- 1. Introduction
- 2. Features
- 3. Structure
- 4. Installation
- 5. Configuration
- 6. Configuration examples
- 7. Services
- 8. Frontend
- 9. Automation
- 10. Notifications
- 11. Troubleshooting
- 12. Notes
- 13. Snake case
- 14. Parameter Types
- 15. Contributions are welcome
- 16. Credits
This integration is for irrigation systems large and small. It can offer some complex arrangements without large and messy scripts. This integration will complement many other irrigation projects.
Home Assistant makes automating switches easy with the built in tools available. So why this project? You have a system in place but now you have extended it to have a number of zones. You don't want all the zones on at once because of water pressure issues. Maybe you would like each zone to have a number of schedules say a morning and evening watering. What about water restrictions that limit irrigation systems to certain days of the week or days in the month, odd or even for example. Perhaps you would like different schedules for winter and summer. Now you would like to adjust the times based on weather conditions, past, present or future. Let's turn a zone or even a controller off for system maintenance. Starting to sound more like your system? Finally what's going on now and what's up next.
Each controller has an associated (master) sensor which shows on/off status and other attributes. The master will be on when any of its zones are on. The master sensor can have a pre and post amble period to activate or warm up the system like charge up a pump, enable WiFi or turn on a master valve. The master sensor has a number of service calls available to enable/disable all the zones it controls.
Zones also have an associated sensor which, like the master, shows on/off status and various attributes. Zones sensors have service calls that can enable/disable and provide manual runs. Also adjust run times in automation scripts using information from integrations that collect weather data like OpenWeatherMap, BOM, weatherunderground and many others. Go crazy with projects like HAsmartirrigation. Easily integrate probes and sensors from ESPHome for real-time adjustments. Examples provided below.
View and control your system with the Irrigation Unlimited companion card. A compact card where you can monitor upcoming schedules along with irrigation history.
- Unlimited controllers.
- Unlimited zones.
- Unlimited schedules. Schedule by absolute time or sun events (sunrise/sunset). Select by days of the week (mon/tue/wed...). Select by days in the month (1/2/3.../odd/even). Select by months in the year (jan/feb/mar...). Use cron expressions. Overlapped schedules.
- Unlimited sequences. Operate zones one at a time in a particular order with a delay in between. A 'playlist' for your zones.
- Suitable for indoor (greenhouse, hothouse, undercover areas) and outdoor (gardens, lawns, crops).
- Hardware independent. Use your own switches/valve controllers.
- Software independent. Pure play python.
*Practical limitations will depend on your hardware.
Irrigation Unlimited is comprised of controllers, zones and schedules in a tree like formation. Each controller has one or more zones and each zone has one or more schedules. Controllers and zones will have a binary sensor associated with each one so they can be integrated with Home Assistant.
└── Irrigation Unlimited
└── Controller 1 -> binary_sensor.irrigation_unlimited_c1_m
└── Zone 1 -> binary_sensor.irrigation_unlimited_c1_z1
└── Schedule 1
└── Schedule 2
...
└── Schedule N
└── Zone 2 -> binary_sensor.irrigation_unlimited_c1_z2
...
└── Zone N -> binary_sensor.irrigation_unlimited_c1_zN
...
└── Sequence 1
└── Schedule 1
└── Schedule 2
...
└── Schedule N
└── Zone 1
└── Zone 2
...
└── Zone N
└── Sequence 2
...
└── Sequence N
└── Controller 2 -> binary_sensor.irrigation_unlimited_c2_m
...
└── Controller N -> binary_sensor.irrigation_unlimited_cN_m
...
Controllers and zones can specify an entity such as a switch or light, basically anything that turns on or off the system can control it. This is the irrigation valve. If this does not go far enough for your purposes then track the state of the binary sensors in an automation and do your own thing like run a script or scene.
This component will set up the following platforms.
Platform | Description |
---|---|
binary_sensor |
Show a valve on or off |
A binary sensor is associated with each controller and zone. Controller or master sensors are named binary_sensor.irrigation_unlimited_cN_m
and zone sensors binary_sensor.irrigation_unlimited_cN_zN
. These sensors show the state of the master or child zones. Attributes show additional information like current schedule and next run time and duration.
HACS is the recommended method for installation. If you are having difficulties then please see the troubleshooting guide
- Just search for Irrigation Unlimited integration in HACS and install it.
- Add Irrigation Unlimited to your configuration.yaml file. See configuration examples below.
- Restart Home Assistant.
- Using the tool of choice open the directory (folder) for your HA configuration (where you find
configuration.yaml
). - If you do not have a
custom_components
directory (folder) there, you need to create it. - In the
custom_components
directory (folder) create a new folder calledirrigation_unlimited
. - Download all the files from the
custom_components/irrigation_unlimited/
directory (folder) in this repository. - Place the files you downloaded in the new directory (folder) you created.
- Restart Home Assistant
- In the HA UI go to "Configuration" -> "Integrations" click "+" and search for "Irrigation"
Using your HA configuration directory (folder) as a starting point you should now also have this:
custom_components/irrigation_unlimited/__init__.py
custom_components/irrigation_unlimited/binary_sensor.py
custom_components/irrigation_unlimited/const.py
custom_components/irrigation_unlimited/entity.py
custom_components/irrigation_unlimited/history.py
custom_components/irrigation_unlimited/irrigation_unlimited.py
custom_components/irrigation_unlimited/manifest.json
custom_components/irrigation_unlimited/schema.py
custom_components/irrigation_unlimited/service.py
custom_components/irrigation_unlimited/services.yaml
Configuration is done by yaml. Note: The configuration can be reloaded without restarting HA. See below for details and limitations.
Name | Type | Default | Description |
---|---|---|---|
controllers |
list | Controller Objects | Controller details (Must have at least one) |
granularity |
number | 60 | System time boundaries in seconds |
refresh_interval |
number | 30 | Refresh interval in seconds. When a controller or zone is on this value will govern how often the count down timers will update. Decrease this number for a more responsive display. Increase this number to conserve resources |
rename_entities |
bool | false | DANGER ZONE. Allow the sensor entity_id's to be altered. The controller_id and zone_id will be combined to form the new entity_id. Note: Automations, sensors, scripts, front end cards etc. may need to be updated to reflect the new entity_id's of the controllers and zones |
history_span |
number | 7 | Deprecated. See history span |
history_refresh |
number | 120 | Deprecated. See history refresh_interval |
history |
object | History Object | History data gathering options |
clock |
object | Clock Object | Clock options |
This is the controller or master object and manages a collection of zones. There must be at least one controller in the system. The controller state reflects the state of its zones. The controller will be on if any of its zones are on and off when all zones are off.
Name | Type | Default | Description |
---|---|---|---|
zones |
list | Zone Objects | Zone details (Must have at least one) |
sequences |
list | Sequence Objects | Sequence details |
name |
string | Controller N | Friendly name for the controller |
controller_id |
string | N | Controller reference. Used to change the default entity name (enable with rename_entities). This must be in snake_case style with the exception the first character can be a number |
enabled |
bool | true | Enable/disable the controller |
preamble |
duration | '00:00' | The time master turns on before any zone turns on. This is in effect a delay-start timer, controller will turn on before the zones. Can be negative to make the controller turn on after the zone |
postamble |
duration | '00:00' | The time master remains on after all zones are off. This is in effect a run-on timer, controller will turn off after the specified delay. Can be negative to make the controller turn off before the zone - this can reduce water hammering |
entity_id |
switch_entity | Switch entity_id(s) for example switch.my_master_valve_1 |
|
all_zones_config |
object | All Zones Object | Shorthand default for all zones |
check_back |
object | See Check Back Object | |
queue_manual |
bool | false | Manual runs should be queued or run immediately |
user |
object | See User Object |
This object is useful when the same settings are required for each zone. It is simply a shorthand or a more concise way to specify the same settings for each zone. The parameter becomes a default which can be overridden in the actual zone.
