HADashboard is a dashboard for Home Assistant that is intended to be wall mounted, and is optimized for distance viewing.
HADashboard is dependent upon AppDaemon. As a first step please refer to the AppDaemon Documentation.
When you have AppDaemon installed and running, configuration of the Dashboard is pretty simple. You just need to add a directive to the config file - dash_url
.
This and the optional dash_dir
directive should be in the top of the file under a new HADashboard:
section.
dash_url
- the url you want the dashboard service to listen on
For instance:
AppDaemon:
ha_url: <some_url>
...
HADashboard:
dash_url: http://192.168.1.20:5050
Note that at this time only http is supported.
By default, dashboards are searched for under the config directory in a sub directory called dashboards
. Optionally, you can place your dashboards in a directory other than under the config directory using the dash_dir
directive.
e.g.:
HADashboard:
dash_dir: /etc/appdaemon/dashboards
When you have added those lines, restart AppDaemon and you will be ready to go. If you navigate to the top level, e.g. http://192.168.1.20:5050
in the case above, you will see a welcome page with a list of configured dashboards. If you haven't yet configured any the list will be empty.
When you have created a dashboard you can navigate to it by going to http://192.168.1.20:5050/<Dashboard Name>
If you are using AppDaemon just for the dasboard and not the Apps, you can disable the app engine with the following directive:
AppDaemon:
disable_apps: 1
This will free up some CPU and memory.
HADashboard pre-compiles all of the user created Dashboard for efficiency. It will detect when changes have been made to widgets, styles or dahsboards and automatically recompile. This is usually desirable as compilation can take several seconds on slower hardware for a fully loaded dashboard, however to force a recompilation every time, use the following directive:
HADashboard:
dash_force_compile: 1
This will force dashboard recompilation whenever the dashboard is loaded. You can also force a recompilation by adding the parameter recompile=1
to the dashboard URL.
By default, information and errors around access to the Dashboard will go to the same place as AppDaemon's log. To split the page access out to a different file, use the accessfile
directive, e.g.:
HADashboard:
accessfile: /var/log/dash_access
To force dashboard recompilation of all dashboards after a restart, use:
HADashboard:
dash_compile_on_start: 1
This should not be necessary but may on occasion be required after an upgrade to pickup changes.
The dashboard URL supports a couple of extra parameters:
skin
- name of the skin you want to use, default isdefault
recompile
- set to anything to force a recompilation of the dashboard
For example, the following url will load a dasboard called main with the obsidian skin:
http://<ip address>:<port>/Main?skin=obsidian
Dashboard configuration is simple yet very powerful. Dashboards can be created in single files or made modular for reuse of blocks of widgets. Dashboards are configured using YAML.
We will start with a simple single file configuration. Create a file with a .dash
extension in the dashboards
directory, and pull it up in your favorite editor.
A top level dashboard will usually have one of a number of initial directives to configure aspects of the dashboard, although they are all optional. An example is as follows:
#
# Main arguments, all optional
#
title: Main Panel
widget_dimensions: [120, 120]
widget_size: [1, 1]
widget_margins: [5, 5]
columns: 8
global_parameters:
use_comma: 0
precision: 1
use_hass_icon: 1
These are all fairly self explanatory:
title
- the name that will end up in the title of the web page, defaults to "HADashboard".widget_dimensions
- the unit height and width of the individual widgets in pixels. Note that the absolute size is not too important as on tablets at least the browser will scale the page to fit. What is more important is the aspect ratio of the widgets as this will affect whether or not the dashboard completely fills the tablets screen. The default is [120, 120] (width, height). This works well for a regular iPad.widget_size
- the number of grid blocks each widget will be by default if not specifiedwidget_margins
- the size of blank space between widgets.columns
- the number of columns the dasboard will have.global_parameters
- a list of parameters that will be applied to every widget. If the widget does not accept that parameter it will be ignored. Global parameters can be overriden at the widget definition if desired. This is useful for instance if you want to use commas as decimals for all of your widgets. This will also apply to widgets defined with just their entity ids so they will not require a formal widget definition just to change the decimal separator.
