#! /bin/bash -eu # Script for checking various microcode caveats # # # SPDX-License-Identifier: CC0-1.0 : ${MC_CAVEATS_DATA_DIR=/usr/share/microcode_ctl/ucode_with_caveats} usage() { echo 'Usage: check_caveats [-k TARGET_KVER] [-c CONFIG] [-m] [-v]' echo echo ' -k - target version to check against, $(uname -r) is used' echo ' otherwise' echo ' -c - caveat config(s) to check, all configs are checked' echo ' otherwise' echo ' -m - check that caveats actually apply to the current model' echo ' -v - verbose output' echo echo 'Environment:' echo ' MC_CAVEATS_DATA_DIR - directory that contains caveats' echo ' configuration data' } debug() { [ 0 = "$verbose" ] || echo "$*" >&2; } # A simplified RPM version comparison that takes into account knowledge about # Y- and Z-streams (so it compares versions inside Y-stram or Z-stream if # the version against which comparison is performed has appropriate versioning # scheme). # # $1 - kernel version to check # $* - list of kernel versions to check against check_kver() { local t_major= t_minor= t_patch= t_y= t_z1= t_z2= t_rest= local m_major= m_minor= m_patch= m_y= m_z1= m_z2= m_rest= local cmp_type= # IFS=.- read -r t_major t_minor t_patch t_y t_z1 t_z2 t_rest <<<"$1" # "cannot create temp file for here-document: Read-only file system" # that's why we can't have nice things. t_major=${1%%[.-]*} t_rest=${1#${t_major}} t_rest=${t_rest#[.-]} t_minor=${t_rest%%[.-]*} t_rest=${t_rest#${t_minor}} t_rest=${t_rest#[.-]} t_patch=${t_rest%%[.-]*} t_rest=${t_rest#${t_patch}} t_rest=${t_rest#[.-]} t_y=${t_rest%%[.-]*} t_rest=${t_rest#${t_y}} t_rest=${t_rest#[.-]} t_z1=${t_rest%%[.-]*} t_rest=${t_rest#${t_z1}} t_rest=${t_rest#[.-]} t_z2=${t_rest%%[.-]*} # minor/major/patch/y should be numeric [ -n "${t_major##*[!0-9]*}" ] || return 1 [ -n "${t_minor##*[!0-9]*}" ] || return 1 [ -n "${t_patch##*[!0-9]*}" ] || return 1 [ -n "${t_y##*[!0-9]*}" ] || return 1 # reset z1/z2 to zero if non-numeric [ -n "${t_z1##*[!0-9]*}" ] || t_z1=0 [ -n "${t_z2##*[!0-9]*}" ] || t_z2=0 while [ 1 -lt "$#" ]; do cmp_type=upstream shift m_major=${1%%[.-]*} m_rest=${1#${m_major}} m_rest=${m_rest#[.-]} m_minor=${m_rest%%[.-]*} m_rest=${m_rest#${m_minor}} m_rest=${m_rest#[.-]} m_patch=${m_rest%%[.-]*} m_rest=${m_rest#${m_patch}} m_rest=${m_rest#[.-]} m_y=${m_rest%%[.-]*} m_rest=${m_rest#${m_y}} m_rest=${m_rest#[.-]} m_z1=${m_rest%%[.-]*} m_rest=${m_rest#${m_z1}} m_rest=${m_rest#[.-]} m_z2=${m_rest%%[.