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Samples Tricks
Miscellaneous Tips & Tricks
- How to redirect your log entries to the syslog
- How to do a proper ICMP ping on Linux
- How to add current or forecast weather icons to your sitemap
- How to configure openHAB to start automatically on Linux
- How to configure openHAB as (Gentoo) openRC service
- How to configure openHAB to start automatically on Linux with screen
- How to configure openHAB to start automatically on Windows
- How start openHAB automatically on Linux using systemd
- How to configure openHAB to start automatically on MacOSX
- Use cheap bluetooth dongles on remote PCs to detect your phone/watch
- Check presence by detecting WiFi phones/tablets
- Get connection status of all network devices from Fritz!Box, eg for presence detection
- Use Fritzbox SIP Feature to make a call in case of an event
- How to configure openHAB to connect to device symlinks (on Linux)
- Use URL to manipulate items
- Extract caller and called number from Fritzbox Call object
- Item loops with delay
- enocean binding on Synology DS213+ (kernel driver package)
- How to use openHAB to activate or deactivate your Fritz!Box-WLAN
- How to display Google Maps in a sitemap from a Mqttitude Mqtt message
- How to use Yahoo weather images
- How to wake up with Philips Hue
- How to manage and sync configuration via subversion
- How to switch LEDS on cubietruck
- How to use a voice command from HABDroid
- Add Humidex calculation for your Feels Like Temperature value
- Aeon Z-Stick Setup in Linux
- How to use a serial port under linux
- Using the transceiver RFXtrx433E with Somfy RTS devices
- Talking to a Raspberry ZWAY device with push updates
- How to use the LIFX beta API via executeCommandLine and curl
- How to turn ON and OFF a Philips Hue with HomeMatic pushbutton
- How to create a simple Remote for controlling a Dune HD Player with Http and Denon Bindings
- How to monitor a dynamic WAN IP address
You just need to add some lines to your logback.xml.
Like:
<appender name="SYSLOG" class="ch.qos.logback.classic.net.SyslogAppender">
<syslogHost>localhost</syslogHost>
<facility>AUTH</facility>
<suffixPattern>{}openhab: [%thread] %logger %msg</suffixPattern>
</appender>
<root level="INFO">
<appender-ref ref="SYSLOG" />
</root>
Java is not capable to open a raw socket to do a ICMP ping (see https://code.google.com/p/openhab/issues/detail?id=134). Install setcap, find the java binary you're using, and apply libpcap permissions:
pi@rpi-openhab ~ $ sudo apt-get install libcap2-bin
pi@rpi-openhab ~ $ which java
/usr/bin/java
pi@rpi-openhab ~ $ ls -l /usr/bin/java
lrwxrwxrwx 1 root root 22 jan 31 2015 /usr/bin/java -> /etc/alternatives/java
pi@rpi-openhab ~ $ ls -l /etc/alternatives/java
lrwxrwxrwx 1 root root 51 jan 31 2015 /etc/alternatives/java -> /usr/lib/jvm/jdk-8-oracle-arm-vfp-hflt/jre/bin/java
pi@rpi-openhab ~ $ sudo setcap cap_net_raw=ep /usr/lib/jvm/jdk-8-oracle-arm-vfp-hflt/jre/bin/java
Finally, restart openhab.
As a alternative workaround, you can use the exec binding on Linux:
Switch PingedItem { exec="<[/bin/sh@@-c@@ping -c 1 192.168.0.1 | grep \"packets transmitted\" | sed -e \"s/.*1 received.*/ON/\" -e \"s/.*0 received.*/OFF/\":30000:REGEX((.*))]" }
This example gets the weather information from the Wunderground online api service (for details see http://www.wunderground.com/weather/api/) and shows the current weather icon and weather state (such as partly cloudy) in one line like it would show any other Openhab item.
- in the items file, create a string as follows:
String w "Today [%s]" <w> { http="<[http://api.wunderground.com/api/<your api key>/forecast/q/Luxembourg/Luxembourg.xml:3600000:XSLT(wunderground_icon_forecast.xsl)]"}
-
copy the weather icons to your images folder and rename and convert them to png, e.g. "w-partly_cloudy.png". The weather icon sets can be found here:
http://www.wunderground.com/weather/api/d/docs?d=resources/icon-sets
-
create a stylesheet named wunderground_icon_forecast.xsl containing the following lines (place it under configurations/transform):
<?xml version="1.0"?>
<xsl:stylesheet xmlns:xsl="http://www.w3.org/1999/XSL/Transform" version="2.0">
<xsl:output indent="yes" method="xml" encoding="UTF-8" omit-xml-declaration="yes" />
<xsl:template match="/">
<!-- format: hh:mm:ss -->
<xsl:value-of select="//response/forecast/txt_forecast/forecastdays/forecastday/icon/text()" />
</xsl:template>
</xsl:stylesheet>
- display the string in the .sitemap file:
Text item=w
Create a new file in /etc/init.d/openhab using your preferred editor (e.g. nano) and copy the code below (make sure to replace RUN_AS with the user you are running OpenHab as).
#! /bin/sh
### BEGIN INIT INFO
# Provides: openhab
# Required-Start: $remote_fs $syslog
# Required-Stop: $remote_fs $syslog
# Default-Start: 2 3 4 5
# Default-Stop: 0 1 6
# Short-Description: OpenHAB Daemon
### END INIT INFO
# Author: Thomas Brettinger
# Do NOT "set -e"
# PATH should only include /usr/* if it runs after the mountnfs.sh script
PATH=/sbin:/usr/sbin:/bin:/usr/bin
DESC="Open Home Automation Bus Daemon"
NAME=openhab
DAEMON=/usr/bin/java
PIDFILE=/var/run/$NAME.pid
SCRIPTNAME=/etc/init.d/$NAME
ECLIPSEHOME="/opt/openhab";
HTTPPORT=8080
HTTPSPORT=8443
TELNETPORT=5555
OPENHAB_LOG=/var/log/openhab.log
# be sure you are adopting the user to your local OH user
RUN_AS=ben
# make sure logfile has proper owner
touch $OPENHAB_LOG && chown $RUN_AS $OPENHAB_LOG
# get path to equinox jar inside $eclipsehome folder
cp=$(find $ECLIPSEHOME/server -name "org.eclipse.equinox.launcher_*.jar" | sort | tail -1);
DAEMON_ARGS="-Dosgi.clean=true -Declipse.ignoreApp=true -Dosgi.noShutdown=true -Djetty.port=$HTTPPORT -Djetty.port.ssl=$HTTPSPORT -Djetty.home=$ECLIPSEHOME -Dlogback.configurationFile=$ECLIPSEHOME/configurations/logback.xml -Dfelix.fileinstall.dir=$ECLIPSEHOME/addons -Djava.library.path=$ECLIPSEHOME/lib -Djava.security.auth.login.config=$ECLIPSEHOME/etc/login.conf -Dorg.quartz.properties=$ECLIPSEHOME/etc/quartz.properties -Djava.awt.headless=true -jar $cp -console ${TELNETPORT}"
# Exit if the package is not installed
[ -x "$DAEMON" ] || exit 0
# Read configuration variable file if it is present
[ -r /etc/default/$NAME ] && . /etc/default/$NAME
# Load the VERBOSE setting and other rcS variables
. /lib/init/vars.sh
# Define LSB log_* functions.
# Depend on lsb-base (>= 3.2-14) to ensure that this file is present
# and status_of_proc is working.
. /lib/lsb/init-functions
#
# Function that starts the daemon/service
#
do_start()
{
# Return
# 0 if daemon has been started
# 1 if daemon was already running
# 2 if daemon could not be started
start-stop-daemon --start --quiet --make-pidfile --pidfile $PIDFILE --chuid $RUN_AS --chdir $ECLIPSEHOME --exec $DAEMON --test > /dev/null \
|| return 1
start-stop-daemon --start --quiet --background --make-pidfile --pidfile $PIDFILE --chuid $RUN_AS --chdir $ECLIPSEHOME --startas /bin/bash -- -c "chown $RUN_AS $PIDFILE && exec $DAEMON $DAEMON_ARGS > $OPENHAB_LOG 2>&1" \
|| return 2
# Add code here, if necessary, that waits for the process to be ready
# to handle requests from services started subsequently which depend
# on this one. As a last resort, sleep for some time.
return 0
}
#
# Function that stops the daemon/service
#
do_stop()
{
# Return
# 0 if daemon has been stopped
# 1 if daemon was already stopped
# 2 if daemon could not be stopped
# other if a failure occurred
start-stop-daemon --stop --quiet --retry=TERM/30/KILL/5 --pidfile $PIDFILE --name $NAME
RETVAL="$?"
[ "$RETVAL" = 2 ] && return 2
# Wait for children to finish too if this is a daemon that forks
# and if the daemon is only ever run from this initscript.
# If the above conditions are not satisfied then add some other code
# that waits for the process to drop all resources that could be
# needed by services started subsequently. A last resort is to
# sleep for some time.
start-stop-daemon --stop --quiet --oknodo --retry=0/30/KILL/5 --exec $DAEMON
[ "$?" = 2 ] && return 2
# Many daemons don't delete their pidfiles when they exit.
rm -f $PIDFILE
return "$RETVAL"
}
#
# Function that sends a SIGHUP to the daemon/service
#
do_reload() {
#
# If the daemon can reload its configuration without
# restarting (for example, when it is sent a SIGHUP),
# then implement that here.
#
do_stop
sleep 1
do_start
return 0
}
case "$1" in
'start')
log_daemon_msg "Starting $DESC"
do_start
case "$?" in
0|1) log_end_msg 0 ;;
2) log_end_msg 1 ;;
esac
;;
'stop')
log_daemon_msg "Stopping $DESC"
do_stop
case "$?" in
0|1) log_end_msg 0 ;;
2) log_end_msg 1 ;;
esac
;;
'status')
status_of_proc "$DAEMON" "$NAME" && exit 0 || exit $?
;;
#reload|force-reload)
#
# If do_reload() is not implemented then leave this commented out
# and leave 'force-reload' as an alias for 'restart'.
#
#log_daemon_msg "Reloading $DESC" "$NAME"
#do_reload
#log_end_msg $?
#;;
'restart'|'force-reload')
#
# If the "reload" option is implemented then remove the
# 'force-reload' alias
#
log_daemon_msg "Restarting $DESC"
do_stop
case "$?" in
0|1)
do_start
case "$?" in
0) log_end_msg 0 ;;
1) log_end_msg 1 ;; # Old process is still running
*) log_end_msg 1 ;; # Failed to start
esac
;;
*)
# Failed to stop
log_end_msg 1
;;
esac
;;
*)
#echo "Usage: $SCRIPTNAME {start|stop|restart|reload|force-reload}" >&2
echo "Usage: $SCRIPTNAME {start|stop|status|restart|force-reload}" >&2
exit 3
;;
esac
:
Make the script executable and configure it to run on boot.
sudo chmod a+x /etc/init.d/openhab
sudo update-rc.d openhab defaults
Now whenever your Linux machine boots openHAB will be automatically started.
Note: You may find that the script will not run on startup because it requires a parameter passed at the command line. Use the following to edit the rc.local file.
sudo nano /etc/rc.local
Then add these lines anywhere above the exit 0
# start openhab
/etc/init.d/openhab start
Save it and exit. That should do it.
