@@ -2146,9 +2146,11 @@ F: package/pkg-qmake.mk
F: package/qt5/qt5opcua/
N: Neal Frager <neal.frager@amd.com>
+F: board/versal/
F: board/zynq/
F: board/zynqmp/
F: board/zynqmp/kria/
+F: configs/versal_vck190_defconfig
F: configs/zynq_zc706_defconfig
F: configs/zynqmp_zcu102_defconfig
F: configs/zynqmp_zcu106_defconfig
new file mode 100644
@@ -0,0 +1,30 @@
+image boot.vfat {
+ vfat {
+ files = {
+ "boot.bin",
+ "system.dtb",
+ "Image"
+ }
+ file extlinux/extlinux.conf {
+ image = extlinux.conf
+ }
+ }
+
+ size = 32M
+}
+
+image sdcard.img {
+ hdimage {
+ }
+
+ partition boot {
+ partition-type = 0xC
+ bootable = "true"
+ image = "boot.vfat"
+ }
+
+ partition rootfs {
+ partition-type = 0x83
+ image = "rootfs.ext4"
+ }
+}
new file mode 100755
@@ -0,0 +1,16 @@
+#!/bin/sh
+
+# genimage will need to find the extlinux.conf
+# in the binaries directory
+
+BOARD_DIR="$(dirname $0)"
+CONSOLE=$2
+ROOT=$3
+
+mkdir -p "${BINARIES_DIR}"
+cat <<-__HEADER_EOF > "${BINARIES_DIR}/extlinux.conf"
+ label linux
+ kernel /Image
+ devicetree /system.dtb
+ append console=${CONSOLE} clk_ignore_unused root=/dev/${ROOT} rw rootwait
+ __HEADER_EOF
new file mode 100755
@@ -0,0 +1,35 @@
+#!/bin/sh
+
+# By default U-Boot loads DTB from a file named "system.dtb", so
+# let's use a symlink with that name that points to the *first*
+# devicetree listed in the config.
+
+FIRST_DT=$(sed -nr \
+ -e 's|^BR2_LINUX_KERNEL_INTREE_DTS_NAME="xilinx/([-_/[:alnum:]\\.]*).*"$|\1|p' \
+ ${BR2_CONFIG})
+
+[ -z "${FIRST_DT}" ] || ln -fs ${FIRST_DT}.dtb ${BINARIES_DIR}/system.dtb
+
+BOARD_DIR="$(dirname $0)"
+BOARD_NAME=$4
+
+mkdir -p "${BINARIES_DIR}"
+cat <<-__HEADER_EOF > "${BINARIES_DIR}/bootgen.bif"
+ the_ROM_image:
+ {
+ image {
+ { type=bootimage, file=${BINARIES_DIR}/${BOARD_NAME}_vpl_gen_fixed.pdi }
+ { type=bootloader, file=${BINARIES_DIR}/${BOARD_NAME}_plm.elf }
+ { core=psm, file=${BINARIES_DIR}/${BOARD_NAME}_psmfw.elf }
+ }
+ image {
+ id = 0x1c000000, name=apu_subsystem
+ { type=raw, load=0x00001000, file=${BINARIES_DIR}/system.dtb }
+ { core=a72-0, exception_level=el-3, trustzone, file=${BINARIES_DIR}/bl31.elf }
+ { core=a72-0, exception_level=el-2, file=${BINARIES_DIR}/u-boot.elf }
+ }
+ }
+ __HEADER_EOF
+
+${HOST_DIR}/bin/bootgen -arch versal -image ${BINARIES_DIR}/bootgen.bif -o ${BINARIES_DIR}/boot.bin -w on
+support/scripts/genimage.sh -c ${BOARD_DIR}/genimage.cfg
new file mode 100644
@@ -0,0 +1,54 @@
+******************************************
+Xilinx VCK190 board - Versal
+******************************************
+
+This document describes the Buildroot support for the VCK190
+board by Xilinx, based on Versal. It has been tested with the
+VCK190 production board.
+
+Evaluation board features can be found here with the link below.
+
+VCK190:
+https://www.xilinx.com/products/boards-and-kits/vck190.html
+
+
+How to build it
+===============
+
+Configure Buildroot:
+
+ $ make versal_vck190_defconfig
+
+Compile everything and build the rootfs image:
+
+ $ make
+
+Result of the build
+-------------------
+
+After building, you should get a tree like this:
+
+ output/images/
+ +-- boot.bin
+ +-- boot.vfat
+ +-- Image
+ +-- rootfs.ext2
+ +-- rootfs.ext4 -> rootfs.ext2
+ +-- sdcard.img
+ +-- system.dtb -> versal-vck190-rev1.1.dtb
+ `-- versal-vck190-rev1.1.dtb
+
+How to write the SD card
+========================
+
+WARNING! This will destroy all the card content. Use with care!
+
+The sdcard.img file is a complete bootable image ready to be written
+on the boot medium. To install it, simply copy the image to an SD
+card:
+
+ # dd if=output/images/sdcard.img of=/dev/sdX
+
+Where 'sdX' is the device node of the SD.
