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Author SHA1 Message Date
Usama Arif 56514201ad tc0/spm: boot SP according to boot order specified in manifest
This is currently in review at:
https://review.trustedfirmware.org/c/hafnium/hafnium/+/4997/36

Signed-off-by: Usama Arif <usama.arif@arm.com>
2020-10-27 17:35:35 +00:00
Arunachalam Ganapathy 86f9419b9d arm-bsp: Enable SPM build option in yocto framework
This patch adds:
spm, tf-a-tests recipes.
This builds tf-a with SPM at S-EL2 and test secure partitions at S-EL1.

Change-Id: Ia2f44f4000aa0786b945bc8fb66c9edb1a0094e8
Signed-off-by: Arunachalam Ganapathy <arunachalam.ganapathy@arm.com>
Signed-off-by: Usama Arif <usama.arif@arm.com>
2020-10-27 17:35:26 +00:00
Usama Arif da57312334 arm-bsp/images: Add tc0-kernel-image
This depends on trusted-firmware-a which is the last component to be built.
Calling bitbake tc0-kernel-image will create all the required images
to boot poky.

Change-Id: Ia8675b048db4a127d32394f536632ce88fe20826
Signed-off-by: Usama Arif <usama.arif@arm.com>
2020-10-26 18:26:37 +00:00
Usama Arif 70a9c4991e arm-bsp/u-boot: update SHA for tc0
Change-Id: Ideb4866df92d05bdc07b53f47346ae4f381dfc6d
Signed-off-by: Usama Arif <usama.arif@arm.com>
2020-10-26 18:26:35 +00:00
Usama Arif 29cee51f84 arm-bsp/tc0: Enable verified u-boot
This involes creating the fitImage which contains
both the kernel and ramdisk. The fitImage is also
signed.

Change-Id: Iaedffd54751585a7ef6b467d63f5f8fb6e744aa7
Signed-off-by: Usama Arif <usama.arif@arm.com>
2020-10-26 18:20:22 +00:00
951 changed files with 17345 additions and 72549 deletions
-1
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__pycache__
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@@ -1,218 +0,0 @@
image: ghcr.io/siemens/kas/kas:3.2
stages:
- prep
- build
# Common job fragment to get a worker ready
.setup:
stage: build
interruptible: true
variables:
KAS_WORK_DIR: $CI_PROJECT_DIR/work
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: $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 $TOOLCHAIN_LINK_DIR
- sudo apt update && sudo apt install telnet -y
# Generalised fragment to do a Kas build
.build:
extends: .setup
script:
- KASFILES=$(./ci/jobs-to-kas "$CI_JOB_NAME")
- kas shell --update --force-checkout $KASFILES -c 'cat conf/*.conf'
- kas build $KASFILES
- ./ci/check-warnings $KAS_WORK_DIR/build/warnings.log
# Workaround for Zephyr not currectly handling TESTIMAGE_AUTO
.build_and_test:
extends: .setup
script:
- KASFILES=$(./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
#
# Prep stage, update repositories once
#
update-repos:
extends: .setup
stage: prep
script:
- flock --verbose --timeout 60 $KAS_REPO_REF_DIR ./ci/update-repos
# What percentage of machines in the layer do we build
machine-coverage:
stage: build
interruptible: true
script:
- ./ci/check-machine-coverage
coverage: '/Coverage: \d+/'
#
# Build stage, the actual build jobs
#
# Available options for building are
# TOOLCHAINS: [gcc, clang, armgcc, external-gccarm]
# TCLIBC: [glibc, musl]
# VIRT: [none, xen]
# TESTING: testimage
# Validate layers are Yocto Project Compatible
check-layers:
extends: .setup
coverage: '/Coverage: \d+/'
script:
- kas shell --update --force-checkout ci/base.yml:ci/meta-arm-autonomy.yml:ci/meta-openembedded.yml --command \
"$CI_PROJECT_DIR/ci/check-layers.py $CI_PROJECT_DIR/ci/check-layers.yml $CI_PROJECT_DIR $KAS_WORK_DIR"
pending-updates:
extends: .setup
artifacts:
paths:
- update-report.html
script:
- kas shell ci/qemuarm64.yml:ci/meta-openembedded.yml -c "$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
corstone1000-fvp:
extends: .build
corstone1000-mps3:
extends: .build
fvp-base:
extends: .build
parallel:
matrix:
- TESTING: testimage
tags:
- x86_64
fvp-base-arm32:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, external-gccarm]
fvp-baser-aemv8r64:
extends: .build
fvps:
extends: .build
gem5-arm64:
extends: .build
parallel:
matrix:
- VIRT: [none, xen]
gem5-atp-arm64:
extends: .build
generic-arm64:
extends: .build
juno:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, clang]
microbit-v1:
extends: .build_and_test
parallel:
matrix:
- TESTING: testimage-zephyr
musca-b1:
extends: .build
musca-s1:
extends: .build
n1sdp:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, armgcc]
qemu-cortex-a53:
extends: .build
qemu-cortex-m3:
extends: .build_and_test
parallel:
matrix:
- TESTING: testimage-zephyr
qemu-cortex-r5:
extends: .build
qemuarm64-secureboot:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, clang]
TCLIBC: [glibc, musl]
TESTING: testimage
qemuarm64:
extends: .build
parallel:
matrix:
- VIRT: xen
qemuarm:
extends: .build
parallel:
matrix:
- TOOLCHAINS: [gcc, clang]
TESTING: testimage
- VIRT: xen
qemuarmv5:
extends: .build
parallel:
matrix:
- TESTING: testimage
sgi575:
extends: .build
tc0:
extends: .build
tags:
- x86_64
tc1:
extends: .build
tags:
- x86_64
toolchains:
extends: .build
+13 -36
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@@ -1,46 +1,23 @@
Introduction
------------
This repository contains the Arm layers for OpenEmbedded.
This repository contains Arm layers for OpenEmbedded
* meta-arm
meta-arm:
This layer provides support for general recipes for the Arm
architecture. Anything that's not needed explicitly for BSPs, the IOTA
distribution, or destined to be upstreamed belongs here.
This layer contains general recipes for the Arm architecture, such as firmware, FVPs, and Arm-specific integration.
meta-arm-bsp:
This layer provides support for Arm reference platforms
* meta-arm-autonomy
meta-arm-iota:
This layer provides support for Arm's IOTA Linux Distribution
This layer is the distribution for a reference stack for autonomous systems.
meta-arm-toolchain:
This layer provides support for Arm's GNU-A toolset releases
* meta-arm-bsp
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
* kas
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
meta-arm-autonomy:
This layer provides a reference stack for autonomous systems.
Contributing
------------
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header:
version: 9
local_conf_header:
cc: |
GCCVERSION = "arm-10.3"
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@@ -1,45 +0,0 @@
header:
version: 9
distro: poky
defaults:
repos:
refspec: honister
repos:
meta-arm:
layers:
meta-arm:
meta-arm-bsp:
meta-arm-toolchain:
poky:
url: https://git.yoctoproject.org/git/poky
layers:
meta:
meta-poky:
env:
BB_LOGCONFIG: ""
TOOLCHAIN_DIR: ""
local_conf_header:
base: |
CONF_VERSION = "2"
PACKAGE_CLASSES = "package_ipk"
LICENSE_FLAGS_WHITELIST += "armcompiler Arm-FVP-EULA"
PACKAGECONFIG:remove:pn-qemu-system-native = "gtk+ sdl"
EXTRA_IMAGE_FEATURES:append = " debug-tweaks"
BB_NUMBER_THREADS = "16"
PARALLEL_MAKE = "-j16"
INHERIT += "rm_work"
PACKAGECONFIG:append:pn-perf = " coresight"
noptest: |
DISTRO_FEATURES:remove = "ptest"
machine: unset
target:
- core-image-base
- perf
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#! /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)
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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
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#! /usr/bin/env python3
from pathlib import Path
import sys
from listmachines import list_machines
metaarm = Path.cwd()
if metaarm.name != "meta-arm":
print("Not running inside meta-arm")
sys.exit(1)
# Find all layers
layers = (p.name for p in metaarm.glob("meta-*") if p.is_dir())
# All machine configurations
machines = list_machines(layers)
# All kas files
kas = metaarm.glob("ci/*.yml")
kas = set(p.stem for p in kas)
missing = machines - kas
print(f"The following machines are missing: {', '.join(sorted(missing))}.")
covered = len(machines) - len(missing)
total = len(machines)
percent = int(covered / total * 100)
print(f"Coverage: {percent}%")
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@@ -1,19 +0,0 @@
#! /bin/bash
# Expects the path to a log file as $1, and if this file has any content
# then display the contents and exit with an error code.
set -e -u
LOGFILE=$1
LINES=$(grep --invert-match "attempting MIRRORS if available" $LOGFILE | wc -l)
if test "$LINES" -ne 0; then
echo ==============================
echo The build had warnings/errors:
echo ==============================
cat $LOGFILE
exit 1
fi
exit 0
-10
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header:
version: 9
repos:
meta-clang:
url: https://github.com/kraj/meta-clang
local_conf_header:
clang: |
TOOLCHAIN = "clang"
-13
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@@ -1,13 +0,0 @@
header:
version: 9
includes:
- base.yml
- meta-openembedded.yml
local_conf_header:
custom-local-conf: |
INITRAMFS_IMAGE_BUNDLE = "0"
INITRAMFS_IMAGE:remove = "corstone1000-initramfs-image"
machine: corstone1000-fvp
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@@ -1,12 +0,0 @@
header:
version: 9
includes:
- base.yml
- meta-openembedded.yml
local_conf_header:
custom-local-conf: |
INITRAMFS_IMAGE_BUNDLE = "0"
INITRAMFS_IMAGE:remove = "corstone1000-initramfs-image"
machine: corstone1000-mps3
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@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: corstone500
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@@ -1,10 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: corstone700-fvp
local_conf_header:
image: |
CORE_IMAGE_EXTRA_INSTALL = "corstone700-test-app"
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header:
version: 9
includes:
- corstone700-fvp.yml
machine: corstone700-mps3
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@@ -1,8 +0,0 @@
header:
version: 9
local_conf_header:
cc: |
PNBLACKLIST[gcc-cross-arm] = "Using external toolchain"
TCMODE = "external-arm"
EXTERNAL_TOOLCHAIN = "${TOPDIR}/toolchains/${TARGET_ARCH}"
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header:
version: 9
includes:
- base.yml
machine: fvp-base-arm32
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@@ -1,16 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: fvp-base
local_conf_header:
testimagefvp: |
INHERIT = "fvpboot"
# This fails but we can't add to the ignorelist from meta-arm yet
# https://bugzilla.yoctoproject.org/show_bug.cgi?id=14604
TEST_SUITES:remove = "parselogs"
# Tell testimage to connect to localhost:8022, and forward that to SSH in the FVP.
TEST_TARGET_IP = "localhost:8022"
FVP_CONFIG[bp.virtio_net.hostbridge.userNetPorts] ?= "8022=22"
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@@ -1,7 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: fvp-baser-aemv8r64
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# Simple target to build the FVPs that are publically available
header:
version: 9
includes:
- base.yml
machine: qemuarm64
local_conf_header:
sdk: |
SDKMACHINE = "x86_64"
target:
- nativesdk-fvp-base-a-aem
- nativesdk-fvp-n1-edge
- nativesdk-fvp-sgi575
- nativesdk-fvp-corstone500
- nativesdk-fvp-corstone700
- nativesdk-fvp-tc0
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@@ -1,17 +0,0 @@
header:
version: 9
includes:
- base.yml
- meta-openembedded.yml
repos:
meta-arm:
layers:
meta-gem5:
machine: gem5-arm64
target:
- core-image-minimal
- perf
- gem5-aarch64-native
-15
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@@ -1,15 +0,0 @@
header:
version: 9
includes:
- gem5-arm64.yml
repos:
meta-arm:
layers:
meta-atp:
machine: gem5-atp-arm64
target:
- atp-native
- core-image-minimal
-6
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@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: generic-arm64
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@@ -1,46 +0,0 @@
#!/bin/bash
set -u
HOST_ARCH=$(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
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#! /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:
# corstone500
# fvp-base: [testimage]
# qemuarm64-secureboot: [clang, glibc, testimage]
#
# Turn this list into a series of yml files separated by colons to pass to kas
set -e -u
FILES="ci/$(echo $1 | cut -d ':' -f 1).yml"
for i in $(echo $1 | 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' || $i == 'gcc' || $i == 'glibc' ]]; then
continue
fi
FILES+=":ci/$i.yml"
done
echo $FILES
-6
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@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: juno
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@@ -1,29 +0,0 @@
#! /usr/bin/env python3
import pathlib
import typing
import sys
"""
List all of the machines available under the listed sub-layers of meta-arm.
"""
def list_machines(layers: typing.Sequence[str]) -> typing.Set[str]:
machines = set()
# We know we're in meta-arm/scripts, so find the top-level directory
metaarm = pathlib.Path(__file__).resolve().parent.parent
if metaarm.name != "meta-arm":
raise Exception("Not running inside meta-arm")
for layer in layers:
machines |= set(p.stem for p in (metaarm / layer / "conf" / "machine").glob("*.conf"))
return machines
if __name__ == "__main__":
if len(sys.argv) > 1:
machines = list_machines(sys.argv[1:])
print(" ".join(sorted(machines)))
sys.exit(0)
else:
print("Usage:\n$ %s [layer name ...] " % sys.argv[0])
sys.exit(1)
-13
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@@ -1,13 +0,0 @@
# Python logging configuration to write all warnings to a separate file
version: 1
handlers:
warnings:
class: logging.FileHandler
level: WARNING
filename: warnings.log
formatter: BitBake.logfileFormatter
loggers:
BitBake:
handlers: [warnings]
-10
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@@ -1,10 +0,0 @@
header:
version: 9
includes:
- meta-openembedded.yml
- meta-virtualization.yml
repos:
meta-arm:
layers:
meta-arm-autonomy:
-11
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@@ -1,11 +0,0 @@
header:
version: 9
repos:
meta-openembedded:
url: https://git.openembedded.org/meta-openembedded
layers:
meta-filesystems:
meta-networking:
meta-oe:
meta-python:
-8
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@@ -1,8 +0,0 @@
header:
version: 9
includes:
- meta-openembedded.yml
repos:
meta-virtualization:
url: git://git.yoctoproject.org/meta-virtualization
-8
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@@ -1,8 +0,0 @@
header:
version: 9
includes:
- meta-openembedded.yml
repos:
meta-zephyr:
url: https://git.yoctoproject.org/git/meta-zephyr
-16
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@@ -1,16 +0,0 @@
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
-11
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@@ -1,11 +0,0 @@
header:
version: 9
includes:
- base.yml
- meta-zephyr.yml
machine: musca-b1
target:
- trusted-firmware-m
- zephyr-philosophers
-10
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@@ -1,10 +0,0 @@
header:
version: 9
includes:
- base.yml
- meta-openembedded.yml
machine: musca-s1
target:
- trusted-firmware-m
-6
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@@ -1,6 +0,0 @@
header:
version: 9
local_conf_header:
libc: |
TCLIBC = "musl"
-6
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@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: n1sdp
-14
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@@ -1,14 +0,0 @@
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
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@@ -1,16 +0,0 @@
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
@@ -1,10 +0,0 @@
header:
version: 9
includes:
- base.yml
- meta-zephyr.yml
machine: qemu-cortex-r5
target:
- zephyr-philosophers
-6
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@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: qemuarm
-11
View File
@@ -1,11 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: qemuarm64-sbsa
target:
- core-image-base
- perf
- sbsa-acs
-19
View File
@@ -1,19 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: qemuarm64-secureboot
local_conf_header:
bugs: |
# Only ping until errors can be resolved
TEST_SUITES = "ping"
target:
- core-image-base
- perf
- optee-examples
- optee-test
- optee-spdevkit
- optee-os-tadevkit
-6
View File
@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: qemuarm64
-6
View File
@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: qemuarmv5
-6
View File
@@ -1,6 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: sgi575
-10
View File
@@ -1,10 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: tc0
target:
- tc-artifacts-image
- perf
-10
View File
@@ -1,10 +0,0 @@
header:
version: 9
includes:
- base.yml
machine: tc1
target:
- tc-artifacts-image
- perf
-8
View File
@@ -1,8 +0,0 @@
header:
version: 9
local_conf_header:
testimage: |
IMAGE_CLASSES += "testimage"
TEST_TARGET = "QemuTargetZephyr"
TEST_SUITES = "zephyr"
-17
View File
@@ -1,17 +0,0 @@
header:
version: 9
local_conf_header:
testimage: |
IMAGE_CLASSES += "testimage"
TESTIMAGE_AUTO = "1"
slirp: |
TEST_RUNQEMUPARAMS = "slirp"
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
-20
View File
@@ -1,20 +0,0 @@
header:
version: 9
includes:
- base.yml
# Target is arm64 and SDK is x86-64 to ensure that we exercise both
# architectures
machine: qemuarm64
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
- nativesdk-gcc-arm-none-eabi
-43
View File
@@ -1,43 +0,0 @@
#! /usr/bin/env python3
# Update clones of the repositories we need in KAS_REPO_REF_DIR to speed up fetches
import sys
import os
import subprocess
import pathlib
def repo_shortname(url):
# Taken from Kas (Repo.__getattr__) to ensure the logic is right
from urllib.parse import urlparse
url = urlparse(url)
return ('{url.netloc}{url.path}'
.format(url=url)
.replace('@', '.')
