The Insteon Terminal is a simple tool to send and receive messages on an Insteon network, using either a PLM modem or a Hub.
Look elsewhere if you want a polished interface to automate your home, or if you don't like command line interfaces.
The Insteon Terminal is meant as a raw developer tool for the purpose of exploring how a device responds to a message, and what messages a device emits. It is also well suited to examine and modify device link databases.
BE FOREWARNED: you can directly manipulate your modem's link database, and IF YOU TRY HARD YOU CAN WIPE IT OUT, potentially requiring you to re-link with your devices. Use the saveDB() method on the modem to save the database before you modify it.
Google groups mailing list: https://groups.google.com/forum/#!forum/insteon-terminal
All instructions are for Ubuntu 14.04
-
install ant, java jdk, and the java rxtx library:
sudo apt-get install ant default-jdk librxtx-java
-
clone the repository:
git clone https://github.com/vastsuperking/insteon-terminal.git
-
create your custom init.py
cd insteon-terminal cp init.py.example init.py
-
edit init.py following the instructions there:
emacs -nw init.py
-
Run the insteon terminal (this should compile when run the first time)
./insteon-terminal
(Alternatively you can run ./insteon-terminal -gui (previously -g) to start it in GUI mode)
Getting the serial terminal to work under java / rxtx can be tricky. Make sure you have the correct port name configured in init.py and that you have read/write permissions to the port (usually this involves adding yourself to the plugdev group and logging out/back in for the changes to take effect).
-
If all goes well you will see the following text:
Insteon Terminal Python interpreter initialized...
#First steps
>>> help()
-------Welcome to the Insteon Terminal-------
to get a list of available functions, type '?'
to get help, type help(funcName) or help(objectName)
for example: help(Modem2413U)
to quit, type 'quit()'
let's see what functions we have available:
>>> ?
----All available functions---
Timer() - No doc
clear() - clears the console screen
connectToHub() - connectToHub(adr, port, pollMillis, user, password) connects to specific hub
connectToMyHub() - connects to my insteon hub modem at pre-defined address
connectToMySerial() - connects to my modem on pre-defined serial port
connectToSerial() - connectToSerial("/path/to/device") connects to specific serial port
disconnect() - disconnects from serial port or hub
err() - prints to std err the value of msg and a newline character
exit() - quits the interpreter
help() - help(object) prints out help for object, e.g. help(modem)
init() - No doc
listDevices() - lists all configured devices
out() - out("text") prints text to the console
quit() - quits the interpreter
reload() - Reloads the interpreter. Use this whenever you feel the state got screwed up.
reset() - Resets the interpreter
trackPort() - start serial port tracker(monitor) that shows all incoming/outgoing bytes
listDevices() will dump a list of all devices that are defined in init.py:
>>> listDevices()
diningRoomEastDimmer 20.ac.99
computerRoomEast 24.ac.f4
kitchenFireplaceLights 23.e8.2e
modem 23.9b.65
you can get help for any device by using the help() function on the object
>>> help(modem)
============== Insteon PowerLinc modem (PLM) ===============
addController(addr, group): adds device with address "addr" to modem link database as controller for group "group"
addResponder(addr, group): adds device with address "addr" to modem link database as responder to group "group"
addSoftwareResponder(addr): adds device with address "addr" to modem link database as software responder
cancelLinking() takes modem out of linking or unlinking mode
getId() get category, subcategory, firmware, hardware version
getdb() download the modem database and print it on the console
getid() get modem id data
linkAsController(otherDevice, group) puts modem in link mode to control device "otherDevice" on group "group"
linkAsEither(otherDevice, group) puts modem in link mode to link as controller or responder to device "otherDevice" on group "group"
linkAsResponder(otherDevice, group) puts modem in link mode to respond to device "otherDevice" on group "group"
loadDB(filename) restore modem database from file "filename"
nukeDB() delete complete modem database!
