included in LTS named branches (not just bug fixes). This will allow for a more stable software platform for software to be developed, tested, and released. Also, the single branch allows for focused testing (limiting the amount of resources needed for CI/CD), lessens/eliminates code diverging on various branches, and lessens confusion on which branch to use. The risk of making this choice is a potentially non-stable branch which will require more frequent testing to lessen the risk, and not following the “stable” methodology of the core Yocto Project layers (though it is not uncommon for BSP layers to behave this way).
## **Process**
The process for patches intended on being integrated into only the master branch is the normal internal process of pushing for code review and CI, approval and integration into upstream meta-arm master branch.
For patches intended on being included in an LTS named branch, the preferred process is to upstream via the master branch, rebase the patch (or series against the intended LTS branch) and send email with the release name in the subject line after the "PATCH" (e.g., "[PATCH dunfell] Add foo to bar").
If there is a time crunch and the preferred way above cannot be completed in time, upstreaming via the LTS branch can occur. This follows the normal process above but without the master integration step. However, any patches upstreamed in this manner must be pushed to master in a timely fashion (after the time crunch). Nagging emails will be sent and managers will be involved as the time grows.
## **Testing**
See [continuous-integration-and-kas.md](/documentation/continuous-integration-and-kas.md) for information how the layer is tested and what tests are run. It is presumed that all code will be compiled as part of the CI process of the gerrit code review. Also, testing on virtual platforms and code conformity checks will be run when enabled in the process.
## **Branching strategy and releases**
Named branches for meta-arm will be released as close as possible to the release of the YP LTS release. Meta-arm named branches will be created from the meta-arm master branch.
To minimize the additional work of maintaining multiple branches it is assumed that there will only be two active development branches at any given time: master and the most recent Long Term Stable (LTS) as the named branch. All previous named LTS branches will be EOLed when a new LTS has been released. Any branches that are EOLed will still exist in the meta-arm, but bug fix patches will be accepted. Limited to no testing will occur on EOLed branches. Exceptions to this can be made, but must be sized appropriately and agreed to by the relevant parties.
Named branch release will coincide with Yocto Project releases. These non-LTS branches will be bug fix only and will be EOLed on the next release (similar to the YP branching behavior).
### **Branch transitions**
When YP is approaching release, meta-arm will attempt to stabilize master so that the releases can coincide.
* T-6 weeks - Email is sent to meta-arm mailing list notifying of upcoming code freeze of features to meta-arm
* T-4 weeks - Code freeze to meta-arm. Only bug fixes are taken at this point.
* T-0 - Official upstream release occurs. With no outstanding critical bugs, a new named branch is created based on the current meta-arm master branch. Previous named branches are now frozen and will not accept new patches (but will continue to be present for reference and legacy usage).
## **Tagging**
### **Branch Tagging**
When each branch is released, a git tag with the Yocto Project version number will be added. For example, `4.3`. Also, this tag version number will be prepended with "yocto" in a duplicate tag (e.g., "yocto-4.3").
Conciding with the Yocto Project release schedule, every branch which has one or more changes added to it in the previous 6 months will get a minor versioned tag (e.g., "4.3.1" and "yocto-4.3.1").
### **BSP Release Tagging**
BSP releases for those boards supported in meta-arm-bsp maybe have an additional tag to denote their software releases. The tag will consist of the board name (in all capital letters), year, and month. For example, "CORSTONE1000-2023.11".
The release schedule for this is outside the standard Yocto Project release candence, but is generally encouraged to be as close to these releases as possible. Similarily, it is recommended the BSP releases be based on the latest LTS branch.
# **Relevant Links**
<https://wiki.yoctoproject.org/wiki/Releases>
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@@ -1,131 +0,0 @@
# Running Images with a FVP
The `runfvp` tool in meta-arm makes it easy to run Yocto Project disk images inside a [Fixed Virtual Platform (FVP)][FVP]. Some FVPs, such as the [Arm Architecture Models][AEM], are available free to download, but others need registration or are only available commercially. The `fvp-base` machine in meta-arm-bsp uses one of these AEM models.
## Running images with `runfvp`
To build images with the FVP integration, the `fvpboot` image class needs to be inherited. If the machine does not do this explicitly it can be done in `local.conf`:
```
IMAGE_CLASSES += "fvpboot"
```
The class will download the correct FVP and write a `.fvpconf` configuration file when an image is built.