Name | Type | Default | Description |
---|---|---|---|
minimum |
duration | The minimum run time | |
maximum |
duration | The maximum run time | |
duration |
duration | The default run time | |
future_span |
number | 3 | Run queue look ahead in days |
allow_manual |
bool | false | Allow manual run even when disabled |
show |
object | See Zone Show Object | |
check_back |
object | See Check Back Object | |
user |
object | See User Object |
The zone object manages a collection of schedules. There must be at least one zone for each controller.
Name | Type | Default | Description |
---|---|---|---|
schedules |
list | Schedule Objects | Schedule details (Optional) |
zone_id |
string | N | Zone reference. Used for sequencing and to rename the entity. This must be in snake_case style with the exception the first character can be a number. Set rename_entities to alter the entity _id of the sensor |
name |
string | Zone N | Friendly name for the zone |
enabled |
bool | true | Enable/disable the zone |
minimum |
duration | '00:01' | The minimum run time |
maximum |
duration | The maximum run time | |
duration |
duration | The default run time. Used when no time is provided for a manual run |
|
future_span |
number | 3 | Number of days to look ahead |
allow_manual |
bool | false | Allow manual run even when disabled |
entity_id |
switch_entity | Switch entity_id(s) for example switch.my_zone_valve_1 |
|
show |
object | See Zone Show Object | |
check_back |
object | See Check Back Object | |
user |
object | See User Object |
These are various options to reveal attributes on the zone entity (only one for now).
Name | Type | Default | Description |
---|---|---|---|
timeline |
bool | false | Show the zone timeline. This will expose an attribute called timeline on the zone entity |
config |
bool | false | Show the zone configuration. This will expose an attribute called configuration on the zone entity with JSON encoded configuration objects |
Schedules are future events, not dates for example Mondays at sunrise.
The schedule can have the commencement or completion fixed to a time or event with the anchor
parameter. Any adjustments to the duration will alter the start time if finish
is specified or the completion time if start
is specified. Note: If anchoring to finish
and the schedule can not complete before the specified time then the run will defer to the following day. This is an important consideration if adjusting run times dynamically as it may lead to a 'skipping' situation. Ensure there is sufficient time to complete the run when making adjustments. See here for more information on adjusting runs times.
The parameters weekday
, day
, month
and from/until
are date filters. If not specified then all dates qualify.
Name | Type | Default | Description |
---|---|---|---|
time |
time/Sun Event/Crontab | Required | The start time. Either a time (07:30), sun event or cron expression |
anchor |
string | start | start or finish . Sets the schedule to commence or complete at the specified time |
duration |
duration | The length of time to run. Required for zones and optional for sequences | |
name |
string | Schedule N | Friendly name for the schedule |
weekday |
list | The days of week to run [mon, tue...sun] | |
day |
list/string/Every n days |
Days of month to run [1, 2...31]/odd/even/Every n days |
|
month |
list | Months of year to run [jan, feb...dec] | |
enabled |
bool | true | Enable/disable the schedule |
schedule_id |
string | A unique identifier across all schedules. This must be in snake_case style | |
from |
string | see below* | Start date in the year. Format is dd mmm for example 15 Mar |
until |
string | see below* | Last date in the year. Format is dd mmm for example 15 Sep |
* from
and until
are mutually inclusive.
Leave the time value in the Schedule Objects blank and add the following object. An optional before
or after
time can be specified.
Name | Type | Default | Description |
---|---|---|---|
sun |
string | Required | sunrise or sunset |
before |
duration | '00:00' | Time before the event |
after |
duration | '00:00' | Time after the event |
Leave the time value in the Schedule Objects blank and add the following object.
Name | Type | Default | Description |
---|---|---|---|
cron |
string | Required | A valid cron expression. Details can be found here |
Set the day value in the Schedule Objects to a dictionary with the following keys.
Name | Type | Default | Description |
---|---|---|---|
every_n_days |
number | Required | The interval between runs. |
start_n_days |
date | Required | The start date for the interval, you can alternate multiple schdules by offseting this by every_n_days . |
Sequences allow zones to run one at a time in a particular order with a delay in between. This is a type of watering 'playlist'. If a delay is specified and a pump or master valve is operated by the controller then consider the postamble setting in the Controller Object. Set this to the largest delay to prevent pump on/off operations.
Sequences directly descend from a controller and are loosely connected to a zone entity via the zone_id
parameter. The zone_id
may point to one or many (a list) zone entities. A zone may be referenced more than once in a sequence.
└── Irrigation Unlimited
└──> Controller
├──> Zones
│ ├──> Zone 1 <────┐
│ ├──> Zone 2 <────┤
│ │ ... │
│ └──> Zone N <────┤
└──> Sequence │
├──> zone_id >───┤
├──> zone_id >───┤
│ ... │
└──> zone_id >───┘
Name | Type | Default | Description |
---|---|---|---|
schedules |
list | Schedule Objects | Schedule details (Optional). Note: duration if specified is the total run time for the sequence, see below for more details |
zones |
list | Sequence Zone Objects | Zone details (Must have at least one) |
delay |
duration | Delay between zones. This value is a default for all Sequence Zone Objects. Can be negative to make the next zone on before the current zone has finished | |
duration |
duration | The length of time to run each zone. This value is a default for all Sequence Zone Objects | |
repeat |
number | 1 | Number of times to repeat the sequence |
name |
string | Run N | Friendly name for the sequence |
sequence_id |
string | N | Sequence reference. This must be in snake_case style with the exception the first character can be a number |
enabled |
bool | true | Enable/disable the sequence |
The sequence zone is a reference to the actual zone defined in the Zone Objects. Ensure the zone_id
's match between this object and the zone object. The zone may appear more than once in the case of a split run.
Name | Type | Default | Description |
---|---|---|---|
zone_id |
string/list | Required | Zone reference. This must match the zone_id in the Zone Objects |
delay |
duration | Delay between zones. This value will override the delay setting in the Sequence Objects |
|
duration |
duration | The length of time to run. This value will override the duration setting in the Sequence Objects. Can be negative to make the next zone on before the current zone has finished. |
|
repeat |
number | 1 | Number of times to repeat this zone |
enabled |
bool | true | Enable/disable the sequence zone |
Special note for schedules and the duration
parameter contained within when used with sequences. Each zone in the sequence will be proportionally adjusted to fit the specified duration. For example, if 3 zones were to each run for 10, 20 and 30 minutes respectively (total 1 hour) and the schedule.duration
parameter specified 30 minutes then each zone would be adjusted to 5, 10 and 15 minutes. Likewise if schedule.duration
specified 1.5 hours then the zones would be 15, 30 and 45 minutes. Some variation may occur due to rounding of the times to the system boundaries (granularity). This parameter influences the durations specified in the sequence and sequence zone objects.
The timeline
and total_today
attributes use history information. This information is read and cached by the history module.