printdb() print the downloaded link database to the console
removeController(addr, group) remove device with "addr" as controller for group "group", with link data "data"
removeLastRecord() removes the last device in the link database
removeResponder(addr, group) remove device with "addr" as responder for group "group"
removeResponderOrController(addr, group) removes device with address "addr" and group "group" from modem link database
respondToUnlink(otherDevice, group) make modem respond to unlink message from other device
restoreDB() restore modem database from file "filename"
saveDB(filename) save modem database to file "filename"
sendOff(group) sends ALLLink broadcast OFF message to group "group"
sendOn(group) sends ALLLink broadcast ON message to group "group"
startWatch() modem will print all incoming messages on terminal
stopWatch() stop modem from printing all incoming messages on terminal
unlinkAsController(otherDevice, group) puts modem in unlink mode to unlink as controller from device "otherDevice" on group "group"
Here is how to dump the modem's link database:
>>> modem.getdb()
0000 kitchenFireplaceLights 23.E8.2E RESP 10100010 group: 01 data: 00 00 01
0000 kitchenFireplaceLights 23.E8.2E CTRL 11100010 group: 01 data: 02 2a 43
0000 diningRoomEastDimmer 20.AB.26 RESP 10100010 group: 01 data: 01 20 41
0000 diningRoomEastDimmer 20.AB.26 CTRL 11100010 group: 01 data: 01 20 41
Turns out the computerRoomEast device is not linked to the modem yet, which is sort of a problem, because then it won't respond to a whole bunch of queries, like asking for its database etc. When pinging it, it returns a nasty NACK_OF_DIRECT.
>>> computerRoomEast.ping()
sent msg: OUT:Cmd:0x62|toAddress:24.AC.F4|messageFlags:0x0F=DIRECT:3:3|command1:0x0F|command2:0x01|
>>> ping got msg: IN:Cmd:0x50|fromAddress:24.AC.F4|toAddress:23.9B.65|messageFlags:0xA7=NACK_OF_DIRECT:3:1|command1:0x0F|command2:0xFF|
And when querying the database:
>>> computerRoomEast.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> did not get full database, giving up!
Nothing comes back.
This is because the computerRoomEast device does not have any entries about the modem in its link database, so it won't answer queries. No way around the press-the-button dance, so we link (using the set button) the modem as a controller, and the computerRoomEast device as a responder. Now things look better:
>>> computerRoomEast.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2
----- database -------
0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 254 RMPRT: 28 BUTTON: 1
0ff7 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0
If we wanted to modem to be a responder (such that it gets messages when the device is toggled), we could link with the set button, but now that the device responds to modem commands, we can configure it as a controller of the modem by directly manipulating its link database:
>>> computerRoomEast.addController("23.9b.65", 01, [3, 28, 1])
And now the device's database looks like this:
>>> computerRoomEast.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2 3
----- database -------
0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 254 RMPRT: 28 BUTTON: 1
0ff7 modem 23.9B.65 CTRL 11100010 group: 01 ON LVL: 3 RMPRT: 28 BUTTON: 1
0fef 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0
----- end ------------
But let's not forget about the modem database! That one also needs an entry, as a responder. So far the modem has only an entry to control the device:
>>> modem.getdb()
0000 computerRoomEast 24.AC.F4 CTRL 11100010 group: 01 data: 01 20 41
Modem Link DB complete
Let's configure the modem also as a controller:
>>> modem.addResponder("24.ac.f4", 01)
sent msg: OUT:Cmd:0x6F|controlCode:0x41|recordFlags:0xA2|ALLLinkGroup:0x01|linkAddress:24.AC.F4|linkData1:0x00|linkData2:0x00|linkData3:0x01|