.replace(':', '.')
.replace('/', '.')
.replace('*', '.'))
repositories = (
"https://git.yoctoproject.org/git/poky",
"https://git.openembedded.org/meta-openembedded",
"https://git.yoctoproject.org/git/meta-virtualization",
"https://git.yoctoproject.org/git/meta-zephyr",
"https://github.com/kraj/meta-clang",
)
if __name__ == "__main__":
if "KAS_REPO_REF_DIR" not in os.environ:
print("KAS_REPO_REF_DIR needs to be set")
sys.exit(1)
base_repodir = pathlib.Path(os.environ["KAS_REPO_REF_DIR"])
for repo in repositories:
repodir = base_repodir / repo_shortname(repo)
if repodir.exists():
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)
-11
View File
@@ -1,11 +0,0 @@
header:
version: 9
includes:
- meta-virtualization.yml
local_conf_header:
meta-virt: |
DISTRO_FEATURES:append = " virtualization xen"
target:
- xen-image-minimal
-48
View File
@@ -1,48 +0,0 @@
header:
version: 11
distro: poky-tiny
defaults:
repos:
refspec: honister
repos:
meta-arm:
layers:
meta-arm:
meta-arm-bsp:
meta-arm-toolchain:
poky:
url: https://git.yoctoproject.org/git/poky
refspec: b6b0af0889de9da0e4128cef8c9069b770b7d5a0
layers:
meta:
meta-poky:
meta-yocto-bsp:
meta-openembedded:
url: https://git.openembedded.org/meta-openembedded
refspec: ad52a41de8b4b7d619d1376d0a0090ebcfff56da
layers:
meta-oe:
meta-python:
meta-arm-image:
url: https://git.gitlab.arm.com/arm-reference-solutions/meta-arm-image.git
refspec: 9f611833ef58394b707836d69356c4e27d0265fc
local_conf_header:
base: |
CONF_VERSION = "2"
PACKAGE_CLASSES = "package_ipk"
LICENSE_FLAGS_WHITELIST += "armcompiler"
BB_NUMBER_THREADS ?= "16"
PARALLEL_MAKE ?= "-j16"
PACKAGECONFIG:append:pn-perf = " coresight"
machine: unset
target:
- corstone1000-image
-23
View File
@@ -1,23 +0,0 @@
header:
version: 11
includes:
- kas/corstone1000-base.yml
repos:
run-scripts:
url: https://git.gitlab.arm.com/arm-reference-solutions/model-scripts.git
refspec: b40b4227fe6b6fc8e4b688db8928f4be76e94eb7
layers:
.: 'excluded'
machine: corstone1000-fvp
local_conf_header:
fvp-config: |
# Remove Dropbear SSH as it will not fit into the corstone1000 image.
IMAGE_FEATURES:remove = " ssh-server-dropbear"
INHERIT = " ${@bb.utils.contains('BUILD_ARCH', 'x86_64', 'fvpboot', '', d)}"
LICENSE_FLAGS_WHITELIST:append = " Arm-FVP-EULA"
target:
- corstone1000-image
-6
View File
@@ -1,6 +0,0 @@
header:
version: 11
includes:
- kas/corstone1000-base.yml
machine: corstone1000-mps3
-42
View File
@@ -1,42 +0,0 @@
header:
version: 9
distro: poky
machine: fvp-baser-aemv8r64
defaults:
repos:
refspec: honister
repos:
meta-arm:
url: https://git.yoctoproject.org/git/meta-arm
path: layers/meta-arm
layers:
meta-arm:
meta-arm-bsp:
meta-arm-toolchain:
poky:
url: https://git.yoctoproject.org/git/poky
path: layers/poky
layers:
meta:
meta-poky:
env:
FVP_BASE_R_AEM_TARBALL_URI: ""
FVP_BASE_R_ARM_EULA_ACCEPT: "False"
local_conf_header:
base: |
CONF_VERSION = "2"
PACKAGE_CLASSES = "package_ipk"
PACKAGECONFIG:remove:pn-qemu-system-native = "gtk+ sdl"
EXTRA_IMAGE_FEATURES:append = " debug-tweaks ssh-server-openssh"
FVP_CONFIG[bp.virtio_net.hostbridge.userNetPorts] ?= "8022=22"
IMAGE_CLASSES:append = " ${@oe.utils.ifelse(d.getVar('FVP_BASE_R_AEM_TARBALL_URI'), 'fvpboot', '')}"
LICENSE_FLAGS_WHITELIST:append = " ${@oe.utils.vartrue('FVP_BASE_R_ARM_EULA_ACCEPT', 'Arm-FVP-EULA', '', d)}"
target:
- core-image-minimal
-8
View File
@@ -1,8 +0,0 @@
header:
version: 9
includes:
- kas/fvp-baser-aemv8r64-bsp.yml
local_conf_header:
base-rt: |
PREFERRED_PROVIDER_virtual/kernel = "linux-yocto-rt"
+17 -18
View File
@@ -4,8 +4,8 @@ meta-arm-autonomy Yocto Layer
Introduction
------------
This layer provides an hypervisor based solution (currently based on Xen) for
autonomous system. It contains recipes and classes to build host and guest
images.
autonomous system. It contains recipes and classes to build host and guests
systems.
To start using this layer, please check the
[Quick Start Guide](documentation/arm-autonomy-quickstart.md).
@@ -16,14 +16,13 @@ This layer depends on several other Yocto layers:
* meta-openembedded (https://git.openembedded.org/meta-openembedded)
* poky (https://git.yoctoproject.org/poky)
* meta-virtualization (https://git.yoctoproject.org/meta-virtualization)
* meta-networking (git://git.openembedded.org/meta-openembedded)
Distribution Features
---------------------
This layer adds the following Yocto DISTRO_FEATURES:
This layer is adding the following Yocto DISTRO_FEATURES:
* arm-autonomy-host: this feature activates functionalities required to build
an autonomy host system. It has the following effects:
an autonomy host system. It is doing the following:
- add 'xen' and 'ipv4' to DISTRO_FEATURES.
- add xen backend drivers to linux kernel configuration.
- To reduce the root filesystem image size the kernel image is not installed.
@@ -44,40 +43,40 @@ its documentation.
Those documentation files should be checked for variables:
- [xen-devicetree](documentation/xen-devicetree.md)
- [xenguest-manager](documentation/xenguest-manager.md)
- [xenguest-network](documentation/xenguest-network.md)
- [xenguest-network-bridge](documentation/xenguest-network-bridge.md)
BSPs
----
This layer adds the following machine:
This layer is adding the following machines:
* arm64-autonomy-guest: This machine creates a minimal BSP suitable to be used
* arm64-autonomy-guest: this machines creates a minimal BSP suitable to be used
as an autonomy guest. It is in fact only activating ARM64 architecture and
SMP in the linux kernel and is enabling the DISTRO_FEATURE
'arm-autonomy-guest'.
arm-autonomy-guest.
Images
------
This layer is adding the following images:
* arm-autonomy-host-image-minimal: This image includes all elements required
to create a minimal arm-autonomy-host system. This includes xen, and tools to
manage xen guests and xenguest images. This image depends on
'arm-autonomy-host' distribution feature.
* arm-autonomy-host-image-minimal: this image includes all elements required
to create a minimal arm-autonomy-host system. This includes xen and tools to
manage xen guests. This image depends on 'arm-autonomy-host' distribution
feature.
Recipes and classes
-------------------
This layer adds the following recipes and classes:
This layer is adding the following recipes and classes:
* [xen-devicetree](documentation/xen-devicetree.md): This is a recipe to modify
* [xen-devicetree](documentation/xen-devicetree.md): this is a recipe to modify
a device tree blob to add information required to boot xen and a Dom0 linux.
* [xenguest-mkimage](documentation/xenguest-mkimage.md): This is a tool used to
* [xenguest-mkimage](documentation/xenguest-mkimage.md): this is a tool to
create and modify images to be used as Xen guests.
* [xenguest-manager](documentation/xenguest-manager.md): This is a tool used to
* [xenguest-manager](documentation/xenguest-manager.md): this is a tool to
create/remove/start/stop xen guest generated using xenguest-mkimage.
* [xenguest-network](documentation/xenguest-network.md): This
* [xenguest-network-bridge](documentation/xenguest-network-bridge.md): this
recipe add tools and init scripts to create a bridge connected to the
external network on the host and allow guests to be connected to it.
@@ -1,26 +0,0 @@
# This class is to be inherited by image recipes that want to build and install
# an alternate kernel (set via PREFERRED_PROVIDER_alternate/kernel).
#
# It is mandatory to also set the KERNEL_PACKAGE_NAME for the alternate kernel
# recipe via KERNEL_PACKAGE_NAME:pn-${PREFERRED_PROVIDER_alternate/kernel} and
# its value needs to be different from "kernel" since this is the default set
# for PREFERRED_PROVIDER_virtual/kernel.
#
# An example of these settings can be found at meta-arm-autonomy/dynamic-layers/meta-arm-bsp/conf/machine/n1sdp-extra-settings.inc
#
# When building and installing an alternate kernel, the kernel-modules packages
# for both virtual/kernel and alternate/kernel will be installed.
PREFERRED_PROVIDER_alternate/kernel ??= ""
python () {
alternate_kernel = d.getVar('PREFERRED_PROVIDER_alternate/kernel')
if alternate_kernel:
alternate_kernel_pkg_name = d.getVar('KERNEL_PACKAGE_NAME:pn-%s' % alternate_kernel)
if alternate_kernel_pkg_name:
d.appendVar('EXTRA_IMAGEDEPENDS', ' ' + alternate_kernel)
d.appendVar('IMAGE_INSTALL', ' kernel-modules')
d.appendVar('IMAGE_INSTALL', ' ' + alternate_kernel_pkg_name + '-modules')
else:
raise bb.parse.SkipRecipe("No KERNEL_PACKAGE_NAME:pn-%s set" % alternate_kernel )
}
@@ -1,115 +0,0 @@
# Docker Extern Containers
#
# This class allows docker image tarballs to be installed in the rootfs
#
# The images can be selected using the variable CONTAINER_IMAGE_FILES which
# should contain a space seperated list of absolute paths or yocto urls for
# docker images that have been exported using docker export:
# - https://docs.docker.com/engine/reference/commandline/export/
#
# src_uri_parse_var.bbclass is used to parse CONTAINER_IMAGE_FILES
#
# There are 4 supported formats for CONTAINER_IMAGE_FILES entries:
#
# - http/https url
# - CONTAINER_IMAGE_FILES = "https://[url]:[port]/alpine.tar;md5sum=..."
#
# - file:// absolute local path from root
# - CONTAINER_IMAGE_FILES = "file:///containers/alpine2.tar"
#
# - file:// path relative to FILESEXTRAPATHS
# - CONTAINER_IMAGE_FILES = "file://foo/alpine3.tar"
# FILESEXTRAPATHS .= "/containers:"
#
# - plain absolute local path from root
# - CONTAINER_IMAGE_FILES = "/containers/foo/bar/alpine4.tar"
#
# It is not recommended to use other yocto URL types, as they may result in
# undefined behaviour.
#
# A semicolon seperated list of install arguments can follow each image path:
# - conname : the name that will be attached when the image is imported
# (default: [filename, without extension])
# - contag : the tag that will be attached when the image is imported
# (default: local)
# - conkeep : Flag for whether the exported container image file should be
# kept once the import has been completed
# (default: 0)
#
# Any other arguments, for example an md5sum, will be assumed to be fetch
# arguments, and will be kept when the path is added to the SRC_URI
#
# e.g. CONTAINER_IMAGE_FILES = "\
# https://[url]:[port]/alpine.tar;md5sum=[checksum];conkeep=1 \
# file:///containers/alpine2.tar;contag=latest;conname=docker2 \
# file://foo/alpine3.tar \
# /containers/foo/bar/alpine4.tar;contag=1.0;conkeep=1 "
#
# Resulting Manifest:
# ARCHIVE NAME TAG KEEP
# alpine.tar alpine local 1
# alpine2.tar docker2 latest 0
# alpine3.tar alpine3 local 0
# alpine4.tar alpine4 1.0 1
#
# Other configurable variables:
# CONTAINERS_INSTALL_DIR : The folder underneath ${WORKDIR} where the docker
# images will be stored
# (default: "/usr/share/docker/images")
# CONTAINERS_MANIFEST : The name of the manifest file containing image
# parameters, also stored in CONTAINERS_INSTALL_DIR
# (default: "containers.manifest")
# CONTAINERS_TAG_DEFAULT : Use this to change the value that will be used as
# contag if no value is provided
# (default: "local")
# CONTAINERS_KEEP_DEFAULT : Use this to change the value that will be used for
# conkeep if no value is provided
# (default: "0")
#
inherit features_check
REQUIRED_DISTRO_FEATURES = "docker"
RDEPENDS:${PN} = "packagegroup-docker-runtime-minimal"
CONTAINER_IMAGE_FILES ??= ""
CONTAINERS_INSTALL_DIR ??= "${datadir}/docker/images"
CONTAINERS_MANIFEST ??= "containers.manifest"
CONTAINERS_TAG_DEFAULT ??= "local"
CONTAINERS_KEEP_DEFAULT ??= "0"
inherit set_src_uri_from_var
SRC_URI_FROM_VAR_NAME = "CONTAINER_IMAGE_FILES"
# Define installation params
SRC_URI_FROM_VAR_MANIFEST_PARAMS = "conname=[basename] \
contag=${CONTAINERS_TAG_DEFAULT} conkeep=${CONTAINERS_KEEP_DEFAULT}"
SRC_URI_FROM_VAR_UNPACK_DIR = "containers"
# Read manifest and install container images
do_install() {
local archive name tag keep
if [ -f "${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR}/manifest" ]; then
install -d "${D}${CONTAINERS_INSTALL_DIR}"
install -m 644 \
"${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR}/manifest" \
"${D}${CONTAINERS_INSTALL_DIR}/${CONTAINERS_MANIFEST}"
while read -r archive name tag keep _; do
[ -f "${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR}/${archive}" ] ||
bbfatal "${archive} does not exist"
install -m 644 \
"${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR}/${archive}" \
"${D}${CONTAINERS_INSTALL_DIR}/${archive}"
done < "${D}${CONTAINERS_INSTALL_DIR}/${CONTAINERS_MANIFEST}"
fi
}
do_install[vardeps] += "CONTAINER_IMAGE_FILES"
FILES:${PN} += "${CONTAINERS_INSTALL_DIR}"
