OpenHAB
From MiOS
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length of radials/radiator = speed of light / frequency * velocity factor / 4 | length of radials/radiator = speed of light / frequency * velocity factor / 4 | ||
| − | For EU frequency: length = 299792458 m/s / 868420000 Hz | + | For EU frequency: length = 299792458 m/s / 868420000 Hz * 0.95 / 4 = 8.2 cm |
==== Antenna ==== | ==== Antenna ==== | ||
| − | [[File:antenna.jpg| | + | [[File:antenna.jpg|200px]] |
==== Modifying the Aeon Z-Stick S2 ==== | ==== Modifying the Aeon Z-Stick S2 ==== | ||
Latest revision as of 20:46, 26 January 2015
Contents |
[edit] openHAB Downloads
http://www.openhab.org/downloads.html
[edit] openHAB MiOS binding
https://github.com/openhab/openhab/tree/master/bundles/binding/org.openhab.binding.mios
[edit] Tools
[edit] Creating openHAB configuration files (items, sitemap, rrd4j persistence)
Adjust unit_name and output_directory.
[edit] items
https://github.com/openhab/openhab/wiki/Explanation-of-items
Place *.items in: /openHAB/runtime/configurations/items
[edit] sitemap
https://github.com/openhab/openhab/wiki/Explanation-of-Sitemaps
Place *.sitemap in: /openHAB/runtime/configurations/sitemaps
[edit] rrd4j persistence
https://github.com/openhab/openhab/wiki/Persistence
Add rrd4j.persist_add to the Items section in /openHAB/runtime/configurations/persistence/rrd4j.persist and make sure that the strategies used are defined in the Strategies section.
[edit] Luup code for MiOS devices
-- by Ap15e
local unit_name = 'house'
local output_directory = '/dataMine'
local device_types =
{ [ 'urn:schemas-upnp-org:device:DimmableLight:1' ] = { 'Dimmer' , ' [%d]%' , '<slider>' , '/service/Dimming1/LoadLevelStatus,command:MAP(miosDimmerCommand.map)' },
[ 'urn:schemas-upnp-org:device:BinaryLight:1' ] = { 'Switch' , '' , '' , '/service/SwitchPower1/Status,command:ON=SwitchPower1/SetTarget(newTargetValue=1)|OFF=SwitchPower1/SetTarget(newTargetValue=0),in:MAP(miosSwitchIn.map)' },
[ 'urn:schemas-micasaverde-com:device:TemperatureSensor:1' ] = { 'Number' , ' [%.1f °C]', '<temperature>' , '/service/TemperatureSensor1/CurrentTemperature' },
[ 'urn:schemas-micasaverde-com:device:HumiditySensor:1' ] = { 'Number' , ' [%d]%' , '' , '/service/HumiditySensor1/CurrentLevel' },
[ 'urn:schemas-micasaverde-com:device:MotionSensor:1' ] = { 'Contact', ' [%s]' , '<contact>' , '/service/SecuritySensor1/Tripped,in:MAP(miosContactIn.map)' },
[ 'urn:schemas-micasaverde-com:device:LightSensor:1' ] = { 'Number' , ' [%.2f]%' , '' , '/service/urn:micasaverde-com:serviceId:LightSensor1/CurrentLevel' },
[ 'urn:schemas-micasaverde-com:device:DoorSensor:1' ] = { 'Contact', ' [%s]' , '<contact>' , '/service/SecuritySensor1/Tripped,in:MAP(miosContactIn.map)' },
[ 'urn:schemas-upnp-org:device:Heater:1' ] = { 'Number' , ' [%.1f °C]', '<temperature>' , '/service/urn:upnp-org:serviceId:TemperatureSetpoint1_Heat/CurrentSetpoint' },
[ 'urn:schemas-micasaverde-com:device:UvSensor:1' ] = { 'Number' , ' [%d]' , '' , '/service/urn:upnp-org:serviceId:UvSensor1/CurrentLevel' },
[ 'urn:schemas-micasaverde-com:device:RainSensor:1' ] = { 'Number' , ' [%.1f]' , '' , '/service/urn:upnp-org:serviceId:RainSensor1/CurrentTRain' },
[ 'urn:schemas-micasaverde-com:device:ScaleSensor:1' ] = { 'Number' , ' [%.1f]' , '' , '/service/urn:micasaverde-com:serviceId:ScaleSensor1/Weight' },
[ 'urn:schemas-micasaverde-com:device:BarometerSensor:1' ] = { 'Number' , ' [%.2f]hPa', '' , '/service/urn:upnp-org:serviceId:BarometerSensor1/CurrentPressure' },
[ 'urn:schemas-micasaverde-com:device:WindSensor:1' ] = { 'Number' , ' [%.1f]' , '<wind>' , '/service/urn:upnp-org:serviceId:WindSensor1/AvgSpeed' },