To run an image in a FVP, pass either a machine name or a `.fvpconf` path to `runfvp`.
```
$ ./meta-arm/scripts/runfvp tmp/deploy/images/fvp-base/core-image-minimal-fvp-base.fvpconf
```
When a machine name is passed, `runfvp` will start the latest image that has been built for that machine. This requires that the BitBake environment has been initialized (using `oe-init-build-env` or similar) as it will start BitBake to determine where the images are.
```
$ ./meta-arm/scripts/runfvp fvp-base
```
Note that currently meta-arm's `scripts` directory isn't in `PATH`, so a full path needs to be used.
`runfvp` will automatically start terminals connected to each of the serial ports that the machine specifies. This can be controlled by using the `--terminals` option, for example `--terminals=none` will mean no terminals are started, and `--terminals=tmux` will start the terminals in [`tmux`][tmux] sessions. Alternatively, passing `--console` will connect the serial port directly to the current session, without needing to open further windows.
The default terminal can also be configured by writing a [INI-style][INI] configuration file to `~/.config/runfvp.conf`:
```
[RunFVP]
Terminal=tmux
```
Arbitrary options can be passed directly to the FVP by specifying them after a double dash, for example this will list all of the FVP parameters:
```
$ runfvp fvp-base -- --list-params
```
## Configuring machines with `fvpboot`
To configure a machine so that it can be ran inside `runfvp`, a number of variables need to be set in the machine configuration file (such as `meta-arm-bsp/conf/machine/fvp-base.conf`).
Note that at present these variables are not stable and their behaviour may be changed in the future.
### `FVP_EXE`
The name of the FVP binary itself, for example `fvp-base` uses `FVP_Base_RevC-2xAEMvA`.
### `FVP_PROVIDER`
The name of the recipe that provides the FVP executable set in `FVP_EXE`, for example `fvp-base` uses `fvp-base-a-aem-native`. This *must* be a `-native` recipe as the binary will be executed on the build host.
There are recipes for common FVPs in meta-arm already, and writing new recipes is trivial. For FVPs which are free to download `fvp-base-a-aem.bb` is a good example. Some FVPs must be downloaded separately as they need an account on Arm's website.
If `FVP_PROVIDER` is not set then it is assumed that `FVP_EXE` is installed on the host already.
### `FVP_CONFIG`
Parameters passed to the FVP with the `--parameter`/`-C` option. These are expressed as variable flags so individual parameters can be altered easily. For example:
```
FVP_CONFIG[bp.flashloader0.fname] = "fip-fvp.bin"
```
### `FVP_DATA`
Specify raw data to load at the specified address, passed to the FVP with the `--data` option. This is a space-separated list of parameters in the format `[INST=]FILE@[MEMSPACE:]ADDRESS`. For example:
```
FVP_DATA = "cluster0.cpu0=Image@0x80080000 \
cluster0.cpu0=fvp-base-revc.dtb@0x83000000"
```
### `FVP_APPLICATIONS`
Applications to load on the cores, passed to the FVP with the `--application` option. These are expressed as variable flags with the flag name being the instance and flag value the filename, for example:
```
FVP_APPLICATIONS[cluster0] = "linux-system.axf"
```
Note that symbols are not allowed in flag names, so if you need to use a wildcard in the instance then you'll need to use `FVP_EXTRA_ARGS` and `--application` directly.
### `FVP_TERMINALS`
Map hardware serial ports to abstract names. For example the `FVP_Base_RevC-2xAEMvA` FVP exposes four serial ports, `terminal_0` to `terminal_3`. Typically only `terminal_0` is used in the `fvp-base` machine so this can be named `"Console"` and the others `""`. When runfvp starts terminals it will only start named serial ports, so instead of opening four windows where only one is useful, it will only open one.
For example:
```
FVP_TERMINALS[bp.terminal_0] = "Console"
FVP_TERMINALS[bp.terminal_1] = ""
FVP_TERMINALS[bp.terminal_2] = ""
FVP_TERMINALS[bp.terminal_3] = ""
```
### `FVP_CONSOLES`
This specifies what serial ports can be used in oeqa tests, along with an alias to be used in the test cases. Note that the values have to be the FVP identifier but without the board prefix, for example:
```
FVP_CONSOLES[default] = "terminal_0"
FVP_CONSOLES[tf-a] = "s_terminal_0"
```
The 'default' console is also used when `--console` is passed to runfvp.