Name | Type | Default | Description |
---|---|---|---|
enabled |
bool | true | Enable/disable history |
span |
number | 7 | Number of days of history data to fetch |
refresh_interval |
number | 120 | History refresh interval in seconds |
read_delay |
number | 0 | Delay before reading history data in seconds |
History is typically purged after 10 days. If you wish to retain the total_today
data beyond this period then setup a Long-Term Statistic sensor. See here for an example.
For more information see Long-Term Statistics
This object controls the internal clock mode.
Name | Type | Default | Description |
---|---|---|---|
mode |
string | seer | fixed or seer . Set the clock to fixed (game loop) or seer (event loop) |
show_log |
bool | false | Expose the clock ticks via next_tick and tick_log attributes in the coordinator entity |
max_log_entries |
number | 50 | Set the number of entries in the tick log history |
This is used to check the state of the physical switch concurs with the state of the controller or zone. An out of sync can occur due to transmission or communications problems especially with protcols like WiFi, Zigbee or ZWave. The check back will report discrepancies and attempt to resync the switch. Should the resync fail a message will be logged and an event fired. The event can be use for notifications such as an email or phone alert. For more information see Notifications
Name | Type | Default | Description |
---|---|---|---|
state |
string | all | One of none , all , on or off |
delay |
number | 30 | Seconds to wait after switch is turned on or off |
retries |
number | 3 | Number of times to recheck the switch |
resync |
bool | true | Attempt to resync the switch |
toggle |
bool | false | Toggle the switch on/off or off/on instead of attempting to just set the state |
state_on |
string | on |
The value that represents the on state of the switch |
state_off |
string | off |
The value that repesents the off state of the switch |
entity_id |
string | Optional, use this when switch entity is write only and state is read from another entity. If switch entity is R/W then ignore this parameter |
The user object is available on the controller
, all_zone
and zone
objects. It is basically a pass through of arbitrary static user defined data. Elements are prefixed and presented as attributes in the entities.
Name | Type | Default | Description |
---|---|---|---|
name |
string/number/bool | ||
name_2 |
string/number/bool |
* name
should be in snake_case style.
Here is an example:
controllers:
- name: "Test controller 1"
user:
area: My Farm
picture: /my_pic.jpg
all_zones_config:
user:
actuator: KNX 6.1
zones:
- name: "Zone 1"
user:
area: Eastern Pastures
flow_rate_gallon_per_minute: 25
picture: /my_pic.jpg
gps: 42.746635,-75.770045
- name: "Zone 2"
Thus, the controller and zone present the following attributes:
#Controller 'Test controller 1':
binary_sensor.irrigation_unlimited_c1_m.user_area = 'My Farm'
binary_sensor.irrigation_unlimited_c1_m.user_picture = '/my_pic.jpg'
#Zone 1:
binary_sensor.irrigation_unlimited_c1_z1.user_actuator = 'KNX 6.1' #this is inherited from all_zones_config
binary_sensor.irrigation_unlimited_c1_z1.user_area = 'Eastern Pastures'
binary_sensor.irrigation_unlimited_c1_z1.user_flow_rate_gallon_per_minute = '25'
binary_sensor.irrigation_unlimited_c1_z1.user_picture = '/my_pic.jpg'
binary_sensor.irrigation_unlimited_c1_z1.user_gps = '42.746635,-75.770045'
#Zone 2:
binary_sensor.irrigation_unlimited_c1_z2.user_actuator = 'KNX 6.1' #this is inherited from all_zones_config
The user defined static data available as attribute may help to customize cards or to present additional data on cards, in particular via the functionality within [entity-multiple-row](type: custom:multiple-entity-row). This feature maybe further developed and extended to the sequence: object
over time.
# Example configuration.yaml entry
irrigation_unlimited:
controllers:
zones:
entity_id: "switch.my_switch"
schedules:
- time: "06:00"
duration: "00:20"
# Example configuration.yaml entry
# Run 20 minutes before sunrise for 30 minutes
irrigation_unlimited:
controllers:
zones:
entity_id: "switch.my_switch_1"
schedules:
- name: "Before sunrise"
time:
sun: "sunrise"
before: "00:20"
duration: "00:30"
# Example configuration.yaml entry
irrigation_unlimited:
controllers:
zones:
- name: "Front lawn"
entity_id: "switch.my_switch_1"
- name: "Vege patch"
entity_id: "switch.my_switch_2"
- name: "Flower bed"
entity_id: "switch.my_switch_3"
sequences:
- delay: "00:01"
schedules:
- name: "Sunrise"
time:
sun: "sunrise"
- name: "After sunset"
time:
sun: "sunset"
after: "00:30"
zones:
- zone_id: 1
duration: "00:10"
- zone_id: 2
duration: "00:02"
- zone_id: 3
duration: "00:01"
# Example water saver. Run for 5 min on 2 off repeat 3 times
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
sequences:
- duration: "00:05"
delay: "00:02"
repeat: 3
schedules:
- time: "05:00"
zones:
- zone_id: 1
# Example to run for 5 min every hour on the hour from 5am to 5pm
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
sequences:
- name: "On the hour from 5am to 5pm"
duration: "00:05"
delay: "00:55"
repeat: 12
schedules:
- time: "05:00"
zones:
- zone_id: 1
Similar to above but using the cron scheduler.
# Example to run for 5 min every hour on the hour from 5am to 5pm
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
sequences:
- name: "On the hour from 5am to 5pm"
duration: "00:05"
schedules:
- time:
cron: "0 5-17 * * *"
zones:
- zone_id: 1
# Run 15 min 3 times a week in summer, 10 min once a week in winter and twice a week in spring/autumn
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
schedules:
- time: "05:30"
duration: "00:15"
weekday: [mon, wed, fri]
month: [dec, jan, feb]
- time: "05:30"
duration: "00:10"
weekday: [sun]
month: [jun, jul, aug]
- time: "05:30"
duration: "00:12"
weekday: [mon, thu]
month: [mar, apr, may, sep, oct, nov]
This is similar to the above but using sequences in a 3 zone system. Each zone runs for 12 minutes for a total of 36 min (plus delays). In Summer the total duration is extended to 45 minutes and winter reduced to 30 minutes. When using the duration
parameter in the Schedule it relates to the total duration of the sequence, each zone is adjusted accordingly.
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
- entity_id: "switch.my_switch_2"
- entity_id: "switch.my_switch_3"
sequences:
- name: "Run 1"
duration: "00:12"
delay: "00:01"
schedules:
- name: "Summer"
time: "05:30"
weekday: [mon, wed, fri]
month: [dec, jan, feb]
duration: "00:45"
- name: "Winter"
time: "05:30"
weekday: [sun]
month: [jun, jul, aug]
duration: "00:30"
- name: "Spring and Autumn"
time: "05:30"
weekday: [mon, thu]
month: [mar, apr, may, sep, oct, nov]
zones:
- zone_id: 1
- zone_id: 2
- zone_id: 3
Just in case this does not go far enough then create three sequences with one schedule each. This will allow complete control over all aspects of the sequence including which zones to run, order, durations, delays, repeats etc. Still want more then create a sequence for each month of the year. This example reverses the order in Spring/Autumn for no good reason and excludes a zone in Winter.
