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Monitor-Appdaemon-App

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Appdaemon App for Andrew's Monitor Presence Detection System.

The Monitor Presence Detection system, is a Bash script monitor.sh created by Andrew Freyer, which is designed to run on multiple Linux systems like the Raspberry Pi around the home, to detect if persons are near or not. It is designed to work with 1 or more scripts installed on 1 or more computers (like Raspberry Pi) referred to here as nodes, to detect presence. The node uses the onboard Bluetooth adapter to detect Bluetooth devices (phone/watch/beacon/etc) is near and then reports the state from the device on a person (near or not) to a MQTT Broker. More details about the script, how it functions and setup can be found by following this link.

This App is designed to maximise the use of the detection system, so that the user can easily have it integrated into their automation system comprising of Home Assistant (HA) and AppDaemon (AD), with as less effort as possible no matter the number of users or nodes in place. This app when added to an Appdaemon instance, will help to auto generate entities for presence detection based on the data reported by each node in HA, no matter the number of nodes running in that location or Bluetooth devices to be detected. Added to this, for those that have no Appdaemon running to use this app, this repository also includes a script to easily install both AppDaemona and the Monitor-App in a Linux computer. - contributed by TheStigh

Features

  • Generates sensors in Home Assistant (HA) and AppDaemon (AD) for the following
    • Sensors of the Confidence levels for each Bluetooth device like phone/watch/beacon etc based on each node in each location. So if you have 3 presence nodes, each known device will have 3 confidence sensors with the names sensor.<monitor_name>_location_conf. in AD it is <monitor_name>._location in the mqtt namespace
    • Binary Sensors for each device. So no matter the number of location sensors you have, only one is generated and this is a presence sensor. The sensor entity_id will be binary_sensor.<monitor_name>. So if one has an entry in the known_static_address as xx:xx:xx:xx:xx:xx odianosen's iphone it will generate binary_sensor.monitor_odianosens_iphone_s
    • If wanting to use device_trackers, it is possible to config the app to use device_tracker instead of binary_sensors for each device. The app will update the state as required; that is use home/not_home instead of on/off. - contributed by shbatm
    • Binary sensors for when everyone is in binary_sensor.everyone_home, when everyone is out binary_sensor.everyone_not_home. These sensors are set to ON or OFF depending on declared users in the apps.yaml file users_sensors are in or out. If some are in and some out, both will be OFF, but another sensor binary_sensor.somebody_is_home can be used. This is handy for other automation rules.
    • The name of the sensors for everyone_home, everyone_not_home and somebody_is_home can be modified to use other names as required. - contributed by shbatm
  • If a device is seen to be below the configured minimum confidence minimum_confidence level across all locations which defaults to 50, a configurable not_home_timeout is ran before declaring the user device is not home in HA using the binary sensor generated for that device.
  • When one of the declared gateway_sensors in the apps.yaml is opened, based on who is in the house it will send a scan instruction to the monitor system.
  • When a gateway is opened for a long time, it is possible to set a time interval that instructs the app to carryout scans over a set interval. Useful if living within a space that has one of the gateways opened for a long time
  • Before sending the scan instruction, it first checks for if the system is busy scanning. With the new upgrade to monitor by Andrew, this is not really needed. But (though preferred) if the user was to activate PREF_MQTT_REPORT_SCAN_MESSAGES to true in preferences, it can still use it
  • If no gateway sensors are specified, it will send scan instructions every 1 minute. This negates the experience for quick detection, so it is highly recommended to make use of at least a single gateway sensor.
  • Ability to define the known_devices in a single place within AD, which is then loaded to all monitor nodes on the network. This can be useful, if having multiple nodes, and need to manage all known_devices from a single place, instead of having to change it in all nodes individually.
  • Cleans out old known_devices from the nodes, when they have been deleted from the known_devices setting. Do note this takes about 2 minutes after app initialialies to complete
  • Generates entities within AD, which has all the data published by the node per device, and can be listened to in other Apps for other automation reasons. For example rssi readings based on devices.
  • Constantly checks for all installed monitor nodes on the network, to ensure which is online. If any location doesn't respond after a set time system_timeout, it sets all entities generated from that location to 0. This is very useful if for example, a node reported a device confidence of 100, then it went down. The device will stay at 100 even if the user had left the house, which will lead to wrong state.
  • Reporting of the state of the entire monitor system, including all nodes state to a MQTT topic. The topic is monitor/state
  • Reporting of the state of each node's state to a MQTT topic. The topic is monitor/<location>/state
  • Requests all devices update from the nodes on the network on a system restart
  • Determines the closest monitor node in an area with more than one, and adds that to the generated user binary sensor. - contributed by shbatm
  • Supports the use of external MQTT command to instruct the app to executes some tasks like arrive scan or hardware reboot. - contributed by shbatm
  • Supports the use of multi-level topics for the monitor topic like hass/monitor instead of just monitor. - contributed by shbatm
  • Has the ability to hardware reboot remote monitor nodes, as its known that after a while the Pi script is running (node) on can get locked and the script doesn't work as efficiently anymore. So instead of simply restarting the script, the app can be set to reboot the hardware itself. This can also be done via mqtt by sending an empty payload to monitor/<location>/reboot. More explanation below
  • Has service calls within AD only, that allows a user to execute its functions from other AD apps
  • Use motion sensors to update Received Signal Strength Indication (RSSI) values in the home, so when users move the nearest_monitor can be updated
  • Can schedule a restart of the entire Monitor system at a scheduled time during certain days in the week via the scheduled_restart configuration
  • Supports the ability to have the node restarted, if the node is reported to be offline. This will only take place if auto_reboot_when_offline is True