### `FVP_EXTRA_ARGS`
Arbitrary extra arguments that are passed directly to the FVP. For example:
```
FVP_EXTRA_ARGS = "--simlimit 60"
```
### `FVP_ENV_PASSTHROUGH`
The FVP is launched with an isolated set of environment variables. Add the name of a Bitbake variable to this list to pass it through to the FVP environment. For example:
```
FVP_ENV_PASSTHROUGH = "ARMLMD_LICENSE_FILE FM_TRACE_PLUGINS"
```
[AEM]: https://developer.arm.com/tools-and-software/simulation-models/fixed-virtual-platforms/arm-ecosystem-models
[FVP]: https://developer.arm.com/tools-and-software/simulation-models/fixed-virtual-platforms
[tmux]: https://tmux.github.io/
[INI]: https://docs.python.org/3/library/configparser.html
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# The Trusted Services: framework for developing root-of-trust services
meta-arm layer includes recipes for [Trusted Services][^1] Secure Partitions and Normal World applications
in `meta-arm/recipes-security/trusted-services`
## Secure Partitions recipes
We define dedicated recipes for all supported Trusted Services (TS) Secure Partitions.
These recipes produce ELF and DTB files for SPs.
These files are automatically included into optee-os image accordingly to defined MACHINE_FEATURES.
### How to include TS SPs
To include TS SPs into optee-os image you need to add into MACHINE_FEATURES
features for each [Secure Partition][^2] you would like to include:
| Secure Partition | MACHINE_FEATURE |
| ----------------- | --------------- |
| Attestation | ts-attesation |
| Crypto | ts-crypto |
| Firmware Update | ts-fwu
| Internal Storage | ts-its |
| Protected Storage | ts-storage |
| se-proxy | ts-se-proxy |
| smm-gateway | ts-smm-gateway |
| spm-test[1-4] | optee-spmc-test |
Other steps depend on your machine/platform definition:
1. For communications between Secure and Normal Words Linux kernel option `CONFIG_ARM_FFA_TRANSPORT=y`
is required. If your platform doesn't include it already you can add `arm-ffa` into MACHINE_FEATURES.
(Please see ` meta-arm/recipes-kernel/arm-tstee`.)
For running the `uefi-test` or the `xtest -t ffa_spmc` tests under Linux the `arm-ffa-user` drivel is required. This is
enabled if the `ts-smm-gateway` and/or the `optee-spmc-test` machine features are enabled.
(Please see ` meta-arm/recipes-kernel/arm-ffa-user`.)
2. optee-os might require platform specific OP-TEE build parameters (for example what SEL the SPM Core is implemented at).
You can find examples in `meta-arm/recipes-security/optee/optee-os_%.bbappend` for qemuarm64-secureboot machine
and in `meta-arm-bsp/recipes-security/optee/optee-os-corstone1000-common.inc` for the Corstone1000 platform.
3. trusted-firmware-a might require platform specific TF-A build parameters (SPD and SPMC details on the platform).
See `meta-arm/recipes-bsp/trusted-firmware-a/trusted-firmware-a_%.bbappend` for qemuarm64-secureboot machine
and in `meta-arm-bsp/recipes-bsp/trusted-firmware-a/trusted-firmware-a-corstone1000.inc` for theCorstone1000 platform.
4. Trusted Services supports an SPMC agonistic binary format. To build SPs to this format the `TS_ENV` variable is to be
set to `sp`. The resulting SP binaries should be able to boot under any FF-A v1.1 compliant SPMC implementation.
## Normal World applications
Optionally for testing purposes you can add `packagegroup-ts-tests` into your image. It includes
[Trusted Services test and demo tools][^3] and [xtest][^4] configured to include the `ffa_spmc` tests.
## OEQA Trusted Services tests
meta-arm also includes Trusted Service OEQA tests which can be used for automated testing.
See `ci/trusted-services.yml` for an example how to include them into an image.