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
- entity_id: "switch.my_switch_2"
- entity_id: "switch.my_switch_3"
sequences:
- name: "Summer"
duration: "00:15"
delay: "00:01"
schedules:
- time: "05:30"
weekday: [mon, wed, fri]
month: [dec, jan, feb]
zones:
- zone_id: 1
- zone_id: 2
- zone_id: 3
- name: "Winter"
duration: "00:10"
delay: "00:01"
schedules:
- time: "07:30"
weekday: [sun]
month: [jun, jul, aug]
zones:
- zone_id: 1
- zone_id: 3
- name: "Spring and Autumn"
duration: "00:12"
delay: "00:01"
schedules:
- time: "06:30"
weekday: [mon, thu]
month: [mar, apr, may, sep, oct, nov]
zones:
- zone_id: 3
- zone_id: 2
- zone_id: 1
# Finish a watering run 10 minutes before sunrise
irrigation_unlimited:
controllers:
zones:
- entity_id: "switch.my_switch_1"
- entity_id: "switch.my_switch_2"
- entity_id: "switch.my_switch_3"
- entity_id: "switch.my_switch_4"
sequences:
- name: "My watering run"
duration: "00:30"
delay: "00:01"
schedules:
- name: "Before dawn"
time:
sun: "sunrise"
before: "00:10"
anchor: finish
zones:
- zone_id: 1
- zone_id: 2
- zone_id: 3
- zone_id: 4
For a more comprehensive example refer to here.
-
Schedules can not only have a day of week (mon, wed, fri) but also a month of year (jan, feb, mar). This allows the setup of seasonal watering schedules. For example run every day in summer and twice a week in winter. Setup a different schedule for each month of the year using this filter.
-
Use sequences to setup a water saving or eco mode. Eco mode uses small cycles with a delay to allow the water to soak in and minimise run off. Run all the zones for half the time and then repeat.
-
No need to restart HA after changing the configuration.yaml file. Go to Configuration -> Server Controls -> YAML configuration and reloading and press 'RELOAD IRRIGATION UNLIMITED'.
-
After setting up configuration.yaml, the operation can be controlled via service calls as shown below. Perform manual runs, adjust watering times, cancel running schedules and enable/disable zones from a frontend
The binary sensor associated with each controller and zone provide several services. These sensors offer the following services:
enable
disable
toggle
suspend
cancel
manual_run
adjust_time
load_schedule
If a controller sensor is targetted then it will effect all its children zones.
Enables/disables/toggles the controller, zone, sequence or sequence zone respectively.
Service data attribute | Type | Required | Description |
---|---|---|---|
entity_id |
string/list | yes | Controller or zone to enable/disable/toggle. |
sequence_id |
number/list | no | Sequences to enable/disable/toggle. Entity must be a controller. |
zones |
number/list | no | Sequence zones to enable/disable/toggle. |
Pauses/resumes a sequence. This service call "stops the clock" when paused
so to speak and "continues to run it" upon resume
.
This is particularly helpful in a use case scenario where a main water supply is used for both irrigation and ie filling a domestic cold water tank at the same time. If the water pressure is only sufficient for either irrigaton or tank filling, this service call allows to pause
the irrigation whilst a tank is filled, and then resumes
irrigation without interrupting the time allocated to the sequences or zones thereof.
Service data attribute | Type | Required | Description |
---|---|---|---|
entity_id |
string/list | yes | Entity_id of a controller or sequence to pause/resume. If a controller entity is selected it will target the sequence or all sequences (see next parameter). If more than one entity_id are to be targeted a group integration helper may be used. |
sequence_id |
number/list | only if entity_id represents a controller | Sequence to pause/resume. The sequence_id is only used when the entity_id is the controller. If sequence_id is set to 0 then all sequences of the controller will be effected. |
There is an example for a pause-resume button that targets all sequences within all controllers creating a globla pause
and resume
button.
Suspend operation of a controller, zone, sequence or sequence zone for a period of time. This is like a temporary disable
that will automatically reset.
Service data attribute | Type | Required | Description |
---|---|---|---|
entity_id |
string/list | yes | Controller or zone to run. |
sequence_id |
number/list | no | Sequences to suspend. Entity must be a controller. |
zones |
number/list | no | Sequence zones to suspend. |
for |
duration | see below* | Suspend for a period of time. Supports templating. |
until |
string | see below* | Suspend until a point in time. Format is %Y-%m-%d %H:%M:%S for example 2023-08-01 07:30:00 . |
reset |
none | see below* | Reset or cancel the current suspension. |
* Must have one and only one of for
, until
or reset
.
Cancels the current running schedule.
Service data attribute | Type | Required | Description |
---|---|---|---|
entity_id |
string/list | yes | Controller or zone to cancel. |
Turn on the controller or zone for a period of time. When a sequence is specified each zone's duration will be auto adjusted as a proportion of the original sequence. Zone times are calculated and rounded to the nearest time boundary. This means the total run time may vary from the specified time.
Service data attribute | Type | Required | Description |
---|---|---|---|
entity_id |
string/list | yes | Controller or zone to run. |
time |
duration | no | Total time to run. Supports templating. If not provided or is "0:00:00" then adjusted defaults will be applied |
delay |
duration | no | Delay between runs when queued |
queue |
boolean | no | Queue or run immediately. |
sequence_id |
number/list | no | Sequences to run. Each zone duration will be adjusted to fit the allocated time, delays are not effected. Note: The time parameter includes inter zone delays. If the total delays are greater than the specified time then the sequence will not run. Entity must be a controller. |
Adjust the run times. Calling this service will override any previous adjustment i.e. it will not make adjustments on adjustments. For example, if the scheduled duration is 30 minutes calling percent: 150 will make it 45 minutes then calling percent 200 will make it 60 minutes. When a sequence is specified each zone's duration will be auto adjusted as a proportion of the original sequence.
A schedule anchored to a start time will alter the completion time. Likewise a schedule anchored to a finish time will change the commencement time. In this situation ensure there is enough time in the current day for the schedule to complete or it will be deferred to the following day. Adjustments must be made before the scheduled start time. Running schedules will be not affected.
Tip: Use forecast and observation data collected by weather integrations in automations to adjust the run times. See below for more information.
Service data attribute | Type | Required | Description |
---|---|---|---|
entity_id |
string/list | yes | Controller or zone to run. |
actual |
duration | see below* | Specify a new run time. This will replace the existing duration. Supports templating. |
percentage |
float | see below* | Adjust time by a percentage. Values less than 100 will decrease the run time while values greater than 100 will increase the run time. Supports templating. |
increase |
duration | see below* | Increase the run time by the specified time. A value of '00:10' will increase the duration by 10 minutes. Value will be capped by the maximum setting. Supports templating. |
decrease |
duration | see below* | Decrease the run time by the specified time. A value of '00:05' will decrease the run time by 5 minutes. Value will be limited by the minimum setting. Supports templating. |
reset |
none | see below* | Reset adjustment back to the original schedule time (Does not effect minimum or maximum settings). |
minimum |
duration | no | Set the minimum run time. Supports templating. |
maximum |
duration | no | Set the maximum run time. Note: The default is no limit. Supports templating. |
sequence_id |
number/list | no | Sequences to adjust. Entity must be a controller. |
zones |
number/list | no | Zones to adjust. |
* Must have one and only one of actual
, percentage
, increase
, decrease
or reset
.
Reload a schedule. This will allow an edit to an existing schedule. All fields are optional except the schedule_id
. If a field is specified then it is overwritten otherwise it is left untouched. This service does NOT save the new schedule in the event of a reload or HA restart, it will revert to the original configuration.