The very simplest dashboard needs a layout so it can understand where to place the widgets. We use a layout
directive to tell HADasboard how to place them. Here is an example:
layout:
- light.hall, light.living_room, input_boolean.heating
- media_player(2x1), sensor.temperature
As you can see, here we are refering directly to native Home Assistant entities. From this, HADashboard is able to figure out the right widget type and grab it's friendly name and add it to the dasboard. For the clock
and weather
widgets there is no associated entity id so just your clock.clock
or weather.weather
.
The layout command is intended to be visual in how you lay out the widgets. Each layout entry represents a row on the dashboard, each comma separated widget represents a cell on that row.
Widgets can also have a size associated with them - that is the (2x1)
directive appended to the name. This is simply the width of the widget in columns and the height of the widget in rows. For instance, (2x1)
would refer to a widget 2 cells wide and 1 cell high. If you leave of the sizing information, the widget will use the widget_size
dashboard parameter if specified, or default to (1x1)
if not. HADasboard will do it's best to calculate the right layout from what you give it but expect strange behavior if you add too many widgets on a line.
For a better visual cue you can lay the widgets out with appropriate spacing to see what the grid will look like more intuitively:
layout:
- light.hall, light.living_room, input_boolean.heating
- media_player(2x1), sensor.temperature
... and so on.
Make sure that the number of widths specified adds up to the total number of columns, and don't forget to take into account widgets that are more than one row high (e.g. the weather widget here).
If you want a blank space you can use the special widget name spacer
. To leave a whole row empty, just leave an entry for it with no text. For instance:
- light.hall, light.living_room, input_boolean.heating
-
- media_player(2x1), sensor.temperature
The above would leave the 2nd row empty. If you want more than one empty line use empty
as follows":
- light.hall, light.living_room, input_boolean.heating
- empty: 2
- media_player(2x1), sensor.temperature
This would leave the 2nd and 3rd rows empty.
And that is all there to it, for a simple one file dashboard.
The approach above is ok for simple widgets like lights, but HADashboard has a huge range of customization options. To access these, you need to formally define the widget along with its associated parameters.
To define a widget simply add lines elsewhere in the file. Give it a name , a widget type and a number of optional parameters like this:
weather_widget:
widget_type: weather
units: "°F"
Here we have defined a widget of type "weather", and given it an optional parameter to tell it what units to use for temperature. Each widget type will have different required parameters, refer to the documentation below for a complete list for each type. All widgets support ways to customize colors and text sizes as well as attibutes they need to understand how to link the widget to Home Assistant, such as entity_ids.
Lets look at a couple more examples of widget definitions:
clock:
widget_type: clock
weather:
widget_type: weather
units: "°F"
side_temperature:
widget_type: sensor
title: Temperature
units: "°F"
precision: 0
entity: sensor.side_temp_corrected
side_humidity:
widget_type: sensor
title: Humidity
units: "%"
precision: 0
entity: sensor.side_humidity_corrected
andrew_presence:
widget_type: device_tracker
title: Andrew
device: andrews_iphone
wendy_presence:
widget_type: device_tracker
title: Wendy
device: wendys_iphone
mode:
widget_type: sensor
title: House Mode
entity: input_select.house_mode
light_level:
widget_type: sensor
title: Light Level
units: "lux"
precision: 0
shorten: 1
entity: sensor.side_multisensor_luminance_25_3
porch_motion:
widget_type: binary_sensor
title: Porch
entity: binary_sensor.porch_multisensor_sensor_27_0
garage:
widget_type: switch
title: Garage
entity: switch.garage_door
icon_on: fa-car
icon_off: fa-car
warn: 1
Now, instead of an entity id we refer to the name of the widgets we just defined:
layout:
- clock(2x1), weather(2x2), side_temperature(1x1), side_humidity(1x1), andrew_presence(1x1), wendy_presence(1x1)
- mode(2x1), light_level(2x1), porch_motion(1x1), garage(1x1)
It is also possible to add a widget from a standalone file. The file will contain a single widget definition. To create a clock widget this way we would make a file called clock.yaml
and place it in the dashboard directory along with the dashboard. The contents would look something like this:
widget_type: clock
widget_style: "color: red"
Note that the indentation level starts at 0. To include this file, just reference a widget called clock
in the layout, and HADashboard will automatically load the widget.