@@ -1,7 +1,7 @@
# Create a xenguest image with kernel and filesystem produced by Yocto
# This will create a .xenguest file that the xenguest-manager can use.
inherit xenguest_image
inherit xenguest-image
# We are creating our guest in a local subdirectory
# force the value so that we are not impacted if the user is changing it
@@ -22,7 +22,7 @@ xenguest_image_add_kernel() {
# Add rootfs file to the image
xenguest_image_add_rootfs() {
call_xenguest_mkimage partial \
--disk-add-file=${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.${IMAGE_TYPEDEP:xenguest}:rootfs.${IMAGE_TYPEDEP:xenguest}
--disk-add-file=${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.${IMAGE_TYPEDEP_xenguest}:rootfs.${IMAGE_TYPEDEP_xenguest}
}
# Pack xenguest image
@@ -57,73 +57,12 @@ do_bootimg_xenguest[depends] += "xenguest-base-image:do_deploy"
do_bootimg_xenguest[depends] += "${PN}:do_rootfs"
# This set in python anonymous after, just set a default value here
IMAGE_TYPEDEP:xenguest ?= "tar"
IMAGE_TYPEDEP_xenguest ?= "tar"
# We must not be built at rootfs build time because we need the kernel
IMAGE_TYPES_MASKED += "xenguest"
IMAGE_TYPES += "xenguest"
XENGUEST_IMAGE_RECIPE = "${PN}"
XENGUEST_IMAGE_VARS += "XENGUEST_IMAGE_RECIPE"
# Merge intermediate env files from all recipes into a single file
python do_merge_xenguestenv () {
import re
# Open final merged file in DEPLOY_DIR_IMAGE for writing, or create
outdir = d.getVar('DEPLOY_DIR_IMAGE')
with open(os.path.join(outdir,'xenguest.env'), 'w') as merged_file:
# Adds vars from xenguest_image to list
merged_env = []
xenguest_vars = d.getVar('XENGUEST_IMAGE_VARS')
for var in xenguest_vars.split():
value = d.getVar(var)
if value:
merged_env.append(var + "=" + " ".join(value.split()) + "\n")
# Resolve dependencies for this task to find names of intermediate
# .xenguestenv files
taskdepdata = d.getVar('BB_TASKDEPDATA')
task_mc = d.getVar('BB_CURRENT_MC')
task_file = d.getVar('FILE')
# See runqueue.py function build_taskdepdata
DEPS_INDEX = 3
depdata_key = task_file + ":do_merge_xenguestenv"
# If in a multiconfig, need to add that to the key
if task_mc != "default":
depdata_key = "mc:" + task_mc + ":" + depdata_key
# Retrieve filename using regex
get_filename = re.compile(r'/([^/]+\.bb):do_deploy_xenguestenv$')
env_dir = d.getVar('XENGUEST_ENV_STAGING_DIR')
for task_dep in taskdepdata[depdata_key][DEPS_INDEX]:
if task_dep.endswith(":do_deploy_xenguestenv"):
filename = re.search(get_filename, task_dep).group(1) + ".xenguestenv"
bb.note("Merging: " + filename)
try:
with open(env_dir + "/" + filename, 'r') as f:
# Eliminate duplicates
merged_env = list(set(merged_env + f.readlines()))
except (FileNotFoundError, IOError):
bb.note(" " + filename + " has no extra vars")
# Sort Alphabetically and write
merged_env.sort()
merged_file.write("".join(merged_env))
}
do_merge_xenguestenv[dirs] = "${DEPLOY_DIR_IMAGE}"
do_merge_xenguestenv[vardeps] += "${XENGUEST_IMAGE_VARS}"
do_merge_xenguestenv[vardepsexclude] += "BB_TASKDEPDATA"
do_merge_xenguestenv[recrdeptask] += "do_deploy_xenguestenv"
addtask merge_xenguestenv before do_populate_lic_deploy after do_image_complete
python __anonymous() {
# Do not do anything if we are not in the want FSTYPES
if bb.utils.contains_any('IMAGE_FSTYPES', 'xenguest', '1', '0', d):
@@ -158,7 +97,7 @@ python __anonymous() {
# do_bootimg_xenguest will need the tar file
d.appendVarFlag('do_bootimg_xenguest', 'depends', ' %s:do_image_tar' % (d.getVar('PN')))
# set our TYPEDEP to the proper compression
d.setVar('IMAGE_TYPEDEP:xenguest', 'tar' + (rootfs_file.split('.tar', 1)[1] or ''))
d.setVar('IMAGE_TYPEDEP_xenguest', 'tar' + (rootfs_file.split('.tar', 1)[1] or ''))
if kernel_needed:
# Tell do_bootimg_xenguest to call xenguest_image_add_kernel
@@ -3,10 +3,7 @@
# This is done using kernel-fitimage as model
# To activate this, kernel-xenguest must be added to KERNEL_CLASSES
# Add a variable name to XENGUEST_IMAGE_VARS_EXTRA if you want it to
# appear in xenguest.env when the image is deployed
inherit xenguest_image
inherit xenguest-image
# use a local copy to pack all together
XENGUEST_IMAGE_DEPLOY_DIR = "${WORKDIR}/tmp-xenguest"
@@ -27,9 +24,9 @@ do_assemble_xenguest_initramfs() {
rm -f ${B}/${KERNEL_OUTPUT_DIR}/Image-initramfs.xenguest
call_xenguest_mkimage pack ${B}/${KERNEL_OUTPUT_DIR}/Image-initramfs.xenguest
}
do_assemble_xenguest_initramfs[depends] += "${INITRAMFS_IMAGE}:do_merge_xenguestenv"
do_assemble_xenguest_initramfs[depends] += "${INITRAMFS_IMAGE}:do_image_complete"
kernel_do_deploy:append() {
kernel_do_deploy_append() {
if [ -f "${B}/${KERNEL_OUTPUT_DIR}/Image-initramfs.xenguest" ]; then
install -m 0644 ${B}/${KERNEL_OUTPUT_DIR}/Image-initramfs.xenguest "$deployDir/Image-${INITRAMFS_NAME}.xenguest"
ln -snf Image-${INITRAMFS_NAME}.xenguest $deployDir/Image-${INITRAMFS_LINK_NAME}.xenguest
@@ -1,224 +0,0 @@
# Set SRC_URI from Variable
# This class parses a variable named in SRC_URI_FROM_VAR_NAME for entries that
# should be added to the SRC_URI
#
# There are 4 supported formats for entries:
#
# - http/https url
# - Note that a checksum (md5sum or sha256sum) must be provided for http(s)
#
# - file:// absolute local path from root
# - In this case the filename will be added to SRC_URI and the path from '/'
# added to FILESEXTRAPATHS
#
# - file:// path relative to FILESEXTRAPATHS
# - In this case the filename will be added to SRC_URI and the preceding path
# added to FILESOVERRIDES, so that the full path to the file will
# be available in FILESPATH when it is generated by combining
# FILESEXTRAPATHS and FILESOVERRIDES.
#
# - plain absolute local path from root
# - This will be treated the same as an file:// path from root. Plain paths
# must be absolute, and cannot be relative to FILESEXTRAPATHS
#
# It is not recommended to use other yocto URL types, as they may result in
# undefined behaviour.
#
# These entries will be added to the SRC_URI so that the yocto fetcher can
# unpack a copy into ${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR}
#
#
# A list of arguments can follow each entry in the input variable, seperated
# by semi-colons (;). Arguments may be FETCH arguments or MANIFEST arguments.
#
# FETCH arguments will be appended to the entry in SRC_URI, for example
# "downloadfilename" to specify the filename used when storing a
# downloaded file.
# Each SRC_URI entry will automatically have the arguments
# "unpack=0;subdir=${SRC_URI_FROM_VAR_UNPACK_DIR}" added to them, so do not
# attempt to set these options.
#
# MANIFEST arguments are defined in the variable
# SRC_URI_FROM_VAR_MANIFEST_PARAMS which should be a space seperated list of
# names, each optionally followed by an equals sign (=) and a default value.
#
# The values provided for the manifest arguments will be written to the manifest
# file in ${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR} as columns, in the same
# order as they appear in SRC_URI_FROM_VAR_MANIFEST_PARAMS.
#
# For entries that do not provide a value for a manifest argument, the default
# value will be used if possible.
# If no default is availale, omitting the parameter on any item will cause
# an error.
#
# "[basename]" is a special case default that will set the value to
# the filename without the path or file extension.
#
# e.g.
# SRC_URI_FROM_VAR_MANIFEST_PARAMS="conname=[basename] contag=local conkeep"
#
# Any arguments that follow an entry in SRC_URI_FROM_VAR_NAME, that are not
# named in SRC_URI_FROM_VAR_MANIFEST_PARAMS are assumed to be FETCH arguments,
# so are added to the corresponding entry in the SRC_URI.
SRC_URI_FROM_VAR_NAME ??= ""
SRC_URI_FROM_VAR_MANIFEST_PARAMS ??= ""
SRC_URI_FROM_VAR_UNPACK_DIR ??= "items"
python __anonymous() {
parse_var = d.getVar('SRC_URI_FROM_VAR_NAME')
if not parse_var:
return
parse_var_items = d.getVar(parse_var)
if parse_var_items:
for item in parse_var_items.split(' '):
if not item:
continue
if item.startswith('/'):
# If not a Yocto URL, must be an absolute path
yocto_url = "file://" + item
else:
# Otherwise assume valid Yocto URL.
# Error case is caught later
yocto_url = item
fetcher = host = path = parm = None
try:
# Attempt to parse a Yocto URL
fetcher,host,path,_,_,parm = bb.fetch.decodeurl(yocto_url)
except:
# Something invalid is in the variable!
raise bb.parse.SkipRecipe(parse_var + \
" contains an invalid entry:\n'" + \
item + "'")
# This var is space seperated list of parameter names,
# with optional default value following an equals sign
# (name=default)
item_params_str = d.getVar('SRC_URI_FROM_VAR_MANIFEST_PARAMS')
# remove directories from path
filename = os.path.basename(path)
if "downloadfilename" in parm:
filename = parm["downloadfilename"]
item_manifest_args = {"filename": filename}
if item_params_str:
# required manifest arguments have been provided
# If no default is given add "=" for map parsing
item_params_list = [ arg + "=" if '=' not in arg
else arg
for arg in item_params_str.split(' ')
]
# Generate key value pairs of argument names and
# default values
item_params_map = dict( (name.strip(), val.strip())
for name, val in (arg.split('=')
for arg in item_params_list)
)
for argname in item_params_map:
# Iterate over required manifest arguments
argvalue = parm.pop(argname, None)
if argvalue:
# a value has been provided for this item
item_manifest_args[argname] = argvalue
else:
# No value provided, process default value
default = item_params_map[argname]
if default:
# A default value is provided
if default == "[basename]":
# use the filename without extension
default = os.path.splitext(filename)[0]
# store default value in dict
item_manifest_args[argname] = default
else:
# No default provided
raise bb.fatal(parse_var + \
" entry is missing a required parameter '" + \
argname + "':\n'" + item + "'")
# Write value to var flags to ensure data structure is preserved
# Each entry of parse_var will have a varflag where the value
# is a dictionary of argument names and values
d.setVarFlags(parse_var, {item: item_manifest_args})
src_uri_entry_suffix = ';'
# HTTP(S) fetcher must provide a checksum
if fetcher.startswith('http') and not \
( 'md5sum' in parm or 'sha256sum' in parm ):
# Ensure http/https fetchers get a checksum
raise bb.parse.SkipRecipe(parse_var + \
" entry is missing a checksum:\n'" + \
item + "'")
# add remaining fetch parameters including checksum
for arg in parm:
src_uri_entry_suffix += ";" + arg + "=" + parm[arg]
# Add default and extra parameters to SRC_URI entry
src_uri_entry_suffix += ';unpack=0;subdir=' + \
d.getVar('SRC_URI_FROM_VAR_UNPACK_DIR')
if fetcher == 'file':
# Prevent local fetcher from re-creating dir structure
filedir = os.path.split(path)[0]
if filedir.startswith('/'):
# Path is from the root
d.appendVar('FILESEXTRAPATHS', filedir + ':')
else:
# Path is relative to FILESEXTRAPATHS
d.appendVar('FILESOVERRIDES', ':' + filedir)
# Add filename without path to SRC_URI
d.appendVar('SRC_URI', ' file://' + \
filename + src_uri_entry_suffix)
else:
# Add full entry to SRC_URI
d.appendVar('SRC_URI', ' ' + fetcher + \
"://" + host + path + src_uri_entry_suffix)
}
python generate_manifest() {
parse_var = d.getVar('SRC_URI_FROM_VAR_NAME')
if not parse_var:
return
target_dir = os.path.join(d.getVar('WORKDIR'),
d.getVar('SRC_URI_FROM_VAR_UNPACK_DIR'))
# Write a manifest file containing the parameters so SRC_URI
# doesn't need to be parsed by do_install
with open (target_dir + "/manifest", 'w') as manifest_file:
manifest_args = d.getVarFlags(parse_var)
parse_var_items = d.getVar(parse_var)
if parse_var_items:
for item in parse_var_items.split():
manifest_file.write(" ".join(manifest_args[item].values())+"\n")
}
do_unpack[cleandirs] += "${WORKDIR}/${SRC_URI_FROM_VAR_UNPACK_DIR}"
do_unpack[postfuncs] += "generate_manifest"
do_unpack[vardeps] += "${SRC_URI_FROM_VAR_NAME}"
@@ -4,11 +4,8 @@
# The class is extending deploy function so you recipe must inherit deploy and
# have a do_deploy function (even if it is empty)
# Add a variable name to XENGUEST_IMAGE_VARS_EXTRA if you want it to
# appear in xenguest.env when the image is deployed
# Use standard xenguest_image
inherit xenguest_image
# Use standard xenguest-image
inherit xenguest-image
# Add a DTB file for the guest
# Only one file should be added, if this is set multiple times or in several
@@ -42,13 +39,7 @@ XENGUEST_EXTRA_FILES ??= ""
# dir1/file1 file in the disk content parameters).
XENGUEST_EXTRA_DISK_FILES ??= ""
# Extra vars to be written to xenguest.env
XENGUEST_IMAGE_VARS_EXTRA += "\
XENGUEST_EXTRA_DTB XENGUEST_EXTRA_RAMDISK XENGUEST_EXTRA_XENCONFIG \
XENGUEST_EXTRA_INIT_PRE XENGUEST_EXTRA_INIT XENGUEST_EXTRA_INIT_POST \
XENGUEST_EXTRA_FILES XENGUEST_EXTRA_DISK_FILES"
do_deploy:append() {
do_deploy_append() {
if [ -z "${XENGUEST_IMAGE_DEPLOY_DIR}" -o \
-z "${XENGUEST_IMAGE_DEPLOY_SUBDIR}" ]; then
die "Configuration error: XENGUEST_IMAGE_DEPLOY_DIR or XENGUEST_IMAGE_DEPLOY_SUBDIR is empty"
@@ -58,14 +49,14 @@ do_deploy:append() {
if [ -n "${XENGUEST_EXTRA_DTB}" ]; then
if [ ! -f ${XENGUEST_EXTRA_DTB} ]; then
die "xenguest_image: DTB file ${XENGUEST_EXTRA_DTB} does not exist"
die "xenguest-image: DTB file ${XENGUEST_EXTRA_DTB} does not exist"
fi
call_xenguest_mkimage partial --xen-device-tree=${XENGUEST_EXTRA_DTB}
fi
if [ -n "${XENGUEST_EXTRA_RAMDISK}" ]; then
if [ ! -f ${XENGUEST_EXTRA_RAMDISK} ]; then
die "xenguest_image: DTB file ${XENGUEST_EXTRA_RAMDISK} does not exist"
die "xenguest-image: DTB file ${XENGUEST_EXTRA_RAMDISK} does not exist"
fi
call_xenguest_mkimage partial --xen-ramdisk=${XENGUEST_EXTRA_RAMDISK}
fi
@@ -73,7 +64,7 @@ do_deploy:append() {
if [ -n "${XENGUEST_EXTRA_XENCONFIG}" ]; then
for f in ${XENGUEST_EXTRA_XENCONFIG}; do
if [ ! -f $f ]; then
die "xenguest_image: Xen config $f does not exist"
die "xenguest-image: Xen config $f does not exist"
fi
call_xenguest_mkimage partial --xen-append=$f
done
@@ -81,21 +72,21 @@ do_deploy:append() {
if [ -n "${XENGUEST_EXTRA_INIT_PRE}" ]; then
if [ ! -f ${XENGUEST_EXTRA_INIT_PRE} ]; then
die "xenguest_image: Init script ${XENGUEST_EXTRA_INIT_PRE} does not exist"
die "xenguest-image: Init script ${XENGUEST_EXTRA_INIT_PRE} does not exist"
fi
call_xenguest_mkimage partial --init-pre=${XENGUEST_EXTRA_INIT_PRE}
fi
if [ -n "${XENGUEST_EXTRA_INIT}" ]; then
if [ ! -f ${XENGUEST_EXTRA_INIT} ]; then
die "xenguest_image: Init script ${XENGUEST_EXTRA_INIT} does not exist"
die "xenguest-image: Init script ${XENGUEST_EXTRA_INIT} does not exist"
fi
call_xenguest_mkimage partial --init-script=${XENGUEST_EXTRA_INIT}
fi
if [ -n "${XENGUEST_EXTRA_INIT_POST}" ]; then
if [ ! -f ${XENGUEST_EXTRA_INIT_POST} ]; then
die "xenguest_image: Init script ${XENGUEST_EXTRA_INIT_POST} does not exist"
die "xenguest-image: Init script ${XENGUEST_EXTRA_INIT_POST} does not exist"
fi
call_xenguest_mkimage partial --init-post=${XENGUEST_EXTRA_INIT_POST}
fi
@@ -103,7 +94,7 @@ do_deploy:append() {
if [ -n "${XENGUEST_EXTRA_FILES}" ]; then
for f in ${XENGUEST_EXTRA_FILES}; do
if [ ! -f $f ]; then
die "xenguest_image: Xen file $f does not exist"
die "xenguest-image: Xen file $f does not exist"
fi
call_xenguest_mkimage partial --xen-add-file=$f
done
@@ -112,12 +103,12 @@ do_deploy:append() {
if [ -n "${XENGUEST_EXTRA_DISK_FILES}" ]; then
for f in ${XENGUEST_EXTRA_DISK_FILES}; do
if [ ! -f $f ]; then
die "xenguest_image: Disk file $f does not exist"
die "xenguest-image: Disk file $f does not exist"
fi
call_xenguest_mkimage partial --disk-add-file=$f
done
fi
}
# Need to have xenguest_image tool
# Need to have xenguest-image tool
do_deploy[depends] += "xenguest-base-image:do_deploy"
@@ -30,7 +30,7 @@ XENGUEST_IMAGE_ROOT ??= "/dev/xvda1"
# Guest kernel command line arguments
XENGUEST_IMAGE_CMDLINE ??= "earlyprintk=xenboot console=hvc0 rw"
# Extra commands to add to xenguest_image when creating the image
# Extra commands to add to xenguest-image when creating the image
XENGUEST_IMAGE_EXTRA_CMD ??= ""
# Kernel binary
@@ -43,17 +43,14 @@ XENGUEST_IMAGE_KERNEL ??= "Image"
# be included in the xenguest image)
XENGUEST_IMAGE_DISK_SIZE ??= "${@ '4' if not d.getVar('INITRAMFS_IMAGE') else '0'}"
# set empty partition to be used by xenguest-manager for this image
XENGUEST_IMAGE_DISK_DEVICE ??= ""