Name | Type | Default | Description |
---|---|---|---|
schedule_id |
string | Required | The unique schedule identifier. The target schedule must have the unique schedule_id set |
time |
time/Sun Event/Crontab | The start time. Either a time (07:30), sun event or cron expression | |
anchor |
string | start or finish . Sets the schedule to commence or complete at the specified time |
|
duration |
duration | The length of time to run. Required for zones and optional for sequences | |
name |
string | Friendly name for the schedule | |
weekday |
list | The days of week to run [mon, tue...sun] | |
day |
list/string/Every n days |
Days of month to run [1, 2...31]/odd/even/Every n days |
|
month |
list | Months of year to run [jan, feb...dec] | |
enabled |
bool | Enable/disable the schedule |
Reload the YAML configuration file. Do not add or delete controllers or zones, they will not work because of the associated entities which are created on startup. This may be addressed in a future release, however, suggested work around is to set enabled to false to effectively disable/delete. All other settings can be changed including schedules. You will find the control in Configuration -> Server Controls -> YAML configuration reloading. Note: since version 2021.10.0 all settings can be changed including new controllers and zones.
A reminder that sequences directly descend from a controller. Therefore service calls that manipulate a sequence should address the parent controller. An entity_id of a zone when trying to adjust a sequence will most likely not have the desired effect.
The combination of three key parameters entity_id
, sequence_id
and zones
will target the various sections of the configuration.
entity_id:
This will be either the controller or zone entity.sequence_id:
This is the position number of the sequence under the controller.sequence_id: 1
is the first, 2 is the second and so on. As a shortcut,sequence_id
will alter all sequences.zones:
This is the position number of the zone reference under the sequence.zones: 1
is the first, 2 is the second and so on. As a shortcut,zones: 0
will alter all zone references in the sequence. May also take a listzones: [1,3,5]
The following is a valid irrigation unlimited configuration. It shows how various points can be changed using the service calls above. Example numbers have the nomenclature C.Z.S.R = Controller.Zone.Sequence.zoneReference. If Z is zero then the entity_id
must be the controller/master i.e. binary_sensor.irrigation_unlimited_cN_m. If Z is not zero then then entity_id is the zone i.e. binary_sensor.irrigation_unlimited_cN_zN.
irrigation_unlimited:
controllers:
- name: "Controller 1"
enabled: true # <= See example 1.0
zones:
- name: "Controller 1, Zone 1"
enabled: true # <= See example 1.1
- schedules:
- time: "04:00"
duration: "00:10" # <= See example 1.1.1
- name: "Controller 1, Zone 2"
enabled: true # <= See example 1.2
- schedules:
- time: "05:00"
duration: "00:10" # <= See example 1.2.1
sequences:
- name: "Controller 1, Sequence 1"
enabled: true # <= See example 1.0.1e
schedules:
- time: "06:00"
duration: "01:00" # <= See example 1.0.1
zones:
- zone_id: [1, 2] # This is controller 1, sequence 1, zone reference 1
enabled: true # <= See example 1.0.1.1e
duration: "00:10" # <= See example 1.0.1.1
- zone_id: 2 # This is controller 1, sequence 1, zone reference 2
enabled: true # <= See example 1.0.1.2e
duration: "00:10" # <= See example 1.0.1.2
- name: "Controller 1, Sequence 2"
enabled: true # <= See example 1.0.2e
schedules:
- time: "07:00"
duration: "01:00" # <= See example 1.0.2
zones:
- zone_id: 1 # This is controller 1, sequence 2, zone reference 1
enabled: true # <= See example 1.0.2.1e
duration: "00:10" # <= See example 1.0.2.1
- name: "Controller 2"
enabled: true # <= See example 2.0
zones:
- name: "Controller 2, Zone 1"
enabled: true # <= See example 2.1
- name: "Controller 2, Zone 2"
enabled: true # <= See example 2.2
sequences:
- name: "Controller 2, Sequence 1"
enabled: true # <= See example 2.0.1e
schedules:
- time: "09:00"
duration: "01:00" # <= See example 2.0.1
zones:
- zone_id: 1 # This is controller 2, sequence 1, zone reference 1
enabled: true # <= See example 2.0.1.1e
duration: "00:10" # <= See example 2.0.1.1
- zone_id: 2 # This is controller 2, sequence 1, zone reference 2
enabled: true # <= See example 2.0.1.2e
duration: "00:10" # <= See example 2.0.1.2
- name: "Controller 2, Sequence 2"
enabled: true # <= See example 2.0.2e
schedules:
- time: "09:00"
duration: "01:00" # <= See example 2.0.2
zones:
- zone_id: 1 # This is controller 2, sequence 2, zone reference 1
enabled: true # <= See example 2.0.2.1e
duration: "00:10" # <= See example 2.0.2.1
- zone_id: 2 # This is controller 2, sequence 2, zone reference 2
enabled: true # <= See example 2.0.2.2e
duration: "00:10" # <= See example 2.0.2.2
Notes:
- The
adjust_time
service call examples show the adjustment method ofactual
. This is shown for simplicity however all methods are available as described above. - The
enable
service call can also bedisable
ortoggle
.
# Example 1.0 -> controller 1 -> enabled. This will alter the enabled status for the controller.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
# Example 1.1 -> controller 1 -> zone 1 -> enabled. This will alter the enabled status for zone 1.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_z1
# Example 1.1.1 -> controller 1 -> zone 1 -> duration. This will alter the duration for zone 1.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_z1
actual: "00:20"
# Example 1.2 -> controller 1 -> zone 2 -> enabled. This will alter the enabled status of zone 2.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_z2
# Example 1.2.1 -> controller 1 -> zone 1 -> duration. This will alter the duration for zone 2.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_z2
actual: "00:20"
# Example 1.0.1e -> controller 1 -> sequence 1 -> enabled. This will alter the enabled status of sequence 1.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 1
# Example 1.0.1 -> controller 1 -> sequence 1 -> duration. This will proportionally alter the duration
# for all zone references in the first sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 1
actual: "00:20"
# Example 1.0.1.1e -> controller 1 -> sequence 1 -> zone reference 1 -> enabled. This will alter the enabled
# status of the first zone reference in the first sequence.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 1
zones: 1
# Example 1.0.1.1 -> controller 1 -> sequence 1 -> zone reference 1 -> duration. This will alter the duration
# for the first zone reference in the first sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 1
zones: 1
actual: "00:20"
# Example 1.0.1.2 - controller 1 -> sequence 1 -> zone reference 2 -> enabled. This will alter the enabled
# status of the second zone reference in the first sequence.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 1
zones: 2
# Example 1.0.1.2 - controller 1 -> sequence 1 -> zone reference 2 -> duration. This will alter the duration
# for the second zone reference in the first sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 1
zones: 2
actual: "00:20"