-]*} # minor/major/patch should be numeric [ -n "${m_major##*[!0-9]*}" ] || continue [ -n "${m_minor##*[!0-9]*}" ] || continue [ -n "${m_patch##*[!0-9]*}" ] || continue # reset z1/z2 to zero if non-numeric [ -n "${m_y##*[!0-9]*}" ] && cmp_type=y || m_y=0 [ -n "${m_z1##*[!0-9]*}" ] && cmp_type=z || m_z1=0 [ -n "${m_z2##*[!0-9]*}" ] && cmp_type=z || m_z2=0 # Comparing versions case "$cmp_type" in upstream) [ "$t_major" -ge "$m_major" ] || continue [ "$t_minor" -ge "$m_minor" ] || continue [ "$t_patch" -ge "$m_patch" ] || continue return 0 ;; y) [ "$t_major" -eq "$m_major" ] || continue [ "$t_minor" -eq "$m_minor" ] || continue [ "$t_patch" -eq "$m_patch" ] || continue [ "$t_y" -ge "$m_y" ] || continue return 0 ;; z) [ "$t_major" -eq "$m_major" ] || continue [ "$t_minor" -eq "$m_minor" ] || continue [ "$t_patch" -eq "$m_patch" ] || continue [ "$t_y" -eq "$m_y" ] || continue [ "$t_z1" -ge "$m_z1" ] || continue [ "$t_z2" -ge "$m_z2" ] || continue return 0 ;; esac done return 1 } # Provides model in format "VENDOR_ID FAMILY-MODEL-STEPPING" # # We check only the first processor as we don't expect non-symmetrical setups # with CPUs with caveats get_model_string() { /usr/bin/printf "%s %02x-%02x-%02x" \ $(/bin/sed -rn '1,/^$/{ s/^vendor_id[[:space:]]*: (.*)$/\1/p; s/^cpu family[[:space:]]*: (.*)$/\1/p; s/^model[[:space:]]*: (.*)$/\1/p; s/^stepping[[:space:]]*: (.*)$/\1/p; }' /proc/cpuinfo) } get_model_name() { /bin/sed -rn '1,/^$/s/^model name[[:space:]]*: (.*)$/\1/p' /proc/cpuinfo } #check_kver "$@" #get_model_name match_model=0 configs= kver=$(/bin/uname -r) verbose=0 while getopts "k:c:mv" opt; do case "${opt}" in k) kver="$OPTARG" ;; c) configs="$configs $OPTARG" ;; m) match_model=1 ;; v) verbose=1 ;; *) usage exit 1; ;; esac done : ${configs:=$(find "${MC_CAVEATS_DATA_DIR}" -maxdepth 1 -mindepth 1 -type d -printf "%f\n")} cpu_model=$(get_model_string) cpu_model_name=$(get_model_name) for cfg in $(echo "${configs}"); do dir="$MC_CAVEATS_DATA_DIR/$cfg" [ -r "${dir}/config" ] || { debug "File 'config' in ${dir} is not found, skipping" continue } cfg_model= cfg_path= cfg_kvers= cfg_blacklist= while read -r key value; do case "$key" in model) cfg_model="$value" ;; path) cfg_path="$cfg_path $value" ;; kernel) cfg_kvers="$cfg_kvers $value" ;; blacklist) cfg_blacklist=1 break ;; esac done < "${dir}/config" [ -z "${cfg_blacklist}" ] || \ cfg_blacklist=$(/bin/sed -n '/^blacklist$/,$p' "${dir}/config" | /usr/bin/tail -n +2) debug "${cfg}: model '$cfg_model', path '$cfg_path', kvers '$cfg_kvers'" debug "${cfg}: blacklist '$cfg_blacklist'" if [ -n "$cfg_model" ]; then [ 0 -eq "$match_model" ] || { [ "x$cpu_model" = "x$cfg_model" ] || { debug "Current CPU model '$cpu_model' doesn't" \ "match config CPU model '$cfg_model'," \ "skipping" continue } } fi if [ -n "$cfg_kvers" ]; then check_kver "$kver" $cfg_kvers || { debug "${cfg}: kernel version check for '$kver'" \ "against '$cfg_kvers' failed" exit 1 } fi if [ -n "$cfg_blacklist" ]; then echo "$cfg_blacklist" | /bin/grep -vqFx "${cpu_model_name}" || { debug "${cfg}: model '${cpu_model_name}' is blacklisted" exit 1 } fi #printf "%s " "$cfg" #[ 0 -eq "$match_model" ] || printf "%s " "$cpu_model" echo $cfg_path done exit 0