AVR watch-dog daemon for Linkstation

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avr_evtd is an operating system daemon and should be started from /etc/init.d or /usr/local/sbin. It will return immediately, so you don't need to start it with '&'.

avr_evtd is a simple and small user space interface to the Linkstation AVR micro-controller. It doesn't have a lot of special features, but it's main task is to provide 'keep-alive' messages to the Linkstation's on-board AVR device. This device controls/monitors the fan, various LEDs, timed power up and two buttons. This daemon provides the necessary initialisation to the device and also stimulates the LEDs depending on various fault conditions. It also monitors a power button (located at the front) and a reset button (located at the rear).

avr_evtd searches for a configuration file located within the /etc/melco at start-up time. If this file does not exist, then it reverts to reading the file located at /etc/default/avr_evtd. Additionally, it periodically checks the root /dev/hda1 partition and the user data partition /dev/hda3 to ensure they are mounted. Also, if requested, it will determine if sufficient space remains and if not then the AVR is requested to illuminate the DISK LED. This periodic checking also takes place on the configuration files. If they are deemed to have been updated, then the daemon will respond accordingly.

Any failures are normally routed through the log files. With timed shutdown/power up, a warning will be broadcast to all users (console message) when within 5 or less minutes of power off. Also, fan failure alerts will be broadcast in this fashion. Failure to determine mounted partition /dev/hda3 will result in the DIAG LED flashing three times, repeatedly.

A new feature of this daemon is the ability to code events for single or groups of days. This allows the user to add any number of power-on/off events as required. This also has the added benifit of being able to shut down the device for longer periods. The internal AVR timer has a 12-bit resolution timer which can power up the linkstation from a maximum of a sixty eight hour sleep: from time of invocation. The AVR is updated again at time of power down/shutdown to re-validate the timer, in case of time updates (either by user or ntp). This will also preserve the 68 hour sleep resolution.


Get the latest version from https://sourceforge.net/projects/ppc-evtd

 cd / 
 wget <link to latest version from sourcecforge site>
 tar -xfvj <filename from wget download>
  • build the source and install process daemon and configuration files
 cd /usr/src/avr_evtd
 make install avr_evtd
  • modify /etc/default/avr_evtd.sample to suit your needs (refer to below for more information) and save as avr_evtd.
  • remove current daemon ppc_evtd (or mc_ctld for MIPS) if applicable
 update-rc.d -f ppc_uartd remove
  • add the new daemon links
 update-rc.d avr_evtd start 12 2 . stop 95 0 6 .
  • check the daemon is running
 ps aux | grep avr_evtd
  • observe /usr/local/sbin/avr_evtd in the output line


/etc/default/avr_evtd configuration file is the fallback file in the event that the stock melco files do not exist. The file is read at initial start-up in order to determine if timed shutdown is required and if the disk usage is to be monitored. The file should be always located within the /etc/default directory and a sample file is provided. The file format is similar to other Unix configuration files - comments begin with a # character and extend to the end of the line; blank lines are ignored. Configuration commands consist of an initial keyword followed by an argument. Arguments may be strings or times written in HH:MM (UTC) format. Optional arguments are delimited by [ ] in the following descriptions, while alternatives are separated by |.

This is an example configuration file:

# Sample avr_evtd daemon configuration file
# Set to YES to enable the EM-Mode feature, default no
# Timed shutdown flag (ON enables timed power down/up only
# or use days of the week MONWEDSAT etc
# if SHUTDOWN and POWERON are also specified)
# To override the device scan, specify the desired
# serial port connection to the AVR below and remove the
# comment
# MACRO day/group switching ON/OFF times in 24hr HH:MM
# Shutdown (default) time specified in 24hr format HH:MM
# Power on (default) time specified in 24hr format HH:MM
# Disk check, set to OFF or a value (0-100) specifying a
# percentage used at which the disk LED will illuminate
# Disk/AVR refresh rate (seconds), default 40
# Hold time (seconds) for button power-off, default 3
# Enable/disable continous disk full messages, default off
# Fan stationary fault timer (seconds), default 30



Debug data will be generated. This can be disabled by setting this entry to NO.


Enables the selection of EM-Mode from the reset button (hold for > 20 seconds). To disable, set this entry to NO.


