TOMOYO Linux Cross Reference
Linux/tools/testing/selftests/bpf/vmtest.sh

   #!/bin/bash
   # SPDX-License-Identifier: GPL-2.0
   
   set -e
   
   # This script currently only works for the following platforms,
   # as it is based on the VM image used by the BPF CI, which is
   # available only for these architectures. We can also specify
   # the local rootfs image generated by the following script:
  # https://github.com/libbpf/ci/blob/main/rootfs/mkrootfs_debian.sh
  PLATFORM="${PLATFORM:-$(uname -m)}"
  case "${PLATFORM}" in
  s390x)
          QEMU_BINARY=qemu-system-s390x
          QEMU_CONSOLE="ttyS1"
          HOST_FLAGS=(-smp 2 -enable-kvm)
          CROSS_FLAGS=(-smp 2)
          BZIMAGE="arch/s390/boot/vmlinux"
          ARCH="s390"
          ;;
  x86_64)
          QEMU_BINARY=qemu-system-x86_64
          QEMU_CONSOLE="ttyS0,115200"
          HOST_FLAGS=(-cpu host -enable-kvm -smp 8)
          CROSS_FLAGS=(-smp 8)
          BZIMAGE="arch/x86/boot/bzImage"
          ARCH="x86"
          ;;
  aarch64)
          QEMU_BINARY=qemu-system-aarch64
          QEMU_CONSOLE="ttyAMA0,115200"
          HOST_FLAGS=(-M virt,gic-version=3 -cpu host -enable-kvm -smp 8)
          CROSS_FLAGS=(-M virt,gic-version=3 -cpu cortex-a76 -smp 8)
          BZIMAGE="arch/arm64/boot/Image"
          ARCH="arm64"
          ;;
  riscv64)
          # required qemu version v7.2.0+
          QEMU_BINARY=qemu-system-riscv64
          QEMU_CONSOLE="ttyS0,115200"
          HOST_FLAGS=(-M virt -cpu host -enable-kvm -smp 8)
          CROSS_FLAGS=(-M virt -cpu rv64,sscofpmf=true -smp 8)
          BZIMAGE="arch/riscv/boot/Image"
          ARCH="riscv"
          ;;
  *)
          echo "Unsupported architecture"
          exit 1
          ;;
  esac
  DEFAULT_COMMAND="./test_progs"
  MOUNT_DIR="mnt"
  LOCAL_ROOTFS_IMAGE=""
  ROOTFS_IMAGE="root.img"
  OUTPUT_DIR="$HOME/.bpf_selftests"
  KCONFIG_REL_PATHS=("tools/testing/selftests/bpf/config"
          "tools/testing/selftests/bpf/config.vm"
          "tools/testing/selftests/bpf/config.${PLATFORM}")
  INDEX_URL="https://raw.githubusercontent.com/libbpf/ci/master/INDEX"
  NUM_COMPILE_JOBS="$(nproc)"
  LOG_FILE_BASE="$(date +"bpf_selftests.%Y-%m-%d_%H-%M-%S")"
  LOG_FILE="${LOG_FILE_BASE}.log"
  EXIT_STATUS_FILE="${LOG_FILE_BASE}.exit_status"
  
  usage()
  {
          cat <<EOF
  Usage: $0 [-i] [-s] [-d <output_dir>] -- [<command>]
  
  <command> is the command you would normally run when you are in
  tools/testing/selftests/bpf. e.g:
  
          $0 -- ./test_progs -t test_lsm
  
  If no command is specified and a debug shell (-s) is not requested,
  "${DEFAULT_COMMAND}" will be run by default.
  
  Using PLATFORM= and CROSS_COMPILE= options will enable cross platform testing:
  
    PLATFORM=<platform> CROSS_COMPILE=<toolchain> $0 -- ./test_progs -t test_lsm
  
  If you build your kernel using KBUILD_OUTPUT= or O= options, these
  can be passed as environment variables to the script:
  
    O=<kernel_build_path> $0 -- ./test_progs -t test_lsm
  
  or
  
    KBUILD_OUTPUT=<kernel_build_path> $0 -- ./test_progs -t test_lsm
  
  Options:
  