#
# XENGUEST_IMAGE_DISK_PARTITIONS is used to describe the partitions to setup
# XENGUEST_IMAGE_DISK PARTITIONS is used to describe the partitions to setup
# and their content.
# It must be set to a space separated list of entries with each entry having
# the format num:sz:[fs]:[file] where:
# the format num:sz:fs:[file] where:
# - num is a partition number
# - sz is the partition size in MB or GB(default), e.g 1000M or 1[G]
# - fs is optional filesystem to use for the partition
# - sz is the partition size in Gigabit
# - fs is the filesystem to use for the partition
# - file is optionally pointing to a file to use as content of the partition
# Please check image_types_xenguest.bbclass for rootfs handling of files
#
@@ -65,7 +62,7 @@ XENGUEST_IMAGE_DISK_PARTITIONS ??= "1:${XENGUEST_IMAGE_DISK_SIZE}:ext4:rootfs.ta
# The "bridge" type will share the physical eth interface from dom0 with the
# domU. This will allow the domU to have access to the external network.
# The "nat" type will setup a virtual network between dom0 and domU and also
# configure and run the kea dhcp4 server on dom0 to serve the domU.
# configure and run the dhcpd on dom0 to serve the domU.
# The "none" type will not affect any networking setting between on dom0 and
# domU.
XENGUEST_IMAGE_NETWORK_TYPE ??= "bridge"
@@ -83,18 +80,6 @@ XENGUEST_IMAGE_DEPLOY_SUBDIR ?= "xenguest"
# - something in ${WORKDIR} if you need to clone and manipulate an image
XENGUEST_IMAGE_DEPLOY_DIR ??= "${DEPLOYDIR}"
# These vars are used by image_types_xenguest.bbclass to generate the
# xenguest.env file. In a recipe that inherits this class and extra variables
# that should be included in xenguest.env need to be added to
# XENGUEST_IMAGE_VARS_EXTRA
XENGUEST_IMAGE_VARS ?= "\
MACHINE DISTRO DISTRO_VERSION DISTRO_FEATURES TUNE_FEATURES TARGET_FPU \
IMAGE_FEATURES INITRAMFS_IMAGE_BUNDLE INITRAMFS_IMAGE \
XENGUEST_IMAGE_MEMORY_SIZE XENGUEST_IMAGE_NUM_VCPUS XENGUEST_IMAGE_AUTOBOOT \
XENGUEST_IMAGE_ROOT XENGUEST_IMAGE_CMDLINE XENGUEST_IMAGE_EXTRA_CMD \
XENGUEST_IMAGE_KERNEL XENGUEST_IMAGE_DISK_SIZE XENGUEST_IMAGE_DISK_DEVICE \
XENGUEST_IMAGE_DISK_PARTITIONS XENGUEST_IMAGE_NETWORK_TYPE"
#
# Wrapper to call xenguest-mkimage
# It is using XENGUEST_IMAGE_DEPLOY_DIR and XENGUEST_IMAGE_DEPLOY_SUBDIR
@@ -144,27 +129,21 @@ xenguest_image_create() {
# create disk if needed
disksize="${XENGUEST_IMAGE_DISK_SIZE}"
case ${disksize:=0} in
0|0M|0G)
;;
*)
# setup disk size
call_xenguest_mkimage update --disk-reset-config --disk-size=$disksize
diskparts="${XENGUEST_IMAGE_DISK_PARTITIONS}"
if [ -n "$diskparts" ]; then
for arg in $diskparts; do
call_xenguest_mkimage update --disk-add-part=$arg
done
fi
diskdevice="${XENGUEST_IMAGE_DISK_DEVICE}"
if [ -n "$diskdevice" ]; then
call_xenguest_mkimage update --disk-device="${diskdevice}"
fi
;;
esac
if [ -z "$disksize" ]; then
disksize="0"
fi
if [ $disksize -gt 0 ]; then
# setup disk size
call_xenguest_mkimage update --disk-reset-config --disk-size=$disksize
diskparts="${XENGUEST_IMAGE_DISK_PARTITIONS}"
if [ -n "$diskparts" ]; then
for arg in $diskparts; do
call_xenguest_mkimage update --disk-add-part=$arg
partnum="$(expr $partnum + 1)"
done
fi
fi
if [ "${XENGUEST_IMAGE_AUTOBOOT}" = "1" ]; then
call_xenguest_mkimage update --set-param=GUEST_AUTOBOOT=1
@@ -179,38 +158,7 @@ xenguest_image_create() {
fi
}
XENGUEST_ENV_STAGING_DIR ??= "${STAGING_DIR}/${MACHINE}/xenguestenv"
# Create an intermediary file containing all variables used to by a
# particular recipe that inherits this class
# File will contain the values of all variables listed in:
# XENGUEST_IMAGE_VARS_EXTRA
python do_deploy_xenguestenv () {
xenguest_vars = d.getVar('XENGUEST_IMAGE_VARS_EXTRA')
if not xenguest_vars:
return
outdir = d.getVar('XENGUEST_ENV_STAGING_DIR')
# Writes file to tmp/sysroots/${MACHINE}/xenguestenv/ by default
filename = os.path.basename(d.getVar('FILE')) + '.xenguestenv'
with open(os.path.join(outdir, filename), 'w') as envf:
for var in xenguest_vars.split():
value = d.getVar(var)
if value:
# Write value only if set
envf.write('%s="%s"\n' % (var, " ".join(value.split())))
envf.close()
}
# Since the intermediary file is deleted by do_merge_xenguestenv it
# must be re-created every time
do_deploy_xenguestenv[vardeps] += "${XENGUEST_IMAGE_VARS_EXTRA}"
do_deploy_xenguestenv[dirs] = "${XENGUEST_ENV_STAGING_DIR}"
addtask deploy_xenguestenv before do_populate_sysroot
#
# Clone the current xenguest from deploy to manipulate it locally
# This is required if you need to change things before packing an image
# To set the local directory where to clone you must set
@@ -224,7 +172,7 @@ xenguest_image_clone() {
fi
if [ ! -f ${DEPLOY_DIR_IMAGE}/${XENGUEST_IMAGE_DEPLOY_SUBDIR}/guest.cfg ]; then
die "xenguest_image: ${DEPLOY_DIR_IMAGE}/${XENGUEST_IMAGE_DEPLOY_SUBDIR} does not contain a valid guest"
die "xenguest-image: ${DEPLOY_DIR_IMAGE}/${XENGUEST_IMAGE_DEPLOY_SUBDIR} does not contain a valid guest"
fi
rm -rf ${XENGUEST_IMAGE_DEPLOY_DIR}/${XENGUEST_IMAGE_DEPLOY_SUBDIR}
@@ -1,7 +1,7 @@
# This files is added when DISTRO_FEATURES contains arm-autonomy-guest
# We need to have ipv4 activated
DISTRO_FEATURES:append = " ipv4"
DISTRO_FEATURES_append = " ipv4"
# Build a xenguest type image
IMAGE_CLASSES += "image_types_xenguest"
@@ -10,6 +10,6 @@ IMAGE_FSTYPES += "xenguest"
# xenguest kernel extension to handle initramfs
KERNEL_CLASSES += "kernel-xenguest"
IMAGE_INSTALL:append = "${@bb.utils.contains('DISTRO_FEATURES', 'docker', \
IMAGE_INSTALL_append = "${@bb.utils.contains('DISTRO_FEATURES', 'docker', \
' packagegroup-docker-runtime-minimal', \
'', d)}"
@@ -1,15 +1,17 @@
# This files is added when DISTRO_FEATURES contains arm-autonomy-host
ARM_AUTONOMY_HOST_OVERRIDES = ":autonomy-host"
# We need to have xen and ipv4 activated
DISTRO_FEATURES:append = " xen ipv4"
DISTRO_FEATURES_NATIVE:append = " arm-autonomy-host"
DISTRO_FEATURES_append = " xen ipv4"
DISTRO_FEATURES_NATIVE_append = " arm-autonomy-host"
# Don't include kernels in standard images when building arm-autonomy-host
# If the kernel image is needed in the rootfs the following should be set from
# a bbappend: RDEPENDS:${KERNEL_PACKAGE_NAME}-base = "${KERNEL_PACKAGE_NAME}-image"
RDEPENDS:${KERNEL_PACKAGE_NAME}-base ?= ""
# a bbappend: RDEPENDS_${KERNEL_PACKAGE_NAME}-base = "${KERNEL_PACKAGE_NAME}-image"
RDEPENDS_${KERNEL_PACKAGE_NAME}-base ?= ""
# Until we don't move to use the kea dhcp-server we build dhcp_4.4.2.bb recipe
# which depends on bind_9.11.22.bb recipe.
PREFERRED_VERSION_bind ?= "9.11%"
# Require extra machine specific settings from meta-arm-bsp dynamic-layers only
# if meta-arm-bsp is in the bblayers.conf
+4 -5
View File
@@ -9,15 +9,14 @@ BBFILES += " \
BBFILE_COLLECTIONS += "meta-arm-autonomy"
BBFILE_PATTERN_meta-arm-autonomy = "^${LAYERDIR}/"
BBFILE_PRIORITY_meta-arm-autonomy = "5"
BBFILE_PRIORITY_meta-arm-autonomy = "6"
LAYERDEPENDS_meta-arm-autonomy = " \
core \
yocto \
openembedded-layer \
networking-layer \
virtualization-layer \
"
LAYERSERIES_COMPAT_meta-arm-autonomy = "honister"
LAYERSERIES_COMPAT_meta-arm-autonomy = "gatesgarth"
# We don't activate virtualization feature from meta-virtualization as it
# brings in lots of stuff we don't need. We need to disable the sanity check
@@ -29,11 +28,11 @@ ARM_AUTONOMY_LAYERDIR := "${LAYERDIR}"
ARM_AUTONOMY_DISTRO_CFGDIR = "${ARM_AUTONOMY_LAYERDIR}/conf/distro/include/"
# Add class to handle arm-autonomy distro extensions
USER_CLASSES:append = " arm-autonomy-features"
USER_CLASSES_append = " arm-autonomy-features"
BBFILES_DYNAMIC += " \
meta-arm-bsp:${LAYERDIR}/dynamic-layers/meta-arm-bsp/*/*/*.bbappend \
meta-arm-bsp:${LAYERDIR}/dynamic-layers/meta-arm-bsp/*/*/*.bb \
meta-gem5:${LAYERDIR}/dynamic-layers/meta-gem5/*/*/*.bbappend \
"
# Root directory for the meta-arm-autonomy/dynamic-layers/meta-arm-bsp
ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR = "${ARM_AUTONOMY_LAYERDIR}/dynamic-layers/meta-arm-bsp"
@@ -8,10 +8,10 @@ require conf/machine/include/arm/arch-armv8a.inc
KERNEL_IMAGETYPE = "Image"
IMAGE_FSTYPES:append = " tar.bz2"
IMAGE_FSTYPES += "tar.bz2"
PREFERRED_PROVIDER_virtual/kernel = "linux-yocto"
PREFERRED_VERSION_linux-yocto ?= "5.10%"
PREFERRED_VERSION_linux-yocto ?= "5.4%"
DISTRO_FEATURES += "arm-autonomy-guest"
-5
View File
@@ -1,5 +0,0 @@
# This file will be required by different xenguest recipes to provide
# common variables, which can be configured in local.conf
# Xenguest image file install location
XENGUEST_MANAGER_GUEST_DIR ?= "${datadir}/guests/"
@@ -1,226 +0,0 @@
arm-autonomy Multiconfig Build Environment Instructions
==================
This documentation explains how to simplify the process of building hosts
and guests in a single bitbake command, rather than in seperate build
folders. You can read more about multiconfig in the bitbake documentation:
- [bitbake user manual](https://www.yoctoproject.org/docs/latest/bitbake-user-manual/bitbake-user-manual.html)
To achieve a multiconfig build, a number of different config files need to
be created in a single build directory.
Create a new project
----------------
Before you start, you will need to follow the instructions in
"Create a project" from the quickstart guide, to create a new project
directory with
```
oe-init-build-env my-mc-project
```
Ensure it has all the required layers in bblayers.conf as listed in
`arm-autonomy-quickstart.md`. The result should be a directory containing:
```
-- conf
| -- bblayers.conf
| -- local.conf
| -- templateconf.cfg
```
Add multiconfig
----------------
The steps required to make the project build both the host and any
number of guests as required are:
1. Create a new directory under `conf/` named `multiconfig/`
2. Create two new files in this directory:
`multiconfig/host.conf`
`multiconfig/guest.conf`
These files will contain any configurations that are specific to either the
host or the guest. The resulting directory tree should be:
```
-- conf
| -- bblayers.conf
| -- local.conf
| -- templateconf.cfg
| -- multiconfig
| -- host.conf
| -- guest.conf
```
3. In `local.conf` the following config variables must be added:
```
MACHINE ?= "fvp-base"
# ---Guest Config Start--- #
MC_GUEST = "guest"
MC_GUEST_NAME = "guest1"
MC_GUEST_IMAGERECIPE = "core-image-minimal"
MC_GUEST_MACHINE = "arm64-autonomy-guest"
MC_GUEST_INITRAMFS_IMAGE_BUNDLE ?= ""
MC_GUEST_INITRAMFS_IMAGE ?= ""
# Uncomment for initramfs
#MC_GUEST_INITRAMFS_IMAGE_BUNDLE = "1"
#MC_GUEST_INITRAMFS_IMAGE = "${MC_GUEST_IMAGERECIPE}"
# These variables are set automatically, don't override them!
MC_GUEST_FILENAME_PREFIX = "${@ 'Image-initramfs' if d.getVar('MC_GUEST_INITRAMFS_IMAGE_BUNDLE',d) else '${MC_GUEST_IMAGERECIPE}' }"
MC_GUEST_FILENAME = "${MC_GUEST_FILENAME_PREFIX}-${MC_GUEST_MACHINE}.xenguest"
MC_GUEST_DEP = "${@ 'virtual/kernel:do_deploy' if d.getVar('MC_GUEST_INITRAMFS_IMAGE_BUNDLE',d) else '${MC_GUEST_IMAGERECIPE}:do_merge_xenguestenv'}"
MC_DOIMAGE_MCDEPENDS += "mc:${MC_HOST}:${MC_GUEST}:${MC_GUEST_DEP} "
BBMULTICONFIG += "${MC_GUEST} "
ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS += "file://${TOPDIR}/${MC_GUEST}/deploy/images/${MC_GUEST_MACHINE}/${MC_GUEST_FILENAME};guestname=${MC_GUEST_NAME} "
# ---Guest Config End--- #
# ---Host Config Start--- #
MC_HOST = "host"
BBMULTICONFIG += "${MC_HOST} "
# ---Host Config End--- #
```
These variables will be used in both of the multiconf files. `MC_HOST` and
`MC_GUEST` should not be altered without renaming the conf files, but most
`MC_GUEST_*` variables can be customised if you desire.
4. Next set the contents of `multiconfig/guest.conf`:
```
TMPDIR = "${TOPDIR}/${MC_GUEST}"
MACHINE = "${MC_GUEST_MACHINE}"
DISTRO_FEATURES += " arm-autonomy-guest"
INITRAMFS_IMAGE_BUNDLE = "${MC_GUEST_INITRAMFS_IMAGE_BUNDLE}"
INITRAMFS_IMAGE = "${MC_GUEST_INITRAMFS_IMAGE}"
IMAGE_FSTYPES += "${@ 'cpio' if d.getVar('MC_GUEST_INITRAMFS_IMAGE_BUNDLE',d) else ''}"
# ANY OTHER GUEST CONFIG
```
To modify the MACHINE or INITRAMFS variables change the equivalent
config in local.conf rather than modifying this file directly. You can also
append any other config desired for the guest after "ANY OTHER GUEST CONFIG",
for example `XENGUEST_IMAGE_DISK_SIZE`.
Make sure not to change `${DEPLOY_DIR_IMAGE}` to anything other than
`${TMPDIR}/deploy/images`, as this is assumed by local.conf.
5. Lastly set the contents of `multiconfig/host.conf`:
```
TMPDIR = "${TOPDIR}/${MC_HOST}"
DISTRO_FEATURES += " arm-autonomy-host"
# ANY OTHER HOST CONFIG
```
Building the image
----------------
To build the multiconfig image the command is:
```
bitbake mc:host:arm-autonomy-host-image-minimal
```
The first time this is run you may see a warning related to the SRC_URI:
```
Unable to get checksum for xenguest-extern-guests SRC_URI entry foo.xenguest: file could not be found
```
This is expected, and only indicates that the guest image has not yet been
generated when the host parses the SRC_URI. By the time it is needed by the
host recipe fetch task it will be present.
During the build you should see that guest tasks are also being executed in
parallel. Once the build completes the guest will already be in the rootfs of
the host thanks to `ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUEST`
The final host image including the guests will be deployed in
`host/deploy/images/`
Multiple Guests
----------------
To have multiple guests with the same config the line which appends to
`ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS` just needs to pass the argument
'guestcount=#' to install symlink copies of the xenguest file on the host.
Documentation for the guestcount parameter can be found in
documentation/arm-autonomy-quickstart.md in the section titled
'Include guests directly in the host image'. This will ensure that the guest
is still only built once, despite resulting in multiple copies on the target.
If guests are required to have different configurations, each will need its own
config file, e.g. 'netguest.conf'. Ensure that the name of the conf file does
not contain any hyphens, as this will create errors when it becomes part of a
function name. In this file the values of TMPDIR, MACHINE, DISTRO_FEATURES etc.
should be the same as above, but with the prefix "MC_GUEST_*" modified to
something different to avoid collisions (e.g. MC_GUEST_2_*).