>>> addResponder got msg: IN:Cmd:0x6F|controlCode:0x41|recordFlags:0xA2|ALLLinkGroup:0x01|linkAddress:24.AC.F4|linkData1:0x00|linkData2:0x00|linkData3:0x01|ACK/NACK:0x06|
Voila, the modem is now also a responder to the device:
>>> modem.getdb()
0000 computerRoomEast 24.AC.F4 RESP 10100010 group: 01 data: 00 00 01
0000 computerRoomEast 24.AC.F4 CTRL 11100010 group: 01 data: 01 20 41
Modem Link DB complete
So far the list of supported devices is fairly short:
- SwitchLinc Switch 2477S
- SwitchLinc Dimmer 2477D
- KeypadLinc 2487S
- Thermostat 2441TH
- Modem 2413U/Hub pre-2014/Hub 2014
But many of the devices work very similarly. You can easily add your own device by creating a new file in the python directory. Just pick a device that looks similar, copy/rename its .py file, and import it in init.py. If you are looking for code snippets, the most complex device so far is the thermostat, see below
While not complete, most features of the 2441TH are supported:
>>> help(Thermostat2441TH)
============== Insteon Thermostat 2441TH ===============
addController(addr, group, data) add device with "addr" as controller for group "group", with link data "data"
addResponder(addr, group, data) add device with "addr" as responder for group "group", with link data "data"
addSoftwareController(addr) add device with "addr" as software controller
beep() sends beep command to the device
buttonBeepOff() sets button beep off
buttonBeepOn() sets button beep on
buttonLockOff() sets button lock off
buttonLockOn() sets button lock on
enableStatusReports() enables status reports being sent to group #0xef
getData1() performs data1 query
getData1b() performs data1b query
getData2() performs data2 query
getEngineVersion() queries device for engine version
getFirmwareVersion() queries device for firmware version
getHumidity() queries humidity
getId() get category, subcategory, firmware, hardware version
getOpFlagsExt() gets operational flags via ext message
getOpFlagsSD() gets operational flags via sd message
getSchedule(day) gets schedule for day (0=Sunday, 6=Saturday)
getSetPoint() queries temperature set point
getTemperature() queries temperature
getdb() download the device database and print it on the console
linkingLockOff() sets linking lock off
linkingLockOn() sets linking lock on
ping() pings the device
printdb() print the downloaded link database to the console
removeController(addr, group) remove device with "addr" as controller for group "group", with link data "data"
removeLastRecord() removes the last device in the link database
removeResponder(addr, group) remove device with "addr" as responder for group "group"
removeSoftwareController(addr) remove device with "addr" as software controller
sendOff() sends off command to the device
sendOn() sends on command to the device
setACHysteresis(minutes) set A/C hysteresis (in minutes)
setAllOff() set system mode to OFF
setBacklightSeconds(time) set backlight time in seconds
setCoolPoint(temp) sets cooling temperature
setFanAuto() set fan mode to AUTO
setFanOn() set fan mode to ALWAYS ON
setHeatPoint(temp) sets heating temperature
setHumidityHighPoint(point) sets high point for dehumidification
setHumidityLowPoint(point) sets low point for humidification
setHumidityOffset(offset) set humidity offset(for calibration, use with care!)
setOnLevel(addr, group, level, ramprate = 28, button = 1) sets (on level, ramp rate, button) for controller with "addr" and group "group"
setSchedule(day, period, time, cool, heat) sets schedule params: day = 0(Sunday) .. 6 (Saturday), period = (0=wake, 1=leave, 2=return, 3=sleep), time = (e.g.) "06:30", cool/heat = temperatures
setStage1Minutes(time) set number of minutes to try stage 1 before going into stage2
setTemperatureOffset(offset) set temperature offset(for calibration, use with care!)