Create the openhab user with
useradd -s /sbin/nologin openhab
and the log directory
mkdir /var/log/openhab && chown openhab /var/log/openhab
then create /etc/(conf|init).d/openhab
as below and add it to the default runlevel
rc-update add openhab default
OpenHAB must be installed in /opt/openhab
/etc/init.d/openhab
:
#!/sbin/runscript
PIDFILE=/var/run/openhab.pid
OPENHAB_HOME=/opt/openhab
OPENHAB_LOGDIR=/var/log/openhab
OPENHAB_LOG=$OPENHAB_LOGDIR/openhab.log
EQUINOX_JAR=$(find $OPENHAB_HOME/server -name "org.eclipse.equinox.launcher_*.jar" | sort | tail -1)
OPENHAB_ARGS="
-Dosgi.clean=true \
-Declipse.ignoreApp=true \
-Dosgi.noShutdown=true \
-Djetty.port=$HTTP_PORT
-Djetty.port.ssl=$HTTPS_PORT \
-Djetty.home=. \
-Dlogback.configurationFile=configurations/logback.xml \
-Dfelix.fileinstall.dir=addons \
-Djava.library.path=lib \
-Djava.security.auth.login.config=./etc/login.conf \
-Dorg.quartz.properties=./etc/quartz.properties \
-Dequinox.ds.block_timeout=240000 \
-Dequinox.scr.waitTimeOnBlock=60000 \
-Dfelix.fileinstall.active.level=4 \
-Djava.awt.headless=true \
-jar $EQUINOX_JAR"
depend() {
need net
}
checkconfig() {
if [ ! -d "$OPENHAB_LOGDIR" ]; then
mkdir "$OPENHAB_LOGDIR"
chown $USER "$OPENHAB_LOGDIR"
fi
}
start() {
checkconfig
ebegin "Starting openHAB"
start-stop-daemon \
--start \
--user $USER \
--group $GROUP \
--pidfile $PIDFILE \
--make-pidfile \
--chdir "$OPENHAB_HOME" \
--stdout $OPENHAB_LOG \
--stderr $OPENHAB_LOG \
--background \
--exec java -- $OPENHAB_ARGS
eend $?
}
stop() {
ebegin "Stopping openHAB"
start-stop-daemon \
--stop \
--pidfile $PIDFILE \
--retry "SIGTERM/15 SIGKILL/30" \
--progress
eend $?
}
status() {
[ ! -f "$PIDFILE" ] && return 1
if ps -p $(cat "$PIDFILE") > /dev/null; then
eend 0
else
eend 1
fi
}
/etc/conf.d/openhab
:
USER=openhab
GROUP=nogroup
HTTP_PORT=8081
HTTPS_PORT=8443
Prequerities: screen installed
#! /bin/sh
### BEGIN INIT INFO
# Provides: openHAB
# Required-Start: $local_fs $remote_fs
# Required-Stop: $local_fs $remote_fs
# Should-Start: $network
# Should-Stop: $network
# Default-Start: 2 3 4 5
# Default-Stop: 0 1 6
# Short-Description: Start and stop openHAB in screen Session
# Description: This runs openHAB continuously in screen.
### END INIT INFO
# Set OH-User
OHUSER=openhab
# Set OH-Path
OHPATH=/opt/openhab
# uncomment and set if necessary to obtain correct Codepage and language
# export LC_ALL=de_DE.UTF-8
case "$1" in
'start')
PID=`ps -ef | grep openHAB | grep -v grep | awk '{print $2}'`
if [ "${PID}" != "" ]
then
echo openHAB-Screen scheint schon zu laufen! PID ist `pidof SCREEN`
else
echo "Starting openHAB"
cd ${OHPATH}
sudo -u ${OHUSER} screen -S openHAB -dm sh ./start.sh
fi
;;
'stop')
echo "Stopping openHAB"
sudo -u ${OHUSER} screen -S openHAB -p 0 -X stuff "exit$(printf \\r)"
sudo -u ${OHUSER} screen -S openHAB -p 0 -X stuff "y$(printf \\r)"
sudo -u ${OHUSER} screen -S openHAB -p 0 -X stuff "exit$(printf \\r)"
PID=`ps -ef | grep openHAB | grep -v grep | awk '{print $2}'`
while [ `ps -ef | grep $PID | wc -l` -gt 1 ]
do
echo -n .
sleep 2
done
echo .
;;
'restart'|'force-reload')
echo "Restarting openHAB"
$0 stop
$0 start
;;
*)
N=/etc/init.d/$NAME
echo "Usage: $N {start|stop|restart}" >&2
exit 1
;;
esac
exit 0
Make the script executable and configure it to run on boot.
sudo chmod a+x /etc/init.d/openhab
sudo update-rc.d openhab defaults
Now whenever your Linux machine boots openHAB will be automatically started in a screen-session called openHAB. To reach the OSGI-Console, just type
sudo -u openhab screen -r openHAB
This setup uses procmon from Apache. Download the binaries from http://www.apache.org/dist/commons/daemon/binaries/windows/. Unzip to the runtime folder Create a install_service.bat file, it will be based on start.bat, see below. I must be adapted to match your version/path to openhab. First time you will have to go into windows services and reenter the login info for the service, this will grant the logon as service right to the user.
set ECLIPSEHOME=server
:: set ports for HTTP(S) server
set HTTP_PORT=8080
set HTTPS_PORT=8443
set FOLDER=C:\ServerFolders\openhab\runtime
set JAVA_HOME=C:\Program Files (x86)\Java\jdk1.7.0_51
prunsrv //DS//OpenHab
prunsrv //IS//OpenHab --DisplayName="OpenHab Service" ^
--ServiceUser jbh@NB1.local --ServicePassword XXXXXXXXX^
--Classpath "%FOLDER%\server\plugins\org.eclipse.equinox.launcher_1.3.0.v20120522-1813.jar;%FOLDER%\server\plugins\org.eclipse.scada.utils.osgi.daemon_0.1.0.v20140430-1536.jar"^
--Install=%FOLDER%\prunsrv.exe --Jvm=auto ^
--StartMode jvm^
--StartClass org.eclipse.equinox.launcher.Main^
--StartMethod main^
--Startup auto^
++StartParams -console^
++StartParams -consoleLog^
++JvmOptions -Dosgi.clean=true#-Declipse.ignoreApp=true#-Dosgi.noShutdown=true#-Djetty.port=%HTTP_PORT%#-Djetty.port.ssl=%HTTPS_PORT%#-Djetty.home=.#-Dlogback.configurationFile=configurations/logback.xml#-Dfelix.fileinstall.dir=addons#-Djava.library.path=lib#-Djava.security.auth.login.config=./etc/login.conf#-Dorg.quartz.properties=./etc/quartz.properties#-Dequinox.ds.block_timeout=240000#-Dequinox.scr.waitTimeOnBlock=60000#-Djava.awt.headless=true#-Dfelix.fileinstall.active.level=4^
--StopMode jvm^
--LogPath %FOLDER%\logs
pause
Systemd is used as init system on various Linux flavors, i.e. Debian, Ubuntu, openSUSE, ArchLinux, etc. To make openHAB start automatically on system startup we utilize the main start.sh script which comes with the openHAB distribution. We just need to modify it a bit. Instead of this line:
java -Dosgi.clean=true -Declipse.ignoreApp=true -Dosgi.noShutdown=true -Djetty.port=$HTTP_PORT -Djetty.port.ssl=$HTTPS_PORT -Djetty.home=. -Dlogback.configurationFile=configurations/logback.xml -Dfelix.fileinstall.dir=addons -Djava.library.path=lib -Djava.security.auth.login.config=./etc/login.conf -Dorg.quartz.properties=./etc/quartz.properties -Dequinox.ds.block_timeout=240000 -Dequinox.scr.waitTimeOnBlock=60000 -Dfelix.fileinstall.active.level=4 -Djava.awt.headless=true -jar $cp $* -console
we'll use:
java -Dosgi.clean=true -Declipse.ignoreApp=true -Dosgi.noShutdown=true -Djetty.port=$HTTP_PORT -Djetty.port.ssl=$HTTPS_PORT -Djetty.home=. -Dlogback.configurationFile=configurations/logback.xml -Dfelix.fileinstall.dir=addons -Djava.library.path=lib -Djava.security.auth.login.config=./etc/login.conf -Dorg.quartz.properties=./etc/quartz.properties -Dequinox.ds.block_timeout=240000 -Dequinox.scr.waitTimeOnBlock=60000 -Dfelix.fileinstall.active.level=4 -Djava.awt.headless=true -jar $cp > run.log 2>&1 &
this makes openHAB run in the background and redirect stderr and stdout to a file called run.log. Notice that only the end of the line has changed. You'll also may want to create a copy of the original script file before making the change.
Now here is what we need for systemd:
Identify where the service units are placed on your system. In openSUSE it is: /usr/lib/systemd
.
Now create a new file called openhab.service
in this folder: /usr/lib/systemd/system
and copy the following into it:
[Unit]
Description=Open Home Automation Bus
[Service]
Type=forking
GuessMainPID=yes
ExecStart=/Space/Apps/openhab/start.sh
ExecStop=/usr/bin/kill -SIGINT $MAINPID
ExecStopPost=
User=openhab
Group=daemon
WorkingDirectory=/Space/Apps/openhab
[Install]
WantedBy=multi-user.target
Adjust the WorkingDirectory and the path to start.sh as you need.
Also this unit uses a separate user to run openHAB with. This user must be created first.
You can as well start openHAB with your own user account.
The Type forking
must be used here because of the change we did in the start.sh script.
If that is done "install" the unit:
systemctl enable openhab.service
Now start the service:
systemctl start openhab.service
You may check if it's running with:
systemctl status openhab.service
You should see something this if it's running:
openhab.service - Open Home Automation Bus
Loaded: loaded (/usr/lib/systemd/system/openhab.service; enabled)
Active: active (running) since Do 2014-05-01 11:54:41 CEST; 1h 23min ago
Process: 6118 ExecStart=/Space/Apps/openhab/start.sh (code=exited, status=0/SUCCESS)
Main PID: 6124 (java)
CGroup: /system.slice/openhab.service
└─6124 java -Dosgi.clean=true -Declipse.ignoreApp=true -Dosgi.noShutdown=true -Djetty.port=8080 -Djetty.port.ssl=8443 -Djetty.home=. -Dlogback.configurationFi...
Create a new file named org.openhab.daemon.plist in /Library/LaunchDaemons using your preferred editor (e.g. nano) as root user.
$ sudo nano /Library/LaunchDaemons/org.openhab.daemon.plist
Copy the code below.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>GID</key>
<integer>0</integer>
<key>Label</key>
<string>org.openhab.daemon</string>
<key>OnDemand</key>
<false/>
<key>RunAtLoad</key>
<true/>
<key>Program</key>
<string>/Applications/openhab/start.sh</string>
<key>UserName</key>
<string>root</string>
<key>KeepAlive</key>
<true/>
</dict>
</plist>
Ensure that the file has the correct user.
$ sudo chown root /Library/LaunchDaemons/org.openhab.daemon.plist
The openhab process will now be launched at startup by launchd.