As before, your additional config for the guest type should
follow "ANY OTHER GUEST CONFIG"
In your local.conf, everything between `---Guest Config Start---` and
`---Guest Config End---` will need to be duplicated for each desired guest type.
All copies of variables that start `MC_GUEST` must be modified with the same
prefix as in the new guest config file (e.g. `MC_GUEST_2_*`).
Each chunk of guest config in local.conf has automatic guest variables
(found after the line "These variables are set automatically...").
These should all use the same prefix as their chunk in their values,
for example:
```
MC_GUEST_2_FILENAME_PREFIX = "${@ 'Image-initramfs' if d.getVar('MC_GUEST_2_INITRAMFS_IMAGE_BUNDLE',d) else '${MC_GUEST_2_IMAGERECIPE}' }"
```
Guest with provisioned disk
----------------
To add guest rootfs partition to host wic image,
set `AUTONOMY_HOST_EXTRA_PARTITION` with proper wks partition entry, e.g:
```
AUTONOMY_HOST_EXTRA_PARTITION = "part --label provisioned-guest --source rawcopy --fstype=ext4 --ondisk sda --align 1024 \
--sourceparams=file=${TOPDIR}/${MC_GUEST}/deploy/images/${MC_GUEST_MACHINE}/${MC_GUEST_FILENAME_PREFIX}-${MC_GUEST_MACHINE}.ext4"
```
inside your host.conf file.
The rest of the configuration has to be appended to guest.conf file:
```
# ANY OTHER GUEST CONFIG
XENGUEST_IMAGE_DISK_SIZE = "0"
XENGUEST_IMAGE_SRC_URI_XEN_CONFIG = "file://\${TOPDIR}/path/to/rootdisk.cfg"
XENGUEST_IMAGE_DISK_DEVICE = "_GUEST_DISK_DEVICE_"
XENGUEST_IMAGE_ROOT = "/dev/xvda"
IMAGE_ROOTFS_SIZE = "102400"
IMAGE_FSTYPES = "ext4"
```
Example content of rootdisk.cfg:
```
disk = ["phy:_GUEST_DISK_DEVICE_,xvda,w"]
```
`_GUEST_DISK_DEVICE_` should be substituted with `/dev/sdaX`,
according to wks file.
@@ -1,9 +1,9 @@
arm-autonomy Quick Start
==================
This documentation explains how to quickly start with the arm-autonomy layer,
This documentation is explaining how to quickly start with arm-autonomy layer
and the main features provided.
In the documentation directory you will find some more detailed documentation
You will find in the documentation directory some more detailed documentation
for each of the functionalites provided by this layer.
What to use this layer for?
@@ -26,10 +26,11 @@ First you must download the Yocto layers needed:
- [poky](https://git.yoctoproject.org/poky)
- [meta-virtualization](https://git.yoctoproject.org/meta-virtualization)
- [meta-arm](https://git.yoctoproject.org/meta-arm)
- [meta-kernel](https://gitlab.com/openembedded/community/meta-kernel.git)
- all other layers you might want to use
For each of the downloaded layer make sure you checkout the release of Yocto
you want to use (for example honister using `git checkout honister`).
you want to use (for example zeus using `git checkout zeus`).
Please follow [Yocto documentation](https://www.yoctoproject.org/docs/latest/brief-yoctoprojectqs/brief-yoctoprojectqs.html)
in order to have the required dependencies.
@@ -56,6 +57,7 @@ Here are the main steps to create an arm-autonomy project:
bitbake-layers add-layer $LAYERDIR_BASE/meta-poky $LAYERDIR_BASE/meta-yocto-bsp \
$LAYERDIR_BASE/meta-openembedded/meta-oe $LAYERDIR_BASE/meta-openembedded/meta-python \
$LAYERDIR_BASE/meta-openembedded/meta-filesystems $LAYERDIR_BASE/meta-openembedded/meta-networking \
$LAYERDIR_BASE/meta-virtualization $LAYERDIR_BASE/meta-kernel \
$LAYERDIR_BASE/meta-arm/meta-arm $LAYERDIR_BASE/meta-arm/meta-arm-toolchain \
$LAYERDIR_BASE/meta-arm/meta-arm-bsp $LAYERDIR_BASE/meta-arm/meta-arm-autonomy \
```
@@ -71,6 +73,7 @@ Here are the main steps to create an arm-autonomy project:
/home/user/arm-autonomy/meta-openembedded/meta-filesystems \
/home/user/arm-autonomy/meta-openembedded/meta-networking \
/home/user/arm-autonomy/meta-virtualization \
/home/user/arm-autonomy/meta-kernel \
/home/user/arm-autonomy/meta-arm/meta-arm \
/home/user/arm-autonomy/meta-arm/meta-arm-toolchain \
/home/user/arm-autonomy/meta-arm/meta-arm-bsp \
@@ -110,8 +113,7 @@ The project will generate a Linux kernel, a root filesystem, a Xen binary and
a DTB modified to include the required entries to boot Xen and Linux as Dom0
(this DTB has the extension `-xen.dtb`).
To boot the system using a u-boot base board for machines other than FVP-Base
you will need to:
To boot the system using an u-boot base board you will need to:
- Load the kernel (by default at 0x80080000 unless you modify
XEN_DEVICETREE_DOM0_ADDR value)
- Load the xen device tree (for example at 0x83000000)
@@ -120,88 +122,46 @@ you will need to:
In this example the addresses might need to be adapted depending on your board.
For arm-autonomy host on FVP-Base, u-boot has been modified such that
`booti 0x84000000 - 0x83000000` is the default boot command. If FVP-Base is your
MACHINE target there should be no need to interfere with u-boot.
Guest project
-------------
The guest projects are not target specific and will instead use a Yocto MACHINE
defined in meta-arm-autonomy to include only the Linux configuration required to
run a xen guest.
The guest projects are not target specific and will use a Yocto MACHINE defined
in meta-arm-autonomy to include only the Linux configuration required to run
a xen guest.
To create a guest project:
1. Follow the steps of "Create a project"
2. Optionally add layers required to build the guest image, and any features you
need.
2. Optionaly add layers required to build the image and features you need.
3. Edit conf/local.conf to add `arm-autonomy-guest` to the DISTRO_FEATURES and
3. edit conf/local.conf to add `arm-autonomy-guest` to the DISTRO_FEATURES and
set MACHINE to `arm64-autonomy-guest`:
```
MACHINE = "arm64-autonomy-guest"
DISTRO_FEATURES += "arm-autonomy-guest"
```
4. Build the image you want.
4. build the image you want.
For example `bitbake core-image-minimal`
The build will create a ".xenguest" image that can be use on an host project
with the xenguest-manager, as well as a file "xenguest.env" containing the
variables used to configure and generate the guest image.
The guest can also be built as a 'multiconfig' sub project of the host, see
`meta-arm-autonomy/documentation/arm-autonomy-multiconfig.md` for more
information
with the xenguest-manager.
Include guests directly in the host image
-----------------------------------------
The layer provides a way to directly include one or more images generated by
guest projects in the host project.
The layer provides a way to directly include in the host project one or several
images generated by guest projects.
To use this feature, you must edit your host project `local.conf` file and
add set the value of 'ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS' to the list of
paths to xenguest images you want to include in your host.
There are 4 supported formats for ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS
entries:
- http/https url
- "https://[url]:[port]/foo.xenguest;md5sum=..."
- file:// absolute local path from root
- "file:///xenguests/bar.xenguest"
- file:// path relative to FILESEXTRAPATHS
- "file://relative/baz.xenguest"
- plain absolute local path from root
- "/xenguests/absolute/xyzzy.xenguest"
It is not recommended to use other bitbake URL types, as they may result in
undefined behaviour.
A semicolon seperated list of install arguments can follow each image path:
- guestname : the name that will be attached when the image is imported
(default: [filename, without extension])
- guestcount : the number of copies of the guest to install, with
incrementing numbers appended to the name
(default: 1)
Any other arguments, for example an md5sum, will be assumed to be fetch
arguments, and will be appended to the path in the SRC_URI.
add set ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS to the list of xenguest images
you want to include in your host. Each xenguest image must be given using a
full path to it.
For example:
```
ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS = "\
https://[url]:[port]/base.xenguest;md5sum=[checksum];guestname=http \
file:///guests/base.xenguest;guestname=file_abs \
file://foo/base.xenguest;guestname=file_rel;guestcount=2 \
/guests/foo/bar/base.xenguest;guestname=no_fetcher \ "
ARM_AUTONOMY_HOST_IMAGE_EXTERN_GUESTS = "/home/user/guest-project/tmp/deploy/images/arm64-autonomy-guest/core-image-minimal-arm64-autonomy-guest.xenguest;guestname=myguest"
```
Documentation for setting up a multiconfig build can be found in:
meta-arm-autonomy/documentation/arm-autonomy-multiconfig.md
This will add the guest and name it `myguest` on the host project image and
the xenguest-manager will automatically boot it during startup.
Add support for your board
--------------------------
@@ -222,7 +182,7 @@ started). You can find the complete list of the kernel configuration elements
required in `recipes-kernel/linux/arm-autonomy-kmeta/features/arm-autonomy/xen-host.cfg`.
### Define the drive and partition to use for the LVM volume
The xenguest-manager creates guest storage drives using LVM on an empty
The xenguest-manager is creating disk hard drive using LVM on an empty
partition. The default value is set to use /dev/sda2.
You can change this for your board by setting XENGUEST_MANAGER_VOLUME_DEVICE.
@@ -231,37 +191,37 @@ Check `recipes-extended/xenguest/xenguest-manager.bbappend` for examples.
Please also read xenguest-manager.md.
### Define the interface to add to xenguest network bridge
xenguest-network bridge creates a bridge on the host and adds network
interfaces to it so that guests connected to it have access to external network.
xenguest-network bridge is creating a bridge on the host and adds network
interfaces to it so that guest connected to it have access to external network.
By default `eth0` is set as the list of interfaces to be added to the bridge.
Depending on your board or use case you might want to use an other interface
or use multiple interfaces.
You can change this for your board by setting XENGUEST_NETWORK_BRIDGE_MEMBERS.
Check `recipes-extended/xenguest/xenguest-network.bbappend` for
Check `recipes-extended/xenguest/xenguest-network-bridge.bbappend` for
exmaples.
Please also read xenguest-network-bridge.md.
### Define the network configuration of the xenguest network bridge
xenguest-network puts the host network interfaces in a bridge and configures it
by default to use dhcp.
xenguest network bridge is putting the host network interfaces in a bridge
and is configuring it by default to use dhcp.
If you need a different type of configuration you can set
XENGUEST_NETWORK_BRIDGE_CONFIG in your xenguest-network-bridge.bbappend to use
XENGUEST_NETWORK_BRIDGE_CONFIG in a xenguest-network-bridge.bbappend to use
a different file.
The recipe will look for the file in ${WORKDIR}, so you will need to add it to
the SRC_URI in your bbappend.
The recipe will look for the file in ${WORKDIR} so you will need to add it to
SRC_URI in your bbappend.
The recipe will also substitute `###BRIDGE_NAME###` with the bridge name
configured in ${XENGUEST_NETWORK_BRIDGE_NAME} when the config file is installed.
configured in ${XENGUEST_NETWORK_BRIDGE_NAME}.
You can find an example configuration file in
`recipes-extended/xenguest/files/xenguest-network-bridge-dhcp.cfg.in`.
Please also read xenguest-network.md.
Please also read xenguest-network-bridge.md.
### Customize Dom0 and Xen boot arguments for you board
xen-devicetree modifies the generated DTB Xen and Linux boot arguments,
as long as the address where Dom0 Linux kernel can be found.
xen-devicetree is writting inside the generated DTB Xen and Linux boot
arguments as long as the address where Dom0 Linux kernel can be found.
You might need to have different values for your board or depending on your
use case.
@@ -11,24 +11,19 @@ perform a couple of customizations in the generated wic image:
1 MiB per physical volume, hence it needs to be taken into account when
setting GUEST_PART_SIZE.
2. Set the boot partition size (default: 100M) via `BOOT_PART_SIZE` and
`BOOT_PART_SIZE_UNIT` (M or G) variables in any conf file. The default
bootimg is ~44M so 100M leaves just over 50M of free space.
3. The wic image partition layout and contents with a custom wks file via
2. The wic image partition layout and contents with a custom wks file via
`ARM_AUTONOMY_WKS_FILE` variable (default:
arm-autonomy-n1sdp-efidisk.wks.in which is affected by GUEST_PART_SIZE,
GUEST_PART_SIZE_UNIT, BOOT_PART_SIZE, BOOT_PART_SIZE_UNIT and
GRUB_CFG_FILE variables).
GUEST_PART_SIZE_UNIT and GRUB_CFG_FILE variables).
4. Custom grub.cfg file via `GRUB_CFG_FILE` (default:
3. Custom grub.cfg file via `GRUB_CFG_FILE` (default:
arm-autonomy-n1sdp-grub.cfg) variable to be set in any conf file. The full
path or relative to `ARM_AUTONOMY_WKS_FILE` should be set.
The `arm-autonomy-n1sdp-efidisk.wks.in` and `arm-autonomy-n1sdp-grub.cfg` files
are located at `meta-arm-autonomy/dynamic-layers/meta-arm-bsp/wic`.
Other variables can also be customized to set what files need to be included
Other variables can also be custmized to set what files need to be included
in the wic image boot partition. Please refer to
`meta-arm-autonomy/dynamic-layers/meta-arm-bsp/conf/machine/n1sdp-extra-settings.inc`
for more details.
@@ -56,8 +56,7 @@ The following parameters are available:
the xen devicetrees are properly regenerated if the source DTBs are changed.
This variable is set by default to "virtual/kernel:do_deploy" to use DTBs
generated during the compilation of the Linux kernel. This must be changed
if the machine you are using is not using a DTB listed in
KERNEL_DEVICETREE.
if the machine your are using is not using a DTB listed in KERNEL_DEVICETREE.
- XEN_DEVICETREE_DTBS: This should be set to the list of DTBs you want to be
modified by xen-devicetree. Those must be files that xen-devicetree can find
@@ -71,10 +70,7 @@ The following parameters are available:
This variable is only used if XEN_DEVICETREE_XEN_BOOTARGS has a value
containing "dom0_mem=${XEN_DEVICETREE_DOM0_MEM}" as the memory assigned to
dom0 is defined using Xen boot arguments.
This variable is set by default to "1024M,max:1024", and cannot be empty.
The value can simply specify a size, e.g. "1024M", but best practice is to
also provide a max, documented here:
https://wiki.xenproject.org/wiki/Xen_Project_Best_Practices
This variable is set by default to "1024M".
- XEN_DEVICETREE_DOM0_BOOTARGS: Boot arguments to pass to Dom0 Linux when
booting it.
@@ -88,8 +84,7 @@ The following parameters are available:
- XEN_DEVICETREE_DOM0_ADDR: This is the address from which the Linux kernel to
be used for Dom0 will be copied. When using u-boot, this is the address at
which you will load the kernel Image before starting Xen.
This variable is set by default to "0x80080000", and cannot be empty.
Values for this variable can be in hex (prefixed with '0x') or in decimal.
This variable is set by default to "0x80080000".
- XEN_DEVICETREE_DOM0_SIZE: This is the size of the kernel loaded at
${XEN_DEVICETREE_DOM0_ADDR}. Xen will copy this amount of data inside the
@@ -97,8 +92,7 @@ The following parameters are available:
size but can be bigger. You must be careful not to have a value too big as it
could slow down boot or copy other parts with it (like the DTB).
You might need to increase this if you use a kernel with a bundled initramfs.
This variable is set by default to "0x01000000" and cannot be empty.
Values for this variable can be in hex (prefixed with '0x') or in decimal.
This variable is set by default to "0x01000000".
- XEN_DEVICETREE_DTSI_MERGE: This variable contains the list of dtsi files that
must be included inside the generated DTB file. By default the only one
@@ -7,7 +7,7 @@ Introduction
xenguest-manager is a tool to manage Xenguest images generated by
[xenguest-mkimage](xenguest-mkimage.md).
On a Xen Dom0 system it can:
On a Xen Dom0 system it will:
- create a xen guest from a xenguest image: extract its components, create a
disk for the guest using LVM volumes.
- start/stop a xen guest (during init or using xenguest-manager directly).
@@ -23,7 +23,7 @@ Usage
-----
xenguest-manager must be called like this:
`xenguest-manager [-v(v)] OPERATION [OPTIONS]`
`xenguest-manager OPERATION [OPTIONS]`
The following operations are available:
- create XENGUEST_IMAGE [GUESTNAME]: create a guest from a xenguest image file
as guest GUESTNAME. If GUESTNAME is not given the image file name is used
@@ -37,9 +37,6 @@ The following operations are available:
- status [GUESTNAME]: print the current status of GUESTNAME. If GUESTNAME is
not given, print the status of all guests.
Passing -v or -vv will increase the logging written to the logfile.
The terminal will always show only error messages, regardless of the logfile.
For a detailed help on available options please use:
`xenguest-manager --help`
@@ -48,20 +45,19 @@ Bitbake parameters
Several parameters are available to configure the xenguest manager during Yocto
project compilation (those can be set in your project local.conf, for example).
This config will be written to a file xenguest-manager.conf in /etc/xenguest/.
The following parameters are available:
- XENGUEST_MANAGER_VOLUME_DEVICE: This is the device path used by the
- XENGUEST_MANAGER_VOLUME_DEVICE: This is the device path used by the
xenguest-manager on the device to create LVM disks when guests have a disk
configuration.