A file will override a native entity, so you can create your dashboard just using entities, but if you want to customize a specific entity, you can just create a file named <entity_name>.yaml
and put the settings in there. You can also override entity names by specifying a widget of that name in the same or any other file, which will take priority over a standalone yaml file.
And that is all there to it, for a simple one file dashboard.
When you get to the point where you have multiple dashboards, you may want to take a more modular approach, as you will find that in many cases you want to reuse parts of other dashboards. For instance, I have a common header for mine consisting of a row or two of widgets I want to see on every dashboard. I also have a footer of controls to switch between dashboards that I want on each dashboard as well.
To facilitate this, it is possible to include additional files, inline to build up dashboards in a more modular fashion. These additional files end in .yaml
to distinguish them from top level dashboards. They can contain additional widget definitions and also optionally their own layouts.
The sub files are included in the layout using a variation of the layout directive:
layout:
- include: top_panel
This will look for a file called top_panel.yaml
in the dashboards directory, then include it. There are a couple of different ways this can be used.
- If the yaml file includes it's own layouts directive, the widgets from that file will be placed as a block, in the way described by its layout, making it reusable. You can change the order of the blocks inclusion by moving where in the original layout directive you include them.
- If the yaml file just includes widget definitions, it is possible to perform the layout in the higher level dash if you prefer so you still get an overall view of the dashboard. This approach has the benefit that you can be completely flexible in the layout wheras the first method defines fixed layouts for the included blocks.
I prefer the completely modular approach - here is an example of a full top level dashboard created in that way:
title: Main Panel
widget_dimensions: [120, 120]
widget_margins: [5, 5]
columns: 8
layout:
- include: top_panel
- include: main_middle_panel
- include: mode_panel
- include: bottom_panel
As you can see, it includes four modular sub-dashes. Since these pieces all have their own layout information there is no need for additional layout in the top level file. Here is an example of one of the self contained sub modules (mode_panel.yaml):
clock:
widget_type: clock
weather:
widget_type: weather
units: "°F"
side_temperature:
widget_type: sensor
title: Temperature
units: "°F"
precision: 0
entity: sensor.side_temp_corrected
side_humidity:
widget_type: sensor
title: Humidity
units: "%"
precision: 0
entity: sensor.side_humidity_corrected
andrew_presence:
widget_type: device_tracker
title: Andrew
device: andrews_iphone
wendy_presence:
widget_type: device_tracker
title: Wendy
device: dedb5e711a24415baaae5cf8e880d852
mode:
widget_type: sensor
title: House Mode
entity: input_select.house_mode
light_level:
widget_type: sensor
title: Light Level
units: "lux"
precision: 0
shorten: 1
entity: sensor.side_multisensor_luminance_25_3
porch_motion:
widget_type: binary_sensor
title: Porch
entity: binary_sensor.porch_multisensor_sensor_27_0
garage:
widget_type: switch
title: Garage
entity: switch.garage_door
icon_on: fa-car
icon_off: fa-car
warn: 1
layout:
- clock(2x1), weather(2x2), side_temperature, side_humidity, andrew_presence, wendy_presence
- mode(2x1), light_level(2x1), porch_motion, garage
Now if we take a look at that exact same layout, but assume that just the widget definitions are in the sub-blocks, we would end up with something like this - note that we must explicitly lay out each widget we have included in the other files:
title: Main Panel
widget_dimensions: [120, 120]
widget_margins: [5, 5]
columns: 8
layout:
- include: top_panel
- include: main_middle_panel
- include: mode_panel
- include: bottom_panel
- clock(2x1), weather(2x2), side_temperature, side_humidity, andrew_presence, wendy_presence
- mode(2x1), light_level(2x1), porch_motion, garage
- wlamp_scene, don_scene, doff_scene, dbright_scene, upstairs_thermometer, downstairs_thermometer, basement_thermometer, thermostat_setpoint
- obright_scene, ooff_scene, pon_scene, poff_scene, night_motion, guest_mode, cooling, heat
- morning(2x1), day(2x1), evening(2x1), night(2x1)
- load_main_panel, load_upstairs_panel, load_upstairs, load_downstairs, load_outside, load_doors, load_controls, reload
In this case, the actual layout including a widget must be after the include as you might expect.