Alternatively it is possible to start the openhab process with the following command:
$ sudo launchctl load -w /Library/LaunchDaemons/org.openhab.daemon.plist
It is also possible to stop the openhab process using the following command:
$ sudo launchctl unload /Library/LaunchDaemons/org.openhab.daemon.plist
This is more an idea really but consider that openhab can know your home by picking up on the bluetooth on your phone, using cheap 3 euro bluetooth dongles connected to the various PCs and media centres you may have.
EG On an ubuntu/debian based PC.
- Install the "bluez" bluetooth stack.
apt-get install bluez
- Use the bash script below to do a simple scan several times per min. This script looks for my phone "jon-phone". Its made no real difference to the battery life on my android 4.x phone. The script updates a switch in openhab called "zoneOneState". You could have as many zones as you need/want to cover your house.
#!/bin/bash
while true
do
DEVICES=`hcitool scan`
if [[ $DEVICES = *jon-phone* ]]
then
curl --max-time 2 --connect-timeout 2 --header "Content-Type: text/plain" --request PUT --data "ON" http://192.168.1.121:8080/rest/items/zoneOneState/state
else
curl --max-time 2 --connect-timeout 2 --header "Content-Type: text/plain" --request PUT --data "OFF" http://192.168.1.121:8080/rest/items/zoneOneState/state
fi
sleep 30
done
-
The rule governing the decision process on if your house is occupied can be as complex or simple as you need. The rule below is clunky but simple and gets the job done. It uses three zone switches to decide if it should set a switch called "occupiedState" to on or off. Then using the occupiedState switch you can make your other openhab rules behave in different ways. Each zone checked reports true if your bluetooth device has been seen within the last 5 mins (helps stop flap caused by the patchy coverage of bluetooth signals).
//FIGURE IF HOUSE OCCUPIED EVERY 30 SECONDS rule "check occupiedState" when Time cron "*/30 * * * * ?" then if (occupiedState.state == ON) { zoneOneFlag = true zoneTwoFlag = true zoneThreeFlag = true
if (zoneOneState.state == OFF) { if (!zoneOneState.changedSince (now.minusMinutes(5))) { //sendCommand("occupiedState", "OFF") zoneOneFlag = false } } if (zoneTwoState.state == OFF) { if (!zoneTwoState.changedSince (now.minusMinutes(5))) { //sendCommand("occupiedState", "OFF") zoneTwoFlag = false } } if (zoneThreeState.state == OFF) { if (!zoneThreeState.changedSince (now.minusMinutes(5))) { //sendCommand("occupiedState", "OFF") zoneThreeFlag = false } } if (zoneOneFlag == false && zoneTwoFlag == false && zoneThreeFlag == false) { sendCommand("occupiedState", "OFF") } } else { if (zoneOneState.state == ON || zoneTwoState.state == ON || zoneThreeState.state == ON) { sendCommand("occupiedState", "ON") } }
This is a small modification to the tip above. This time we check, whether somebody is at home by testing if their phone is within WiFi reach. All you need is the Network Health Binding.
Your items file could look like this:
Group gMobiles
Switch Presence
Switch phone1 (gMobiles) {nh="android-xxxxx"}
Switch phone2 (gMobiles) {nh="android-yyyyy"}
My rules file looks like this:
rule "Periodically check presence"
when
Time cron "0 */5 * * * ?"
then
if (Presence.state == ON)
{
if(gMobiles.members.filter(s | s.state == ON).size == 0) {
logInfo("PresenceCheck", "No phone within reach, checking for flapping")
if(gMobiles.members.filter(s | s.changedSince(now.minusMinutes(5))).size == 0) {
logInfo("PresenceCheck", "Nobody is at home")
sendCommand(Presence, OFF)
}
}
}
else
{
//For initialisation. If Presence is undefined or off, although it should be on.
if(gMobiles.members.filter(s | s.state == ON).size > 0) {
sendCommand(Presence, ON)
}
else if (Presence.state == Undefined || Presence.state == Uninitialized) {
sendCommand(Presence, OFF)
}
}
end
rule "Coming home"
when
Item gMobiles changed
then
if (Presence.state != ON) {
if(gMobiles.members.filter(s | s.state == ON).size > 0) {
logInfo("PresenceCheck", "Somebody is home")
sendCommand(Presence, ON)
}
}
end
Presence is only switched off, if no phone was seen within the last 5 minutes. This avoids flapping, if you are just taking out the trash or something.
Additionally to the Network Health items in the gMobiles group, you could add bluetooth devices (like used above) or motion sensors.
For cases where bluetooth detection described above or network health binding is not suitable.
Requirements
- Fritz!Box with telnet access
- Linux server (preferably the openHAB server), tested with ReadyNAS
- Linux knowledge to adopt scripts
Methodology
- Shell script on the Fritz!Box to dump all known network devices with their current connection status
- This script is called from the Linux server through a cron job periodically (eg every minute), parses the dump and updates openHAB items according to their connection status
Restrictions
- Only tested on ReadyNAS Linux with manual added packages, others might need adoption
- All parameters like login/password/paths/script names "hard-coded" into the scripts, need adoption
- Absolutely no error-checks, use at own risk
- Due to these restrictions only applicable for people with at least basic Linux knowledge
How-To
The Fritz!Box shows a reliable status of devices connected to the network using the built-in ctlmgr_ctl r landevice command (see http://www.wehavemorefun.de/fritzbox/Landevice).
Create the script landevices.sh permanently (should not be deleted at reboot), for example in folder /var/media/ftp/Fritz!Box/. Make it executable. Take care not to indent the script as the Fritz!Box does not like that.
#!/bin/sh
i=0
count_devices=`ctlmgr_ctl r landevice settings/landevice/count`
while [ $i -lt $count_devices ]
do
device="landevice="$i
#for command in name ip mac manu_name dhcp static_dhcp wlan ethernet active online speed deleteable wakeup source neighbour_name is_double_neighbour_name ipv6addrs ipv6_ifid
for command in name active
do
output="`ctlmgr_ctl r landevice settings/landevice$i/$command`"
device=$device" "$command"="$output
done
echo $device
i=`expr $i + 1`
done
The commented out for loop shows all possible subcommands, so it is also possible to output eg the speed or mac adress of all landevices. However this would also require a change on the calling script below. Once created on the Fritz!Box and executed it should provide you all known network devices with their current status:
# ./landevices.sh
landevice=0 name=BoyLaptop active=0
landevice=1 name=BoyPhone active=0
landevice=2 name=BoyiPod active=0
landevice=3 name=DGOfficePrinter active=1
landevice=4 name=DGTVRasPlex active=1
landevice=5 name=DGTVWii active=0
landevice=6 name=DadLaptop active=0
landevice=7 name=DadLaptopWork active=0
landevice=8 name=DadLaptopWork active=0
landevice=9 name=DadPC active=1
landevice=10 name=DadPhone active=1
landevice=11 name=DadPhoneWork active=1
landevice=12 name=EGEntranceAP active=1
landevice=13 name=EGTVRasPlex active=1
landevice=14 name=EGWZAP active=0
landevice=15 name=GirlLaptop active=0
landevice=16 name=GirlPhone active=1
landevice=17 name=GuestLaptop active=0
landevice=18 name=KGOfficePrinter active=1
landevice=19 name=KGOfficeReadyNAS active=1
landevice=20 name=KGTEC1AP active=1
landevice=21 name=KGTEC2AP active=1
landevice=22 name=MomLaptop active=0
landevice=23 name=MomLaptop active=0
landevice=24 name=MomLaptopWork active=0
landevice=25 name=MomPhone active=0
If required, use the Fritz!Box GUI to give the devices some reasonable names in order to easily assign phones/laptops etc to people or media devices to floors/rooms. Using the ctlmgr_ctl command it would also be possible to only query for specific devices (go through the full list and look for either name or mac or both), but any change in the output of this script requires changes on the other end as well.
Create a expect script in a folder on your Linux Server and make it executable. The only purpose of this script is only to connect to your Fritz!Box through a telnet session and call the script created there.
#!/usr/bin/expect
spawn telnet <<<your fritzbox ip here>>>
expect "user: "
send "<<<your fritzbox login here>>>\r"
expect "password: "
send "<<<your fritzbox password here>>>\r"
expect "telnet"
expect "#"
send "\r"
expect "#"
send "/var/media/ftp/Fritz!Box/landevices.sh\r"
expect "#"
send "exit 0\r"
Here the IP of the Fritz!Box, your credentials and the path to the script need to be adopted. Furthermore the above script is for the newest version of the Fritz!box firmware where multiple user accounts can be created. In case this is not your case, you have to omit the "user:" and "login" expect/send statements in the script above, as in that case the Fritz!Box telnet session only requires the password, not the user. Again, to validate the functionality just execute the script:
ReadyNAS:~# ./fritzbox_devices.expect
spawn telnet 192.168.178.1
Entering character mode
Escape character is '^]'.
Fritz!Box user: admin
password:
BusyBox v1.20.2 (2013-05-13 12:53:07 CEST) built-in shell (ash)
Enter 'help' for a list of built-in commands.
ermittle die aktuelle TTY
tty is "/dev/pts/1"
weitere telnet Verbindung aufgebaut
#
# /var/media/ftp/Fritz!Box/landevices.sh
landevice=0 name=BoyLaptop active=0
landevice=1 name=BoyPhone active=0
landevice=2 name=BoyiPod active=0
landevice=3 name=DGOfficePrinter active=1
landevice=4 name=DGTVRasPlex active=1
landevice=5 name=DGTVWii active=0
landevice=6 name=DadLaptop active=0
landevice=7 name=DadLaptopWork active=0
landevice=8 name=DadLaptopWork active=0
landevice=9 name=DadPC active=1
landevice=10 name=DadPhone active=1
landevice=11 name=DadPhoneWork active=1
landevice=12 name=EGEntranceAP active=1
landevice=13 name=EGTVRasPlex active=1
landevice=14 name=EGWZAP active=0
landevice=15 name=GirlLaptop active=0
landevice=16 name=GirlPhone active=1
landevice=17 name=GuestLaptop active=0
landevice=18 name=KGOfficePrinter active=1
landevice=19 name=KGOfficeReadyNAS active=1
landevice=20 name=KGTEC1AP active=1
landevice=21 name=KGTEC2AP active=1
landevice=22 name=MomLaptop active=0
landevice=23 name=MomLaptop active=0
landevice=24 name=MomLaptopWork active=0
landevice=25 name=MomPhone active=0
# ReadyNAS:~#
As you can see here we have the original output of the script plus some "overhead" for the telnet session.
Now create a sed script fritzbox_devices.sed that will create curl commands to interface with the openHAB server:
#!/bin/sed -f
s#\r$##
s#landevice=[0-9]* name=#curl --silent -H \"Content-Type: text/plain\" http://localhost:8080/rest/items/landevice_#g
s#active=0#-d \"OFF\"#g
s#active=1#-d \"ON\"#g
The first line here is just to eliminate "DOS-like" \r at the end of each line which show up with a ReadyNAS as server and might not be required in your setup, but you can still leave them. The second line replaces the "landevice=....name=...... with a curl command. In order to have reasonable variable names again in openHAB the landevices there start with "landevice_", so "DadPhone" on the Fritz!Box gets landevice_DadPhone in openHAB. Furthermore localhost:8080 needs to be changed to match your openHAB server if is not running on the same machine. The last two lines replace the "active=0" or "active=1" with the correct statements for curl.