This is set by default to "/dev/sda2".
- XENGUEST_MANAGER_VOLUME_NAME: This is the LVM volume name that the
- XENGUEST_MANAGER_VOLUME_NAME: This is the LVM volume name that the
xenguest-manager will create and use to create guest LVM disks.
This is set by default to "vg-xen".
- XENGUEST_MANAGER_GUEST_DIR: This is the directory on Dom0 where the
- XENGUEST_MANAGER_GUEST_DIR: This is the directory on Dom0 where the
xenguest-manager will look for xenguest images to create during init. That's
the place where xenguest images can be added to have them automatically
created during next Dom0 boot. The xenguests found there will only be created
@@ -69,76 +65,3 @@ The following parameters are available:
name).
This is set by default to "/usr/share/guests".
- XENGUEST_MANAGER_LOG_LEVEL: Set the default log level for xenguest manager.
Must be one of ERROR, INFO, VERBOSE (default: ERROR). The logs will be
written to /var/log/xenguest.
If a verbosity argument (-v or -vv) is passed to xenguest-manager directly, it
will override the setting in xenguest-manager.conf
Since /var/log is by default a volatile location, extra configuration is
required if logs are desired to be kept between reboots:
VOLATILE_LOG_DIR="no"
Read more here: https://www.yoctoproject.org/docs/latest/mega-manual/mega-manual.html#var-VOLATILE_LOG_DIR
When this is enabled, logrotate will monitor the file to ensure it does not
grow excessively large. See recipes-extended/xenguest/files/logrotate-xenguest
Init scripts
------------
Shell scripts can be executed on the host when a guest is started. Depending on
when the script should be executed it should be installed in a different
directory on the target:
- /etc/xenguest/init.pre : Executed first, prior to guest creation
- /etc/xenguest/init.d : Executed after guest creation, but before it is started
- /etc/xenguest/init.post : Executed after starting the guest
Inside the directory, scripts will be executed in alphabetical order.
Since these scripts are sourced by xenguest-manager, they can acccess functions
and variables from the parent file's scope, including:
- ${guestname} : The name of the guest being created
- ${guestdir} : The path to the guest directory
- ${guestcfgfile} : The name of the config file for the starting guest
- log() : Used to write a log to the logfile, default level INFO.
Takes an optional log level and a message body
e.g. log ERROR "blah"
Options for log level: ERROR, INFO, VERBOSE,
and FATAL which will call exit 1 immediately after logging
the message at level ERROR.
- log_command() : Used to call a shell command and log that it has been
called, as well as capturing both stdout and stderr.
By default the command output is dumped to the logfile as an
error if the command returns a status > 0, or as a verbose
message if the whole script is running in verbose mode.
An optional log level can be passed to alter the level the
log should be if the command returns a status >0, which may
be useful if the command is expected to return a non-zero
result.
e.g. log_command INFO "ls -lh ~"
Options for log level: ERROR, INFO, and VERBOSE
Attempting to call any other functions from xenguest_manager in an init script
may result in a fatal error, from which cleanup is not guarenteed.
Init scripts also have access to config variables defined in params.cfg.
An example of how to create the directory and install an init shell script can
be found in:
recipes-extended/xenguest/xenguest-network.bb
Where network-bridge.sh is installed from network-bridge.sh.in
@@ -4,9 +4,9 @@ Xenguest mkimage
Introduction
------------
xenguest-mkimage is a tool to create and modify images to be used as a Guest
with Xen. It defines a format to store completely defined guests as a file or as
a directory, and provides options to create and modify those images.
xenguest-mkimage is a tool to create and modify images to be used as Guest with
Xen. It defines a format to store completely defined guests as a file or as
a directory and provides options to create and modify those images.
A xenguest image contains all elements required to create a xen guest.
This is the base elements like a Xen configuration and a Linux kernel binary
@@ -15,8 +15,8 @@ but also some more advanced elements like init scripts or a disk definition.
The format is made to be deployable easily by storing everything in a single
file and provide tools to easily manipulate the images. It can also easily be
extended to have features like encryption or signature of images, updates or
complex configurations by providing the ability to have init scripts embedded
inside the image that will be executed on the host when the guest is started.
complex configurations by providing features to have init script that will be
executed on the host embedded inside the image.
Xenguest images content
-----------------------
@@ -35,7 +35,7 @@ before starting the guest.
### files
This directory contains files that can be used by the xen configuration, for
example the kernel image referenced in xen configuration.
example the binary of the kernel referenced in xen configuration).
This is where the kernel binary, the dtb or a ramdisk will be stored.
### init.pre, init.d and init.post
@@ -47,7 +47,7 @@ contains scripts called at a different time:
generate part of the xen configuration dynamically.
- init.d: scripts executed when the guest has been created but before it is
started. This can be used to do some xenstore operations or configure the
guest behaviour, using xl for example.
guest behaviour using xl, for example.
- init.post: scripts executed just after starting the guest. This can be
used to configure things created by xen for the guest like network
network interfaces.
@@ -58,19 +58,12 @@ order.
### disk.cfg and disk-files
disk.cfg contains the guest disk description (disk size and disk partitions).
The file contains the following entries:
- `DISK_SIZE=X`: size of the disk to create in MB or GB(default),
e.g. 1000M or 4[G]
- `DISK_SIZE=X`: size of the disk to create in GB
- `DISK_PARTX=SIZE:FS:CONTENT`: create a partition number X (1 to 4) with a
size of SIZE MB or GB(default), e.g 1000M or 2[G].
Format it with filesystem FS (can be ext2, ext3, ext4, vfat or swap)
and extract CONTENT as initial partition content (.tar[.gz|.xz|.bz2] file
or img[.gz|.bz2] file to be dumped in the partition).
FS and CONTENT can be empty.
- `DISK_DEVICE=X`: disk or partition to be used by lvm. Setting this option
allows to bind guest disk with any partition or disk available on host,
e.g. /dev/sda3 or /dev/sdb.
This variable is not set by default, but if set, it overrides disk settings
inside xenguest-manager.conf - 'XENGUEST_VOLUME_DEVICE'.
size of SIZE GB, format it with filesystem FS (can be ext2, ext3, ext4, vfat
or swap) and extract CONTENT as initial partition content
(.tar[.gz|.xz|.bz2] file or img[.gz|.bz2] file to be dumped in the partition). FS and
CONTENT can be empty.
The disk-files contain files to be used for initializing the disk partitions
content. Those should be used to create a LVM or a physical disk and initialize
@@ -112,12 +105,12 @@ For a detailed help on available operations, please use:
image file. Several script can be added and the basename of FILE is used to
distinguish them (calling the option twice with the same file will update the
script in the image with the second one).
--disk-size=SIZE: set the guest disk size to SIZE in MB or GB(default),
e.g 1000M or 2[G]. Calling this with 0 disable the guest disk.
--disk-size=SIZE: set the guest disk size to SIZE in GB. Calling this with 0
disable the guest disk.
- --disk-add-part=NUM:SIZE:FS:CONTENT: This is adding a partition to the
xenguest image disk. The partition is described with the arguments:
- NUM: partition number.
- SIZE: partition size in MB or GB(default), e.g 1000M or 2[G].
- SIZE: partition size in GB.
- FS: filesystem to format the partition with. This can be ext2, ext3, ext4,
vfat of swap. If empty the partition is not formated.
- CONTENT: tar of img file to use to initialize the partition. The file must
@@ -12,10 +12,9 @@ At the moment 3 types of network arrangements are provided:
- Bridge: where the guest vif is added to the created bridge interface;
- NAT: where a private subnet is created for the guest,
a kea dhcp4 server is started on the host to serve the guest
and the proper iptables rules are created
to allow the guest to access the external network;
- NAT: where a private subnet is created for the guest, a dhcpd is started on
the host to serve the guest and the proper iptables rules are created to
allow the guest to access the external network;
- None: the guest vif is not connected to the bridge.
@@ -56,20 +55,17 @@ The following parameters are available:
contains the dom0 physical interface giving the guest direct access to the
external network.
The **nat** type will setup a private network between dom0 and domU, setup
the appropriate routing table, configure and run the kea dhcp4 server
on dom0 to serve the domU and apply the iptables rules to allow the guest
to acess the external network. The kea dhcp4 server configuration for
the guest can be customised by replacing the
"meta-arm-autonomy/recipes-extended/xenguest/files/kea-subnet4.json" file
in a xenguest-network.bbappend. The kea-subnet4.json file is installed in
the appropriate routing table, configure and run the dhcpd on dom0 to serve
the domU and apply the iptables rules to allow the guest to acess the
external network. The dhcpd configuration for the guest can be customised by
replacing the
"meta-arm-autonomy/recipes-extended/xenguest/files/dhcpd-params.cfg" file
in a xenguest-network.bbappend. The dhcpd-params.cfg file is installed in
the xenguest image and copied to
"/etc/xenguest/guests/${guestname}/files/kea-subnet4.json" when the guest
"/etc/xenguest/guests/${guestname}/files/dhcpd-params.cfg" when the guest
image is created. It will be consumed by the
"/etc/xen/scripts/vif-post.d/00-vif-xenguest.hook" script which is called by
"/etc/xen/scripts/vif-nat" script when starting/stopping the xenguest.
After guest start, "/etc/xenguest/init.post/xenguest-network-init-post.sh"
script is called to reload kea dhcp4 server with updated configuration,
after virtual network interface is ready.
In the guest project, the NAT port forward can be customised by changing
the XENGUEST_IMAGE_HOST_PORT (default: "1000 + ${domid}") and
XENGUEST_IMAGE_GUEST_PORT (default: "22") variables in local.conf or
@@ -1,7 +1,7 @@
# Require extra machine specific settings
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE ?= ""
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE:n1sdp = "n1sdp-extra-settings.inc"
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE:fvp-base = "fvp-base-extra-settings.inc"
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE:juno = "juno-extra-settings.inc"
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE_n1sdp = "n1sdp-extra-settings.inc"
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE_fvp-base = "fvp-base-extra-settings.inc"
ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE_juno = "juno-extra-settings.inc"
require ${ARM_BSP_DYN_MACHINE_EXTRA_REQUIRE}
@@ -1,39 +1,7 @@
# Extra machine settings for fvp-base
# FVP uses vda as hard drive and partition 1 is the
# default rootfs, so use vda2 for guest lvm
XENGUEST_MANAGER_VOLUME_DEVICE ?= "/dev/vda2"
# We need to extend the wks search path to be able to find the wks file set in
# ARM_AUTONOMY_WKS_FILE.
WKS_SEARCH_PATH:prepend := "${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic:"
ARM_AUTONOMY_WKS_FILE ?= "arm-autonomy-fvp-base-disk.wks.in"
# set wks file only if INITRAMFS_IMAGE_BUNDLE is not set
WKS_FILE = "${@bb.utils.contains('INITRAMFS_IMAGE_BUNDLE', '1', '',\
'${ARM_AUTONOMY_WKS_FILE}', d)}"
XEN_FILE ?= "xen-fvp-base"
DTB_FILE ?= "${@ get_xen_dtb_filename(d)}"
XEN_ADDR ?= "0x84000000"
DTB_ADDR ?= "0x83000000"
FVP_DATA += "cluster0.cpu0=${DEPLOY_DIR_IMAGE}/${XEN_FILE}@${XEN_ADDR} \
cluster0.cpu0=${DEPLOY_DIR_IMAGE}/${DTB_FILE}@${DTB_ADDR}"
# Set the wks guest partition size and unit. It must be aligned with the sum of
# all XENGUEST_IMAGE_DISK_SIZE set for the guests. By default, LVM2 metadata is
# 1 MiB per physical volume, hence it needs to be taken into account when
# setting GUEST_PART_SIZE. The XENGUEST_IMAGE_DISK_SIZE default value is 4GiB.
GUEST_PART_SIZE ?= "4097"
GUEST_PART_SIZE_UNIT ?= "M"
# FVP uses vda as hard drive and partition 2 is the
# default rootfs, so use vda3 for guest lvm
XENGUEST_MANAGER_VOLUME_DEVICE ?= "/dev/vda3"
XENGUEST_NETWORK_BRIDGE_MEMBERS ?= "eth0"
# This function uses the "KERNEL_DEVICETREE" variable and manipulates it to
# return the xen kernel device tree file name.
def get_xen_dtb_filename(d):
kernel_dtb_filename = d.getVar('KERNEL_DEVICETREE',d)
xen_dtb_filename = os.path.splitext(os.path.basename(kernel_dtb_filename))[0] + '-xen.dtb'
return xen_dtb_filename
@@ -1,26 +1,4 @@
# Extra machine settings for juno
KERNEL_ALT_IMAGETYPE = "Image.lzma"
# Juno board has 2 network interfaces, add both of them to the bridge
XENGUEST_NETWORK_BRIDGE_MEMBERS ?= "eth0 eth1"
XEN_DEVICETREE_DOM0_SIZE ?= "0x02400000"
# We need to extend the wks search path to be able to find the wks file set in
# ARM_AUTONOMY_WKS_FILE.
WKS_SEARCH_PATH:prepend := "${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic:"
ARM_AUTONOMY_WKS_FILE ?= "arm-autonomy-juno-disk.wks.in"
# set wks file only if INITRAMFS_IMAGE_BUNDLE is not set
WKS_FILE = "${@bb.utils.contains('INITRAMFS_IMAGE_BUNDLE', '1', '',\
'${ARM_AUTONOMY_WKS_FILE}', d)}"
# Set the wks guest partition size and unit. It must be aligned with the sum of
# all XENGUEST_IMAGE_DISK_SIZE set for the guests. By default, LVM2 metadata is
# 1 MiB per physical volume, hence it needs to be taken into account when
# setting GUEST_PART_SIZE. The XENGUEST_IMAGE_DISK_SIZE default value is 4GiB.
GUEST_PART_SIZE ?= "4097"
GUEST_PART_SIZE_UNIT ?= "M"
# set wic image type only if INITRAMFS_IMAGE_BUNDLE is not set
IMAGE_FSTYPES += "${@bb.utils.contains('INITRAMFS_IMAGE_BUNDLE', '1', '',\
'wic wic.gz wic.bmap', d)}"
@@ -2,7 +2,7 @@
# We need to extent the wks search path to be able to find the wks file set in
# ARM_AUTONOMY_WKS_FILE.
WKS_SEARCH_PATH:prepend := "${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic:"
WKS_SEARCH_PATH_prepend := "${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic:"
ARM_AUTONOMY_WKS_FILE ?= "arm-autonomy-n1sdp-efidisk.wks.in"
WKS_FILE = "${ARM_AUTONOMY_WKS_FILE}"
@@ -14,19 +14,8 @@ WKS_FILE = "${ARM_AUTONOMY_WKS_FILE}"
GUEST_PART_SIZE ?= "4097"
GUEST_PART_SIZE_UNIT ?= "M"
# Set default boot partition size and unit
BOOT_PART_SIZE ?= "100"
BOOT_PART_SIZE_UNIT ?= "M"
# The GRUB_CFG_FILE affects arm-autonomy-n1sdp-efidisk.wks.in file
#
# When alternate-kernel DISTRO_FEATURE is present we set the
# arm-autonomy-n1sdp-rt-grub.cfg by default. This GRUB config file has
# additional entries for booting with the PREEMPT_RT kernel.
GRUB_CFG_FILE ?= "${@bb.utils.contains('DISTRO_FEATURES','alternate-kernel', \
'${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic/arm-autonomy-n1sdp-rt-grub.cfg', \
'${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic/arm-autonomy-n1sdp-grub.cfg' \
, d)}"
GRUB_CFG_FILE ?= "${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic/arm-autonomy-n1sdp-grub.cfg"
# From arm-autonomy-n1sdp-efidisk.wks.in, the /boot partition is /dev/sda1, and
# the "/" partition is /dev/sda2.
@@ -49,46 +38,3 @@ do_image_wic[depends] += "xen:do_deploy"
IMAGE_EFI_BOOT_FILES += "xen-n1sdp.efi;xen.efi"
IMAGE_EFI_BOOT_FILES += "${XEN_MOD_DEVICETREE_DTBS}"
# When alternate-kernel DISTRO_FEATURE is present we set the linux-yocto-rt
# by default
PREFERRED_PROVIDER_alternate/kernel ?= "\
${@bb.utils.contains('DISTRO_FEATURES', 'alternate-kernel', \
'linux-yocto-rt', '', d)}"
KERNEL_PACKAGE_NAME_alternate/kernel ?= "kernel-rt"
# When alternate-kernel DISTRO_FEATURE is present we set the kernel-rt by
# default
KERNEL_PACKAGE_NAME:pn-linux-yocto-rt = "\
${@ d.getVar('KERNEL_PACKAGE_NAME_alternate/kernel') \
if bb.utils.contains('DISTRO_FEATURES', 'alternate-kernel', True, False, d) \
else 'kernel' }"
# Relative path from DEPLOY_DIR_IMAGE of the Kernel PREEMPT_RT deployed Image
KERNEL_RT_IMAGE ?= "kernel-rt/Image-n1sdp.bin;Image-preempt-rt"
# Only include the Kernel PREEMPT_RT Image if we are building with
# alternate-kernel DISTRO_FEATURE
IMAGE_EFI_BOOT_FILES += "\
${@ d.getVar('KERNEL_RT_IMAGE',d) or '' \
if bb.utils.contains('DISTRO_FEATURES', 'alternate-kernel', True, False, d) and \
d.getVar('PREFERRED_PROVIDER_alternate/kernel') else ''}"
EFIDIR ?= "/EFI/BOOT"
GRUB_CFG_EXTRA_FILE ?= "${ARM_AUTONOMY_ARM_BSP_DYNAMIC_DIR}/wic/arm-autonomy-n1sdp-grub.cfg;.${EFIDIR}}"