setTime(day, hour, min, sec) sets clock time (day = 0(Sunday) .. 6 (Saturday))
setToAuto() set system mode to AUTO (manual)
setToCool() set system mode to COOL
setToHeat() set system mode to HEAT
setToProgram() set system mode to AUTO (program)
statusLEDOff() don't switch status LED on when heating/cooling
statusLEDOn() switch status LED on when heating/cooling
use12hFormat() set time format 12h
use24hFormat() set time format 24h
useCelsius() set temperature display in celsius
useFahrenheit() set temperature display in fahrenheit
Fully linking the thermostat to modem requires linking the following groups:
- group 1: cooling mode change
- group 2: heating mode change
- group 3: dehumid, high humidity set point
- group 4: humidification, low humidity set point
- group 5: no idea what that one is doing
- group EF: direct message on any change (software controller)
The following sequence of commands (wait for each to complete successfully!) will link thermostat to modem (replace the "23.9b.65" with your modem's address):
thermostat.addResponder("23.9b.65", 00)
thermostat.addController("23.9b.65", 01)
thermostat.addController("23.9b.65", 02)
thermostat.addController("23.9b.65", 03)
thermostat.addController("23.9b.65", 04)
thermostat.addController("23.9b.65", 05)
thermostat.addSoftwareController("23.9b.65")
thermostat.enableStatusReports()
Here is how the thermostat database should look when you are done:
>>> thermostat.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2 3 4 5 6 7 8
----- database -------
1fff modem 23.9B.65 RESP 10100010 group: 00 data: 00 00 00
1ff7 modem 23.9B.65 CTRL 11100010 group: 01 data: 00 00 01
1fef modem 23.9B.65 CTRL 11100010 group: 02 data: 00 00 02
1fe7 modem 23.9B.65 CTRL 11100010 group: 03 data: 00 00 03
1fdf modem 23.9B.65 CTRL 11100010 group: 04 data: 00 00 04
1fd7 modem 23.9B.65 CTRL 11100010 group: 05 data: 00 00 05
1fcf modem 23.9B.65 CTRL 11100010 group: ef data: 03 1f ef
1fc7 00.00.00 00.00.00 (RESP) 00000000 group: 00 data: 00 00 00
----- end ------------
Not sure if or why the thermostat has to be configured as a responder, but HouseLinc did it that way, so I followed their example.
Now make the corresponding entries on the modem database (replace "32.f4.22" with your thermostat's address):
modem.addController("32.f4.22",00)
modem.addResponder("32.f4.22",01)
modem.addResponder("32.f4.22",02)
modem.addResponder("32.f4.22",03)
modem.addResponder("32.f4.22",04)
modem.addResponder("32.f4.22",05)
modem.addSoftwareResponder("32.f4.22")
And the modem db should look like that:
>>> modem.getdb()
0000 thermostat 32.F4.22 RESP 10100010 group: 01 data: 00 00 01
0000 thermostat 32.F4.22 RESP 10100010 group: 02 data: 00 00 02
0000 thermostat 32.F4.22 RESP 10100010 group: 03 data: 00 00 03
0000 thermostat 32.F4.22 RESP 10100010 group: 04 data: 00 00 04
0000 thermostat 32.F4.22 RESP 10100010 group: 05 data: 00 00 05
0000 thermostat 32.F4.22 RESP 10100010 group: ef data: 00 00 ef
0000 thermostat 32.F4.22 CTRL 11100010 group: 00 data: 01 00 00
Modem Link DB complete
That's it, modem and thermostat are linked up.
The buttons on the Keypadlinc devices have device internal numbers that need to be provided during configuration. Moreover, when pressed each button emits a broadcast message with a different group #. For the 2487S the assignment looks like this:
| Button Name | Button Number | Group |
|---|---|---|
| Load | 1 | 0x01 |
| A | 3 | 0x03 |
| B | 4 | 0x04 |
| C | 5 | 0x05 |
| D | 6 | 0x06 |
If you are impatient and already know what you are doing, skip this section and go to the next one.
The following example is for a keypad with address "30.0d.9f", and a modem at "23.9b.65"
Begin with linking the modem as a controller: first long press the modem button until it beeps/blinks. Then switch the keypad ON, and long press the set button until both modem and keypad double-beep and stop blinking. This step is necessary so the keypad will start taking commands from the modem.
Now if you do
modem.getdb()
you should see something like this in the database:
0000 keypad 30.0D.9F CTRL 11100010 group: 01 data: 02 2c 41
The keypad also has an entry now:
>>> keypad.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2
----- database -------
0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 255 RMPRT: 28 BUTTON: 1
0ff7 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0
This means the keypad will respond when it gets an ON command on group #1 by going into ON state (brightness level 255 means full on).