------
[^1]: https://trusted-services.readthedocs.io/en/integration/overview/index.html
[^2]: https://trusted-services.readthedocs.io/en/integration/deployments/secure-partitions.html
[^3]: https://trusted-services.readthedocs.io/en/integration/deployments/test-executables.html
[^4]: https://optee.readthedocs.io/en/latest/building/gits/optee_test.html
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@@ -1,12 +0,0 @@
header:
version: 13
repos:
meta-arm:
layers:
meta-arm-systemready:
distro: nodistro
target:
- arm-systemready-firmware
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@@ -1,12 +0,0 @@
header:
version: 13
includes:
- kas/arm-systemready-firmware.yml
env:
TESTIMAGE_AUTO: "1"
# The full testimage run typically takes around 12-24h on fvp-base.
TEST_OVERALL_TIMEOUT: "${@ 24*60*60}"
target:
- arm-systemready-ir-acs
@@ -1,8 +0,0 @@
header:
version: 13
includes:
- kas/arm-systemready-firmware.yml
- kas/arm-systemready-linux-distros-unattended-installation.yml
target:
- arm-systemready-linux-distros-debian
@@ -1,8 +0,0 @@
header:
version: 16
includes:
- kas/arm-systemready-firmware.yml
- kas/arm-systemready-linux-distros-unattended-installation.yml
target:
- arm-systemready-linux-distros-fedora
@@ -1,8 +0,0 @@
header:
version: 13
includes:
- kas/arm-systemready-firmware.yml
- kas/arm-systemready-linux-distros-unattended-installation.yml
target:
- arm-systemready-linux-distros-opensuse
@@ -1,11 +0,0 @@
header:
version: 16
env:
DISTRO_UNATTENDED_INST_TESTS:
# The full testimage run typically takes around 12-24h on fvp-base.
TEST_OVERALL_TIMEOUT: "${@ 24*60*60}"
local_conf_header:
systemready-unattended-inst: |
TESTIMAGE_AUTO = "${@oe.utils.vartrue("DISTRO_UNATTENDED_INST_TESTS", "1", "", d)}"
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@@ -1,53 +0,0 @@
header:
version: 14
distro: poky
defaults:
repos:
branch: walnascar
repos:
meta-arm:
layers:
meta-arm:
meta-arm-bsp:
meta-arm-toolchain:
poky:
url: https://git.yoctoproject.org/git/poky
commit: ee0d8d8a61d8e22a3dd00c32cde58ee6e8ec458f
layers:
meta:
meta-poky:
meta-openembedded:
url: https://git.openembedded.org/meta-openembedded
commit: 2169c9afcc0945045bea49f58011080942d4ddb4
layers:
meta-oe:
meta-python:
meta-perl:
meta-secure-core:
url: https://github.com/wind-river/meta-secure-core.git
commit: 423bc85b050594cc42fe3f2e0d0229960e70b94e
layers:
meta-secure-core-common:
meta-signing-key:
meta-efi-secure-boot:
local_conf_header:
base: |
CONF_VERSION = "2"
setup: |
PACKAGE_CLASSES = "package_ipk"
BB_NUMBER_THREADS ?= "16"
PARALLEL_MAKE ?= "-j16"
PACKAGECONFIG:append:pn-perf = " coresight"
machine: unset
target:
- corstone1000-flash-firmware-image
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@@ -1,6 +0,0 @@
header:
version: 14
local_conf_header:
extsys: |
MACHINE_FEATURES += "corstone1000-extsys"
-23
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@@ -1,23 +0,0 @@
---
header:
version: 14
local_conf_header:
firmwarebuild: |
BBMULTICONFIG:remove = "firmware"
# Need to ensure the rescue linux options are selected
OVERRIDES .= ":firmware"
# Need to ensure we build with a small libc
TCLIBC="musl"
mass-storage: |
# Ensure the Mass Storage device is absent
FVP_CONFIG[board.msd_mmc.p_mmc_file] = "invalid.dat"
test-configuration: |
TEST_SUITES = "_qemutiny ping"
# Remove Dropbear SSH as it will not fit into the corstone1000 image.
IMAGE_FEATURES:remove = "ssh-server-dropbear"
CORE_IMAGE_EXTRA_INSTALL:remove = "ssh-pregen-hostkeys"
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@@ -1,8 +0,0 @@
# yaml-language-server: $schema=https://raw.githubusercontent.com/siemens/kas/master/kas/schema-kas.json
header:
version: 14
local_conf_header:
fvp-multicore: |
MACHINE_FEATURES += "corstone1000_fvp_smp"

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