Timed shutdown/power on is enabled. To disable, set this to NO. This will turn-off the sleep mode option of the box.

The following are macro'd power switching events. These can be removed if this is not required. Shown here as an example only.

  • For monday, the box will power on at 08:00, off at 21:00 and on again at 23:30
  • Tuesday, the box will power off at 02:30, on at 09:00 and off at 21:45
  • Wednesday throught friday, the box will power on at 08:00 and off at 22:00
  • Saturday, the box will power on at 07:30 and off at 08:30
  • Sunday, the box will not power up

No default shutdown or power on time is defined. If macro'd timing is not required and then power switching can be specified through these options only. Alternatively, if power-on of 07:30 and off at 23:30 is all that is required then it can be specified through the macro event handler via:

  • SUN-MON=ON=07:30,OFF=23:30

NOTE:The macro list of days must be in the correct order for the scheduler to work correctly:

  • This order is SUN, MON, TUE, WED, THR, FRI and SAT.

The disk led will illuminate if either /dev/hda1 or /dev/hda3 is above 90% used. This can be disabled by setting to 0 (zero) or another value from 1-100%. When the disk usage exceeds this value, then an event is triggered through the EventScript which can be used to additional clean-up if required.


The avr refresh rate is set to 40 seconds. This is the rate at which the daemon pings the micro-controller and checks on disk usage. This can be pushed out to 300 seconds if less frequent pinging is required.


The button hold time for power off is set to 3 seconds. Can be changed from 3 to 10 seconds. This is the time the power button has to be depressed for before the daemon issues the shutdown event.


Continous disk event messages on disk full is disabled. If repeated messages are required all the time the disk is full, then set this to ON.


A fan event will be generated if stationary for more than 30 seconds. This can be changed from 1 to 60 seconds. For HG uses a lower time maybe more desirable as these units run hotter.

Event Handling

Any event, such as button or fault, is handled by the daemon and some are made available externally through /etc/avr_evtd/EventScript. A default example of this is shown below:


# Populate the configured settings
[ -f /etc/default/avr_evtd ] && . /etc/default/avr_evtd /dev/null 2>&1

if [ "$DEBUG" = "ON" ]; then
  echo "`date` command is $1 for $DEVICE" >> /etc/avr_evtd/events.log

case "$1" in
  0)  if [ -e /sbin/utelnetd ]; then
        /sbin/utelnetd -p1234 -l /bin/bash &
      fi ;;
  1)  echo -n "[avr_evtd]: AVR failure dectected!"
      # Perform halt
      /sbin/shutdown -h now ;;
  2)  echo -n "[avr_evtd]: Shutdown request"
      # Perform shutdown request
      /sbin/shutdown -h now ;;
  3)  echo -n "[avr_evtd]: Power Button Up"
  4)  echo -n "[avr_evtd]: Power Button Down"
  5)  echo -n "[avr_evtd]: Reset Button Up"
  6)  echo -n "[avr_evtd]: Reset Button Down"
  7)  echo -n "[avr_evtd]: Timed shutdown"
      echo -n "EEEE" > $DEVICE
      # Perform shutdown request
      /sbin/shutdown -h now ;;
  8)  echo -n "[avr_evtd]: AVR demanded reset"
      echo -n "CCCC" > $DEVICE
      # Perform reboot
      /sbin/reboot ;;
  9)  echo -n "[avr_evtd]: Disk used > $DISKCHECK%"
  E)  echo -n "[avr_evtd]: EM mode selected"
      # Determine flash block to use
      if [ -f /proc/mtd ]; then
        MTD=`cat /proc/mtd | grep mtd_status`

      # Flash device available?
      if [ -n "$FLASH" ]; then
        DUMP=`cat $FLASH`
        # Check state is currently NORMAL
        if [ "$STATE" = "OKOK" ]; then
          echo -n "NGNGNG" > $FLASH
      echo -n "CCCC" > $DEVICE
      /sbin/reboot ;;
  F)  echo -n "[avr_evtd]: Fan failure detected"
      # Illuminate relevant LED and wait for AVR halt message
      echo -n "iiii" > $DEVICE ;;
  *)  exit 1

exit 0