# When alternate-kernel DISTRO_FEATURE is present we set the
# arm-autonomy-n1sdp-rt-grub.cfg by default. This GRUB config file has
# additional entries for booting with the PREEMPT_RT kernel and also includes
# the main GRUB config file set by GRUB_CFG_EXTRA_FILE.
IMAGE_EFI_BOOT_FILES += "\
${@ d.getVar('GRUB_CFG_EXTRA_FILE',d) or '' \
if bb.utils.contains('DISTRO_FEATURES', 'alternate-kernel', True, False, d) and \
d.getVar('PREFERRED_PROVIDER_alternate/kernel') else ''}"
# Additionnal kernel modules are necessary for n1sdp to be able to mount FAT
# filesystems using CP437.
MACHINE_ESSENTIAL_EXTRA_RDEPENDS:append = " kernel-module-nls-cp437 kernel-module-nls-iso8859-1"
# '-mcpu=' and '-march=' conflicts for xen build
# lets not set '-march=' and let xen to overwrite '-mcpu='
TUNE_CCARGS:remove:pn-xen = "${TUNE_CCARGS_MARCH}${TUNE_CCARGS_MARCH_OPTS}"
@@ -1,50 +1,21 @@
# Use OVERRIDES to minimize the usage of
# ${@bb.utils.contains('DISTRO_FEATURES', 'autonomy-host', ...
OVERRIDES:append = "${ARM_AUTONOMY_HOST_OVERRIDES}"
# ${@bb.utils.contains('DISTRO_FEATURES', 'xen', ...
OVERRIDES_append = "${@bb.utils.contains('DISTRO_FEATURES', 'xen', ':xen', '', d)}"
FILESEXTRAPATHS:prepend:autonomy-host := "${THISDIR}/${PN}:"
DEPENDS:append:autonomy-host = " dos2unix-native"
SRC_URI:append:autonomy-host = " file://add-xen-support.patch;patchdir=../"
do_install:append:autonomy-host() {
mv -v ${D}/${UNPACK_DIR}/SOFTWARE/uEnv.txt \
${D}/${UNPACK_DIR}/SOFTWARE/uenvfile
for dir in $(ls ${D}/${UNPACK_DIR}/SITE1/)
do
unix2dos ${D}/${UNPACK_DIR}/SITE1/${dir}/images.txt
done
}
FILESEXTRAPATHS_prepend_xen := "${THISDIR}/${PN}:"
DEPLOY_EXTRA_DEPS ??= ""
DEPLOY_EXTRA_DEPS:autonomy-host = "xen:do_deploy xen-devicetree:do_deploy"
DEPLOY_EXTRA_DEPS_xen = "xen:do_deploy xen-devicetree:do_deploy"
do_deploy[depends] += "${DEPLOY_EXTRA_DEPS}"
do_deploy:prepend:autonomy-host() {
do_deploy_prepend_xen() {
# To avoid dependency loop between firmware-image-juno:do_install,
# xen:do_deploy and xen-devicetree:do_deploy when
# INITRAMFS_IMAGE_BUNDLE = "1", we need to handle the xen and
# xen-devicetree binaries copying in the do_deploy task.
mkdir -p ${D}/${UNPACK_DIR}/SOFTWARE/XEN
cp -v ${DEPLOY_DIR_IMAGE}/xen-${COMPATIBLE_MACHINE}.efi \
${D}/${UNPACK_DIR}/SOFTWARE/XEN/xen
for dtb in $(basename -s .dtb ${KERNEL_DEVICETREE})
do
cp -v ${DEPLOY_DIR_IMAGE}/${dtb}-xen.dtb \
${D}/${UNPACK_DIR}/SOFTWARE/XEN/${dtb}.dtb
done
bbnote "Xen binaries added under SOFTWARE/XEN directory"
if [ "${INITRAMFS_IMAGE_BUNDLE}" != "1" -a "${KERNEL_ALT_IMAGETYPE}" = "Image.lzma" ]; then
# KERNEL_ALT_IMAGETYPE is expected to be Image.lzma,
# however NOR flash filesystem is DOS compatible with 8.3 naming,
# so we need to replace ".lzma" with ".lzm"
cp -L -f ${DEPLOY_DIR_IMAGE}/${KERNEL_ALT_IMAGETYPE} \
${D}/${UNPACK_DIR}/SOFTWARE/Image.lzm
fi
cp ${DEPLOY_DIR_IMAGE}/xen-${COMPATIBLE_MACHINE}.efi \
${D}/${UNPACK_DIR}/SOFTWARE/xen
cp ${DEPLOY_DIR_IMAGE}/*xen.dtb \
${D}/${UNPACK_DIR}/SOFTWARE/
}
@@ -1,173 +0,0 @@
arm-bsp/firmware-image-juno: add xen support
This patch adds xen and dtbs binaries entries to images-r[012].txt files.
These images-r[012].txt files contain NOR filesystem entries details,
like file offset, name, path etc.
It also adds customization for uEnv.txt file, that allows to autoboot xen.
Upstream-Status: Inappropriate [configuration]
Signed-off-by: Kamil Dziezyk <kamil.dziezyk@arm.com>
diff -u a/images-r0.txt b/images-r0.txt
--- a/images-r0.txt 2020-11-25 20:25:38.677687712 +0100
+++ b/images-r0.txt 2020-11-25 20:36:55.482194294 +0100
@@ -1,7 +1,7 @@
TITLE: Versatile Express Images Configuration File
[IMAGES]
-TOTALIMAGES: 10 ;Number of Images (Max: 32)
+TOTALIMAGES: 11 ;Number of Images (Max: 32)
NOR0UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR0ADDRESS: 0x00000000 ;Image Flash Address
@@ -17,14 +17,14 @@
NOR2UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR2ADDRESS: 0x00500000 ;Image Flash Address
-NOR2FILE: \SOFTWARE\Image ;Image File Name
-NOR2NAME: norkern ;Rename kernel to norkern
+NOR2FILE: \SOFTWARE\Image.lzm ;Image File Name
+NOR2NAME: norkern.lzm ;Rename kernel to norkern.lzm
NOR2LOAD: 00000000 ;Image Load Address
NOR2ENTRY: 00000000 ;Image Entry Point
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02900000 ;Image Flash Address
-NOR3FILE: \SOFTWARE\juno.dtb ;Image File Name
+NOR3FILE: \SOFTWARE\XEN\juno.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
@@ -64,8 +64,13 @@
NOR9UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR9ADDRESS: 0x02A80000 ;Image Flash Address
NOR9NAME: uEnv.txt
-NOR9FILE: \SOFTWARE\uEnv.txt ;Image File Name
+NOR9FILE: \SOFTWARE\uenvfile ;Image File Name
NOR9LOAD: 00000000 ;Image Load Address
NOR9ENTRY: 00000000 ;Image Entry Point
-
+NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
+NOR10ADDRESS: 0x03000000 ;Image Flash Address
+NOR10FILE: \SOFTWARE\XEN\xen ;Image File Name
+NOR10NAME: xen
+NOR10LOAD: 00000000 ;Image Load Address
+NOR10ENTRY: 00000000 ;Image Entry Point
diff -u a/images-r1.txt b/images-r1.txt
--- a/images-r1.txt 2020-11-25 20:40:19.005177152 +0100
+++ b/images-r1.txt 2020-11-25 20:41:17.500886263 +0100
@@ -1,7 +1,7 @@
TITLE: Versatile Express Images Configuration File
[IMAGES]
-TOTALIMAGES: 10 ;Number of Images (Max: 32)
+TOTALIMAGES: 11 ;Number of Images (Max: 32)
NOR0UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR0ADDRESS: 0x00000000 ;Image Flash Address
@@ -17,14 +17,14 @@
NOR2UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR2ADDRESS: 0x00500000 ;Image Flash Address
-NOR2FILE: \SOFTWARE\Image ;Image File Name
-NOR2NAME: norkern ;Rename kernel to norkern
+NOR2FILE: \SOFTWARE\Image.lzm ;Image File Name
+NOR2NAME: norkern.lzm ;Rename kernel to norkern.lzm
NOR2LOAD: 00000000 ;Image Load Address
NOR2ENTRY: 00000000 ;Image Entry Point
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02900000 ;Image Flash Address
-NOR3FILE: \SOFTWARE\juno-r1.dtb ;Image File Name
+NOR3FILE: \SOFTWARE\XEN\juno-r1.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
@@ -64,8 +64,13 @@
NOR9UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR9ADDRESS: 0x02A80000 ;Image Flash Address
NOR9NAME: uEnv.txt
-NOR9FILE: \SOFTWARE\uEnv.txt ;Image File Name
+NOR9FILE: \SOFTWARE\uenvfile ;Image File Name
NOR9LOAD: 00000000 ;Image Load Address
NOR9ENTRY: 00000000 ;Image Entry Point
-
+NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
+NOR10ADDRESS: 0x03000000 ;Image Flash Address
+NOR10FILE: \SOFTWARE\XEN\xen ;Image File Name
+NOR10NAME: xen
+NOR10LOAD: 00000000 ;Image Load Address
+NOR10ENTRY: 00000000 ;Image Entry Point
diff -u a/images-r2.txt b/images-r2.txt
--- a/images-r2.txt 2020-11-25 20:40:30.625119321 +0100
+++ b/images-r2.txt 2020-11-25 20:41:30.720820597 +0100
@@ -1,7 +1,7 @@
TITLE: Versatile Express Images Configuration File
[IMAGES]
-TOTALIMAGES: 10 ;Number of Images (Max: 32)
+TOTALIMAGES: 11 ;Number of Images (Max: 32)
NOR0UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR0ADDRESS: 0x00000000 ;Image Flash Address
@@ -17,14 +17,14 @@
NOR2UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR2ADDRESS: 0x00500000 ;Image Flash Address
-NOR2FILE: \SOFTWARE\Image ;Image File Name
-NOR2NAME: norkern ;Rename kernel to norkern
+NOR2FILE: \SOFTWARE\Image.lzm ;Image File Name
+NOR2NAME: norkern.lzm ;Rename kernel to norkern.lzm
NOR2LOAD: 00000000 ;Image Load Address
NOR2ENTRY: 00000000 ;Image Entry Point
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02900000 ;Image Flash Address
-NOR3FILE: \SOFTWARE\juno-r2.dtb ;Image File Name
+NOR3FILE: \SOFTWARE\XEN\juno-r2.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
@@ -64,8 +64,13 @@
NOR9UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR9ADDRESS: 0x02A80000 ;Image Flash Address
NOR9NAME: uEnv.txt
-NOR9FILE: \SOFTWARE\uEnv.txt ;Image File Name
+NOR9FILE: \SOFTWARE\uenvfile ;Image File Name
NOR9LOAD: 00000000 ;Image Load Address
NOR9ENTRY: 00000000 ;Image Entry Point
-
+NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
+NOR10ADDRESS: 0x03000000 ;Image Flash Address
+NOR10FILE: \SOFTWARE\XEN\xen ;Image File Name
+NOR10NAME: xen
+NOR10LOAD: 00000000 ;Image Load Address
+NOR10ENTRY: 00000000 ;Image Entry Point
diff -u a/uEnv.txt b/uEnv.txt
--- a/uEnv.txt 2020-11-20 13:48:31.845078690 +0100
+++ b/uEnv.txt 2020-11-25 20:30:00.572306675 +0100
@@ -1,11 +1,16 @@
+xen_name=xen
+xen_addr=0x84000000
uenvcmd=run mybootcmd
+kernel_alt_name=norkern.lzm
+kernel_comp_addr_r=0x88080000
mybootcmd=echo Loading custom boot command; \
echo Loading kernel; \
afs load ${kernel_name} ${kernel_addr_r} ; \
-if test $? -eq 1; then echo Loading ${kernel_alt_name} instead of ${kernel_name}; afs load ${kernel_alt_name} ${kernel_addr_r}; fi; \
+if test $? -eq 1; then echo Loading ${kernel_alt_name} instead of ${kernel_name}; afs load ${kernel_alt_name} ${kernel_comp_addr_r}; lzmadec ${kernel_comp_addr_r} ${kernel_addr_r}; fi; \
echo Loading device tree; \
afs load ${fdtfile} ${fdt_addr_r}; \
if test $? -eq 1; then echo Loading ${fdt_alt_name} instead of ${fdtfile}; \
afs load ${fdt_alt_name} ${fdt_addr_r}; fi; fdt addr ${fdt_addr_r}; fdt resize; \
-booti ${kernel_addr_r} - ${fdt_addr_r};
-
+echo Loading Xen; \
+afs load ${xen_name} ${xen_addr}; \
+if test $? -eq 0; then echo Booting Xen; bootefi ${xen_addr} ${fdt_addr_r}; fi;
@@ -0,0 +1,78 @@
TITLE: Versatile Express Images Configuration File
[IMAGES]
TOTALIMAGES: 11 ;Number of Images (Max: 32)
NOR0UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR0ADDRESS: 0x00000000 ;Image Flash Address
NOR0FILE: \SOFTWARE\fip.bin ;Image File Name
NOR0LOAD: 00000000 ;Image Load Address
NOR0ENTRY: 00000000 ;Image Entry Point
NOR1UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR1ADDRESS: 0x03EC0000 ;Image Flash Address
NOR1FILE: \SOFTWARE\bl1.bin ;Image File Name
NOR1LOAD: 00000000 ;Image Load Address
NOR1ENTRY: 00000000 ;Image Entry Point
NOR2UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR2ADDRESS: 0x00500000 ;Image Flash Address
NOR2FILE: \SOFTWARE\Image ;Image File Name
NOR2NAME: norkern ;Rename kernel to norkern
NOR2LOAD: 00000000 ;Image Load Address
NOR2ENTRY: 00000000 ;Image Entry Point
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02700000 ;Image Flash Address
NOR3FILE: \SOFTWARE\juno-xen.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
NOR4UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR4ADDRESS: 0x01D00000 ;Image Flash Address
NOR4FILE: \SOFTWARE\xen ;Image File Name
NOR4NAME: xen
NOR4LOAD: 00000000 ;Image Load Address
NOR4ENTRY: 00000000 ;Image Entry Point
NOR5UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR5ADDRESS: 0x025C0000 ;Image Flash Address
NOR5FILE: \SOFTWARE\hdlcdclk.dat ;Image File Name
NOR5LOAD: 00000000 ;Image Load Address
NOR5ENTRY: 00000000 ;Image Entry Point
NOR6UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR6ADDRESS: 0x03E40000 ;Image Flash Address
NOR6FILE: \SOFTWARE\scp_bl1.bin ;Image File Name
NOR6LOAD: 00000000 ;Image Load Address
NOR6ENTRY: 00000000 ;Image Entry Point
NOR7UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR7ADDRESS: 0x0BF00000 ;Image Flash Address
NOR7FILE: \SOFTWARE\startup.nsh ;Image File Name
NOR7NAME: startup.nsh
NOR7LOAD: 00000000 ;Image Load Address
NOR7ENTRY: 00000000 ;Image Entry Point
NOR8UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR8ADDRESS: 0x0BFC0000 ;Image Flash Address
NOR8FILE: \SOFTWARE\blank.img ;Image File Name
NOR8NAME: BOOTENV
NOR8LOAD: 00000000 ;Image Load Address
NOR8ENTRY: 00000000 ;Image Entry Point
NOR9UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR9ADDRESS: 0x02600000 ;Image Flash Address
NOR9FILE: \SOFTWARE\selftest ;Image File Name
NOR9LOAD: 00000000 ;Image Load Address
NOR9ENTRY: 00000000 ;Image Entry Point
NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR10ADDRESS: 0x02780000 ;Image Flash Address
NOR10NAME: uEnv.txt
NOR10FILE: \SOFTWARE\uEnv.txt ;Image File Name
NOR10LOAD: 00000000 ;Image Load Address
NOR10ENTRY: 00000000 ;Image Entry Point
@@ -0,0 +1,78 @@
TITLE: Versatile Express Images Configuration File
[IMAGES]
TOTALIMAGES: 11 ;Number of Images (Max: 32)
NOR0UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR0ADDRESS: 0x00000000 ;Image Flash Address
NOR0FILE: \SOFTWARE\fip.bin ;Image File Name
NOR0LOAD: 00000000 ;Image Load Address
NOR0ENTRY: 00000000 ;Image Entry Point
NOR1UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR1ADDRESS: 0x03EC0000 ;Image Flash Address
NOR1FILE: \SOFTWARE\bl1.bin ;Image File Name
NOR1LOAD: 00000000 ;Image Load Address
NOR1ENTRY: 00000000 ;Image Entry Point
NOR2UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR2ADDRESS: 0x00500000 ;Image Flash Address
NOR2FILE: \SOFTWARE\Image ;Image File Name
NOR2NAME: norkern ;Rename kernel to norkern
NOR2LOAD: 00000000 ;Image Load Address
NOR2ENTRY: 00000000 ;Image Entry Point
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02700000 ;Image Flash Address
NOR3FILE: \SOFTWARE\juno-r1-xen.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