Requirements

  • Home Assistant
  • MQTT Broker Mosquitto MQTT broker add-on from Add-on-Store works out of the box
  • Appdaemon >= 4.0 running (of course ๐Ÿ™„). You can install AppDaemon addon from the Add-on-store. Make sure to also enable MQTT plugin in Appdaemon. A simple AppDaemon plugin configuration sufficient for this app, in the appdaemon.yaml file is seen below. It is important set the client_topics to NONE, if not using the plugin for other app in AppDaemon
    plugins:
        HASS:
          type: hass
         
        MQTT:
           type: mqtt
           namespace: mqtt
           client_host: Broker IP Address or DNS
           client_user: username
           client_password: password
           client_topics:
               - NONE
  • Andrew's Monitor running on the network.
    • Have at least a single main node, which runs as monitor.sh -tdr -a -b in a location that users stay more often in line with @andrewjfreyer example setup. If having more than 1 monitor, have the rest run as monitor.sh -tad -a -b so they only scan on trigger for both arrival and departure.
    • Don't worry about adding known_add known_static_addresses or known_beacon_addresses as Monitor-App will handle all that for you
    • In the main node, have good spacing between scans, not only to avoid unnecessarily flooding your environment with scans but also allowing the app to take over scans intermittently. I have mine set at 120 secs throughout for now
    • Recommended: Have sensors at the entrances into the home which I termed gateways, whether it be doors or garages. Windows also for those that use it ๐Ÿ˜‰

Installation

  • Install using HACS: (Easiest Way) by first enabling "Enable AppDaemon apps discovery & tracking" in the HACS options under integration. Then go into HACS > Automation and search for "Monitor-App"
  • Configure Monitor-App: HACS will install Monitor-App in /config/Appdaemon/apps/Monitor-App. Rename the home_presence_app_example.yaml to home_presence_app.yaml (or it will be overwritten during next update). Make your configuration changes. At the very minimum you will need to update the following:
    • known_devices (these will be synced with all your nodes)
    • remote_monitors (add your Monitor's address)
  • Restart AppDaemon to activate Monitor-App. You can see AppDaemon's logs to see the startup process. NOTE: not all of created Monitor-App sensors (like monitor.xxx) are used in HA so some warnings are ok here.
    • If everything is working properly you should now see new binary_sensors (binary_sensor.monitor_xxxx) show up for each known_device that you created.

