Controlling the TP-LINK HS100 Wi-Fi smart plug

[update 7 June 2020] Available now on Docker:

[update 27 January 2017] TP-LINK HS100 project on github:

[update 24 October 2016] TL;DR; This is about a shell script which controls the TP-LINK HS100, HS110, HS200 Wi-Fi smart power plugs. 

I was scurrying down the home automation isle at the local electronics discounter, firm in my determination to make it without distractions to the computer section, when one of those fancy new Wi-Fi power sockets caught my attention. I haven’t quite caught on with the home automation hype yet, but with everything going on I felt left behind and it seemed like a good idea to use the long weekend ahead and try to catch up a bit. And so it came that I left the shop 40€ poorer and with a TP-LINK HS100 Wi-Fi smart plug [1] in the pocket.

The installation is rather easy and unspectacular: a smart phone app helps the HS100 connect to the home WLAN and henceforth controls the power plug. The app being the only way to control the plug bothered me soon, since it meant that the plug could not be controlled by any programme, which, I think, defies the purpose of automation.
Admittedly this doesn’t happen often, but searching turned up nothing regarding my problem; people were happily controlling the HS100 through the app or Amazon Echo –  TP-Link publishes no technical documentation (though they do offer the GPL part of their code for download) and no thrifty hackers had reverse-engineered the plug. I was left alone, bearing grudges.
Not willing to give up my 40€ without a fight, I set up a WLAN access point with a Raspberry Pi (that’s another post coming soon) and armed with tcpdump, Wireshark and patience I listened.
The first thing to notice is that the plug contacts a public ntp server in France (… whatever. Then it looks up on AWS in Ireland from which it receives about 3K, containing what appears to be among others a security certificate.
Then the app polls the plug at regular 2 second intervals when the phone is not sleeping, which, while a bit too often, shouldn’t impact phone battery too much in practice.
Now the juicy stuff: the app controls the plug by connecting via TCP to port 9999 of the plug and exchanging a 55 byte payload. I was absolutely delighted to find that the payload varies only at offset 43 between the on and off commands; it doesn’t vary over time, contains no check sums and is not encrypted. I was able to extract the payload and put it into a simple shell script [2] (update 26 June 2016: thanks to Thomas Baust for figuring out the querying commands).

Usage is simple: , e.g.

switch plug on: 9999 on
check whether plug is switched on: 9999 check


#  Switch the TP-LINK HS100 wlan smart plug on and off, query for status
#  Tested with firmware 1.0.8
#  Credits to Thomas Baust for the query/status/emeter commands
#  Author George Georgovassilis,


check_binaries() {
  command -v nc >/dev/null 2>&1 || { echo >&2 "The nc programme for sending data over the network isn't in the path, communication with the plug will fail"; exit 2; }
  command -v base64 >/dev/null 2>&1 || { echo >&2 "The base64 programme for decoding base64 encoded strings isn't in the path, decoding of payloads will fail"; exit 2; }
  command -v od >/dev/null 2>&1 || { echo >&2 "The od programme for converting binary data to numbers isn't in the path, the status and emeter commands will fail";}
  command -v read >/dev/null 2>&1 || { echo >&2 "The read programme for splitting text into tokens isn't in the path, the status and emeter commands will fail";}
  command -v printf >/dev/null 2>&1 || { echo >&2 "The printf programme for converting numbers into binary isn't in the path, the status and emeter commands will fail";}

# base64 encoded data to send to the plug to switch it on 

# base64 encoded data to send to the plug to switch it off

# base64 encoded data to send to the plug to query it

# base64 encoded data to query emeter - hs100 doesn't seem to support this in hardware, but the API seems to be there...

usage() {
 echo Usage:
 echo $0 ip port on/off/check/status/emeter
 exit 1

checkarg() {

 if [ -z "$value" ]; then
    echo "missing argument $name"

checkargs() {
  checkarg "ip" $ip
  checkarg "port" $port
  checkarg "command" $cmd

sendtoplug() {
  echo -n "$payload" | base64 -d | nc -v $ip $port  || echo couldn''t connect to $ip:$port, nc failed with exit code $?

  output=`sendtoplug $ip $port "$payload_query" | base64`
  if [[ $output == AAACJ* ]] ;
     echo OFF
  if [[ $output == AAACK* ]] ;
     echo ON

  input_num=`sendtoplug $ip $port "$payload" | od --skip-bytes=$offset --address-radix=n -t u1 --width=9999`
  IFS=' ' read -r -a array <<< "$input_num"
  for element in "${array[@]}"
    output=$(( $element ^ $code ))
    printf "\x$(printf %x $output)"

#  Main programme
case "$cmd" in
  sendtoplug $ip $port "$payload_on" > /dev/null
  sendtoplug $ip $port "$payload_off" > /dev/null
  status "$payload_query"
  status "$payload_emeter"
exit 0


[1] TP-LINK HS100 Wi-Fi smart plug

hs100 on Docker hub

70 thoughts on “Controlling the TP-LINK HS100 Wi-Fi smart plug

  1. Hello, works great with HS100 on Raspbian, works also on my Arch Linux after installing gnu-netcat, but script is hanging for long time without error, may be missing some dependences?


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