[ 'urn:schemas-micasaverde-com:device:SmokeSensor:1' ] = { 'Contact', ' [%s]' , '<contact>' , '/service/urn:upnp-org:serviceId:SmokeSensor1/Tripped,in:MAP(miosContactIn.map)' },
[ 'urn:demo-micasaverde-com:device:weather:1' ] = { 'String' , ' [%s]' , '' , '/service/urn:micasaverde-com:serviceId:Weather1/Condition' },
[ 'urn:schemas-ap15e-com:device:DAD' ] = { 'String' , ' [%s]' , '<sun>' , '/service/urn:upnp-ap15e-com:serviceId:DAD1/Sunrise_HHMMSS' },
[ 'urn:schemas-micasaverde-com:device:WindowCovering:1' ] = { 'Switch' , '' , '<rollershutter>', '/service/SwitchPower1/Status,command:ON=SwitchPower1/SetTarget(newTargetValue=1)|OFF=SwitchPower1/SetTarget(newTargetValue=0),in:MAP(miosSwitchIn.map)' },
[ 'urn:schemas-futzle-com:device:CurrentCostEnviR:1' ] = { 'Number' , ' [%d]' , '<energy>' , '/service/urn:micasaverde-com:serviceId:EnergyMetering1/Watts' },
[ 'urn:schemas-futzle-com:device:CurrentCostEnviRAppliancePhase:1' ] = { 'Number' , ' [%d]' , '<energy>' , '/service/urn:micasaverde-com:serviceId:EnergyMetering1/Watts' },
[ 'urn:schemas-futzle-com:device:CurrentCostEnviRAppliancePulse:1' ] = { 'Number' , ' [%d]' , '<energy>' , '/service/urn:micasaverde-com:serviceId:EnergyMetering1/Pulse' },
[ 'urn:schemas-futzle-com:device:holidayvirtualswitch:1' ] = { 'Switch' , '' , '' , '/service/SwitchPower1/Status,command:ON=SwitchPower1/SetTarget(newTargetValue=1)|OFF=SwitchPower1/SetTarget(newTargetValue=0),in:MAP(miosSwitchIn.map)' } }
local device_categories = {
[1] = { 'Interface' },
[2] = { 'Dimmable Light' },
[3] = { 'Switch', { [1] = 'Interior',
[2] = 'Exterior',
[3] = 'In Wall' ,
[4] = 'Refrigerator',
[5] = 'Garage Door' } },
[4] = { 'Security Sensor', { [1] = 'Door Sensor',
[2] = 'Leak Sensor',
[3] = 'Motion Sensor',
[4] = 'Smoke Sensor',
[5] = 'CO Sensor',
[6] = 'Glass Break Sensor' } },
[5] = { 'HVAC', { [1] = 'HVAC',
[2] = 'Heater' } },
[6] = { 'Camera' },
[7] = { 'Door Lock' },
[8] = { 'Window Covering', { [1] = 'Window Covering',
[2] = 'ZRTSI' } },
[9] = { 'Remote Control' },
[10] = { 'IR Transmitter', { [1] = 'IR Transmitter',
[2] = 'USB UIRT' } },
[11] = { 'Generic I/O' },
[12] = { 'Generic Sensor' },
[13] = { 'Serial Port' },
[14] = { 'Scene Controller' },
[15] = { 'A/V' },
[16] = { 'Humidity Sensor' },
[17] = { 'Temperature Sensor' },
[18] = { 'Light Sensor' },
[19] = { 'Z-Wave Interface' },
[20] = { 'Insteon Interface' },
[21] = { 'Power Meter' },
[22] = { 'Alarm Panel' },
[23] = { 'Alarm Partition' },
[24] = { 'Siren' } }
group_written = {}
function normalize_name( s )
s = string.gsub( s or '', '[%s-/%.:()]', '_' )
return '_' .. s
end
function write_items()
outf = io.open( output_directory .. '/' .. unit_name .. '.items', 'w\n' )
outf:write( 'Group Rooms (All)\n' )
for k, v in pairs( luup.rooms )
do
outf:write( 'Group ' .. normalize_name( tostring( v ) ) .. ' "' .. tostring( v ) .. '" <' .. normalize_name( tostring( v ) ) .. '> (Rooms)\n' )
end
outf:write( 'Group _no_room "no room" <_no_room> (Rooms)\n' )
for k, v in pairs(luup.devices)
do
dt = device_types[ v.device_type ]
if dt ~= nil
then
c = device_categories[ v.category_num ]
if c == nil
then
t = 'DEVICE CATEGORY ' .. tostring( v.category_num ) .. '/' .. tostring( v.subcategory_num )
else
t = c[ 1 ]
st = c[ 2 ]
if ( st ~= nil ) and ( v.subcategory_num ~= 0 )
then
t = t .. ' / ' .. tostring( st[ v.subcategory_num ] or v.subcategory_num )
end
end
tn = normalize_name( t )
if group_written[ t ] == nil
then
outf:write( 'Group ' .. tostring( tn ) .. 's "' .. tostring( t ) .. 's" (Rooms)\n' )
outf:write( 'Number ' .. tostring( tn ) .. 'sChartPeriod\n' )
group_written[ t ] = tn
end
outf:write( tostring( dt[ 1 ] ) .. ' ' .. normalize_name( tostring( v.description ) ) .. ' "' .. tostring( v.description ) .. tostring( dt[ 2 ] ) .. '" ' .. tostring( dt[ 3 ] ) .. ' (' .. normalize_name( tostring( luup.rooms[ v.room_num ] ) ) .. ',' .. tostring( tn ) .. 's) {mios="unit:' .. tostring( unit_name ) .. ',device:' .. k .. tostring( dt[ 4 ] ) .. '"}\n' )