Another validation of the scripts created so far:
ReadyNAS:~# ./fritzbox_devices.expect | fgrep "landevice=" | ./fritzbox_devices.sed
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_BoyLaptop -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_BoyPhone -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_BoyiPod -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DGOfficePrinter -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DGTVRasPlex -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DGTVWii -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DadLaptop -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DadLaptopWork -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DadLaptopWork -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DadPC -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DadPhone -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_DadPhoneWork -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_EGEntranceAP -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_EGTVRasPlex -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_EGWZAP -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_GirlLaptop -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_GirlPhone -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_GuestLaptop -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_KGOfficePrinter -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_KGOfficeReadyNAS -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_KGTEC1AP -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_KGTEC2AP -d "ON"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_MomLaptop -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_MomLaptop -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_MomLaptopWork -d "OFF"
curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_MomPhone -d "OFF"
ReadyNAS:~#
Now it is time to create the required items in openHAB - One Switch for each landevice that is supposed to be used later. In case you don't configure all landevices as items you will get error messages in openHAB logs, however these can be ignored. Just to have a "clean" configuration you might want to add all devices.
Switch landevice_KGOfficeReadyNAS "ReadyNAS" <network> (KG_TEC1, gNetworkServer)
Switch landevice_EGEntranceAP "Airport Erdgeschoss" <network> (gWZ, gNetworkServer)
Switch landevice_EGWZAP "Airport Repeater Erdgeschoss" <network> (gWZ, gNetworkServer)
Switch landevice_KGTEC1AP "Airport Keller TEC1" <network> (KG_TEC1, gNetworkServer)
Switch landevice_KGTEC2AP "Airport Keller TEC2" <network> (KG_TEC2, gNetworkServer)
Switch landevice_DGOfficePrinter "Drucker Dachgeschoss" <network> (DG_GUEST, gNetworkMedia)
Switch landevice_KGOfficePrinter "Drucker Keller" <network> (KG_TEC1, gNetworkMedia)
Switch landevice_DGTVRasPlex "RasPLEX Dachgeschoss" <network> (DG_TV, gNetworkMedia)
Switch landevice_EGTVRasPlex "RasPLEX Erdgeschoss" <network> (EG_TV, gNetworkMedia)
Switch landevice_DGTVWii "Wii" <network> (DG_TV, gNetworkMedia)
Switch landevice_DadPC "Dad PC" <network> (gWZ, gNetworkDad)
Switch landevice_DadLaptop "Dad Laptop" <network> (gWZ, gNetworkDad)
Switch landevice_DadPhone "Dad Phone" <network> (gWZ, gDAD_PRESENT, gNetworkDad, gPhones)
Switch landevice_DadLaptopWork "Dad Laptop@work" <network> (gWZ, gNetworkDad)
Switch landevice_DadPhoneWork "Dad Phone@work" <network> (gWZ, gDAD_PRESENT, gNetworkDad, gPhones)
Switch landevice_MomLaptop "Mom Laptop" <network> (gWZ, gNetworkMom)
Switch landevice_MomPhone "Mom Phone" <network> (gWZ, gMOM_PRESENT, gNetworkMom, gPhones)
Switch landevice_MomLaptopWork "Mom Laptop@work" <network> (gWZ, gNETWORKMom)
Switch landevice_MomPhoneWork "Mom Phone@work" <network> (gWZ, gMOM_PRESENT, gNetworkMom, gPhones)
Switch landevice_GuestLaptop "Guest Laptop" <network> (DG_GUEST, gNetworkGuest)
Switch landevice_GuestPhone "Guest Phone" <network> (DG_GUEST, gGUEST_PRESENT, gNetworkGuest, gPhones)
Switch landevice_GirlLaptop "Girl Laptop" <network> (DG_GIRL, gNetworkGirl)
Switch landevice_GirlPhone "Girl Phone" <network> (DG_GIRL, gGIRL_PRESENT, gNetworkGirl, gPhones)
Switch landevice_BoyLaptop "Boy Laptop" <network> (DG_BOY, gNetworkBoy)
Switch landevice_BoyPhone "Boy Phone" <network> (DG_BOY, gBOY_PRESENT, gNetworkBoy, gPhones)
Switch landevice_BoyiPod "Boy iPod" <network> (DG_BOY, gNetworkBoy)
As you can see the devices are assigned to various groups in the config, the interesting ones are the "_PRESENT" ones for the phones. Based on these with rules the status of each person's presence in the house can be defined. In my case when at least one phone per kid/guest is active in the network this person is seen as "present", for mom and dad both devices have to be present (on the weekends the work phones usually stay connected at home). Adding all devices here also offers some other capabilities... For example lower the download speed of the download server based on the number of active laptops in case the internet connection is not lighting fast.
Another test: Now execute one of the curl statements created in the previous step on the Linux server in the shell:
ReadyNAS:~# curl --silent -H "Content-Type: text/plain" http://localhost:8080/rest/items/landevice_KGTEC2AP -d "ON"
ReadyNAS:~#
If the items were created correctly this should generate no output at all in the Linux shell, but show up promptly in the openHAB event log:
ReadyNAS:~# tail -200 /opt/openhab/logs/events.log
...
2013-11-13 22:47:25 - landevice_KGTEC2AP received command ON
...
Now create the final script fritzbox_devices.sh on the Linux server
#!/bin/sh
/root/fritzbox_devices.expect | /bin/fgrep "landevice=" | /root/fritzbox_devices.sed > /tmp/commands.txt
. /tmp/commands.txt
rm /tmp/commands.txt
and test this script again, this time using time to avoid too many calls by cron:
ReadyNAS:~# time ./fritzbox_devices.sh
real 0m13.637s
user 0m0.267s
sys 0m0.202s
ReadyNAS:~#
Again, you should see no output in case you defined all items in openHAB. In case you did not errors will show up here and in the openHAB logs. A "clean" openHAB event.log outputs looks as follows:
ReadyNAS:~# tail -200f /opt/openhab/logs/events.log
...
2013-11-13 22:58:52 - landevice_BoyLaptop received command OFF
2013-11-13 22:58:52 - landevice_BoyPhone received command ON
2013-11-13 22:58:52 - landevice_BoyiPod received command OFF
2013-11-13 22:58:52 - landevice_DGOfficePrinter received command ON
2013-11-13 22:58:52 - landevice_DGTVRasPlex received command ON
2013-11-13 22:58:52 - landevice_DGTVWii received command OFF
2013-11-13 22:58:52 - landevice_DadLaptop received command OFF
2013-11-13 22:58:52 - landevice_DadLaptopWork received command OFF
2013-11-13 22:58:52 - landevice_DadLaptopWork received command OFF
2013-11-13 22:58:52 - landevice_DadPC received command ON
2013-11-13 22:58:52 - landevice_DadPhone received command ON
2013-11-13 22:58:52 - landevice_DadPhoneWork received command ON
2013-11-13 22:58:52 - landevice_EGEntranceAP received command ON
2013-11-13 22:58:52 - landevice_EGTVRasPlex received command ON
2013-11-13 22:58:52 - landevice_EGWZAP received command OFF
2013-11-13 22:58:52 - landevice_GirlLaptop received command OFF
2013-11-13 22:58:52 - landevice_GirlPhone received command ON
2013-11-13 22:58:52 - landevice_GuestLaptop received command OFF
2013-11-13 22:58:52 - landevice_KGOfficePrinter received command ON
2013-11-13 22:58:52 - landevice_KGOfficeReadyNAS received command ON
2013-11-13 22:58:52 - landevice_KGTEC1AP received command ON
2013-11-13 22:58:52 - landevice_KGTEC2AP received command ON
2013-11-13 22:58:52 - landevice_MomLaptop received command OFF
2013-11-13 22:58:52 - landevice_MomLaptop received command OFF
2013-11-13 22:58:52 - landevice_MomLaptopWork received command OFF
2013-11-13 22:58:52 - landevice_MomPhone received command OFF
...
When everything is working fine the cronjob can be set up, but avoid calling the script to frequently (thus the time before). In this case we set it up to run each minute:
# m h dom mon dow command
* * * * * /root/fritzbox_devices.sh
wlandevices.sh is just dumping all devices connected directly to the wlan of the Fritz!Box (not those attached through LAN ports, but including the guest WLAN). For example to show devices connected to the guest WLAN with their remaining time in the openHAB GUI:
#!/bin/sh
i=0
count_devices=`ctlmgr_ctl r wlan settings/wlanlist/count`
while [ $i -lt $count_devices ]
do
device="wlandevice="$i
#for command in mac UID state speed rssi quality is_turbo is_guest is_ap ap_state mode wmm_active cipher powersave is_repeater channel freq flags flags_set
for command in mac state speed is_guest
do
output="`ctlmgr_ctl r wlan settings/wlanlist$i/$command`"
device=$device" "$command"="$output
done
echo $device
i=`expr $i + 1`
done
The output looks as follows and again can be adopted using the commented out for loop:
# ./wlandevices.sh
wlandevice=0 mac=AC:81:12:B0:39:F0 state=0 speed=0 is_guest=0
wlandevice=1 mac=20:02:AF:89:59:29 state=0 speed=0 is_guest=0
wlandevice=2 mac=18:E7:F4:09:A7:E4 state=0 speed=0 is_guest=0
wlandevice=3 mac=00:1F:1F:A2:AE:A6 state=5 speed=97 is_guest=0
wlandevice=4 mac=00:27:09:EA:D3:E9 state=0 speed=0 is_guest=0
wlandevice=5 mac=00:1C:B3:C3:5F:B3 state=0 speed=0 is_guest=0
wlandevice=6 mac=00:27:10:4F:3F:F0 state=0 speed=0 is_guest=0
wlandevice=7 mac=98:FE:94:39:AC:49 state=5 speed=41 is_guest=0
wlandevice=8 mac=54:44:08:A9:C4:F4 state=5 speed=106 is_guest=0
wlandevice=9 mac=80:1F:02:63:D3:32 state=5 speed=113 is_guest=0
wlandevice=10 mac=EC:55:F9:19:40:43 state=0 speed=0 is_guest=0
wlandevice=11 mac=64:66:B3:4B:A5:AE state=5 speed=65 is_guest=0
wlandevice=12 mac=64:66:B3:4B:C3:46 state=5 speed=38 is_guest=0
wlandevice=13 mac=B4:B6:76:AD:22:4E state=0 speed=0 is_guest=0
wlandevice=14 mac=58:1F:AA:AD:A6:E1 state=0 speed=0 is_guest=0
wlandevice=15 mac=00:80:92:97:3E:AB state=5 speed=64 is_guest=0
When you want to refer to device names, the mac addresses need to be added to the output of landevices.sh above and the output of both scripts needs to be matched by mac address which should be easily possible.