Alternative Installation Methods (Without HACS):

  • Download Repository: You can simply download the repository and copy the home_presence_app folder, and place it into your AD's apps folder. Make the required changes in the home_presence_app.yaml file, and AD will automatically pickup the app for instanciation.
  • Use an installation script:
    • If AppDaemon is not installed in the PC to run this app, execute in a commandline
      bash -c "$(curl -sL https://raw.githubusercontent.com/Odianosen25/Monitor-App/master/installer/install_ad.sh)"
      
      The script will install AppDaemon and this App alongside. Then make the required changes, as required. Please read more about the AD install script here. - contributed by TheStigh

When developing this app, 4 main things were my target:

  • Ease of use: The user should only setup the monitor system (collection of nodes), and no matter the number of nodes involved, it should be up and running without virtually any or minimal extra work needed. The idea of editing the configuration.yaml file for sensors, automation and input_boolean as in the example to use this great system was almost a put off for me. And once oneโ€™s system grows, it exponentially takes more work to setup and debug ๐Ÿ˜ฃ.
  • Scalability: No matter the number of users or gateways or nodes in place, whether its small like mine which is 3, 1 & 2 respectively or you have 30, 10 and 20 respectively (if possible), it should take virtually the same amount of work to be up and running when using this app ๐Ÿ˜
  • Speed: To improve in speed, the app makes use of an internal feature, whereby the app instructs the system to carry out an arrival or departure scans based on if someone enters or leaves the house and if everyone home or not. This made possible without need of forcing the monitor system to scan more frequently and thereby reducing impact on WiFi and other wireless equipment ๐Ÿ˜Œ
  • Lastly and most especially Reliability: It was important false positives/negatives are eliminated in the way the system runs. So the app tries to build in some little time based buffers here and there ๐Ÿ˜ฌ

Example Simple Configuration

home_presence_app:
  module: home_presence_app
  class: HomePresenceApp
  home_gateway_sensors:
    - binary_sensor.main_door_contact
    
  known_devices:
    - xx:xx:xx:xx:xx:xx Odianosen's iPhone
    - xx:xx:xx:xx:xx:xx Nkiruka's iPad

Example Advanced Configuration

home_presence_app:
  module: home_presence_app
  class: HomePresenceApp
  plugin: 
    - HASS
    - MQTT
  #monitor_topic: presence
  #mqtt_event: MQTT
  #user_device_domain: device_tracker
  #everyone_not_home: everyone_not_home
  #everyone_home: everyone_home
  #somebody_is_home: somebody_is_home
  depart_check_time: 30
  depart_scans: 3
  minimum_confidence: 60
  not_home_timeout: 15
  system_check: 30
  system_timeout: 60
  home_gateway_sensors:
    - binary_sensor.main_door_contact

  gateway_scan_interval_delay: 180 # wait for 3 minutes
  gateway_scan_interval: 60 # if after 3 minutes gateway still opended, scan every 1 minute
  
  # reboot the all nodes at 12 midnight on Mondays and Thursdays
  scheduled_restart:
    time: 00:00:01
    days:
      - mon
      - thu
    location: all

  # other location configuration options
    #location: living_room, kitchen

    #location:
    # - living_room
    # - kitchen

  home_motion_sensors:
    - binary_sensor.living_room_motion_sensor_occupancy
    - binary_sensor.kitchen_motion_sensor_occupancy
    - binary_sensor.hallway_motion_sensor_occupancy
    
  #log_level: DEBUG
  known_devices:
    - xx:xx:xx:xx:xx:xx Odianosen's iPhone
    - xx:xx:xx:xx:xx:xx Nkiruka's iPad
  
  known_beacons:
    - xx:xx:xx:xx:xx:xx Odianosen's Car Keys
  
  remote_monitors:
    disable: False
    kitchen:
      auto_reboot_when_offline: True
      host: !secret kitchen_monitor_host
      username: !secret kitchen_monitor_username
      password: !secret kitchen_monitor_password
    
    living_room:
      host: 192.168.1.xxx
      username: !secret living_room_monitor_username
      password: !secret living_room_monitor_password
      reboot_command: sudo /sbin/reboot now
      auto_reboot_when_offline: True
      time: 02:00:01

