Powerful and flexible node-red nodes to enable you to build your own home alarm system with any number of panels, zones, sensors, triggers and automations. Designed to work easily with (but does not require) homekit.
There is 1 configuration node and four flow node types currently provided:
Create an alarmPanel configuration node to tie together states and sensors for a property or zone. So for a simple house with just arming and disarming, create a single panel. For a bigger property where you may want to fully arm some zones and leave other disarmed or on night mode, create separate panels for each zone.
Send a message to a "changeState" node to update the alarm panel state. Attach it to a panel to control that property or zone.
Payloads follow the HomeKit Alarm state conventions with SecuritySystemTargetState being the new state you would prefer the alarm panel to be in.
see: HomeKit-Model-Reference - SecuritySystemTargetState
Essentially, a "ChangeState" message updates the panel state and echos the state on ALL "StateChanged" emitters associated with that same panel (see below for IMPORTANT WARNING about infinite loops!).
Make sure you select the right "mode" in the node configuration:
This node emits a message when the alarm system changes state, such as switching from "Home" to "Away" or "Disarm", or if a sensor triggers an alarm when armed.
The current state will be in msg.payload.SecuritySystemCurrentState and follows the HomeKit Alarm state conventions (same document as above).
WARNING: There is NO infinite loop detection right now! So MAKE SURE if you create ANY path from a "StateChanged" to a "ChangeState" node, that you MUST ensure the loop is not permanent or you will burn up cpu! A good enhancement would be perhaps to build in a "keepalive" countdown for 2 iterations or something to auto-kill a message stuck in a loop if anyone wants to take that on.
You can use this node to both set the state in the homekit alarm system or the dashboard controls, or for any automation in response to a panel state change.
Make sure you select the right "mode" in the node configuration:
A sensor is an input to the alarm panel that you configure with one or more active "modes". ie: a laundry door may be "Armed" in "Away" and "Night" modes. But a hall motion sensor may only be armed in "Away" mode.
If a sensor receives ANY message at all, it will trigger an alarm IF the alarm panel it is associated with is in a mode that you have nominated as an "Active" alarm mode in the sensor node configuration.
You can also use these nodes in flows that expose zwave or zigbee devices (like concealed door sensors) to homekit-bridge or other nodes:
An Alarm Triggered node is essentially an alarm siren/strobe/etc output node. This node only really responds to an alarm state (the alarm has been 'triggered'). There is a delay on this node and on an alarm being triggered, it will wait the number of seconds specified before firing (emitting a payload).
You can use this node to perhaps emit a payload immediately on alarm state to start some "warning beeps" from an internal alarm. Then have another one set up to only fire after 30 seconds (an "entrance" delay) to trigger the main siren and strobe.
A basic configuration to work with HomeKit would be to use a HomeKit Bridge node between a "StateChanged" and a "ChangeState" node.
ie: If you create a Homekit Security System, it appears on your phone as an alarm system. When you use homekit to set the alarm to "Away" the homekit bridge node will emit a message with the payload for "Away" = 1. The "ChangeState" node processes that new state and sets your node-red panel to "Away". It will also emit that state as the new CurrentState to all "StateChanged" nodes, so you can set a dashboard, trigger another automation or whatever.
Note that the "StateChanged", "ChangeState", "Sensor" and "Alarm Triggered" nodes can be all on different flows and subflows and you can have any number of each type of node. This offers ultimate flexibility in the way you configure your node-red alarm system.
Similarly, you could put a node-red dashboard dropdown selector in-line between another set of "StateChanged" and "ChangeState" nodes.
So if you had both set up, then changing the mode on your iPhone or Mac Homekit client, will update the "panel" state in node-red and emit that new state to anything attached to a "StateChanged" node. So your dashboard dropdown would update to the same state. NOTE: Make sure you do NOT pass-through the incoming message to the output on the dashboard drop-down element. It may create an endless loop.
So you could use a button, your Homekit client AND a dashboard widget all to arm and disarm the alarm panel, it's that powerful and completely up to you.
Try using node-red-contrib-wemo, hue and zwave modules to tap into existing door sensors and movement sensors to act as your alarm panel inputs.
This example uses a zwave siren like this or this connected to openhab2 and using node-red-contrib-openhab2.
To cater for an "Entry Delay" (in case someone forgets to disarm the alarm before entering the building), you can use the "alarm" node to start the alarm and the normal "State Changed" node to reset the alarm.
In this example, the "State Changed" node is configured as a "Value" output. In this configuration it will emit a "msg.payload == 3" on disarming the system. This is the check you need to put in the "switch" node. Then the "Alarm Off" node sets payload to "OFF" to turn off the siren when the alarm is disarmed.
To trigger the alarm, use an "Alarm" node with a suitable delay configuration (15 seconds? up to you). Then have a "Alarm On" node to set payload to "ON".
You can use the delay configuration on alarm modes to create an entry delay and push notifications or turn on siren "pips" accordingly. This is how you could configure a 60 second entry delay with warning pips on an internal siren (like this) and push alerts to slack (so you get notified immediately if the alarm trips, and to also act as a warning via your phone if the warning pips fail (no batteries?).
For example, if you follow the nodes leading from the "10 Seconds" alarm mode, it is configured with a delay of 50 seconds (10 seconds before main alarm).
It ensures the internal piezo is still in "pip" mode (because if it somehow stopped, it's incorrect because the alarm has not been disabled). And feeds to a function node that sets the topic to send to slack:
With an appropriate payload to format the notification.
{
"text": "Alarm in 10 Seconds!",
"username": "Alarm",
"as_user": false,
"icon_emoji": "cop",
"channel": "alarm"
}
Likewise, you can use any such notification service, slack is just an example of a free way to notify your phone and desktop (pretty much any device actually).
By wiring up a smoke detector, you can configure the node to alarm only in away mode:
Example node-red-contrib-nest node configuration:
And use a function node to just set off an alarm IF there is any smoke detected at all:
// if ANY smoke is detected when no one is home, then we need to set off the alarm
// the alternate reported states from nest smoke detectors are "warning" and "emergency"
// BOTH are bad if no one is home, as ANY smoke is a problem if no one is home (It could not be burnt toast!)
// we didn't bother with msg.payload.co_alarm_state as carbon monoxide would not typically requires fire department attendance
if (msg.payload.smoke_alarm_state == "ok") {
return;
}
return msg;
If you would like to donate some money to support ongoing development or as a simple thank you for me sharing this project for others to use, please feel free to send money via PayPal.
NOTE: Once you upgrade from 0.9.4, you need to update all "Change State" and "State Changed" nodes configurations to select a "Format" from 1 of 3 values.
Of course, this software is completely opensource and offered with absolutely NO WARRANTY whatsoever offered or implied.
If you choose to set up your own alarm system, and you get burgled, it's your problem, nothing to do with this software as there is no warranty that this provides any form of protection whatsoever. Up to you to use it completely at your own risk. So YOU HAVE BEEN WARNED!