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arm-bsp/fvp-baser-aemv8r64: Add support for runfvp

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This patch adds support for runfvp to fvp-base-r:
- Add necessary parameter to the fvp-baser-aemv8r64.conf
- Add fvp-base-r-aem bb file
- Add kas support

Issue-Id: SCM-2953
Signed-off-by: Hugo L'Hostis <hugo.lhostis@arm.com>
Change-Id: I252b445297f2d61a90e3cd8f0ec1816890cf733b
Signed-off-by: Jon Mason <jon.mason@arm.com>
This commit is contained in:
Hugo L'Hostis
2021-07-28 08:58:54 +01:00
committed by Jon Mason
parent 4cfddc2b26
commit 23a1149304
4 changed files with 111 additions and 38 deletions
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kas/fvp-baser-aemv8r64-bsp.yml
+6
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@@ -21,12 +21,18 @@ repos:
meta:
meta-poky:
env:
FVP_BASE_R_AEM_TARBALL_URI: ""
FVP_BASE_R_ARM_EULA_ACCEPT: "False"
local_conf_header:
base: |
CONF_VERSION = "1"
PACKAGE_CLASSES = "package_ipk"
PACKAGECONFIG_remove_pn-qemu-system-native = "gtk+ sdl"
EXTRA_IMAGE_FEATURES_append = " debug-tweaks"
IMAGE_CLASSES_append = " ${@oe.utils.ifelse(d.getVar('FVP_BASE_R_AEM_TARBALL_URI'), 'fvpboot', '')}"
LICENSE_FLAGS_WHITELIST_append = " ${@oe.utils.vartrue('FVP_BASE_R_ARM_EULA_ACCEPT', 'Arm-FVP-EULA', '', d)}"
target:
- core-image-minimal
meta-arm-bsp/conf/machine/fvp-baser-aemv8r64.conf
+33
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@@ -24,3 +24,36 @@ WKS_FILE ?= "fvp-base.wks"
# initialise) and install the pre-generated keys.
PACKAGECONFIG_remove_pn-openssh = "rng-tools"
MACHINE_EXTRA_RRECOMMENDS += "ssh-pregen-hostkeys"
FVP_EXTRA_ARGS = "-a cluster0*=${DEPLOY_DIR_IMAGE}/linux-system.axf"
FVP_PROVIDER ?= "fvp-base-r-aem-native"
FVP_EXE ?= "FVP_BaseR_AEMv8R"
FVP_CONSOLE ?= "terminal_0"
# FVP parameters
FVP_CONFIG[bp.virtioblockdevice.image_path] ?= "${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.wic"
FVP_CONFIG[bp.dram_metadata.init_value] ?= "0"
FVP_CONFIG[bp.dram_metadata.is_enabled] ?= "true"
FVP_CONFIG[bp.dram_size] ?= "8"
FVP_CONFIG[bp.exclusive_monitor.monitor_access_level] ?= "1"
FVP_CONFIG[bp.pl011_uart0.unbuffered_output] ?= "1"
FVP_CONFIG[bp.pl011_uart0.untimed_fifos] ?= "true"
FVP_CONFIG[bp.refcounter.non_arch_start_at_default] ?= "1"
FVP_CONFIG[bp.smsc_91c111.enabled] ?= "0"
FVP_CONFIG[bp.ve_sysregs.mmbSiteDefault] ?= "0"
FVP_CONFIG[cache_state_modelled] ?= "0"
FVP_CONFIG[cluster0.gicv3.cpuintf-mmap-access-level] ?= "2"
FVP_CONFIG[cluster0.gicv3.SRE-enable-action-on-mmap] ?= "2"
FVP_CONFIG[cluster0.gicv3.SRE-EL2-enable-RAO] ?= "1"
FVP_CONFIG[cluster0.gicv3.extended-interrupt-range-support] ?= "1"
FVP_CONFIG[cluster0.has_aarch64] ?= "1"
FVP_CONFIG[cluster0.NUM_CORES] ?= "4"
FVP_CONFIG[cluster0.stage12_tlb_size] ?= "512"
FVP_CONFIG[gic_distributor.GICD_CTLR-DS-1-means-secure-only] ?= "1"
FVP_CONFIG[gic_distributor.GITS_BASER0-type] ?= "1"
FVP_CONFIG[gic_distributor.ITS-count] ?= "1"
FVP_CONFIG[gic_distributor.ITS-hardware-collection-count] ?= "1"
FVP_CONFIG[gic_distributor.has-two-security-states] ?= "0"
FVP_CONFIG[pctl.startup] ?= "0.0.0.*"
FVP_CONFIG[bp.virtio_net.enabled] ?= "1"
FVP_CONFIG[bp.vis.rate_limit-enable] ?= "0"
meta-arm-bsp/documentation/fvp-baser-aemv8r64.md
+45 -38
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@@ -50,6 +50,22 @@ Install the kas setup tool for bitbake based projects:
For more details on kas, see https://kas.readthedocs.io/.
To build the images for fvp-base machine, you also need to:
- download the ``FVP_Base_AEMv8R_11.15_14.tgz`` image AEM V8-R FVP Installer
(Linux) package from Arm's website:
https://silver.arm.com/download/download.tm?pv=4858045&p=4029857. You need
to have an account and be logged in to be able to download it
- set absolute path to the ``FVP_Base_AEMv8R_11.15_14.tgz`` downloaded
package in ``FVP_BASE_R_AEM_TARBALL_URI``
- accept EULA in ``FVP_BASE_R_ARM_EULA_ACCEPT``
The variables should be set like so:
FVP_BASE_R_AEM_TARBALL_URI="file:///absolute/path/to/FVP_Base_AEMv8R_11.15_14.tgz"
FVP_BASE_R_ARM_EULA_ACCEPT="True"
**Note:** The host machine should have at least 50 GBytes of free disk space
for the next steps to work correctly.