          -l)             Specify the path to the local rootfs image.
          -i)             Update the rootfs image with a newer version.
          -d)             Update the output directory (default: ${OUTPUT_DIR})
          -j)             Number of jobs for compilation, similar to -j in make
                          (default: ${NUM_COMPILE_JOBS})
          -s)             Instead of powering off the VM, start an interactive
                          shell. If <command> is specified, the shell runs after
                         the command finishes executing
 EOF
 }
 
 unset URLS
 populate_url_map()
 {
         if ! declare -p URLS &> /dev/null; then
                 # URLS contain the mapping from file names to URLs where
                 # those files can be downloaded from.
                 declare -gA URLS
                 while IFS=$'\t' read -r name url; do
                         URLS["$name"]="$url"
                 done < <(curl -Lsf ${INDEX_URL})
         fi
 }
 
 newest_rootfs_version()
 {
         {
         for file in "${!URLS[@]}"; do
                 if [[ $file =~ ^"${PLATFORM}"/libbpf-vmtest-rootfs-(.*)\.tar\.zst$ ]]; then
                         echo "${BASH_REMATCH[1]}"
                 fi
         done
         } | sort -rV | head -1
 }
 
 download_rootfs()
 {
         populate_url_map
 
         local rootfsversion="$(newest_rootfs_version)"
         local file="${PLATFORM}/libbpf-vmtest-rootfs-$rootfsversion.tar.zst"
 
         if [[ ! -v URLS[$file] ]]; then
                 echo "$file not found" >&2
                 return 1
         fi
 
         echo "Downloading $file..." >&2
         curl -Lsf "${URLS[$file]}" "${@:2}"
 }
 
 load_rootfs()
 {
         local dir="$1"
 
         if ! which zstd &> /dev/null; then
                 echo 'Could not find "zstd" on the system, please install zstd'
                 exit 1
         fi
 
         if [[ -n "${LOCAL_ROOTFS_IMAGE}" ]]; then
                 cat "${LOCAL_ROOTFS_IMAGE}" | zstd -d | sudo tar -C "$dir" -x
         else
                 download_rootfs | zstd -d | sudo tar -C "$dir" -x
         fi
 }
 
 recompile_kernel()
 {
         local kernel_checkout="$1"
         local make_command="$2"
 
         cd "${kernel_checkout}"
 
         ${make_command} olddefconfig
         ${make_command}
 }
 
 mount_image()
 {
         local rootfs_img="${OUTPUT_DIR}/${ROOTFS_IMAGE}"
         local mount_dir="${OUTPUT_DIR}/${MOUNT_DIR}"
 
         sudo mount -o loop "${rootfs_img}" "${mount_dir}"
 }
 
 unmount_image()
 {
         local mount_dir="${OUTPUT_DIR}/${MOUNT_DIR}"
 
         sudo umount "${mount_dir}" &> /dev/null
 }
 
 update_selftests()
 {
         local kernel_checkout="$1"
         local selftests_dir="${kernel_checkout}/tools/testing/selftests/bpf"
 
         cd "${selftests_dir}"
         ${make_command}
 
         # Mount the image and copy the selftests to the image.
         mount_image
         sudo rm -rf "${mount_dir}/root/bpf"
         sudo cp -r "${selftests_dir}" "${mount_dir}/root"
         unmount_image
 }
 
 update_init_script()
 {
         local init_script_dir="${OUTPUT_DIR}/${MOUNT_DIR}/etc/rcS.d"
         local init_script="${init_script_dir}/S50-startup"
         local command="$1"
         local exit_command="$2"
 
         mount_image
 
         if [[ ! -d "${init_script_dir}" ]]; then
                 cat <<EOF
 Could not find ${init_script_dir} in the mounted image.
 This likely indicates a bad rootfs image, Please download
 a new image by passing "-i" to the script
 EOF
                 exit 1
 
         fi
 
         sudo bash -c "echo '#!/bin/bash' > ${init_script}"
 
         if [[ "${command}" != "" ]]; then
                 sudo bash -c "cat >>${init_script}" <<EOF
 # Have a default value in the exit status file
 # incase the VM is forcefully stopped.
 echo "130" > "/root/${EXIT_STATUS_FILE}"
 