A few caveats for loaded sub files:
- Sub files can include other subfiles to a maximum depth of 10 - please avoid circular references!
- When layout information is included in a sub file, the subfile must comprise 1 or more complete dashboard rows - partial rows or blocks are not supported.
As a final option, you can create widget definitions in the main file and use them in the layout of the header/footer/etc. For example, if you have a header that has a label in it that lists the room that the dashboard is associated with, you can put the label widget definition in the header file but all the pages get the same message. If you put the label widget definition in the main file for the room, and reference it from the layout in the header, each page has the right name displayed in the header.
For example:
clock:
widget_type: clock
layout:
- label(2x2),clock(2x2)
In this example of a header, we reference a clock and a label in the layout. We can re-use this header, but in order to make the label change for every page we use it on we actually define it in the dashboard file itself, and include the header in the layout:
title: Den Panel
widget_dimensions: [120, 120]
widget_margins: [5, 5]
columns: 8
label:
widget_type: label
text: Welcome to the Den
layout:
- include: header
Widgets allow customization using arbitary CSS styles for the individual elements that make up the widget. Every widget has a ``widget_style` argument to apply styles to the whole widget, as well as one or more additional style arguments that differ for each widget. To customize a widget background for instance:
clock:
widget_type: clock
widget_style: "background: white;"
As is usual with CSS you can feed it multiple parameters at once, e.g.:
clock:
widget_type: clock
widget_style: "background: white; font-size: 150%;"
You can use any valid CSS style here although you should probably steer away from some of the formatting types as they may interact badly with HADasboards formatting. Widget level styles will correctly override just the style in the skin they are replacing.
In the case of the clock widget, it also supports date_style
and time_style
to modify those elements accordingly:
clock:
widget_type: clock
widget_style: "background: white"
date_style: "color: black"
time_style: "color: green"
Since date_style
and time_style
are applied to more specific elements, they will override widget_style
. Also note that some widget styles may be specified in the widget's CSS, in which case that style will override widget_style
but not the more specific styles.
Some widgets allow you to display not only an icon showing the state but also text of the state itself. The following widgets allow this:
- scene
- binary_sensor
- switch
- device_tracker
- script
- lock
- cover
- input_boolean
In order to enable this, just add:
state_text: 1
to the widget definition. This will then make the widget show the HA state below the icon. Since native HA state is not always very pretty it is also possible to map this to better values, for instance in a different language than English.
To add a state map, just add a state_map list to the widget definition listing the HA states and what you actually want displayed. For instance:
state_map:
"on": Aan
"off": Uit
One wrinkle here is that YAML over enthusiastically "helps" by interpreting things like on
and off
as booleans so the quotes are needed to prevent this.
Widgets that allow the specification of icons have access to both Font Awesome and Material Design Icons. To specify an icon simply use the prefix fa-
for Font Aweesome and mdi-
for Material Design. e,g,:
icon_on: fa-alert
icon_off: mdi-cancel
In addition, the widget can be configured to use whatever icon is defined for it in Home Assistant by setting the parameter:
use_hass_icon: 1
This can also be set at the dashboard level as a global parameter.
Here is the current list of widgets and their description and supported parameters:
A simple 12 hour clock with the date. Not currently very customizable but it will be improved upon.
