diskimage-builder/elements/hwdiscovery/init.d/60-hwdiscovery

echo "Starting HW Discovery"

function cpu_cores() {
  hwinfo --cpu | grep -c "Hardware Class: cpu"
}

function ram() {
  # XXX: /proc may not be the best place to get this from, but hwinfo reports weird values (e.g. "1GB + 512MB" on a test VM of mine)
  _KB=$(grep MemTotal /proc/meminfo | awk '{ print $2 }')
  echo "$((_KB * 1024)) bytes"
}

function pxe_mac() {
  local bootif_re='BOOTIF=([^ ]+)' _mac
  if [[ $(cat /proc/cmdline) =~ $bootif_re ]]; then
      # If we were booted using pxelinux and its config file has the
      # IPAPPEND 2 stanza under the entry we booted from, then pxelinux
      # will have appended a BOOTIF argument to the kernel parameters telling
      # us what MAC address we are booting with.  From that, we can derive the
      # boot interface with no problems.
      _mac="${BASH_REMATCH[1]//-/:}"
      _mac="${_mac#*:}"
  elif [[ -d /sys/firmware/efi ]] && which efibootmgr &>/dev/null; then
      # Likewise, if we booted via the network while running in UEFI mode, and
      # efibootmgr is installed, we can determine the MAC address of the nic we
      # booted from.  It would be good to have code that can also do this using
      # efivars or parsing the stuff under /sys/firmware/efi/efivars directly,
      # but that is a trickier thing to do.
      local -A boot_entries
      local bootent_re='^Boot([0-9]{4})'
      local efimac_re='MAC\(([0-9a-f]+)'
      local k v current_bootent
      while read line; do
          k="${line%% *}"
          v="${line#* }"
          if [[ $k = BootCurrent:* ]]; then
              current_bootent="${line##BootCurrent: }"
          elif [[ $k =~ $bootent_re ]]; then
              boot_entries["${BASH_REMATCH[1]}"]="$v"
          fi
      done < <(efibootmgr -v)

      if [[ ${boot_entries["$current_bootent"]} =~ $efimac_re ]]; then
          _mac=''
          for o in 0 2 4 6 8 10; do
              _mac+="${BASH_REMATCH[1]:$o:2}:"
          done
          _mac=${_mac%:}
      fi
  fi
  if [[ ! $_mac ]]; then
      # If none of the exact methods worked, fall back on the heuristic
      # method and just return the mac addresses of all the interfaces
      # that have a link.  Hopefully whatever consumes this info is smarter
      # than we are.
      local _info1 _info2 _dev
      _info1=$(hwinfo --network|grep -B2 "Link detected: yes"|grep -C1 "HW Address:")
      _info2=$(echo "${_info1}"|awk '/Device File: (vlan*|br*)/{for(x=NR-2;x<=NR+2;x++)d[x];}{a[NR]=$0}END{for(i=1;i<=NR;i++)if(!(i in d))print a[i]}')
      _dev=$(echo "${_info1}" | grep "Device File:"|awk -F':' {'print $2'}|tr -d ' ')
      _mac=$(echo "${_info2}" | grep "HW Address:"|awk -F'ss:' {'print $2'}|tr -d ' ')
  fi
  echo $_mac
  export HW_DISCOVERY_BOOT_IFACE="$_mac"
}

function disk() {
  # XXX: This is returning only the first disk discovered, which is very likely to be insufficient on machines that present us with multiple disks
  # XXX: This is likely reporting in TB, but the units are not guaranteed. Maybe convert to bytes?
  lshw -C disk | grep size | awk -F'(' '{ print $2 }' | tr -d ')' | head -1
}

function raw_disk() {
  hwinfo --disk
}

function raw_network() {
  hwinfo --network
}

HW_DISCOVERY_OUTPUT=$(cat <<EOF
{
  "cpu cores" : "$(cpu_cores)",
  "disk size" : "$(disk)",
  "ram size" : "$(ram)",
  "pxe mac" : "$(pxe_mac)",
  "extra data" : {
    "raw disk" : "$(raw_disk | base64)",
    "raw network" : "$(raw_network | base64)",
    $_vendor_hwdiscovery_data
  }
}
EOF
)

# Print the resulting JSON for debugging purposes
echo $HW_DISCOVERY_OUTPUT

# Now submit the JSON
HW_DISCOVERY_DATA=$(echo ${HW_DISCOVERY_OUTPUT} | base64)
HW_DISCOVERY_URL=$(get_kernel_parameter HW_DISCOVERY_URL)
wget --post-data "hwdiscovery=true&hwdiscovery_data=${HW_DISCOVERY_DATA}" ${HW_DISCOVERY_URL}

sleep 30