The main load (button #1) can be switched on without resorting to broadcasting group messages. You can simply send a direct message like this:
keypad.off()
keypad.on()
This shoulds switch the main light on and off.
However, the modem will not learn if button #1 is pressed. For that, we need to link the keypad as a controller, and the modem as a responder so it gets group messages on group #1 (the group on which the keypad sends its broadcasts):
modem.addResponder("30.0d.9f", 0x01)
keypad.addControllerForButton("23.9b.65", 1)
Now the modem database should have two lines like these:
>>>modem.getdb()
...
0000 keypad 30.0D.9F RESP 10100010 group: 01 data: 00 00 01
0000 keypad 30.0D.9F CTRL 11100010 group: 01 data: 02 2c 41
...
And the keypad should look like this:
>>> keypad.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2 3
----- database -------
0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 255 RMPRT: 28 BUTTON: 1
0ff7 modem 23.9B.65 CTRL 11100010 group: 01 ON LVL: 3 RMPRT: 28 BUTTON: 1
0fef 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0
----- end ------------
Now if you put the modem into "watch" mode:
>>> modem.startWatch()
and switch on the light, you should see messages coming in:
>>> modem got msg: IN:Cmd:0x50|fromAddress:30.0D.9F|toAddress:00.00.01|messageFlags:0xCB=ALL_LINK_BROADCAST:3:2|command1:0x11|command2:0x00|
modem got msg: IN:Cmd:0x50|fromAddress:30.0D.9F|toAddress:23.9B.65|messageFlags:0x40=ALL_LINK_CLEANUP:0:0|command1:0x11|command2:0x01|
modem got msg: IN:Cmd:0x50|fromAddress:30.0D.9F|toAddress:11.01.01|messageFlags:0xC7=ALL_LINK_BROADCAST:3:1|command1:0x06|command2:0x00|
Don't forget to stop watching:
>>> modem.stopWatch()
If we want the modem to get messages when the other buttons are pressed, we analogously establish a keypad controller/modem responder relationship:
keypad.addControllerForButton("23.9b.65", 3)
keypad.addControllerForButton("23.9b.65", 4)
keypad.addControllerForButton("23.9b.65", 5)
keypad.addControllerForButton("23.9b.65", 6)
modem.addResponder("30.0d.9f", 0x03)
modem.addResponder("30.0d.9f", 0x04)
modem.addResponder("30.0d.9f", 0x05)
modem.addResponder("30.0d.9f", 0x06)
Always check your work. Here is how the databases should look now:
>>>modem.getb()
...
0000 keypad 30.0D.9F RESP 10100010 group: 01 data: 00 00 01
0000 keypad 30.0D.9F RESP 10100010 group: 03 data: 00 00 03
0000 keypad 30.0D.9F RESP 10100010 group: 04 data: 00 00 04
0000 keypad 30.0D.9F RESP 10100010 group: 05 data: 00 00 05
0000 keypad 30.0D.9F RESP 10100010 group: 06 data: 00 00 06
0000 keypad 30.0D.9F CTRL 11100010 group: 01 data: 02 2c 41
...
>>> keypad.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2 3 4 5 6 7
----- database -------
0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 255 RMPRT: 28 BUTTON: 1
0ff7 modem 23.9B.65 CTRL 11100010 group: 01 ON LVL: 3 RMPRT: 28 BUTTON: 1
0fef modem 23.9B.65 CTRL 11100010 group: 03 ON LVL: 3 RMPRT: 28 BUTTON: 3
0fe7 modem 23.9B.65 CTRL 11100010 group: 04 ON LVL: 3 RMPRT: 28 BUTTON: 4
0fdf modem 23.9B.65 CTRL 11100010 group: 05 ON LVL: 3 RMPRT: 28 BUTTON: 5
0fd7 modem 23.9B.65 CTRL 11100010 group: 06 ON LVL: 3 RMPRT: 28 BUTTON: 6
0fcf 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0
----- end ------------
Note that the order of records is not important. If some of the entries aren't there, rerun the respective command until success. The transmission on the Insteon network isn't always completely reliable.