@@ -101,49 +117,40 @@ To clean up the tap0 interface on the host use the following commands:
sudo ip link delete tap0
### Run
To Run the Fixed Virtual Platform simulation tool you must download "Armv8-R
AEM FVP" from Arm developer (This might require the user to register) from this
address:
https://developer.arm.com/tools-and-software/simulation-models/fixed-virtual-platforms/arm-ecosystem-models
and install it on your host PC.
To run an image after the build is done with the standard Linux kernel:
To run an image after the build is done:
kas shell --keep-config-unchanged \
meta-arm/kas/fvp-baser-aemv8r64-bsp.yml \
--command "../meta-arm/scripts/runfvp \
--console \
-- \
--parameter 'bp.smsc_91c111.enabled=1' \
--parameter 'bp.hostbridge.interfaceName=tap0'"
export YOCTO_DEPLOY_IMGS_DIR="~/fvp-baser-aemv8r64-bsp/build/tmp/deploy/images/fvp-baser-aemv8r64/"
cd <path-to-AEMv8R_base_pkg>/models/Linux64_GCC-6.4/
./FVP_BaseR_AEMv8R \
-C bp.dram_metadata.init_value=0 \
-C bp.dram_metadata.is_enabled=true \
-C bp.dram_size=8 \
-C bp.exclusive_monitor.monitor_access_level=1 \
-C bp.pl011_uart0.unbuffered_output=1 \
-C bp.pl011_uart0.untimed_fifos=true \
-C bp.refcounter.non_arch_start_at_default=1 \
-C bp.smsc_91c111.enabled=0 \
-C bp.ve_sysregs.mmbSiteDefault=0 \
-C cache_state_modelled=true \
-C cluster0.gicv3.cpuintf-mmap-access-level=2 \
-C cluster0.gicv3.SRE-enable-action-on-mmap=2 \
-C cluster0.gicv3.SRE-EL2-enable-RAO=1 \
-C cluster0.gicv3.extended-interrupt-range-support=1 \
-C cluster0.has_aarch64=1 \
-C cluster0.NUM_CORES=4 \
-C cluster0.stage12_tlb_size=512 \
-C gic_distributor.GICD_CTLR-DS-1-means-secure-only=1 \
-C gic_distributor.GITS_BASER0-type=1 \
-C gic_distributor.ITS-count=1 \
-C gic_distributor.ITS-hardware-collection-count=1 \
-C gic_distributor.has-two-security-states=0 \
-C pctl.startup=0.0.0.* \
-C bp.virtio_net.enabled=1 \
-C cache_state_modelled=0 \
-C bp.vis.rate_limit-enable=0 \
-C bp.virtio_net.hostbridge.interfaceName=tap0 \
-a cluster0*=${YOCTO_DEPLOY_IMGS_DIR}/linux-system.axf \
-C bp.virtioblockdevice.image_path=${YOCTO_DEPLOY_IMGS_DIR}/core-image-minimal-fvp-baser-aemv8r64.wic
To run an image after the build is done with the Real-Time Linux kernel
(PREEMPT\_RT):
kas shell --keep-config-unchanged \
meta-arm/kas/fvp-baser-aemv8r64-rt-bsp.yml \
--command "../meta-arm/scripts/runfvp \
--console \
-- \
--parameter 'bp.smsc_91c111.enabled=1' \
--parameter 'bp.hostbridge.interfaceName=tap0'"
**Note:** The terminal console login is `root` without password.
To finish the fvp emulation, you need to close the telnet session and stop the
runfvp script:
1. To close the telnet session:
- Escape to telnet console with ``ctrl+]``.
- Run ``quit`` to close the session.
2. To stop the runfvp:
- Type ``ctrl+c`` and wait for kas process to finish.
Devices supported in the kernel
-------------------------------
meta-arm/recipes-devtools/fvp/fvp-base-r-aem.bb
+27
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@@ -0,0 +1,27 @@
require fvp-common.inc
SUMMARY = "Arm Fixed Virtual Platform - Armv8-R Base Architecture Envelope Model FVP"
HOMEPAGE = "https://developer.arm.com/tools-and-software/simulation-models/fixed-virtual-platforms/arm-ecosystem-models"
LIC_FILES_CHKSUM = "file://license_terms/license_agreement.txt;md5=1a33828e132ba71861c11688dbb0bd16 \
file://license_terms/third_party_licenses.txt;md5=3db0c4947b7e3405c40b943672d8de2f"
# This FVP cannot be downloaded directly, so download the Armv8-R Base AEM FVP
# yourself from the homepage and set FVP_BASE_R_AEM_TARBALL_URI appropriately
# (for example, file:///home/user/FVP_Base_AEMv8R_11.15_14.tgz).
FVP_BASE_R_AEM_TARBALL_URI ?= ""
FVP_BASE_R_ARM_EULA_ACCEPT ?= "False"
PV = "11.15_14"
SRC_URI = "${FVP_BASE_R_AEM_TARBALL_URI};subdir=${BP}"
python() {
if not d.getVar("FVP_BASE_R_AEM_TARBALL_URI"):
raise bb.parse.SkipRecipe("FVP_BASE_R_AEM_TARBALL_URI not set")
}
do_install() {
mkdir --parents ${D}${FVPDIR} ${D}${bindir}
cp --archive --no-preserve=ownership ${S}/AEMv8R_base_pkg//* ${D}${FVPDIR}/
fvp_link_binaries
}