None
time_format
- set to "24hr" if you want military time/24 hour clockshow_seconds
- set to 1 if you want to see seconds on the display
widget_style
time_style
date_style
Up to date weather reports. Requires dark sky to be configured in Home Assistant with at minimum the following sensors:
- temperature
- humidity
- precip_probability
- precip_intensity
- wind_speed
- pressure
- wind_bearing
- apparent_temperature
- icon
None
None
widget_style
main_style
unit_style
sub_style
A widget to report on values for any sensor in Home Assistant
The widget will detect whether or not it is showing a numeric value, and if so, it will use the numeric style. If it is showing text it will use the text style, which among other things makes the text size smaller.
entity
- the entity_id of the sensor to be monitored
title
- the title displayed on the tiletitle2
- a second line of title textunits
- the unit symbol to be displayed, if not specified HAs unit will be used, specify "" for no unitsprecision
- the number of decimal placesshorten
- if set to one, the widget will abbreviate the readout for high numbers, e.g.1.1K
instead of1100
use_comma
- if set to one`, a comma will be used as the decimal separatorstate_map
sub_entity
- second entity to be displayed in the state text areasub_entity_map
- state map for the sub_entity
widget_style
title_style
title2_style
value_style
text_style
unit_style
A widget to display an RSS feed.
Note that the actual feeds are configured in appdaemon.yaml as follows:
AppDaemon:
rss_feeds:
- feed: <feed_url>
target: <target_name>
- feed: <feed url>
target: <target_name>
...
rss_update: <feed_refresh_interval>
feed_url
- fully qualified path to rss feed, e.g.http://rss.cnn.com/rss/cnn_topstories.rss
target name
- the entity of the target RSS widget in the dashboard definition filefeed_refresh_interval
- how often AppDaemon will refresh the RSS feeds
There is no limit to the number of feeds you configure, and you will need to configure one RSS widget to display each feed.
The RSS news feed cannot be configured if you are still using the legacy .cfg
file type.
entity
- the name of the configured feed - this must match thetarget_name
configured in the AppDaemon configurationinterval
- the period between display of different items within the feed
title
- the title displayed on the tiletitle2
- a second line of title textrecent
- the number of most recent stories that will be shown. If not specified, all stories in the feed will be shown.
widget_style
title_style
title2_style
text_style
A widget to report on numeric values for sensors in Home Assistant in a gauge format.
entity
- the entity_id of the sensor to be monitoredmax
- maximum value to showmin
- minimum value to show
title
- the title displayed on the tiletitle2
- a second line of title textunits
- the unit symbol to be displayed, if not specified HAs unit will be used, specify "" for no units
widget_style
title_style
title2_style
low_color
med_color
high_color
bgcolor
color
Note that unlike other widgets, the color settings require an actual color, rather than a CSS style.
A Widget that reports on device tracker status. It can also be optionally be used to toggle the status between "home" and "not_home".
device
- name of the device fromknown_devices.yaml
, not the entity_id.
title
- the title displayed on the tiletitle2
- a second line of title textenable
- set to 1 to enable the widget to toggle the device_tracker statusstate_text
state_map
active_map
Active map is used to specify states other than "home" that will be regarded as active, meaning the icon will light up. This can be useful if tracking a device tracker within the house using beacons for instance.
Example:
wendy_presence_mapped:
widget_type: device_tracker
title: Wendy
title2: Mapped
device: wendys_iphone
active_map:
- home
- house
- back_yard
- upstairs
In the absence of an active map, only the state home
will be regarded as active.
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
state_text_style
A widget to show a simple static text string
None
title
- the title displayed on the tiletitle2
- a second line of title texttext
- the text displayed on the tile
widget_style
title_style
title2_style
text_style
A widget to activate a scene
entity
- the entity_id of the scene
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to run a script
entity
- the entity_id of the script
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to track the state of an input_select
by showing active when it is set to a specific value. Also allows scripts to be run when activated.
entity
- the entity_id of theinput_select
mode
- value of the input select to show as activescript
- script to run when pressedstate_text
state_map
title
- the title displayed on the tiletitle2
- a second line of title text
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to monitor and activate a switch
entity
- the entity_id of the switch
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to monitor and activate a lock
Note that unlike HASS, Dashboard regards an unlocked lock as active. By contrast, the HASS UI shows a locked lock as "on". Since the purpose of the dashboard is to alert at a glance on anything that is unusual, I chose to make the unlocked state "active" which means in the default skin it is shown as red, wheras a locked icon is shown as gray. You can easily change this behavior by setting active and inactive styles if you prefer.