# Example 1.0.2e - controller 1 -> sequence 2 -> enabled. This will alter the enabled
# status of the second sequence.
- service: irrigation_unlimited.enabled
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 2
# Example 1.0.2 - controller 1 -> sequence 2 -> duration. This will proportionally alter the duration
# for all zone references in the second sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 2
actual: "00:20"
# Example 1.0.2.1e - controller 1 -> sequence 2 -> zone reference 1 -> enabled
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 2
zones: 1
# Example 1.0.2.1 - controller 1 -> sequence 2 -> zone reference 1 -> duration
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
sequence_id: 2
zones: 1
actual: "00:20"
# Example 2.0 -> controller 2 -> enabled. This will alter the enabled status for the controller.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
# Example 2.1 -> controller 2 -> zone 1 -> enabled. This will alter the enabled status for zone 1.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_z1
# Example 2.2 -> controller 2 -> zone 2 -> enabled. This will alter the enabled status of zone 2.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_z2
# Example 2.0.1e - controller 2 -> sequence 1 -> enabled. This will alter the enabled status
# for the first sequence.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 1
# Example 2.0.1 - controller 2 -> sequence 1 -> duration. This will proportionally alter the duration
# for all zone references in the first sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 1
actual: "00:20"
# Example 2.0.1.1e - controller 2 -> sequence 1 -> zone reference 1 -> enabled. This will alter the enabled
# status for the first zone reference in the first sequence.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 1
zones: 1
# Example 2.0.1.1 - controller 2 -> sequence 1 -> zone reference 1 -> duration. This will alter the duration
# for the first zone reference in the first sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 1
zones: 1
actual: "00:20"
# Example 2.0.1.2e - controller 2 -> sequence 1 -> zone reference 2 -> enabled. This will alter the enabled
# status for the second zone reference in the first sequence.
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 1
zones: 2
# Example 2.0.1.2 - controller 2 -> sequence 1 -> zone reference 2 -> duration. This will alter the duration
# for the second zone reference in the first sequence.
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 1
zones: 2
actual: "00:20"
# Example 2.0.2e - controller 2 -> sequence 2 -> enabled
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 2
# Example 2.0.2 - controller 2 -> sequence 2 -> duration
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 2
actual: "00:20"
# Example 2.0.2.1e - controller 2 -> sequence 2 -> zone reference 1 -> enabled
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 2
zones: 1
# Example 2.0.2.2 - controller 2 -> sequence 2 -> zone reference 1 -> duration
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 2
zones: 1
actual: "00:20"
# Example 2.0.2.2e - controller 2 -> sequence 2 -> zone reference 2 -> enabled
- service: irrigation_unlimited.enable
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 2
zones: 2
# Example 2.0.2.2 - controller 2 -> sequence 2 -> zone reference 2 -> duration
- service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c2_m
sequence_id: 2
zones: 2
actual: "00:20"
From release 2022.4.0 a companion card is available.
and expands to
Most of the following will require installation of further lovelace cards. For some inspiration and a compact card try this.
and it expands to:
Note: This card uses some custom cards multiple-entity-row, fold-entity-row, logbook-card and at the moment card-mod for styles.
For watering history information here is a sample card.
Note: At time of writing this requires a pre-released version of mini-graph-card. Note: If you get "NaN" displayed instead of the actual value then clear out your browsers cache and make sure the development release is installed.
Although not really part of the integration but to get you started quickly here is a temperature card.
And a rainfall card. Note how the watering times reduced as rainfall started. More on this below in Automation.
Finally, a system event log
Putting it all together, here is the complete picture
This configuration is three vertical stacks and works well on mobile devices.
Minimum version 2021.12.0 of Irrigation Unlimited is required for this feature. First up, enable the timeline in the zone show object.
irrigation_unlimited:
controllers:
all_zones_config: # <= Add these three lines <─┐
show: # <= to the configuration <─┤
timeline: true # <= for all zones <─┘
zones:
entity_id: "switch.my_switch"
show: # <= Add these two lines to the <─┐
timeline: true # <= configuration for individual zones <─┘
schedules:
- time: "06:00"
duration: "00:20"
Like the watering history card above it also shows the upcoming schedule for a complete overview of your irrigation. Find the code here. Requires apexcharts-card.
If you prefer something akin to a airport departure board then try this. Uses Markdown card which is built into Home Assistant so will work straight out of the box.
The manual_run and enable/disable cards require additional support files. Minimum version 2021.6.3 of Irrigation Unlimited is required. There is a support file packages/irrigation_unlimited_controls.yaml which should go in the config/packages directory. Also required is a pyscript which is called from the above automation to populate the input_select with all the irrigation unlimited controllers and zones. The script should go in the config/pyscript directory. If you don't have a packages and a pyscript folder then create them and add the following to your configuration.yaml.
homeassistant:
packages: !include_dir_named packages
Using your HA configuration directory (folder) as a starting point you should now also have this:
pyscript/irrigation_unlimited_service_shim.py
packages/irrigation_unlimited_controls.yaml
More information on packages can be found here and pyscript can be found here, don't worry about the Jupyter kernel unless you are really keen. Hint: A pyscript is used instead of Jinja2 as it produces a list which Jinja2 is not capable of, many have tried... The pyscript is a small piece of code that convert for example ‘1.1 Zone1’ inside an input_select control into ‘binary_sensor.irrigation_unlimited_c1_z1’ and then call the actual service. They are just helpers sitting between the lovelace card and the integration. It's a great way to add some additional capabilities to lovelace cards.
Here is a card for manual runs, see requirements above. You can find the code here. Note: This card uses paper-buttons-row and time-picker-card.
This card will enable or disable a zone from a dropdown list, see requirements above. The code is here. Like the manual run card it requires paper-buttons-row.
The following yaml script can be attached to a front end button to pause
and resume
all zones of all sequences of all UI controllers.
Please note that a group helper for all UI controllers is required for this code sample to work.
group:
irrigation_controllers:
name: Irrigation Controllers
entities:
#Add at least one UI controller entity here
- binary_sensor.irrigation_unlimited_c1_m
- binary_sensor.irrigation_unlimited_c2_m
- binary_sensor.irrigation_unlimited_c3_m
- binary_sensor.irrigation_unlimited_c4_m
- binary_sensor.irrigation_unlimited_c5_m
- binary_sensor.irrigation_unlimited_c6_m
#Add as many controller entities as you have configured
script:
toggle_irrigation:
alias: "Irrigation: Pause/Resume all irrigation unlimited controllers"
sequence:
- choose:
- conditions:
- condition: template
value_template: >-
{% set paused_sensors = states.binary_sensor
| selectattr('entity_id', 'match', '^binary_sensor\.irrigation_unlimited_c\d+_s\d+$')
| selectattr('attributes.status', 'equalto', 'paused')
| map(attribute='entity_id')
| list %}
{{ paused_sensors | length > 0 }}
sequence:
- service: irrigation_unlimited.resume
data:
entity_id: group.irrigation_controllers
sequence_id: 0
- conditions:
- condition: template
value_template: >-
{% set paused_sensors = states.binary_sensor
| selectattr('entity_id', 'match', '^binary_sensor\.irrigation_unlimited_c\d+_s\d+$')
| selectattr('attributes.status', 'equalto', 'paused')
| map(attribute='entity_id')
| list %}
{{ paused_sensors | length == 0 and states('group.irrigation_controllers') == 'on' }}
sequence:
- service: irrigation_unlimited.pause
data:
entity_id: group.irrigation_controllers
sequence_id: 0
icon: mdi:play-pause
Issue 142 has a detailed discussion relating the pause
and resume
service call and its various use cases.
Due to the many weather integrations available and their relevance to your situation, there is realistically no way to provide a built in 'auto-adjustment' feature. Therefore, no attempt has been made to include a solution and this also makes the integration more independent and flexible. Run time adjustment is achieved by setting up sensor(s) that consume weather information such as rainfall and temperature but could factor in wind speed, solar radiation etc. to determine if more or less watering time is required. You might also consider using forecast information... A service call is then made to irrigation unlimited to adjust the run times. This does mean some knowledge of creating automations is required.