Furthermore wlanstatus.sh just dumps the status of the wireless networks of the Fritz!Box:
#!/bin/sh
for wlan in "" guest_
do
device=$wlan"wlan: "
for command in ap_enabled ssid pskvalue time_remain
do
output="`ctlmgr_ctl r wlan status/$wlan$command`"
device=$device" "$command"="$output
done
echo $device
done
The output looks as follows:
# ./wlanstatus.sh
wlan: ap_enabled=1 ssid=wlanssid pskvalue=unencryptedpassword time_remain=
guest_wlan: ap_enabled=0 ssid=guestssid pskvalue=unencryptedpassword time_remain=0
This script might be used together with another (yet to do) guest wlan on/off script to offer kids the possibility to enable/disable the guest wlan with a randomly generated password (eg *echo tr -dc A-Za-z0-9* < /dev/urandom | head -c 16
_) in order to not have to do this yourself each time.
Prologue: This Guide shows you how to make a call with a sip-client over a fritz box. But it should work with all other sip gateways as well – give it a try!
Requirements:
- AVM Fritzbox (tested with 7490)
- openhab (obviously)
- soundcard (dummy is ok if you don’t have one. Give ALSA a try)
- sipcmd
- a couple of wav-files (8kHz, 16 bit per Sample, PCM)
- the power of Copy and Paste ;-)
First of all, add a new ip phone to your fritzbox by doing this:
(note: I only got a german Version of FritzOS: which means its freely translated to English by me; don’t hit me if says something else on your box :-)
- Logon to your fritz.box
- On the left, click on "telephony" (GER: Telefonie)
- Next, click on "devices" (GER: Telefonie-Geräte)
- On the right site at the bottom, click on "Create a new device" (GER: Neues Gerät einrichten)
- Now select “Phone” (GER: Telefon (mit und ohne Anrufbeantworter)) and click next.
- Select "LAN/WiFi (IP-Phone))" (GER: LAN/WLAN (IP-Telefon)) and enter a name for this device. Click next to continue.
- Enter a Username (mostly a 3 Digit value; the internal Phone number) and enter a password. Click next.
- Now select the outgoing caller-id and carry on.
- Next, select "accept only calls for the following numbers" and deselect all numbers. Almost there.
- Last step: apply the Settings. DONE! Congrats!
Moving on to SIPCMD:
Did I mention that you need a sound card? Don’t got one? Pah, no probs. ALSA (http://www.alsa-project.org/main/index.php/Main_Page) got your back. Under Debian just install alsa-base "apt-get install alsa-base".
- Download the SIPCMD Branch:
wget https://github.com/tmakkonen/sipcmd/archive/master.zip
- Unzip it. Go into the sipcmd-master directory
needed Packages:
apt-get install libopal-dev libpt-dev
(more infos: https://github.com/tmakkonen/sipcmd) - Now just run “make”
- Copy the sipcmd. To your preferd BIN Dir (/bin or /usr/bin)
- That’s it.
Now go and Record some Wav-Files! You’ll need them later… you also could use text-to-speech engines to get some wav-files – be free.
Put them in this Directory: /opt/openhab/etc/sipcalls/
Create a "Script" with your favourite Text Editor (like nano, vi and so on) for each Event you want to cover.
Example:
/opt/openhab/etc/sipcalls/sipcall_alarm_window_bathroom.sh
Now put this line in:
sipcmd -u 621 -c verysecurepassord -P sip -w fritz.box -x "c012345678;ws500;vwindow_bathroom.wav;h"
(If you want to call another number, just copy and paste the line above as often as you want.)
Explanation:
-u is the username – mostly a 3 digit number (see Point 7. From the fritzbox setup)
-c is the password you enterd earlier
-P is the Protocol which is used (SIP)
-w is the SIP-Domain; in this case fritz.box
-x the commad that sipcmd should execute where:
C= is the number which should be called
ws= waittime in milliseconds: meaning wait for x millis after the remote party answerd the call before playing the wav-file
v= filename of the wav-file
H= hangup after the file played
Now we just need to define an Item (in /opt/openhab/configurations/items/*.items )
Switch SIPCALL_WINDOW_BATHROOM "SipCall Window Bathroom INTERNAL" { exec="ON:/opt/openhab/etc/sipcalls/sipcall_alarm_window_bathroom.sh "}
Finally, create a Rule which uses the item:
Rule "Window_Bathroom_opened"
when
Item WINDOW_BATHROOM received update OPEN
then
If (ALARMSYSTEM_ACTIVE.state == ON)
{
sendCommand( SIPCALL_WINDOW_BATHROOM, ON)
// the sendMail command is just another way to get notified
sendMail("mymail@adresss.com", "OpenHab: Window Bathroom opened!", "please check!")
}
End
Thats it.
When connecting serial devices to Linux (i.e. USB) they are assigned arbitrary device names - usually something like /dev/ttyUSB0. There is no way to know exactly what name will be assigned each time you plug in the device however.
Using udev rules you can setup symlinks which are created when the system detects a device is added. The symlink allows you to assign a 'known' name for that device. See this link for a useful tutorial about udev - http://www.reactivated.net/writing_udev_rules.html.
So for example, if you have a ZWave USB dongle you can configure a symlink called /dev/zwave. This makes it much easier to configure connection properties since this name will never change.
However the RXTX serial connection library used in openHAB is unable to 'see' these symlinks. Therefore you need to inform RXTX about your symlinks using a system property.
You can either add the property to the Java command line by adding the following (device names delimited by :
-Dgnu.io.rxtx.SerialPorts=/dev/rfxcom:/dev/zwave
Or add a gnu.io.rxtx.properties file which is accessible in the Java classpath. See http://create-lab-commons.googlecode.com/svn/trunk/java/lib/rxtx/README.txt for more details.
This applies to any openHAB binding that uses the RXTX serial connection library - i.e. RFXCOM, ZWave etc.
When you have a device unable to send REST requests (f.e. Webcams), you may use
http://<openhab-host>:8080/CMD?<item>=<state>
Example:
http://<openhab-host>:8080/CMD?Light=ON
http://<openhab-host>:8080/CMD?Light=OFF
http://<openhab-host>:8080/CMD?Light=TOGGLE
TOGGLE changes the current status of a switch item from ON to OFF or from OFF to ON.
If you define an item like the following in your site.items config
Call Incoming_Call_No "Caller No. [%2$s]" (Phone) { fritzbox="inbound" }
the Type CallType with its associated methods can be used to extract the caller and called number of the call. The following rule sends an email with both numbers in the subject line.
import org.openhab.library.tel.types.CallType
rule "inbound Call"
when Item Incoming_Call_No received update
then
var CallType call = Incoming_Call_No.state as CallType
var String mailSubject =
"Anruf von Nummer " + call.origNum + " -> " + call.destNum
sendMail( "us...@domain.de" , mailSubject , "");
end
Some integrations don't like to be rushed with a cascade of simultaneous commands. This can be an issue if you, for instance want to implement a rule which loops through a list of group members (items) and send a command to all of them, e. g. OFF. The solution is to add a small delay between each command. The example below executes OFF for all members at a one second interval. Use now.plusMillis(i*
n)
for n millisecond intervals.
rule "Lights out"
when
Time cron "0 0 22 ? * MON-THU,SUN *" or
Time cron "0 59 23 ? * FRI,SAT *"
then
gLightOffNight?.members.forEach(item,i|createTimer(now.plusSeconds(i)) [|sendCommand(item, OFF)])
end
The enocean binding works with the enocean USB300 usb-stick. To enable the USB300 on a Synology DS213+ (probably works also on Synology DS413 - same CPU...) two things are needed:
- The kernel drivers
usbserial, ftdi_sio and cdc-acm are already included in DSM 4.3
pl2303 and cp210x are in the package usb-driver-kernel-2.6.32-dh-syno-qoriq-0.001.spk
The package is stored at OpenHAB google groups and on the package server https://www.hofrichter.at/sspks
You can install this package in DSM via the package manager -> manual installation or by adding https://www.hofrichter.at/sspks/ to your package sources - there is a tutorial on the Synology support pages about how to do that. - nrjavaserial
OpenHab 1.3.1 comes with the latest stable version of [nrjavaserial 3.8.8] (https://code.google.com/p/nrjavaserial/) (at the moment (17.11.2013)).
It's in {openhab_root}/server/plugins/org.openhab.io.transport.serial
The newer unstable nrjavaserial 3.9.1 is needed for the qoric cpu of the DS213+ and included in the (otherwise unchanged) org.openhab.io.transport.serial_1.3.1.201309182025.jar.
Just put that file in {openhab_root}/server/plugins/ and delete the original file {openhab_root}/server/plugins/org.openhab.io.transport.serial...
The Fritz!Box-Binding already supports controlling the built-in WIFI/WLAN and DECT. Please see the Binding page.
First, create a MQTT entry in your items file that subscribes to the Mqttitude push:
String Location_Dan_Phone {mqtt="<[home:owntracks/daniel/iphone5s:state:JS(mqttitude-coordinates.js)]"}
The transform is a javascript file in the configuration/Transform directory (mqttitude-coordinates.js). This file is very simple:
var location = eval('(' + input + ')');
result = location.lat + "," + location.lon;
The value of your item (Location_Dan_Phone) will be set to the result value.
Create a webpage that you will put in the webapps/static directory, call it map.html
<!DOCTYPE html>
<html>
<head>
<style>
#map_canvas {
width: 900px;
height:500px;
}
</style>
<script src="//ajax.googleapis.com/ajax/libs/jquery/2.1.0/jquery.min.js"></script>
<script src="//maps.googleapis.com/maps/api/js?sensor=false"></script>
<script>
$(function() {
$.ajax({
url: "/rest/items/Location_Dan_Phone?type=json",
dataType: "json",
data: {
},
success: function( data ) {
console.log(data);
var coords = data.state.split(',');
var latlng = new google.maps.LatLng(coords[0],coords[1]);
var map_canvas = document.getElementById('map_canvas');
var map_options = {
center: latlng,
zoom: 14,
mapTypeId: google.maps.MapTypeId.HYBRID
}
var map = new google.maps.Map(map_canvas, map_options)
var marker = new google.maps.Marker({
position: latlng,
map: map,
title:"Dan's Phone",
image: "http://s1.hubimg.com/u/7148626_f520.jpg"
});
}
});
});
</script>
</head>
<body>
<div id="map_canvas"></div>
</body>
</html>
now reference the full URL to this page in a webview widget in your sitemap, something like
Webview url="https://openhab.mydomain.com:8443/static/map.html" height=12
Make sure you you have username and password authentication turned on!
This tip allows you to use Yahoo! weather images in your sitemap. See the Yahoo! Weather Developer page for more information.
First we need to download a current set of yahoo images to the runtime/webapps/images folder, there are 48 total. This command assumes you have imagemagick installed. This is included in most linux distros, on mac you can install it using brew like : brew install imagemagick
.
for i in `seq 0 47`;do curl http://l.yimg.com/a/i/us/we/52/$i.gif | convert - yahoo_weather-$i.png ;done
Note that we prefix the images with yahoo_weather, this is important as openHAB will append a yahoo weather code later to choose the correct one.
Next add a xsl transform file to your configuration/Transform directory, name this yahoo_weather_code.xsl
<?xml version="1.0"?>
<xsl:stylesheet
xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
xmlns:yweather="http://xml.weather.yahoo.com/ns/rss/1.0" version="1.0">
<xsl:output indent="yes" method="xml" encoding="UTF-8" omit-xml-declaration="yes" />
<xsl:template match="/">
<!--<xsl:text>yahoo-weather-</xsl:text>-->
<xsl:value-of select="//item/yweather:condition/@code" />
</xsl:template>
</xsl:stylesheet>
This will return the Yahoo! weather code for a selected region.