In the last step, we get the keypad buttons to respond to the modem. Unlike for the main load (button #1), there is no direct command to set them. Instead, must set the button up as a responder to a group (pick any group number you want), and then have the modem send out a broadcast for that group number.
In the following example the groups 0xf3 to 0xf6 are used. It doesn't matter exactly what groups you use so long as they are globally (on the whole insteon network) unique. This is because when the modem sends out the broadcast on that group number, all devices that are configured as responders to it will change their state!
keypad.addResponderForButton("23.9b.65", 0xf3, 3)
keypad.addResponderForButton("23.9b.65", 0xf4, 4)
keypad.addResponderForButton("23.9b.65", 0xf5, 5)
keypad.addResponderForButton("23.9b.65", 0xf6, 6)
Likewise, the modem should be set up as a controller for those groups:
modem.addController("30.0d.9f", 0xf3)
modem.addController("30.0d.9f", 0xf4)
modem.addController("30.0d.9f", 0xf5)
modem.addController("30.0d.9f", 0xf6)
Finally all done, this is how things should look:
>>> modem.getdb()
...
0000 keypad 30.0D.9F RESP 10100010 group: 01 data: 00 00 01
0000 keypad 30.0D.9F RESP 10100010 group: 03 data: 00 00 03
0000 keypad 30.0D.9F RESP 10100010 group: 04 data: 00 00 04
0000 keypad 30.0D.9F RESP 10100010 group: 05 data: 00 00 05
0000 keypad 30.0D.9F RESP 10100010 group: 06 data: 00 00 06
0000 keypad 30.0D.9F CTRL 11100010 group: 01 data: 02 2c 41
0000 keypad 30.0D.9F CTRL 11100010 group: f3 data: 00 00 f3
0000 keypad 30.0D.9F CTRL 11100010 group: f4 data: 00 00 f4
0000 keypad 30.0D.9F CTRL 11100010 group: f5 data: 00 00 f5
0000 keypad 30.0D.9F CTRL 11100010 group: f6 data: 00 00 f6
...
>>> keypad.getdb()
getting db, be patient!
sent db query msg, incoming records: >>> 1 2 3 4 5 5 6 7 8 9 10 11
----- database -------
0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 255 RMPRT: 28 BUTTON: 1
0ff7 modem 23.9B.65 CTRL 11100010 group: 01 ON LVL: 3 RMPRT: 28 BUTTON: 1
0fef modem 23.9B.65 CTRL 11100010 group: 03 ON LVL: 3 RMPRT: 28 BUTTON: 3
0fe7 modem 23.9B.65 CTRL 11100010 group: 04 ON LVL: 3 RMPRT: 28 BUTTON: 4
0fdf modem 23.9B.65 CTRL 11100010 group: 05 ON LVL: 3 RMPRT: 28 BUTTON: 5
0fd7 modem 23.9B.65 CTRL 11100010 group: 06 ON LVL: 3 RMPRT: 28 BUTTON: 6
0fcf modem 23.9B.65 RESP 10100010 group: f3 ON LVL: 3 RMPRT: 28 BUTTON: 3
0fc7 modem 23.9B.65 RESP 10100010 group: f4 ON LVL: 3 RMPRT: 28 BUTTON: 4
0fbf modem 23.9B.65 RESP 10100010 group: f5 ON LVL: 3 RMPRT: 28 BUTTON: 5
0fb7 modem 23.9B.65 RESP 10100010 group: f6 ON LVL: 3 RMPRT: 28 BUTTON: 6
0faf 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0
----- end ------------
Ready to test the setup: sending a broadcast message from the modem on group 0xf4 should toggle button #4, which is the "B" button:
>>> modem.sendOn(0xf4)
>>> modem.sendOff(0xf4)
In the following instructions, replace address "30.0d.9f" with the address of your keypad, replace "23.9b.65" with the address of your modem.