On a personal note, I use the national weather service BOM for my forecast information but find their observation data not relevant due to the extreme regional variations in my situation. There are many micro climates (mountains) and a few kilometres in any direction makes a lot of difference, down pour to a few drops. To this end I have a Personal Weather Station (PWS) that feeds Weather Underground where I use the WUnderground integration to retrieve the data.
You will find my adjustment automation here which feeds off the temperature and rainfall observation data. There is a card here which displays this information (uses multiple-entity-row). Some ideas were gleaned from kloggy's work.
This example uses the data from a soil moisture probe created in ESPHome to adjust the run times.
automation:
- alias: ESPHome soil moisture adjustment
trigger:
platform: state
entity_id:
- sensor.yard1_humidity
action:
service: irrigation_unlimited.adjust_time
data:
entity_id: binary_sensor.irrigation_unlimited_c1_m
percentage: >
{# Threshold variable 0-100 percent #}
{% set threshold = 40 %}
{# Sensor data #}
{% set humidity = states('sensor.yard1_humidity') | float %}
{% if humidity < threshold %}
{# Option 1 - A linear sliding scale #}
{% set multiplier = 1 - (humidity / threshold) %}
{# Option 2 - On or Off #}
{% set multiplier = 1.0 %}
{% else %}
{% set multiplier = 0.0 %} {# It's too wet, turn off #}
{% endif %}
{# Return multiplier as a percentage #}
{{ (multiplier * 100) | round(0) }}
HAsmartirrigation calculates the time to run your irrigation system to compensate for moisture lost by evaporation / evapotranspiration. The following automation runs at 23:30 and takes the calculated run time from HAsmartirrigation and updates Irrigation Unlimited with the new watering time. It then calls HAsmartirrigation to reset the bucket when the irrigation has run.
The example below offers two methods for a single zone or a sequence.
# Example automation for HAsmartirrigation integration (smart_irrigation)[https://github.com/jeroenterheerdt/HAsmartirrigation]
automation:
- id: 'IU1653097957047'
alias: Smart Irrigation adjustment
description: Adjust watering times based on smart irrigation calculations
trigger:
- platform: time
at: "23:30"
condition:
condition: and
conditions:
- "{{ states('sensor.smart_irrigation_daily_adjusted_run_time') | float(-1) >= 0 }}"
action:
- service: irrigation_unlimited.adjust_time
data:
actual: "{{ timedelta(seconds=states('sensor.smart_irrigation_daily_adjusted_run_time') | int(0)) }}"
# -------------------------------------------------------------------
# Please see documentation regarding the adjust_time service call.
# Choose an option below. Comment out/delete as needed. This will NOT work as is.
# 1. Adjust a single zone. Change the zone as required
# entity_id: binary_sensor.irrigation_unlimited_c1_z1
# 2. Adjust a sequence. Change the sequence_id as required
# entity_id: binary_sensor.irrigation_unlimited_c1_m
# sequence_id: 1
# -------------------------------------------------------------------
mode: single
- id: 'IU1653098247170'
alias: Smart Irrigation reset bucket
description: Resets the Smart Irrigation bucket after watering
trigger:
- platform: state
entity_id:
# Add Irrigation Unlimited sensors here
- binary_sensor.irrigation_unlimited_c1_m
from: "on"
to: "off"
condition:
- condition: numeric_state
above: '0'
entity_id: sensor.smart_irrigation_daily_adjusted_run_time
action:
- service: smart_irrigation.smart_irrigation_reset_bucket
Run from sunset to sunrise. This automation will run 1 hour before sunset. It uses the sun integration to calculate the duration from sunset to sunrise and then set this via the adjust_time service call. Create a schedule that starts at sunset and just put in a nominal duration. The duration will be replaced by the service call. Please take note of the comments in the automation as you must change it to suit your configuration.
automation:
- id: 'IU1655789912900'
alias: IU Overnight
description: Run irrigation from sunset to sunrise
trigger:
- platform: sun
event: sunset
offset: -00:60:00
condition: []
action:
service: irrigation_unlimited.adjust_time
data:
# -------------------------------------------------------------------
# Please see documentation regarding the adjust_time service call.
# Choose an option below. Comment out/delete/change as needed.
# *** This will NOT work as is. ***
# 1. Adjust a single zone. Change the zone as required
# entity_id: binary_sensor.irrigation_unlimited_c1_z1
# 2. Adjust a sequence. Change the sequence_id as required
# entity_id: binary_sensor.irrigation_unlimited_c1_m
# sequence_id: 1
# -------------------------------------------------------------------
actual: >
{% set t1 = as_datetime(state_attr("sun.sun", "next_setting")).replace(microsecond=0) %}
{% set t2 = as_datetime(state_attr("sun.sun", "next_rising")).replace(microsecond=0) %}
{{ t2 - t1 }}
mode: single
This section shows how to send a notification when a sequence starts or finishes. Messages can be sent for example via email (SMTP), push notification to mobile phones, twitter and many others. See here for more information on notifications in Home Assistant. Note that it is not limited to sending notifications but many other actions are available. There is quite a lot of information on using notifications in Home Assistant on the web. Try Google, YouTube etc. for some great information and tips.
Irrigation Unlimited fires events that can be captured in an automation using the event platform as a trigger.
These events are fired when a sequence starts and finishes. The trigger.event.data
contains additional information that can be used in automation scripts. Here is the list of additional fields.
Field | Description |
---|---|
entity_id |
The sequence entity i.e. binary_sensor.irrigation_unlimted_c1_s1 . |
controller.index |
The sequential index of the controller. |
controller.controller_id |
The unique id of the controller. |
controller.name |
The friendly name of the controller. |
sequence.index |
The sequential index of the sequence. |
sequence.sequence_id |
The unique id of the sequence. |
sequence.name |
The friendly name of the sequence. |
schedule.index |
The sequential index of the schedule. Note: This maybe blank/empty(None) if it was a manual run - useful as a test. |
schedule.schedule_id |
The unique id of the schedule. Note: This maybe blank/empty(None) if it was a manual run. |
schedule.name |
The friendly name of the schedule. |
run.duration |
The run time of the sequence. |
This example displays a persistent notification on the front end when a sequence completes. Note the use of templating to construct a specific message. Although not used here, this platform also supports markdown.
automation:
- alias: "Irrigation Unlimited Completion"
trigger:
platform: event
event_type: irrigation_unlimited_finish
action:
- service: notify.persistent_notification
data:
title: "Irrigation Unlimited - Completed"
message: |
Time: {{ as_local(trigger.event.time_fired).strftime('%c') }}
Controller: {{ trigger.event.data.controller.index + 1 }} {{ trigger.event.data.controller.name }}
Sequence: {{ trigger.event.data.sequence.index + 1 }} {{ trigger.event.data.sequence.name }}
Schedule: {% if trigger.event.data.schedule.index is integer %}{{ trigger.event.data.schedule.index + 1 }} {{ trigger.event.data.schedule.name }}{% else %}Manual{% endif %}
Duration: {{ timedelta(seconds=trigger.event.data.run.duration) }}
Here is the notification displayed in the Home Assistant web interface.
These events are fired during a check back operation. A irrigation_unlimited_sync_error
is fired if the physical switch is found to be out of sync. This message will repeat for each attempted resync. After the specified number of retries have been exhusted a irrigation_unlimited_switch_error
is fired. Additional information is available that can be used in automation scripts.