We can map the weather code to a description so the item has both an image and text. Name this yahoo_weather_code.map in the Configuration/Transform directory.
0=tornado
1=tropical storm
2=hurricane
3=severe thunderstorms
4=thunderstorms
5=mixed rain and snow
6=mixed rain and sleet
7=mixed snow and sleet
8=freezing drizzle
9=drizzle
10=freezing rain
11=showers
12=showers
13=snow flurries
14=light snow showers
15=blowing snow
16=snow
17=hail
18=sleet
19=dust
20=foggy
21=haze
22=smoky
23=blustery
24=windy
25=cold
26=cloudy
27=mostly cloudy (night)
28=mostly cloudy (day)
29=partly cloudy (night)
30=partly cloudy (day)
31=clear (night)
32=sunny
33=fair (night)
34=fair (day)
35=mixed rain and hail
36=hot
37=isolated thunderstorms
38=scattered thunderstorms
39=scattered thunderstorms
40=scattered showers
41=heavy snow
42=scattered snow showers
43=heavy snow
44=partly cloudy
45=thundershowers
46=snow showers
47=isolated thundershowers
Add a Number item to a items file
Number YahooWeatherCode "Today is [MAP(yahoo_weather_code.map):%s]" (weather) { http="<[http://weather.yahooapis.com/forecastrss?w=2459115:3600000:XSLT(yahoo_weather_code.xsl)]"}
And a Text item to your sitemap
Text item=YahooWeatherCode icon="yahoo_weather"
You want to make your morning light up with philips hue, the follow the steps
First you make a rule to wake up a certain time, for example 6:30 in the morning between Monday and Friday. This rule call the script dimmlight wich you can use later also in a other rule.
rule "Wakeup"
when
Time cron "0 30 06 ? * MON-FRI "
then
callScript("dimmlight")
end
Now you make the script dimmlight.script
var Number Dimmer
Dimmer=0
while(Dimmer<100 )
{
Dimmer=Dimmer+5
sendCommand(Light_LR_Living_Sofa_D,Dimmer)
Thread::sleep(400)
}
Thread::sleep(400)
a higher value will dimm the light slower, a lower value will dimm the light faster
In this guide subversion is used to both store your config and sync it between you local computer and the openhab server.
First setup a subversion server on your openhab server. You'll will find plenty of howtos how to do that. We asume that your repo is stored in /var/lib/svn/openhab and is running under the system user www-data
A hook script is used to apply all changes in the subversion repo to the actual openhab config. Create a hook-script /var/lib/svn/openhab/hooks/commit-hook with the following contents
#!/bin/sh
REPOS="$1"
REV="$2"
svn up /opt/openhab/configurations
The path in the last line has to match to your openhab installation
Probably you already have an configuration. Import this into your subversion server. On Windows TortoiseSVN does a good job for that.
You have to checkout the configuration into openhab once
svn co http://yourhost/svn/openhab /opt/openhab/configurations
Maybe you have to delete your existing configuration folder in /opt/openhab first
The tricky part is to setup the permissions right. I assume you subversion server runs with www-data and openhab with openhab system user. The problem is that www-data needs the permission to write to your openhab configuration.
chown -R openhab.www-data /opt/openhab/configuration
find /opt/openhab/configuration -type d -exec chmod g+ws {} \;
/* LEDS */
Switch LED_Blue {exec=">[ON:/bin/sh@@-c@@echo 1 | sudo tee /sys/class/leds/blue:ph21:led1/brightness] >[OFF:/bin/sh@@-c@@echo 0 | sudo tee /sys/class/leds/blue:ph21:led1/brightness]"}
Switch LED_Orange {exec=">[ON:/bin/sh@@-c@@echo 1 | sudo tee /sys/class/leds/orange:ph20:led2/brightness] >[OFF:/bin/sh@@-c@@echo 0 | sudo tee /sys/class/leds/orange:ph20:led2/brightness]"}
Switch LED_White {exec=">[ON:/bin/sh@@-c@@echo 1 | sudo tee /sys/class/leds/white:ph11:led3/brightness] >[OFF:/bin/sh@@-c@@echo 0 | sudo tee /sys/class/leds/white:ph11:led3/brightness]"}
Switch LED_Green {exec=">[ON:/bin/sh@@-c@@echo 1 | sudo tee /sys/class/leds/green:ph07:led4/brightness] >[OFF:/bin/sh@@-c@@echo 0 | sudo tee /sys/class/leds/green:ph07:led4/brightness]"}
Create /etc/sudoers.d/leds
ALL ALL = (ALL) NOPASSWD: /usr/bin/tee /sys/class/leds/blue\:ph21\:led1/brightness
ALL ALL = (ALL) NOPASSWD: /usr/bin/tee /sys/class/leds/green\:ph07\:led4/brightness
ALL ALL = (ALL) NOPASSWD: /usr/bin/tee /sys/class/leds/white\:ph11\:led3/brightness
ALL ALL = (ALL) NOPASSWD: /usr/bin/tee /sys/class/leds/orange\:ph20\:led2/brightness
HABDroid uses a predefined string item to pass voice commands - the name of this item is "VoiceCommand". So all you have to do is to add such an item in your *.items file:
String VoiceCommand
And react on commands for this item in a rule:
rule VoiceControl
when
Item VoiceCommand received command
then
val hue = switch(receivedCommand.toString.lowerCase) {
case "blue" : 240
case "magenta" : 300
case "green" : 120
case "yellow" : 70
}
Light.sendCommand(hue + ",100,100")
end
A rule, which reacts flexible on natural spoken sentences:
rule "Voice control"
when
Item VoiceCommand received command
then
val txt = receivedCommand.toString.toLowerCase
//Wohnzimmer
if(txt.contains("front") || txt.contains("fernseh")) {
if(txt.contains("ein")) sendCommand(WandlichtWohnzimmerFront, ON) else
if(txt.contains("start")) sendCommand(WandlichtWohnzimmerFront, INCREASE) else
if(txt.contains("an")) sendCommand(WandlichtWohnzimmerFront, ON) else
if(txt.contains("aus")) sendCommand(WandlichtWohnzimmerFront, OFF) else
if(txt.contains("stop")) sendCommand(WandlichtWohnzimmerFront, STOP) else
if(txt.contains("heller")) sendCommand(WandlichtWohnzimmerFront, INCREASE) else
if(txt.contains("dunkler")) sendCommand(WandlichtWohnzimmerFront, DECREASE)
} else if(txt.contains("decke")) {
if(txt.contains("ein")) sendCommand(DeckenlichtWohnzimmerSchalten, ON) else
if(txt.contains("start")) sendCommand(DeckenlichtWohnzimmerSchalten, ON) else
if(txt.contains("an")) sendCommand(DeckenlichtWohnzimmerSchalten, ON) else
if(txt.contains("aus")) sendCommand(DeckenlichtWohnzimmerSchalten, OFF) else
if(txt.contains("stop")) sendCommand(DeckenlichtWohnzimmerSchalten, OFF)
//Küche
} else if(txt.contains("küche")) {
if(txt.contains("ambiente") || txt.contains("boden")) {
if(txt.contains("ein")) sendCommand(LEDKuecheSchalten, ON) else
if(txt.contains("start")) sendCommand(LEDKuecheSchalten, ON) else
if(txt.contains("an")) sendCommand(LEDKuecheSchalten, ON) else
if(txt.contains("aus")) sendCommand(LEDKuecheSchalten, OFF) else
if(txt.contains("stop")) sendCommand(LEDKuecheSchalten, OFF)
} else if(txt.contains("licht") || txt.contains("decke") || txt.contains("leuchte")) {
if(txt.contains("ein")) sendCommand(DeckenlichtKueche, ON) else
if(txt.contains("start")) sendCommand(DeckenlichtKueche, ON) else
if(txt.contains("an")) sendCommand(DeckenlichtKueche, ON) else
if(txt.contains("aus")) sendCommand(DeckenlichtKueche, OFF) else
if(txt.contains("stop")) sendCommand(DeckenlichtKueche, OFF)
}
//Bad
} else if(txt.contains("bad")) {
if(txt.contains("wanne")) {
if(txt.contains("ein") || txt.contains("start") || txt.contains("an")) sendCommand(WannenlichtBad, ON) else
if(txt.contains("aus") || txt.contains("stop")) sendCommand(WannenlichtBad, OFF)
} else if(txt.contains("decke")) {
if(txt.contains("ein") || txt.contains("start") || txt.contains("an")) sendCommand(DeckenlichtBad, ON) else
if(txt.contains("aus") || txt.contains("stop")) sendCommand(DeckenlichtBad, OFF)
}
//Galerie
} else if(txt.contains("galerie")) {
if(txt.contains("licht")) {
if(txt.contains("ein")) sendCommand(DeckenlichtGalerie, ON) else
if(txt.contains("start")) sendCommand(DeckenlichtGalerie, INCREASE) else
if(txt.contains("an")) sendCommand(DeckenlichtGalerie, ON) else
if(txt.contains("aus")) sendCommand(DeckenlichtGalerie, OFF) else
if(txt.contains("stop")) sendCommand(DeckenlichtGalerie, STOP) else
if(txt.contains("heller")) sendCommand(DeckenlichtGalerie, INCREASE) else
if(txt.contains("dunkler")) sendCommand(DeckenlichtGalerie, DECREASE)
} else if(txt.contains("drucker")) {
if(txt.contains("ein")) sendCommand(DruckerSchalten, ON) else
if(txt.contains("an")) sendCommand(DruckerSchalten, ON) else
if(txt.contains("aus")) sendCommand(DruckerSchalten, OFF)
}
//Rollo
} else if(txt.contains("rollo") || txt.contains("jalousie")) {
if(txt.contains("hoch") || txt.contains("auf") || txt.contains("öffnen")) {
if(txt.contains("wohnzimmer")) sendCommand(RolloWZgemeinsam, UP) else
if(txt.contains("bad")) sendCommand(RolloBad, UP) else
if(txt.contains("küche")) sendCommand(RolloKueche, UP) else
if(txt.contains("galerie")) sendCommand(RolloGalerie, UP) else {
sendCommand(RolloWZgemeinsam, UP)
sendCommand(RolloSZBADGZgemeinsam, UP)
}
} else if(txt.contains("runter") || txt.contains("ab") || txt.contains("schließen")) {
if(txt.contains("wohnzimmer")) sendCommand(RolloWZgemeinsam, DOWN) else
if(txt.contains("bad")) sendCommand(RolloBad, DOWN) else
if(txt.contains("küche")) sendCommand(RolloKueche, DOWN) else
if(txt.contains("galerie")) sendCommand(RolloGalerie, DOWN) else {
sendCommand(RolloWZgemeinsam, DOWN)
sendCommand(RolloSZBADGZgemeinsam, DOWN)
}
} else if(txt.contains("stop")) {
if(txt.contains("wohnzimmer")) sendCommand(RolloWZgemeinsam, STOP) else
if(txt.contains("bad")) sendCommand(RolloBad, STOP) else
if(txt.contains("küche")) sendCommand(RolloKueche, STOP) else
if(txt.contains("galerie")) sendCommand(RolloGalerie, STOP) else {
sendCommand(RolloWZgemeinsam, STOP)
sendCommand(RolloSZBADGZgemeinsam, STOP)
}
}
} else if(txt.contains("markise")) {
if(txt.contains("hoch") || txt.contains("auf") || txt.contains("öffnen")) sendCommand(Markise, UP) else
if(txt.contains("runter") || txt.contains("ab") || txt.contains("schließen")) sendCommand(Markise, DOWN) else
if(txt.contains("stop")) sendCommand(Markise, STOP)
//Musik
} else if(txt.contains("musik")) {
if(txt.contains("ein") || txt.contains("an") ||txt.contains("start")) {
if(txt.contains("wohnzimmer")) sendCommand(sq_wohnen_power, ON) else
if(txt.contains("gästezimmer")) sendCommand(sq_gaeste_power, ON) else
if(txt.contains("schlafzimmer")) sendCommand(sq_schlafen_power, ON) else
if(txt.contains("galerie")) sendCommand(sq_galerie_power, ON) else
if(txt.contains("bad")) sendCommand(MusikBadSchalten, ON) else
// if(txt.contains("wc")) sendCommand(MusikWCSchalten, ON) else
if(txt.contains("balkon")) sendCommand(MusikBalkonSchalten, ON) else {
sendCommand(sq_wohnen_power, ON)
}
} else if(txt.contains("aus") || txt.contains("stop")) {
if(txt.contains("wohnzimmer")) sendCommand(sq_wohnen_power, OFF) else
if(txt.contains("gästezimmer")) sendCommand(sq_gaeste_power, OFF) else
if(txt.contains("schlafzimmer")) sendCommand(sq_schlafen_power, OFF) else
if(txt.contains("galerie")) sendCommand(sq_galerie_power, OFF) else
if(txt.contains("bad")) sendCommand(MusikBadSchalten, OFF) else
// if(txt.contains("wc")) sendCommand(MusikWCSchalten, OFF) else
if(txt.contains("balkon")) sendCommand(MusikBalkonSchalten, OFF) else {
sendCommand(sq_wohnen_power, OFF)
sendCommand(sq_schlafen_power, OFF)
}
}
end
I think we can do the same with Heat index for US, but for the moment this is the european version, it works perfectly with Netatmo but it should be ok for any weather/climate technology.