 {
         cd /root/bpf
         echo ${command}
         stdbuf -oL -eL ${command}
         echo "\$?" > "/root/${EXIT_STATUS_FILE}"
 } 2>&1 | tee "/root/${LOG_FILE}"
 # Ensure that the logs are written to disk
 sync
 EOF
         fi
 
         sudo bash -c "echo ${exit_command} >> ${init_script}"
         sudo chmod a+x "${init_script}"
         unmount_image
 }
 
 create_vm_image()
 {
         local rootfs_img="${OUTPUT_DIR}/${ROOTFS_IMAGE}"
         local mount_dir="${OUTPUT_DIR}/${MOUNT_DIR}"
 
         rm -rf "${rootfs_img}"
         touch "${rootfs_img}"
         chattr +C "${rootfs_img}" >/dev/null 2>&1 || true
 
         truncate -s 2G "${rootfs_img}"
         mkfs.ext4 -q "${rootfs_img}"
 
         mount_image
         load_rootfs "${mount_dir}"
         unmount_image
 }
 
 run_vm()
 {
         local kernel_bzimage="$1"
         local rootfs_img="${OUTPUT_DIR}/${ROOTFS_IMAGE}"
 
         if ! which "${QEMU_BINARY}" &> /dev/null; then
                 cat <<EOF
 Could not find ${QEMU_BINARY}
 Please install qemu or set the QEMU_BINARY environment variable.
 EOF
                 exit 1
         fi
 
         if [[ "${PLATFORM}" != "$(uname -m)" ]]; then
                 QEMU_FLAGS=("${CROSS_FLAGS[@]}")
         else
                 QEMU_FLAGS=("${HOST_FLAGS[@]}")
         fi
 
         ${QEMU_BINARY} \
                 -nodefaults \
                 -display none \
                 -serial mon:stdio \
                 "${QEMU_FLAGS[@]}" \
                 -m 4G \
                 -drive file="${rootfs_img}",format=raw,index=1,media=disk,if=virtio,cache=none \
                 -kernel "${kernel_bzimage}" \
                 -append "root=/dev/vda rw console=${QEMU_CONSOLE}"
 }
 
 copy_logs()
 {
         local mount_dir="${OUTPUT_DIR}/${MOUNT_DIR}"
         local log_file="${mount_dir}/root/${LOG_FILE}"
         local exit_status_file="${mount_dir}/root/${EXIT_STATUS_FILE}"
 
         mount_image
         sudo cp ${log_file} "${OUTPUT_DIR}"
         sudo cp ${exit_status_file} "${OUTPUT_DIR}"
         sudo rm -f ${log_file}
         unmount_image
 }
 
 is_rel_path()
 {
         local path="$1"
 
         [[ ${path:0:1} != "/" ]]
 }
 
 do_update_kconfig()
 {
         local kernel_checkout="$1"
         local kconfig_file="$2"
 
         rm -f "$kconfig_file" 2> /dev/null
 
         for config in "${KCONFIG_REL_PATHS[@]}"; do
                 local kconfig_src="${kernel_checkout}/${config}"
                 cat "$kconfig_src" >> "$kconfig_file"
         done
 }
 
 update_kconfig()
 {
         local kernel_checkout="$1"
         local kconfig_file="$2"
 
         if [[ -f "${kconfig_file}" ]]; then
                 local local_modified="$(stat -c %Y "${kconfig_file}")"
 
                 for config in "${KCONFIG_REL_PATHS[@]}"; do
                         local kconfig_src="${kernel_checkout}/${config}"
                         local src_modified="$(stat -c %Y "${kconfig_src}")"
                         # Only update the config if it has been updated after the
                         # previously cached config was created. This avoids
                         # unnecessarily compiling the kernel and selftests.
                         if [[ "${src_modified}" -gt "${local_modified}" ]]; then
                                 do_update_kconfig "$kernel_checkout" "$kconfig_file"
                                 # Once we have found one outdated configuration
                                 # there is no need to check other ones.
                                 break
                         fi
                 done
         else
                 do_update_kconfig "$kernel_checkout" "$kconfig_file"
         fi
 }
 
 catch()
 {
         local exit_code=$1
         local exit_status_file="${OUTPUT_DIR}/${EXIT_STATUS_FILE}"
         # This is just a cleanup and the directory may
         # have already been unmounted. So, don't let this
         # clobber the error code we intend to return.
         unmount_image || true
         if [[ -f "${exit_status_file}" ]]; then
                 exit_code="$(cat ${exit_status_file})"
         fi
         exit ${exit_code}
 }
 