Field | Description |
---|---|
entity_id |
A CSV list of entities. |
expected |
The expected state of the switch. |
controller.index |
The sequential index of the controller. |
controller.name |
The friendly name of the controller. |
zone.index |
The sequential index of the zone. |
zone.name |
The friendly name of the zone. Note: This maybe blank/empty (None) if it was the controller switch. |
Example to send an email on switch failure. There are two parts to this procedure, the first is to setup an email notification for your provider. See here for a google mail example. The next is to use the notifier.
automation:
- id: "IU1653340138435"
alias: "Irrigation Unlimited Switch Error"
description: "Email a switch syncronisation error"
trigger:
- platform: event
event_type:
# - irrigation_unlimited_sync_error
- irrigation_unlimited_switch_error
action:
- service: notify.NOTIFIER_NAME # Make sure this matches the "NOTIFIER_NAME" in the smtp setup
data:
title: "Irrigation Switch Error"
message: |
Type: {{ trigger.event.event_type }}
Time: {{ as_local(trigger.event.time_fired).strftime('%c') }}
Expected: {{ trigger.event.data.expected }}
Controller: {{ trigger.event.data.controller.index + 1 }} {{ trigger.event.data.controller.name }}
{% if trigger.event.data.zone.index is not none %}
Zone: {{ trigger.event.data.zone.index + 1 }} {{ trigger.event.data.zone.name }}
{% endif %}
Entity: {{ trigger.event.data.entity_id }}
There should be little trouble installing this component, please use the HACS method where possible. Binary sensors are created automatically. However, if you experience difficulties please check the following:
This integration depends on two other components; recorder and history. Both of these components are part of the standard Home Assistant installation and enabled by default with the default_config:
line in the configuration. If you have removed this line then a history:
and recorder:
section must be setup manually. If a mistake is made in either one of these configurations then they will not start and in turn, Irrigation Unlimited for which it depends on, will not start. Please check the log file for the following lines:
2021-08-03 12:12:40 INFO (MainThread) [homeassistant.setup] Setting up recorder
2021-08-03 12:12:40 INFO (MainThread) [homeassistant.setup] Setup of domain recorder took 0.1 seconds
...
2021-08-03 12:12:42 INFO (MainThread) [homeassistant.setup] Setting up history
2021-08-03 12:12:42 INFO (MainThread) [homeassistant.setup] Setup of domain history took 0.0 seconds
The above shows the requirements were loaded successfully. Note: The lines may not be consecutive in the log. If you do not see these lines then go back to basics and remove any history:
and recorder:
sections and ensure the default_config:
line is present. Restart HA and check you have these log entries.
There must be a irrigation_unlimited:
section in the configuration. If the section is missing or invalid then Irrigation Unlimited will not start. Check the log file to see it successfully started up.
2021-08-03 12:12:45 INFO (MainThread) [homeassistant.setup] Setting up irrigation_unlimited
...
2021-08-03 12:12:47 INFO (MainThread) [homeassistant.setup] Setup of domain irrigation_unlimited took n.n seconds
The above shows that Irrigation Unlimited loaded successfully. Note: The lines will most likely not be together so do a search. If it failed then use the minimal configuration shown here. This is a good starting point to get acquainted with this integration.
Have a question then head over to the Irrigation Unlimited community forum. If discussing a problem it is best to post the configuration along with the log.
These messages are very important in helping to determine any problem. Go into Settings -> System -> Logs. In the search box put in irrigation_unlimited
(Note the underscore between the two words) and press the LOAD FULL LOGS button. The log should always accompany the configuration when seeking help on the community forum or opening an issue.
For more detailed information set your logging for the component to debug:
logger:
default: info
logs:
custom_components.irrigation_unlimited: debug
If all else fails please open an issue. Please be sure to post the configuration AND the log.
- All feature requests, issues and questions are welcome.
The controller_id, zone_id and schedule_id identifiers need to be in snake_case like my_garden
, vege_patch
, rose_bed
, front_lawn
, before_dawn
. The allowable characters are lower case alphabet, numerals and the underscore. The underscore cannot be used as a leading or trailing character and not more than one together. For more information see here
This parameter specifies one or more Irrigation Unlimited entities such as 'binary_sensor.irrigation_unlimited_c1_z1'. Multiple entities can be a CSV string or a list. Here is a code snippet to show different ways to specify the entity_ids.
...
entity_id: binary_sensor.irrigation_unlimited_c1_z1
entity_id: binary_sensor.irrigation_unlimited_c1_z1,binary_sensor.irrigation_unlimited_c1_z2
entity_id:
- binary_sensor.irrigation_unlimited_c1_z1
- binary_sensor.irrigation_unlimited_c1_z2
...
The time period (duration) type is a string in the format HH:MM, HH:MM:SS, the number of seconds or a dictionary. Time type must be a positive value unless otherwise noted. The value will be rounded down to the system granularity. The default granularity is one second. This is the heart beat or system pulse. All times will be synchronised to these boundaries. Here are different ways to specify 10 minutes.
...
time: '00:10' # HH:MM
time: '0:10:00' # H:MM:SS
time: '00:10:00' # HH:MM:SS
time: 600 # Seconds
time: # One or more or the following
days: 0
hours: 0
minutes: 10
seconds: 0
...
These can be any entity from the switch
, light
, valve
or cover
platforms or anything that supports the turn_on
and turn_off
actions. Multiple entities can be a CSV string or a list. Here is a code snippet to show different ways to specify the entity_ids.
...
entity_id: switch.valve_1
entity_id: light.valve_1,light.valve_2
entity_id:
- switch.valve_1
- light.valve_2
...
In case you wish to control some other device like a motorised valve that presents itself in Home Assistant as a cover then adapt the following automation.
automation:
- alias: 'Zone 1 motorised valve'
description: Turn on/off motorised valve
trigger:
- platform: state
entity_id:
- binary_sensor.irrigation_unlimited_c1_z1
condition: []
action:
- service: |-
{% if trigger.to_state.state == 'on' %}
cover.open_cover
{% else %}
cover.close_cover
{% endif %}
entity_id: cover.my_cover_1
mode: single
Some parameters support templating. Actual support is noted in the relevant documentation.
Templating is an advanced Home Assistant scripting technique. In many cases such as scripts and automations templating is built in. In other situations like the tap action from a button card, templating is not available but the string will be passed to the service call. Irrigation Unlimited will detect the string contains a template and convert it. Here are some examples that retrieve data from an input text box and pass it to a service call.
...
action:
service: irrigation_unlimited.adjust_time
service_data:
percentage: "{{ states('input_text.adjustment') | float(100) }}"
...
action:
service: irrigation_unlimited.manual_run
service_data:
time: "{{ states('input_text.run_time') | default('00:00') }}"
Sequence to adjust, a number (1, 2..N). This is the position number of the sequence under the controller. sequence_id: 1
is the first, 2 is the second and so on. As a shortcut, sequence_id: 0
will alter all sequences. Within a controller, sequences are numbered by their position starting at 1. Only relevant when entity_id is a controller/master. An error message will be generated if a sequence_id
is specified and entity_id
is not a controller/master.
Zone(s) to adjust, number/list (1, 2..N). This is the position number of the zone reference under the sequence. zones: 1
is the first, 2 is the second and so on. As a shortcut, zones: 0
will alter all zones. Within a sequence, zones are numbered by their position starting a 1.
The time of day type is a string in the format HH:MM or HH:MM:SS. It is assumed to be in the local time.
If you want to contribute to this please read the Contribution guidelines.
Code template was mainly taken from @Ludeeus's integration_blueprint template.
Some inspiration was taken from kloggy's work.