The items file could look like this:
/*Humidex "Feels like" Temperature */
Number Humidex_Outdoor_Temperature "Feels like [%.1f °C]" <temp_windchill> (Weather)
The rules file looks like this:
// Humidex Rule
rule "Humidex calculation"
when
Item Netatmo_Outdoor_Temperature changed or
Item Netatmo_Outdoor_Humidity changed or
System started
then
var Number T = Netatmo_Outdoor_Temperature.state as DecimalType
var Number H = Netatmo_Outdoor_Humidity.state as DecimalType
var Number x = 7.5 * T/(237.7 + T)
var Number e = 6.112 * Math::pow(10, x.doubleValue) * H/100
var Number humidex = T + (new Double(5) / new Double(9)) * (e - 10)
postUpdate(Humidex_Outdoor_Temperature, humidex);
end
The Aeon Zstick is a serial USB device in Linux, but it does not use the generic usbserial device drivers.
Running lsusb you will find it is a CP210x device:
#lsusb
Bus 001 Device 002: ID 10c4:ea60 Cygnal Integrated Products, Inc. CP210x Composite Device
To get it working you will need to be sure that you have P210x serial device drivers.
# dmesg | grep cp210x
cp210x: v0.08:Silicon Labs CP2101/CP2102 RS232 serial adaptor driver
If not you will need to find and install the package for your distro. Once that is done you should be able to verify your USB device in the dmesg logs:
Aug 16 15:59:59 (none) user.info kernel: USB Serial support registered for cp2101
Aug 16 15:59:59 (none) user.info kernel: cp2101 1-1:1.0: cp2101 converter detected
Aug 16 15:59:59 (none) user.info kernel: usb 1-1: reset full speed USB device using uhci_hcd and address 2
Aug 16 15:59:59 (none) user.info kernel: usb 1-1: cp2101 converter now attached to ttyUSB0
Aug 16 15:59:59 (none) user.info kernel: usbcore: registered new interface driver cp2101
Aug 16 15:59:59 (none) user.info kernel: cp210x: v0.08:Silicon Labs CP2101/CP2102 RS232 serial adaptor driver
Most full Linux distro's will have the CP210x module by default, but I am running SLiTaZ linux which is a very lo-ram slimmed down distro (runs in 30MB) so I provide these instructions for anyone else wondering why the device might not be working out of the box in their environment
If you are usiung a usb-to-serial-adapter your serial-interface might be /dev/ttyUSB0.
Check the permissions of this device with
user@computer:~$ ls -l /dev/ttyUSB0
crw-rw---- 1 root dialout 188, 0 Aug 11 14:16 /dev/ttyUSB0
In order to access this device the user running openHAB needs to be in the group "dailout" and possibly the group "lock".
sudo adduser <user> dialout
sudo adduser <user> lock
Reboot your system.
The first thing you have to do is to pair the RFXtrx433E transceiver with your Somfy RTS devices (see http://rfxcom.com/Documents/RFXtrx%20User%20Guide.pdf for more details). If you pair for example a roller shutter with the ID 1.01.01.1, then the binding should look like:
Rollershutter rs_1 "Yoda" <rollershutter> (Rollershutters) {rfxcom=">1.01.01.1:RFY.RFY:Shutter"}
(ZWAY version 2.0+ only)
This works for any device on a ZWAY server, in this example we will bind the Alarm V1 event data for a lock to a OpenHAB item. First create an Item to represent the alarm state, this will use the http binding to get it's initial state and periodically update (every hour) its self in case we loose a message.
Number ZWAY_LOCK_ALARM "Last Status [MAP(lock.map):%d]" {http="<[http://raspberry2:8083/ZWaveAPI/Run/devices%%5B2%%5D.Alarm.data.V1event.alarmType.value:3600000:REGEX((\\d*?))]"}
The URL we are hitting is raspberry2:8083/ZWaveAPI/Run/devices[2].Alarm.data.V1event.alarmType.value
but in order to pass the '[' and ']' characters we need to escape them with '%%5B' and '%%5D'.
Next we want to be updated when anything changes on the ZWAY device. We are going to load a javascript file that will bind to our device. In the ZWAY automation UI, make sure you have the Javascript file load module enabled. Place the following javascript file in "/opt/z-way-server/automation/storage/':
this.registerOhBinding = function(zwayName) {
debugPrint("OH Binding called with name: " + zwayName);
if (zwayName != "zway") return; // you want to bind to default zway instance
debugPrint("OH Binding enabled!");
var devices = global.ZWave["zway"].zway.devices;
devices[2].Alarm.data.V1event.alarmType.bind(function(){
debugPrint("Alarm.data.V1event.alarmType changed! " + this.value);
global.http.request({
method: 'PUT',
url: "http://oh.yourdomain.com:8080/rest/items/ZWAY_LOCK_ALARM/state",
data:this.value + "",
headers : { "Content-Type": "text/plain" }
});
});
};
debugPrint("Trying to bind OH");
// process all active bindings
if (global.ZWave) {
global.ZWave().forEach(this.registerOhBinding);
}
// and listen for future ones
global.controller.on("ZWave.register", this.registerOhBinding);
Replace the URL in the file to match your OpenHAB instance and item name. In the ZWAY Javascript File load module enter 'storage/zway-oh.js' as the file (or whatever you named it). This code will send a HTTP post to the Item whenever the alarm state changes.
To control the bulbs via this API you need to send HTTP requests (GET, POST, PUT). For security reasons you need a authentication token to access your bulbs. https://github.com/chendo/lifx-http/issues/27#issuecomment-72760322
Once you got the token, you can play around with the API web interface at https://api.lifx.com/
Unfortunately the HTTP binding does not support sending http headers. (Note: this is no longer true -- you can send HTTP headers with the HTTP binding in recent releases. However, the following is still a useful example.)
The only way to send the request is using the executeCommandLine command and the unix program curl.
A working example looks like this:
var String lifxurl = "https://api.lifx.com:443/v1beta1"
var String lifxtoken = "c7a3****a98c" // insert your token here
executeCommandLine("curl@@-k@@-H@@Authorization: Bearer " + lifxtoken + "@@-XPOST@@" + lifxurl + "/lights/all/effects/pulse.json?color=green")
// if you want to change the color or state you need to replace "XPOST" with "XPUT"
// according to the documentation on https://api.lifx.com/
executeCommandLine("curl@@-k@@-H@@Authorization: Bearer " + lifxtoken + "@@-XPUT@@" + lifxurl + "/lights/all/color.json?color=hsb:45,1,0.6")
Notice the "@@". This is neccessary, because the executeCommandLine does not support using quotationmarks. To send the http header as one string, all other spaces need to be replaces by the delimiter "@@".
You may experience some seconds delay, because this is not the best way to implement the LIFX bulbs in openHAB. There is a dedicated lifx binding for openhab2 wich works without internet (cloud) connection.
You want to turn ON and OFF a Philips Hue with a physical pushbutton (e.g. HomeMatic HM-PBI-4-FM). You need to define the states of the HomeMatic pushbutton as items in the .items
file:
// Unreachable:
Switch HM_pushbutton_Unreach "Signal Strength [MAP(signal_status.map):%s]" <signal> (g_HM_Signal) {homematic="address=LEQ0012345, channel=0, parameter=UNREACH"}
//LowBattery:
Switch HM_pushbutton_LowBattery "Battery Status [MAP(batterie_status.map):%s]" <signal> (g_HM_Signal) {homematic="address=LEQ0012345, channel=0, parameter=LOWBAT"}
//Channel 1:
Switch HM_pushbutton_Channel_1 "Pushbutton 1" {homematic="address=LEQ0012345, channel=1, parameter=PRESS_SHORT"}
//Channel 1 (Press long):
Switch HM_pushbutton_Channel_1_long "Pushbutton 1 (long)" {homematic="address=LEQ0012345, channel=1, parameter=PRESS_LONG"}
Copy these switches for channel 2, 3, and 4 of the HomeMatic pushbutton and add your Hue bulbs like this:
Switch Toggle_1 "Hue 1" (Switching) {hue="1"}
See also this Link for the Hue Color and Dimmer item. To receive the signals of the pushbutton you have to set the mode of transmission within the CCU/CCU2 to be standard. (enabled security will not work. For more information see here)
After this preparation only the rule is missing. Copy the following into your .rules
file:
var Number Toggle_1_on = 0
rule " Channel 1 press short"
when
Item HM_pushbutton_Channel_1 changed to ON
then
if (Toggle_1_on == 0){
sendCommand(Toggle_1, ON)
Toggle_1_on = 1}
else{
sendCommand(Toggle_1, OFF)
Toggle_1_on = 0}
end
Pressing the physical pushbutton connected to channel 1 of the HomeMatic HM-PBI-4-FM will now toggle the Philips Hue (Toggle_1) on and off.