App Configuration

key optional type default description
module False string home_presence_app The module name of the app.
class False string HomePresenceApp The name of the Class.
plugin True list The plugins at if restarted, the app should restart.
monitor_topic True string monitor The top topic level used by the monitor system. This is also used as the domain for service call
mqtt_event True string MQTT_MESSAGE The event name, used by the MQTT plugin to send data to the app.
user_device_domain True string binary_sensor The domain to be used for the sensors generated by the app for each device.
everyone_home True string everyone_home Binary sensor name to be used, to indicate everyone is home.
everyone_not_home True string everyone_not_home Binary sensor name to be used, to indicate everyone is not home.
somebody_is_home True string somebody_is_home Binary sensor name to be used, to indicate someone is home.
depart_check_time True int 30 Delay in seconds, before depart scan is ran. This depends on how long it takes the user to leave the door and not being picked up by a monitor node.
depart_scans True int 3 The number of times the depart scans should be ran. This useful for those that spend some time within areas the system can still pick them up, even though they have left the house.
minimum_confidence True int 50 Minimum confidence required across all nodes, for a device to be considered departed.
not_home_timeout True int 15 Time in seconds a device has to be considered away, before registering it deaprted by the app.
system_check True int 30 Time in seconds, for the app to check the availability of each monitor node.
system_timeout True int 60 Time in seconds, for a monitor node not to respond to system check for it to be considered offline.
scheduled_restart True dict A dictionary specifing the time as str in HH:MM:SS format, first 3 letters of the days as a list and locations as list or str the app should restart the nodes on the network. If remote_monitors specified and disabled is not True, it will lead to a reboot of the node's hardware as specified in location. If no location is specified, it will only restart the script.
remote_monitors True dict The names (locations), login details (host, username and password) optional reboot_command which defaults to sudo reboot now of the nodes to be rebooted. Also a parameter auto_reboot_when_offline can be added, which instructs the app if to reboot the node when offline, and what time to be auto rebooted. If disable is True, the app will not be able to reboot any nodes defined.
home_gateway_sensors True list List of gateway sensors, which can be used by the app to instruct the nodes based on their state if to run a arrive/depart scan. If all home, only depart scan is ran. If all away, arrive scan is ran, and if neither both scans are ran. This accepts any kind of entity, and not limited to binary_sensors
gateway_scan_interval_delay None int If the app is set to scan continously over a given time if any of the gateways are opened, this is used to set the time in seconds for it to wait, before carrying out the scans
gateway_scan_interval None int This is used to instruct the app to keep running scans, while a gateway is opened. This can be useful if living in a space that keeps the door or something opened for a long time
home_motion_sensors True list List of motion sensors, which can be used by the app to instruct the nodes based on their state if to run rssi scan.
known_devices True list List of known devices that are to be loaded into all the nodes on the network
known_beacons True list List of known beacons that data received from them by the app from the nodes, are to be processed by the app
log_level True 'INFO' | 'DEBUG' 'INFO' Switches log level.

Service Calls:

This app supports the use of some service calls, which can be useful if wanting to use execute some commands in the app from other AD apps. The domain of the service calls, depends on what is specified as the monitor_topic. An example service call is

self.call_service("monitor/remove_known_device", device="xx:xx:xx:xx:xx:xx", namespace=mqtt)

The domain is determined by the specified monitor_topic. Below is listed the supported service calls

remove_known_device

Used to remove a known device from all the nodes. The device's MAC address should be supplied in the service call

self.call_service("monitor/remove_known_device", device="xx:xx:xx:xx:xx:xx", namespace=mqtt)

run_arrive_scan

Used to instruct the app to execute an arrival scan on all nodes

self.call_service("presence/run_arrive_scan", namespace=mqtt)

run_depart_scan

Used to instruct the app to execute a depart scan on all nodes. If wanting to execute it immediately, pass a parameter scan_delay=0 in the call. If not, the defined depart_check_time will be used as the delay before running the scan