entity
- the entity_id of the lock
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to monitor and activate a cover. At this time only the open and close actions are supported.
entity
- the entity_id of the cover
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to monitor and activate an input_boolean
entity
- the entity_id of the input_boolean
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to monitor a binary_sensor
entity
- the entity_id of the binary_sensor
title
- the title displayed on the tiletitle2
- a second line of title textstate_text
state_map
icon_on
icon_off
widget_style
icon_style_active
icon_style_inactive
title_style
title2_style
A widget to monitor and contol a dimmable light
entity
- the entity_id of the light
icon_on
icon_off
title
- the title displayed on the tiletitle2
- a second line of title texton_attributes
- a list of supported HA attributes to set as initial values for the light.
Note that rgb_color
and xy_color
are not specified with list syntac as in Home Assistant scenes. See below for examples.
e.g.
testlight2:
widget_type: light
entity: light.office_2
title: office_2
on_attributes:
brightness: 100
color_temp: 250
or:
testlight2:
widget_type: light
entity: light.office_2
title: office_2
on_attributes:
brightness: 100
rgb_color: 128, 34, 56
or:
testlight2:
widget_type: light
entity: light.office_2
title: office_2
on_attributes:
brightness: 100
xy_color: 0.4, 0.9
widget_style
icon_on
icon_off
icon_up
icon_down
title_style
title2_style
icon_style_active
icon_style_inactive
text_style
level_style
level_up_style
level_down_style
A widget to monitor and contol an input slider
entity
- the entity_id of the input_slider
title
- the title displayed on the tiletitle2
- a second line of title textstep
- the size of step in brightness when fading the slider up or downunits
- the unit symbol to be displayeduse_comma
- if set to one, a comma will be used as the decimal separator
widget_style
icon_up
icon_down
title_style
title2_style
text_style
level_style
level_up_style
level_down_style
A widget to monitor and contol a climate entity
entity
- the entity_id of the climate entity
title
- the title displayed on the tiletitle2
- a second line of title textstep
- the size of step in temperature when fading the slider up or downunits
- the unit symbol to be displayed
widget_style
icon_up
icon_down
title_style
title2_style
text_style
level_style
level_up_style
level_down_style
A widget to monitor and contol a media player
entity
- the entity_id of the media player
title
- the title displayed on the tiletitle2
- a second line of title texttruncate_name
- if specified, the name of the media will be truncated to this length.
widget_style
icon_on
icon_off
icon_up
icon_down
title_style
title2_style
icon_style_active
icon_style_inactive
text_style
level_style
level_up_style
level_down_style
A widget to monitor and contol a group of lights
entity
- the entity_id of the group
title
- the title displayed on the tiletitle2
- a second line of title textmonitored_entity
- the actual entity to monitor
Groups currently do no report back state changes correctly when attributes light brightness are changed. As a workaround, instead of looking for state changes in the group, we use monitored_entity
instead. This is not necessary of there are no dimmable lights in the group, however if there are, it should be set to the entity_id of one of the dimmable group members.
widget_style
icon_on
icon_off
icon_up
icon_down
title_style
title2_style
icon_style_active
icon_style_inactive
text_style
level_style
level_up_style
level_down_style
A widget to navgigate to a new URL, intended to be used for switching between dashboards
url
- a url to navigate to. Use a full URL including the "http" part.dashboard
- a dashboard to navigate to e.g.MainPanel
title
- the title displayed on the tileargs
- a list of arguments.skin
- Skin to use with the new screen (for HADash URLs only)
If adding arguments use the args variable do not append them to the URL or you may break skinning. Add arguments like this:
some_widget:
widget_type: navigate
title: Amazon
url: http://amazon.com
args:
arg1: fred
arg2: jim
icon_active
icon_inactive
widget_style
title_style
title2_style
icon_style
A widget to reload the current dashboard.