end
end
outf:close()
end -- function write_items()
function write_sitemap()
outf = io.open( output_directory .. '/' .. unit_name .. '.sitemap', 'w\n' )
outf:write( 'sitemap ' .. unit_name .. ' label="Main Menu"\n' )
outf:write( '{\n' )
outf:write( ' Frame {\n' )
outf:write( ' Group item=Rooms label="Rooms"\n' )
outf:write( ' }\n' )
for k, v in pairs( group_written )
do
p = tostring( v ) .. 'sChartPeriod'
i = tostring( v ) .. 's'
outf:write( ' Frame {\n' )
outf:write( ' Switch item=' .. p .. ' label="Chart Period" mappings=[0="Hour", 1="Day", 2="Week"]\n' )
outf:write( ' Chart item=' .. i .. ' period=h refresh=6000 visibility=[' .. p .. '==0, ' .. p .. '=="Uninitialized"]\n' )
outf:write( ' Chart item=' .. i .. ' period=D refresh=30000 visibility=[' .. p .. '==1]\n' )
outf:write( ' Chart item=' .. i .. ' period=W refresh=30000 visibility=[' .. p .. '==2]\n' )
outf:write( ' }\n' )
end
outf:write( '}\n' )
outf:close()
end -- persistence_rrd4j()
function write_persistence_rrd4j()
outf = io.open( output_directory .. '/rrd4j.persist_add', 'w' )
for k, v in pairs( group_written )
do
i = tostring( v ) .. 's'
outf:write( i .. '* : strategy = everyChange, everyMinute, restoreOnStartup\n' )
end
outf:close()
end -- write_persistence_rrd4j()
write_items()
write_sitemap()
write_persistence_rrd4j()[edit] Creating openHAB rules
https://github.com/openhab/openhab/wiki/Rules
WORK IN PROGRESS (non-functional demo)
Use a real computer to run the following code:
-- by Ap15e
local json = require( 'dkjson' ) -- use a json parser that doesn't complain about empty arrays ...
local http = require( 'socket.http' )
local url = 'http://192.168.178.116:3480/data_request?id=user_data'
function normalize_name( s )
s = string.gsub( s or '', '[%s-/%.:]', '_' )
return '_' .. s
end
body, c, l, h = http.request( url )
print( '// status line', l )
print( '// h', h )
print( '// c', c )
print( '' )
if c == 200
then
local data = json.decode( body )
for k, v in pairs( data.scenes )
do
print( 'rule ' .. normalize_name( v.name ) )
print( '// MiOS id: ' .. v.id )
print( 'when' )
if v.timers ~= nil
then
for i, j in pairs( v.timers )
do
t = tonumber( j.type )
if t == 1
then
print( ' ', j.interval, ' // MiOS type 1' )
else if t == 2
then
print( ' ', j.days_of_week, j.time, ' // MiOS type 2' )
else if t == 3
then
print( ' ', '// ERROR: Not implemented - MiOS type 3' )
else if t == 4
then
print( ' ', j.abstime, ' // MiOS type 4' )
else
print( '// ERROR: unknown timer, MiOS type: ', tostring( t ) )
for x, y in pairs( j )
do
print( '// ', x, y )
end
end
end
end
end
end
end
if v.triggers ~= nil
then
for i, j in pairs( v.triggers )
do
print( '// ' .. j.name )
for x, y in pairs( j )
do
print( ' //', x, y )
end
end
end
print( 'then' )
print( 'end' )
print( '' )
end
else
print( '//http error code:', c )
end[edit] Tips & Tricks
[edit] Synchronizing Vera's devices with openHAB
Mount ~/openHAB/runtime/configurations/items on Vera (see http://forum.micasaverde.com/index.php/topic,16452.msg125963.html#msg125963) and write the items file via Apps -> Develop Apps -> Edit Startup Lua.
[edit] Building a quarter wave ground plane antenna for Z-Wave
[edit] Parts needed
4x Amphenol B6351B1-ND3G-50
Copper wire
50 Ohm cable BNC male - BNC male
SMA male - BNC female adapter (for Vera3 with antenna mod)
U.FL female - BNC female pigtail cable and U.FL male coaxial connector SMD (for Aeon Z-Stick S2)
[edit] Calculations
length of radials/radiator = speed of light / frequency * velocity factor / 4
For EU frequency: length = 299792458 m/s / 868420000 Hz * 0.95 / 4 = 8.2 cm
[edit] Antenna
[edit] Modifying the Aeon Z-Stick S2
[edit] Screenshots