# run depart scan in 10 seconds time
self.call_service("presence/run_depart_scan", scan_delay=10, namespace=mqtt)

run_rssi_scan

Used to instruct the app to execute an rssi scan on all nodes

self.call_service("monitor/run_rssi_scan", namespace=mqtt)

restart_device

Used to instruct the app to execute a restart of the monitor script on all nodes. If a node has its login detail in remote_monitors it will attempt to reboot the hardware itself. To reboot a particular node in a location, specify the location parameter. This same location, should be used in defining the node's login details in remote_monitors

# restart the monitor scripts in all nodes
self.call_service("monitor/restart_device", namespace=mqtt)

# reboot the node in the living room's hardware
self.call_service("monitor/restart_device", location="living_room", namespace=mqtt)

reload_device_state

Used to instruct the app to have the nodes report the state of their devices

self.call_service("presence/reload_device_state", namespace=mqtt)

load_known_devices

Used to instruct the app to have the nodes setup the known devices as specified in the app's configuration

self.call_service("presence/load_known_devices", namespace=mqtt)

clear_location_entities

Used to instruct the app to set all entities in a predefined location to 0, indicating that no device is seen by that node. The location parameter must be specified

self.call_service("monitor/clear_location_entities", location="hallway", namespace=mqtt)

clean_devices

Used to instruct the app to clean up old known devices. This is always ran at start-up, so technically should not be a need to be manually ran

self.call_service("monitor/clean_devices", namespace=mqtt)

MQTT Commands:

This app supports the ability to send commands to it over MQTT. This can be very useful, if wanting to execute specific functions from an external system like HA or any hub that supports MQTT. Outline below are the supported MQTT topics and the payload commands:

monitor/run_scan

This topic is listened to by the app, and when a message is received it will execute the required command. Supported commands on this topic are as follows

  • arrive: This will run the arrive scan immediately
  • depart: This will run the depart scan immediaiely
  • rssi: This will run the rssi scan immediately

monitor/location/reboot

This topic is used by the app to reboot a remote monitor node. The location parmeter can be a any of the declared nodes in remote_monitors. So if wanting to say reboot only the living room's node, simply send an empty payload to monitor/living_room/reboot. if the location is all, that is an empty payload is sent to monitor/all/reboot, this will reboot all the declared remote_monitor nodes.

RSSI Tracking:

Within this app, RSSI tracking is also updated regularly on the AppDaemon based entities. I personally use this, for rudimentary home area tracking, aided with the use of motion sensors within the home. To use this feature, it is advised that all monitor systems are setup as monitor.sh -tad -a -b and the PREF_MQTT_REPORT_SCAN_MESSAGES should be set to true in preferences. I also found using this rssi scans only based on motion sensors, does help in keeping my systems reported state updated, with as minimal scans as possible; for example no need scanning at night, when all are sleeping. I am not advising the get motion sensors for this, but in my home I already had motion sensors for lights. So felt I may as well integrate it to improve on reliability.

Hardware Rebooting (WARNING):

This is a feature which allows the app to remotely reboot a node's hardware, and not just the script it is running. It must be noted to make use of this, an external python package in the requirements.txt file most be installed. If using Hass.io, do add it to your python_pakages list in the config. If running on a standalone Linux system and not using the supplied script above, simply run pip3 install -r requirements.txt should install it; depending on which user is running AD. Care should be taken when using this feature, as any device with its details specified within the remote_monitors can be rebooted by the app. The hardware within which this app is running, should never be added to the list. Below is listed the conditions that can lead to a hardware reboot:

  • When a restart_device service call is made with the location, the app will also attempt to reboot the hardware
  • When a MQTT message is sent, to the reboot topic
  • When using scheduled_restart, it is advisable not to also use auto_reboot_when_offline at the same time. Or vis-a-Vis
  • If wanting to use both, it is advsiable to use a larger system_check_timeout, to ensure the node doesn't get rebooted twice at the same time.
  • When auto_reboot_when_offline is set to True, and the node is reported to be offline. If having network issues, its advisable to give a larger system_check_timeout to ensure its not rebooting too often.

It is advisable not to use

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