 main()
 {
         local script_dir="$(cd -P -- "$(dirname -- "${BASH_SOURCE[0]}")" && pwd -P)"
         local kernel_checkout=$(realpath "${script_dir}"/../../../../)
         # By default the script searches for the kernel in the checkout directory but
         # it also obeys environment variables O= and KBUILD_OUTPUT=
         local kernel_bzimage="${kernel_checkout}/${BZIMAGE}"
         local command="${DEFAULT_COMMAND}"
         local update_image="no"
         local exit_command="poweroff -f"
         local debug_shell="no"
 
         while getopts ':hskl:id:j:' opt; do
                 case ${opt} in
                 l)
                         LOCAL_ROOTFS_IMAGE="$OPTARG"
                         ;;
                 i)
                         update_image="yes"
                         ;;
                 d)
                         OUTPUT_DIR="$OPTARG"
                         ;;
                 j)
                         NUM_COMPILE_JOBS="$OPTARG"
                         ;;
                 s)
                         command=""
                         debug_shell="yes"
                         exit_command="bash"
                         ;;
                 h)
                         usage
                         exit 0
                         ;;
                 \? )
                         echo "Invalid Option: -$OPTARG"
                         usage
                         exit 1
                         ;;
                 : )
                         echo "Invalid Option: -$OPTARG requires an argument"
                         usage
                         exit 1
                         ;;
                 esac
         done
         shift $((OPTIND -1))
 
         trap 'catch "$?"' EXIT
 
         if [[ "${PLATFORM}" != "$(uname -m)" ]] && [[ -z "${CROSS_COMPILE}" ]]; then
                 echo "Cross-platform testing needs to specify CROSS_COMPILE"
                 exit 1
         fi
 
         if [[ $# -eq 0  && "${debug_shell}" == "no" ]]; then
                 echo "No command specified, will run ${DEFAULT_COMMAND} in the vm"
         else
                 command="$@"
         fi
 
         local kconfig_file="${OUTPUT_DIR}/latest.config"
         local make_command="make ARCH=${ARCH} CROSS_COMPILE=${CROSS_COMPILE} \
                             -j ${NUM_COMPILE_JOBS} KCONFIG_CONFIG=${kconfig_file}"
 
         # Figure out where the kernel is being built.
         # O takes precedence over KBUILD_OUTPUT.
         if [[ "${O:=""}" != "" ]]; then
                 if is_rel_path "${O}"; then
                         O="$(realpath "${PWD}/${O}")"
                 fi
                 kernel_bzimage="${O}/${BZIMAGE}"
                 make_command="${make_command} O=${O}"
         elif [[ "${KBUILD_OUTPUT:=""}" != "" ]]; then
                 if is_rel_path "${KBUILD_OUTPUT}"; then
                         KBUILD_OUTPUT="$(realpath "${PWD}/${KBUILD_OUTPUT}")"
                 fi
                 kernel_bzimage="${KBUILD_OUTPUT}/${BZIMAGE}"
                 make_command="${make_command} KBUILD_OUTPUT=${KBUILD_OUTPUT}"
         fi
 
         local rootfs_img="${OUTPUT_DIR}/${ROOTFS_IMAGE}"
         local mount_dir="${OUTPUT_DIR}/${MOUNT_DIR}"
 
         echo "Output directory: ${OUTPUT_DIR}"
 
         mkdir -p "${OUTPUT_DIR}"
         mkdir -p "${mount_dir}"
         update_kconfig "${kernel_checkout}" "${kconfig_file}"
 
         recompile_kernel "${kernel_checkout}" "${make_command}"
 
         if [[ "${update_image}" == "no" && ! -f "${rootfs_img}" ]]; then
                 echo "rootfs image not found in ${rootfs_img}"
                 update_image="yes"
         fi
 
         if [[ "${update_image}" == "yes" ]]; then
                 create_vm_image
         fi
 
         update_selftests "${kernel_checkout}" "${make_command}"
         update_init_script "${command}" "${exit_command}"
         run_vm "${kernel_bzimage}"
         if [[ "${command}" != "" ]]; then
                 copy_logs
                 echo "Logs saved in ${OUTPUT_DIR}/${LOG_FILE}"
         fi
 }
 
 main "$@"

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