A Dune HD multimedia player (http://dune-hd.com/eng) is easily manageable via Http Binding. The golden rule is to remember that any 4-byte NEC IR code supported by Dune (see http://dune-hd.com/support/rc) needs to be written in the opposite order (e.g. RC button "1" = 00 BF 0B F4 => F40BBF00).
Here a very simple Remote control with some basic commands:
/* Dune items */
/* Living */
Switch Dune_Living "power" (Dune, Persistence)
Number Dune_RC1_Living "" (Dune) {autoupdate="false"}
Number Dune_RC2_Living "" (Dune) {autoupdate="false"}
Number Dune_RC3_Living "" (Dune) {autoupdate="false"}
rule "Dune Living Room Remote Control line 1"
when
Item Dune_RC1_Living received command
then
switch(receivedCommand)
{
case 1 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=EA15BF00")
case 2 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=E916BF00")
case 3 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=E817BF00")
case 4 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=E718BF00")
case 5 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=EB14BF00")
}
end
rule "Dune Living Room Remote Control line 2"
when
Item Dune_RC2_Living received command
then
switch(receivedCommand)
{
case 1 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=B748BF00")
case 2 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=E11EBF00")
case 3 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=E619BF00")
case 4 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=B649BF00")
case 5 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=E21DBF00")
}
end
rule "Dune Living Room Remote Control line 3"
when
Item Dune_RC3_Living received command
then
switch(receivedCommand)
{
case 1 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=BB44BF00")
case 2 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=AB54BF00")
case 3 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=AF50BF00")
case 4 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=F807BF00")
case 5 : sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=FB04BF00")
}
end
And here an example how to integrate with your AVR. In this case, a Denon AVR 3311: e.g. when I click ON I need to switch on the AVR, set the channel to BD (HDMI connected to Dune HD Player) and switch on the Dune Player:
rule "Dune Living"
when
Item Dune_Living received command
then
if(receivedCommand==ON) {
// switch on AVR, set input to BD, switch on Dune HD
sendCommand(DenonPower, ON)
sendCommand(DenonInputBluray, ON)
sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=A05FBF00")
} else if(receivedCommand==OFF) {
// turn off Dune HD and AVR
sendHttpGetRequest("http://<ip_address>/cgi-bin/do?cmd=ir_code&ir_code=A15EBF00")
sendCommand(DenonPower, OFF)
}
end
Then, a very simple sitemap:
Text label="Dune HD" icon="dune_hd3"{
Switch item=Dune_Living icon="control_standby"
Slider item=DenonVolume icon="audio_audio"
Text item=DenonVolumedB
Switch item=DenonMute icon="audio_volume_mute"
Switch item=Dune_RC1_Living mappings=[1=" Up ", 2=Down, 3=Left, 4=Right, 5=Select]
Switch item=Dune_RC2_Living mappings=[1=" Play ", 2=Pause, 3=Stop, 4=Prev, 5=Next]
Switch item=Dune_RC3_Living mappings=[1=" Audio", 2=Subtitle, 3=Info, 4="Pop Up", 5=" Return "]
}
Last few notes for DenonVolume, how to see dB and how to start with a predefined level (in this case, 40 dB):
Dimmer DenonVolume "volume [%.1f]" (Denon) {denon="avr3311#MV"}
Number DenonVolumedB "[%.1f dB]" (Denon)
rule "DENON DB to Volume"
when
Item DenonPower changed from OFF to ON
then
/* var Number volume = (DenonVolumedB.state as DecimalType)+80 */
sendCommand(DenonVolume, 40)
logInfo("Rules", "DENON Volume initialized");
end
rule "DENON Volume to DB"
when
Item DenonVolume changed
then
if (DenonVolume.state == Undefined || DenonVolume.state == Uninitialized)
return false
else {
var Number volumedB = (DenonVolume.state as DecimalType)-80
postUpdate(DenonVolumedB, volumedB)
}
end
Most Internet Service Providers (ISP) provide you with a dynamic WAN IP address. This address may change over time. If you rely on this address, for example for accessing a computer inside your home network, you might want to monitor changes to the address. Websites like icanhazip and WhatIsMyIP return your public IP address as plain text.
This solution grabs that address and stores it in an item. A rule monitors changes to the item and acts on it.
This solution requires that you have the HTTP Binding installed.
Note: Please be nice to the websites you ping. Don't increase the interval above once per minute.
demo.items
// check for WAN IP address changes every 10 mins
String Network_WAN_IP "WAN IP address [%s]" <network> (Network) { http="<[http://icanhazip.com:600000:REGEX((.*?))]"
demo.rules
rule "Monitor WAN IP"
when
Item Network_WAN_IP changes
then
// perform any action needed
logInfo("MonitorWANIP", "WAN IP changed to " + Network_WAN_IP.state)
end
demo.sitemap
sitemap demo label="Demo" {
Frame {
Text item=Network_WAN_IP
}
}
ℹ Please find all documentation for openHAB 2 under http://docs.openhab.org.
The wiki pages here contain (outdated) documentation for the older openHAB 1.x version. Please be aware that a lot of core details changed with openHAB 2.0 and this wiki as well as all tutorials found for openHAB 1.x might be misleading. Check http://docs.openhab.org for more details and consult the community forum for all remaining questions.
- Classic UI
- iOS Client
- Android Client
- Windows Phone Client
- GreenT UI
- CometVisu
- Kodi
- Chrome Extension
- Alfred Workflow
- Cosm Persistence
- db4o Persistence
- Amazon DynamoDB Persistence
- Exec Persistence
- Google Calendar Presence Simulator
- InfluxDB Persistence
- JDBC Persistence
- JPA Persistence
- Logging Persistence
- mapdb Persistence
- MongoDB Persistence
- MQTT Persistence
- my.openHAB Persistence
- MySQL Persistence
- rrd4j Persistence
- Sen.Se Persistence
- SiteWhere Persistence
- AKM868 Binding
- AlarmDecoder Binding
- Anel Binding
- Arduino SmartHome Souliss Binding
- Asterisk Binding
- Astro Binding
- Autelis Pool Control Binding
- BenQ Projector Binding
- Bluetooth Binding
- Bticino Binding
- CalDAV Binding
- Chamberlain MyQ Binding
- Comfo Air Binding
- Config Admin Binding
- CUL Transport
- CUL Intertechno Binding
- CUPS Binding
- DAIKIN Binding
- Davis Binding
- DD-WRT Binding
- Denon Binding
- digitalSTROM Binding
- DIY on XBee Binding
- DMX512 Binding
- DSC Alarm Binding
- DSMR Binding
- eBUS Binding
- Ecobee Binding
- EDS OWSever Binding
- eKey Binding
- Energenie Binding
- EnOcean Binding
- Enphase Energy Binding
- Epson Projector Binding
- Exec Binding
- Expire Binding
- Fatek PLC Binding
- Freebox Binding
- Freeswitch Binding
- Frontier Silicon Radio Binding
- Fritz AHA Binding
- Fritz!Box Binding
- FritzBox-TR064-Binding
- FS20 Binding
- Garadget Binding
- Global Caché IR Binding
- GPIO Binding
- HAI/Leviton OmniLink Binding
- HDAnywhere Binding
- Heatmiser Binding
- Homematic / Homegear Binding
- Horizon Mediabox Binding
- HTTP Binding
- IEC 62056-21 Binding
- IHC / ELKO Binding
- ImperiHome Binding
- Insteon Hub Binding
- Insteon PLM Binding
- IPX800 Binding
- IRtrans Binding
- jointSPACE-Binding
- KM200 Binding
- KNX Binding
- Koubachi Binding
- LCN Binding
- LightwaveRF Binding
- Leviton/HAI Omnilink Binding
- Lg TV Binding
- Logitech Harmony Hub
- MailControl Binding
- MAX!Cube-Binding
- MAX! CUL Binding
- MCP23017 I/O Expander Binding
- MCP3424 ADC Binding
- MiLight Binding
- MiOS Binding
- Mochad X10 Binding
- Modbus Binding
- MPD Binding
- MQTT Binding
- MQTTitude binding
- MystromEcoPower Binding
- Neohub Binding
- Nest Binding
- Netatmo Binding
- Network Health Binding
- Network UPS Tools Binding
- Nibe Heatpump Binding
- Nikobus Binding
- Novelan/Luxtronic Heatpump Binding
- NTP Binding
- One-Wire Binding
- Onkyo AV Receiver Binding
- Open Energy Monitor Binding
- OpenPaths presence detection binding
- OpenSprinkler Binding
- OSGi Configuration Admin Binding
- Panasonic TV Binding
- panStamp Binding
- Philips Hue Binding
- Picnet Binding
- Piface Binding
- PiXtend Binding
- pilight Binding
- Pioneer-AVR-Binding
- Plex Binding
- Plugwise Binding
- PLCBus Binding
- PowerDog Local API Binding
- Powermax alarm Binding
- Primare Binding
- Pulseaudio Binding
- Raspberry Pi RC Switch Binding
- RFXCOM Binding
- RWE Smarthome Binding
- Sager WeatherCaster Binding
- Samsung AC Binding
- Samsung TV Binding
- Serial Binding
- Sallegra Binding
- Satel Alarm Binding
- Siemens Logo! Binding
- SimpleBinary Binding
- Sinthesi Sapp Binding
- Smarthomatic Binding
- Snmp Binding
- Somfy URTSI II Binding
- Sonance Binding
- Sonos Binding
- Souliss Binding
- Squeezebox Binding
- Stiebel Eltron Heatpump
- Swegon ventilation Binding
- System Info Binding
- TA CMI Binding
- TCP/UDP Binding
- Tellstick Binding
- TinkerForge Binding
- Tivo Binding
- UCProjects.eu Relay Board Binding
- UPB Binding
- VDR Binding
- Velleman-K8055-Binding
- Wago Binding
- Wake-on-LAN Binding
- Waterkotte EcoTouch Heatpump Binding
- Weather Binding
- Wemo Binding
- Withings Binding
- XBMC Binding
- xPL Binding
- Yamahareceiver Binding
- Zibase Binding
- Z-Wave Binding
- Asterisk
- DoorBird
- FIND
- Foscam IP Cameras
- LG Hombot
- Worx Landroid
- Heatmiser PRT Thermostat
- Google Calendar
- Linux Media Players
- Osram Lightify
- Rainforest EAGLE Energy Access Gateway
- Roku Integration
- ROS Robot Operating System
- Slack
- Telldus Tellstick
- Zoneminder
- Wink Hub (rooted)
- Wink Monitoring
- openHAB Cloud Connector
- Google Calendar Scheduler
- Transformations
- XSLT
- JSON
- REST-API
- Security
- Service Discovery
- Voice Control
- BritishGasHive-Using-Ruby
- Dropbox Bundle
A good source of inspiration and tips from users gathered over the years. Be aware that things may have changed since they were written and some examples might not work correctly.
Please update the wiki if you do come across any out of date information.
- Rollershutter Bindings
- Squeezebox
- WAC Binding
- WebSolarLog
- Alarm Clock
- Convert Fahrenheit to Celsius
- The mother of all lighting rules
- Reusable Rules via Functions
- Combining different Items
- Items, Rules and more Examples of a SmartHome
- Google Map
- Controlling openHAB with Android
- Usecase examples
- B-Control Manager
- Spell checking for foreign languages
- Flic via Tasker
- Chromecast via castnow
- Speedtest.net integration