-
link modem as a controller via set buttons: first press long on the modem, then press long on the keypad
-
establish connections so modem gets notified of button and switch toggles:
modem.addResponder("30.0d.9f", 0x01) modem.addResponder("30.0d.9f", 0x03) modem.addResponder("30.0d.9f", 0x04) modem.addResponder("30.0d.9f", 0x05) modem.addResponder("30.0d.9f", 0x06)
keypad.addControllerForButton("23.9b.65", 1) keypad.addControllerForButton("23.9b.65", 3) keypad.addControllerForButton("23.9b.65", 4) keypad.addControllerForButton("23.9b.65", 5) keypad.addControllerForButton("23.9b.65", 6)
-
pick some group numbers that are not used anywhere else, (in this case we picked 0xf3, 0xf4, 0xf5, 0xf6, replace with your group numbers) and link the modem as controller, the keypad buttons as responders:
keypad.addResponderForButton("23.9b.65", 0xf3, 3) keypad.addResponderForButton("23.9b.65", 0xf4, 4) keypad.addResponderForButton("23.9b.65", 0xf5, 5) keypad.addResponderForButton("23.9b.65", 0xf6, 6)
modem.addController("30.0d.9f", 0xf3) modem.addController("30.0d.9f", 0xf4) modem.addController("30.0d.9f", 0xf5) modem.addController("30.0d.9f", 0xf6)
-
verify that your databases look correct:
>>modem.getdb() ... 0000 keypad 30.0D.9F RESP 10100010 group: 01 data: 00 00 01 0000 keypad 30.0D.9F RESP 10100010 group: 03 data: 00 00 03 0000 keypad 30.0D.9F RESP 10100010 group: 04 data: 00 00 04 0000 keypad 30.0D.9F RESP 10100010 group: 05 data: 00 00 05 0000 keypad 30.0D.9F RESP 10100010 group: 06 data: 00 00 06 0000 keypad 30.0D.9F CTRL 11100010 group: 01 data: 02 2c 41 0000 keypad 30.0D.9F CTRL 11100010 group: f3 data: 00 00 f3 0000 keypad 30.0D.9F CTRL 11100010 group: f4 data: 00 00 f4 0000 keypad 30.0D.9F CTRL 11100010 group: f5 data: 00 00 f5 0000 keypad 30.0D.9F CTRL 11100010 group: f6 data: 00 00 f6 ... >>> keypad.getdb() getting db, be patient! sent db query msg, incoming records: >>> 1 2 3 4 5 5 6 7 8 9 10 11 ----- database ------- 0fff modem 23.9B.65 RESP 10101010 group: 01 ON LVL: 255 RMPRT: 28 BUTTON: 1 0ff7 modem 23.9B.65 CTRL 11100010 group: 01 ON LVL: 3 RMPRT: 28 BUTTON: 1 0fef modem 23.9B.65 CTRL 11100010 group: 03 ON LVL: 3 RMPRT: 28 BUTTON: 3 0fe7 modem 23.9B.65 CTRL 11100010 group: 04 ON LVL: 3 RMPRT: 28 BUTTON: 4 0fdf modem 23.9B.65 CTRL 11100010 group: 05 ON LVL: 3 RMPRT: 28 BUTTON: 5 0fd7 modem 23.9B.65 CTRL 11100010 group: 06 ON LVL: 3 RMPRT: 28 BUTTON: 6 0fcf modem 23.9B.65 RESP 10100010 group: f3 ON LVL: 3 RMPRT: 28 BUTTON: 3 0fc7 modem 23.9B.65 RESP 10100010 group: f4 ON LVL: 3 RMPRT: 28 BUTTON: 4 0fbf modem 23.9B.65 RESP 10100010 group: f5 ON LVL: 3 RMPRT: 28 BUTTON: 5 0fb7 modem 23.9B.65 RESP 10100010 group: f6 ON LVL: 3 RMPRT: 28 BUTTON: 6 0faf 00.00.00 00.00.00 (RESP) 00000000 group: 00 ON LVL: 0 RMPRT: 0 BUTTON: 0 ----- end ------------