NOR4UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR4ADDRESS: 0x01D00000 ;Image Flash Address
NOR4FILE: \SOFTWARE\xen ;Image File Name
NOR4NAME: xen
NOR4LOAD: 00000000 ;Image Load Address
NOR4ENTRY: 00000000 ;Image Entry Point
NOR5UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR5ADDRESS: 0x025C0000 ;Image Flash Address
NOR5FILE: \SOFTWARE\hdlcdclk.dat ;Image File Name
NOR5LOAD: 00000000 ;Image Load Address
NOR5ENTRY: 00000000 ;Image Entry Point
NOR6UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR6ADDRESS: 0x03E40000 ;Image Flash Address
NOR6FILE: \SOFTWARE\scp_bl1.bin ;Image File Name
NOR6LOAD: 00000000 ;Image Load Address
NOR6ENTRY: 00000000 ;Image Entry Point
NOR7UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR7ADDRESS: 0x0BF00000 ;Image Flash Address
NOR7FILE: \SOFTWARE\startup.nsh ;Image File Name
NOR7NAME: startup.nsh
NOR7LOAD: 00000000 ;Image Load Address
NOR7ENTRY: 00000000 ;Image Entry Point
NOR8UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR8ADDRESS: 0x0BFC0000 ;Image Flash Address
NOR8FILE: \SOFTWARE\blank.img ;Image File Name
NOR8NAME: BOOTENV
NOR8LOAD: 00000000 ;Image Load Address
NOR8ENTRY: 00000000 ;Image Entry Point
NOR9UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR9ADDRESS: 0x02600000 ;Image Flash Address
NOR9FILE: \SOFTWARE\selftest ;Image File Name
NOR9LOAD: 00000000 ;Image Load Address
NOR9ENTRY: 00000000 ;Image Entry Point
NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR10ADDRESS: 0x02780000 ;Image Flash Address
NOR10NAME: uEnv.txt
NOR10FILE: \SOFTWARE\uEnv.txt ;Image File Name
NOR10LOAD: 00000000 ;Image Load Address
NOR10ENTRY: 00000000 ;Image Entry Point
@@ -0,0 +1,78 @@
TITLE: Versatile Express Images Configuration File
[IMAGES]
TOTALIMAGES: 11 ;Number of Images (Max: 32)
NOR0UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR0ADDRESS: 0x00000000 ;Image Flash Address
NOR0FILE: \SOFTWARE\fip.bin ;Image File Name
NOR0LOAD: 00000000 ;Image Load Address
NOR0ENTRY: 00000000 ;Image Entry Point
NOR1UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR1ADDRESS: 0x03EC0000 ;Image Flash Address
NOR1FILE: \SOFTWARE\bl1.bin ;Image File Name
NOR1LOAD: 00000000 ;Image Load Address
NOR1ENTRY: 00000000 ;Image Entry Point
NOR2UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR2ADDRESS: 0x00500000 ;Image Flash Address
NOR2FILE: \SOFTWARE\Image ;Image File Name
NOR2NAME: norkern ;Rename kernel to norkern
NOR2LOAD: 00000000 ;Image Load Address
NOR2ENTRY: 00000000 ;Image Entry Point
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02700000 ;Image Flash Address
NOR3FILE: \SOFTWARE\juno-r2-xen.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
NOR4UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR4ADDRESS: 0x01D00000 ;Image Flash Address
NOR4FILE: \SOFTWARE\xen ;Image File Name
NOR4NAME: xen
NOR4LOAD: 00000000 ;Image Load Address
NOR4ENTRY: 00000000 ;Image Entry Point
NOR5UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR5ADDRESS: 0x025C0000 ;Image Flash Address
NOR5FILE: \SOFTWARE\hdlcdclk.dat ;Image File Name
NOR5LOAD: 00000000 ;Image Load Address
NOR5ENTRY: 00000000 ;Image Entry Point
NOR6UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR6ADDRESS: 0x03E40000 ;Image Flash Address
NOR6FILE: \SOFTWARE\scp_bl1.bin ;Image File Name
NOR6LOAD: 00000000 ;Image Load Address
NOR6ENTRY: 00000000 ;Image Entry Point
NOR7UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR7ADDRESS: 0x0BF00000 ;Image Flash Address
NOR7FILE: \SOFTWARE\startup.nsh ;Image File Name
NOR7NAME: startup.nsh
NOR7LOAD: 00000000 ;Image Load Address
NOR7ENTRY: 00000000 ;Image Entry Point
NOR8UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR8ADDRESS: 0x0BFC0000 ;Image Flash Address
NOR8FILE: \SOFTWARE\blank.img ;Image File Name
NOR8NAME: BOOTENV
NOR8LOAD: 00000000 ;Image Load Address
NOR8ENTRY: 00000000 ;Image Entry Point
NOR9UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR9ADDRESS: 0x02600000 ;Image Flash Address
NOR9FILE: \SOFTWARE\selftest ;Image File Name
NOR9LOAD: 00000000 ;Image Load Address
NOR9ENTRY: 00000000 ;Image Entry Point
NOR10UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR10ADDRESS: 0x02780000 ;Image Flash Address
NOR10NAME: uEnv.txt
NOR10FILE: \SOFTWARE\uEnv.txt ;Image File Name
NOR10LOAD: 00000000 ;Image Load Address
NOR10ENTRY: 00000000 ;Image Entry Point
@@ -0,0 +1,15 @@
xen_name=xen
xen_addr=0x84000000
uenvcmd=run mybootcmd
mybootcmd=echo Loading custom boot command; \
echo Loading kernel; \
afs load ${kernel_name} ${kernel_addr} ; \
if test $? -eq 1; then echo Loading ${kernel_alt_name} instead of ${kernel_name}; afs load ${kernel_alt_name} ${kernel_addr}; fi; \
echo Loading device tree; \
afs load ${fdtfile} ${fdt_addr}; \
if test $? -eq 1; then echo Loading ${fdt_alt_name} instead of ${fdtfile}; \
afs load ${fdt_alt_name} ${fdt_addr}; fi; fdt addr ${fdt_addr}; fdt resize; \
echo Loading Xen; \
afs load ${xen_name} ${xen_addr}; \
if test $? -eq 0; then echo Booting Xen; bootefi ${xen_addr} ${fdt_addr}; fi;
@@ -1,16 +0,0 @@
Upstream-Status: Inappropriate [meta-arm-autonomy specific u-boot config]
Signed-off-by: Nathan Dunne <nathan.dunne@arm.com>
diff --git a/include/configs/vexpress_aemv8a.h b/include/configs/vexpress_aemv8a.h
index e63c335f85..9ee050a4a6 100644
--- a/include/configs/vexpress_aemv8a.h
+++ b/include/configs/vexpress_aemv8a.h
@@ -162,7 +162,7 @@
#elif CONFIG_TARGET_VEXPRESS64_BASE_FVP
#define CONFIG_EXTRA_ENV_SETTINGS \
"kernel_name=Image\0" \
- "kernel_addr=0x80080000\0" \
+ "kernel_addr=0x84000000\0" \
"initrd_name=ramdisk.img\0" \
"initrd_addr=0x88000000\0" \
"fdtfile=devtree.dtb\0" \
@@ -1,10 +0,0 @@
# Use OVERRIDES to minimize the usage of
# ${@bb.utils.contains('DISTRO_FEATURES', 'autonomy-host', ...
OVERRIDES:append = "${ARM_AUTONOMY_HOST_OVERRIDES}"
FILESEXTRAPATHS:prepend:autonomy-host:fvp-base := "${THISDIR}/${PN}:"
#
# FVP BASE
#
SRC_URI:append:autonomy-host:fvp-base = " file://xen_u-boot_kernel_addr.patch"
@@ -38,14 +38,4 @@
/delete-property/ iommu-map;
};
};
/*
* Delete module node for Dom0, #size-cells and #address-cells because Grub2
* is responsible to create them
*/
chosen {
/delete-property/ #size-cells;
/delete-property/ #address-cells;
/delete-node/ module@0;
};
};
@@ -1,23 +1,23 @@
# Platform dependent parameters
FILESEXTRAPATHS:prepend := "${THISDIR}/files:"
FILESEXTRAPATHS_prepend := "${THISDIR}/files:"
# Add a dtb snippet to turn off iommu in dom0 on Juno board
SRC_URI:append:juno = " file://xen-juno.dtsi"
XEN_DEVICETREE_DTSI_MERGE:append:juno = " xen-juno.dtsi"
SRC_URI_append_juno = " file://xen-juno.dtsi"
XEN_DEVICETREE_DTSI_MERGE_append_juno = " xen-juno.dtsi"
# Add a dtb snippet to remove pmu and iommu in dom0 on N1SDP
SRC_URI:append:n1sdp = " file://xen-n1sdp.dtsi"
XEN_DEVICETREE_DTSI_MERGE:append:n1sdp = " xen-n1sdp.dtsi"
SRC_URI_append_n1sdp = " file://xen-n1sdp.dtsi"
XEN_DEVICETREE_DTSI_MERGE_append_n1sdp = " xen-n1sdp.dtsi"
# For N1SDP, the XEN_DEVICETREE_DEPEND and XEN_DEVICETREE_DTBS variables are
# being set in meta-arm-autonomy/dynamic-layers/meta-arm-bsp/conf/machine/n1sdp-extra-settings.inc
# Board specific configs
XEN_DEVICETREE_DOM0_BOOTARGS:append:juno = " root=/dev/sda1 rootwait"
XEN_DEVICETREE_XEN_BOOTARGS:append:juno = " console=dtuart dtuart=serial0 bootscrub=0 iommu=no"
XEN_DEVICETREE_DOM0_BOOTARGS_append_juno = " root=/dev/sda1 rootwait"
XEN_DEVICETREE_XEN_BOOTARGS_append_juno = " console=dtuart dtuart=serial0 bootscrub=0 iommu=no"
XEN_DEVICETREE_DOM0_BOOTARGS:append:n1sdp = " root=/dev/sda2 rootwait"
XEN_DEVICETREE_XEN_BOOTARGS:append:n1sdp = " console=dtuart dtuart=serial0 bootscrub=0 iommu=no"
XEN_DEVICETREE_DOM0_BOOTARGS_append_n1sdp = " root=/dev/sda2 rootwait"
XEN_DEVICETREE_XEN_BOOTARGS_append_n1sdp = " console=dtuart dtuart=serial0 bootscrub=0 iommu=no"
XEN_DEVICETREE_DOM0_BOOTARGS:append:fvp-base = " root=/dev/vda1"
XEN_DEVICETREE_XEN_BOOTARGS:append:fvp-base = " console=dtuart dtuart=serial0 bootscrub=0"
XEN_DEVICETREE_DOM0_BOOTARGS_append_fvp-base = " root=/dev/vda2"
XEN_DEVICETREE_XEN_BOOTARGS_append_fvp-base = " console=dtuart dtuart=serial0 bootscrub=0"
@@ -1,15 +1,15 @@
# FVP Base support
COMPATIBLE_MACHINE:fvp-base = "fvp-base"
FILESEXTRAPATHS:prepend:fvp-base := "${THISDIR}/files:"
SRC_URI:append:fvp-base = " file://early-printk.cfg"
COMPATIBLE_MACHINE_fvp-base = "fvp-base"
FILESEXTRAPATHS_prepend_fvp-base := "${THISDIR}/files:"
SRC_URI_append_fvp-base = " file://early-printk.cfg"
# Juno support
COMPATIBLE_MACHINE:juno = "juno"
FILESEXTRAPATHS:prepend:juno := "${THISDIR}/files:"
SRC_URI:append:juno = " file://early-printk.cfg"
COMPATIBLE_MACHINE_juno = "juno"
FILESEXTRAPATHS_prepend_juno := "${THISDIR}/files:"
SRC_URI_append_juno = " file://early-printk.cfg"
# N1SDP support
COMPATIBLE_MACHINE:n1sdp = "n1sdp"
FILESEXTRAPATHS:prepend:n1sdp := "${THISDIR}/files:"
SRC_URI:append:n1sdp = " file://n1sdp.cfg \
COMPATIBLE_MACHINE_n1sdp = "n1sdp"
FILESEXTRAPATHS_prepend_n1sdp := "${THISDIR}/files:"
SRC_URI_append_n1sdp = " file://n1sdp.cfg \
file://early-printk.cfg"
@@ -0,0 +1,15 @@
FILESEXTRAPATHS_prepend := "${THISDIR}:"
#
# arm-autonomy kmeta extra
#
SRC_URI_append = " file://arm-autonomy-kmeta-extra;type=kmeta;name=arm-autonomy-kmeta-extra;destsuffix=arm-autonomy-kmeta-extra"
# We need to turn off SVE support in the Linux kernel otherwise Xen is stopping
# Linux kernel with a coredump while trying to access XEN bit of CPACR1 core
# register.
LINUX_ARM_AUTONOMY_DISABLE_ARM64_SVE = "${@bb.utils.contains_any('DISTRO_FEATURES', \
'arm-autonomy-host arm-autonomy-guest', \
' features/arm-autonomy/disable-arm64-sve.scc','',d)}"
KERNEL_FEATURES_append_fvp-base = "${LINUX_ARM_AUTONOMY_DISABLE_ARM64_SVE}"
@@ -1,14 +0,0 @@
# short-description: Create a disk image
# long-description: Creates a partitioned disk image that the user
# can directly dd to boot media.
# For FVP Base first partition is rootfs normally populated as /dev/vda1
part / --source rootfs --ondisk sda --fstype=ext4 --label root --align 1024
# Second partition to accomodate guests images normally populated as /dev/vda2 (used by XENGUEST_MANAGER_VOLUME_DEVICE)
part --label guests --source empty --ondisk sda --size="${GUEST_PART_SIZE}${GUEST_PART_SIZE_UNIT}" --system-id 8e --align 1024
# Third partition is user defined entry normally populated as /dev/vda3
${AUTONOMY_HOST_EXTRA_PARTITION}
bootloader --ptable msdos
@@ -1,14 +0,0 @@
# short-description: Create a disk image
# long-description: Creates a partitioned disk image that the user
# can directly dd to boot media.
# For Juno first partition is rootfs normally populated as /dev/sda1
part / --source rootfs --ondisk sda --fstype=ext4 --label root --align 1024
# Second partition to accomodate guests images normally populated as /dev/sda2 (used by XENGUEST_MANAGER_VOLUME_DEVICE)
part --label guests --source empty --ondisk sda --size="${GUEST_PART_SIZE}${GUEST_PART_SIZE_UNIT}" --system-id 8e --align 1024
# Third partition is user defined entry normally populated as /dev/sda3
${AUTONOMY_HOST_EXTRA_PARTITION}
bootloader --ptable msdos
@@ -3,7 +3,7 @@
# can directly dd to boot media. Uses a custom grub.cfg file to configure the boot.
# First boot partition normally populated as /dev/sda1
part /boot --source bootimg-efi --sourceparams="loader=grub-efi" --ondisk sda --size="${BOOT_PART_SIZE}${BOOT_PART_SIZE_UNIT}" --label msdos --active --align 1024
part /boot --source bootimg-efi --sourceparams="loader=grub-efi" --ondisk sda --label msdos --active --align 1024
# Second rootfs partition normally populated as /dev/sda2
part / --source rootfs --ondisk sda --fstype=ext4 --label root --align 1024
@@ -11,7 +11,4 @@ part / --source rootfs --ondisk sda --fstype=ext4 --label root --align 1024
# Third partition to accomodate guests images normally populated as /dev/sda3 (used by XENGUEST_MANAGER_VOLUME_DEVICE)
part --label guests --source empty --ondisk sda --size="${GUEST_PART_SIZE}${GUEST_PART_SIZE_UNIT}" --system-id 8e --align 1024
# Fourth partition is user defined entry normally populated as /dev/sda4
${AUTONOMY_HOST_EXTRA_PARTITION}
bootloader --ptable msdos --configfile="${GRUB_CFG_FILE}"
@@ -1,28 +0,0 @@
set term="vt100"
set default="3"
set timeout="5"
source $prefix/arm-autonomy-n1sdp-grub.cfg
menuentry 'N1SDP PREEMPT_RT ACPI Boot' {
linux /Image-preempt-rt $kernel_cmdline acpi=force
}
menuentry 'N1SDP PREEMPT_RT Single-Chip Boot (Device Tree)' {
devicetree /n1sdp-single-chip.dtb
linux /Image-preempt-rt $kernel_cmdline
}
menuentry 'N1SDP PREEMPT_RT Multi-Chip Boot (Device Tree)' {
devicetree /n1sdp-multi-chip.dtb
linux /Image-preempt-rt $kernel_cmdline
}
menuentry 'N1SDP PREEMPT_RT Arm Autonomy (Xen) Single-Chip Boot (Device Tree)' {
# no_argumants under here is a workaround for a bug
# also any kernel or dom0 cmdline arguments has to be passed via dtb
# because any arguments put here will be ignored by xen
xen_hypervisor /xen.efi no_arguments=use_dtb_for_xen_or_kernel_cmdline
xen_module /Image-preempt-rt
devicetree /n1sdp-single-chip-xen.dtb
}

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