+
+Eject the SD card, insert it in the board, and power it up.
new file mode 100644
@@ -0,0 +1,38 @@
+BR2_aarch64=y
+BR2_PACKAGE_HOST_LINUX_HEADERS_CUSTOM_5_15=y
+BR2_ROOTFS_POST_BUILD_SCRIPT="board/versal/post-build.sh"
+BR2_ROOTFS_POST_IMAGE_SCRIPT="board/versal/post-image.sh"
+BR2_ROOTFS_POST_SCRIPT_ARGS="ttyAMA0,115200 mmcblk0p2 vck190"
+BR2_LINUX_KERNEL=y
+BR2_LINUX_KERNEL_CUSTOM_TARBALL=y
+BR2_LINUX_KERNEL_CUSTOM_TARBALL_LOCATION="$(call github,Xilinx,linux-xlnx,xlnx_rebase_v5.15_LTS_2022.2)/xlnx_rebase_v5.15_LTS_2022.2.tar.gz"
+BR2_LINUX_KERNEL_DEFCONFIG="xilinx_versal"
+BR2_LINUX_KERNEL_DTS_SUPPORT=y
+BR2_LINUX_KERNEL_INTREE_DTS_NAME="xilinx/versal-vck190-rev1.1"
+BR2_LINUX_KERNEL_NEEDS_HOST_OPENSSL=y
+BR2_TARGET_ROOTFS_EXT2=y
+BR2_TARGET_ROOTFS_EXT2_4=y
+# BR2_TARGET_ROOTFS_TAR is not set
+BR2_TARGET_ARM_TRUSTED_FIRMWARE=y
+BR2_TARGET_ARM_TRUSTED_FIRMWARE_CUSTOM_TARBALL=y
+BR2_TARGET_ARM_TRUSTED_FIRMWARE_CUSTOM_TARBALL_LOCATION="$(call github,Xilinx,arm-trusted-firmware,xlnx_rebase_v2.6_2022.2)/xlnx_rebase_v2.6_2022.2.tar.gz"
+BR2_TARGET_ARM_TRUSTED_FIRMWARE_PLATFORM="versal"
+BR2_TARGET_ARM_TRUSTED_FIRMWARE_BL31_UBOOT=y
+BR2_TARGET_UBOOT_NEEDS_ATF_BL31=y
+BR2_TARGET_UBOOT_NEEDS_ATF_BL31_ELF=y
+BR2_TARGET_UBOOT=y
+BR2_TARGET_UBOOT_BUILD_SYSTEM_KCONFIG=y
+BR2_TARGET_UBOOT_CUSTOM_TARBALL=y
+BR2_TARGET_UBOOT_CUSTOM_TARBALL_LOCATION="$(call github,Xilinx,u-boot-xlnx,xlnx_rebase_v2022.01_2022.2)/xlnx_rebase_v2022.01_2022.2.tar.gz"
+BR2_TARGET_UBOOT_BOARD_DEFCONFIG="xilinx_versal_virt"
+BR2_TARGET_UBOOT_CUSTOM_MAKEOPTS="DEVICE_TREE=versal-vck190-rev1.1"
+BR2_TARGET_UBOOT_NEEDS_DTC=y
+BR2_TARGET_UBOOT_NEEDS_OPENSSL=y
+BR2_TARGET_UBOOT_FORMAT_REMAKE_ELF=y
+BR2_PACKAGE_VERSAL_FIRMWARE=y
+BR2_PACKAGE_VERSAL_FIRMWARE_VERSION="v2022.2"
+BR2_PACKAGE_VERSAL_FIRMWARE_BOARD="vck190"
+BR2_PACKAGE_HOST_DOSFSTOOLS=y
+BR2_PACKAGE_HOST_GENIMAGE=y
+BR2_PACKAGE_HOST_MTOOLS=y
+BR2_PACKAGE_HOST_BOOTGEN=y
This patch adds support for Xilinx Versal VCK190 evaluation board. VCK190 features can be found here: https://www.xilinx.com/products/boards-and-kits/vck190.html The VCK190 is based on the Xilinx Versal family: https://www.xilinx.com/products/silicon-devices/acap/versal.html The VC1902 included with the VCK190 evaluation board has Xilinx AI Engine acclerators designed for accelerating machine learning applications. Also included is an upgrade from prior Zynq and ZynqMP families to ARM Cortex-A72 cores. While the Linux kernel for Versal is quite similar to ZynqMP, the boot process has significantly changed. Triple-redundant MicroBlaze cores are used to boot and setup Versal devices. For this reason, current buildroot support will download pre-built firmware images and use Xilinx bootgen to generate the boot.bin for the vck190. Signed-off-by: Neal Frager <neal.frager@amd.com> --- V1->V2: - removed uboot.fragment and using BR2_TARGET_UBOOT_CUSTOM_MAKEOPTS instead - squashed versal_vck190_defconfig and board files into single patch V2->V3: - correct console name to ttyAMA0 - added necessary extlinux.conf append flags V3->V4: - switch to stripped u-boot.elf binary - clean up bootgen.bif file format V4->V5: - using new BR2_TARGET_UBOOT_FORMAT_BIN_ELF config V5->V6: - using new BR2_TARGET_UBOOT_FORMAT_REMAKE_ELF config --- DEVELOPERS | 2 ++ board/versal/genimage.cfg | 30 ++++++++++++++++++ board/versal/post-build.sh | 16 ++++++++++ board/versal/post-image.sh | 35 +++++++++++++++++++++ board/versal/readme.txt | 54 +++++++++++++++++++++++++++++++++ configs/versal_vck190_defconfig | 38 +++++++++++++++++++++++ 6 files changed, 175 insertions(+) create mode 100644 board/versal/genimage.cfg create mode 100755 board/versal/post-build.sh create mode 100755 board/versal/post-image.sh create mode 100644 board/versal/readme.txt create mode 100644 configs/versal_vck190_defconfig