None.
title
- the title displayed on the tiletitle2
- a second line of title text
icon_active
icon_inactive
widget_style
title_style
title2_style
icon_active_style
icon_inactive_style
A widget to display other content within the dashboard
url_list
- a list of 1 or more URLs to cycle though. orimg_list
- a list of 1 or more Image URLs to cycle through.
title
- the title displayed on the tilerefresh
- (seconds) if set, the iframe widget will progress down it's list every refresh period, returning to the beginning when it hits the end. Use this in conjunction with a single entry in theurl_list
to have a single url refresh at a set interval.
For regular HTTP sites, use the url_list
argument, for images the img_list
argument should work better.
Example:
iframe:
widget_type: iframe
title: Cats
refresh: 60
url_list:
- https://www.pexels.com/photo/grey-and-white-short-fur-cat-104827/
- https://www.pexels.com/photo/eyes-cat-coach-sofa-96938/
- https://www.pexels.com/photo/silver-tabby-cat-lying-on-brown-wooden-surface-126407/
- https://www.pexels.com/photo/kitten-cat-rush-lucky-cat-45170/
- https://www.pexels.com/photo/grey-fur-kitten-127028/
- https://www.pexels.com/photo/cat-whiskers-kitty-tabby-20787/
- https://www.pexels.com/photo/cat-sleeping-62640/
Content will be shown with scroll bars which can be undesirable. For images this can be alleviated by using an image resizing service such as the one offered by Google.
weather_frame:
widget_type: iframe
title: Radar
refresh: 300
frame_style: ""
img_list:
- https://images1-focus-opensocial.googleusercontent.com/gadgets/proxy?url=https://icons.wxug.com/data/weather-maps/radar/united-states/hartford-connecticut-region-current-radar-animation.gif&container=focus&refresh=240&resize_h=640&resize_h=640
- https://images1-focus-opensocial.googleusercontent.com/gadgets/proxy?url=https://icons.wxug.com/data/weather-maps/radar/united-states/bakersfield-california-region-current-radar.gif&container=focus&refresh=240&resize_h=640&resize_h=640
widget_style
title_style
A widget to display a refreshing camera image on the dashboard
entity_picture
This can be found using the developer tools, and will be one of the parameters associated with the camera you want to view. If you are using a password, you will need to append &api_password=<your password>
to the end of the entity_picture. It will look something like this:
http://192.168.1.20:8123/api/camera_proxy/camera.living_room?token=<your token>&api_password=<redacted>
If you are using SSL, remeber to use the full DNS name and not the IP address.
refresh
- (seconds) if set, the camera image will refresh every interval.
widget_style
title_style
A widget to report on the state of an alarm and allow code entry
entity
- the entity_id of the alarm to be monitored
title
- the title displayed on the tiletitle2
- a second line of title text
widget_style
title_style
title2_style
state_style
panel_state_style
panel_code_style
panel_background_style
panel_button_style
HADashboard fully supports skinning and ships with a number of skins. To access a specific skin, append the parameter skin=<skin name>
to the dashboard URL. Skin names are sticky if you use the Navigate widet to switch between dashboards and will stay in force until another skin or no skin is specified.
HADasboard currently has the following skins available:
- default - the classic HADashboard skin, very simple
- obsidian, contributed by
@rpitera
- zen, contributed by
@rpitera
- simplyred, contributed by
@rpitera
- glassic, contributed by
@rpitera
HADashboard fully supports customization through skinning. It ships with a number of skins courtesy of @rpitera, and we encourage users to create new skins and contribute them back to the project.
To create a custom skin you will need to know a little bit of CSS. Start off by creating a directory called custom_css
in the configuration directory, at the same level as your dashboards directory. Next, create a subdirectory in custom_css
named for your skin.
The skin itself consists of 2 separate files:
dashboard.css
- This is the base dashboard CSS that sets widget styles, background look and feel etc.variables.yaml
- This is a list of variables that describe how different elements of the widgets will look. Using the correct variables you can skin pretty much every element of every widget type.
Dashboard.css is a regular css file, and knowledge of CSS is required to make changes to it.
Variables.yaml is really a set of overrise styles, so you can use fragments of CSS here, basically anything that you could normally put in an HTML style
tag. Variables .yaml also supports variable expansion to make structuring the file easier. Anything that starts with a $
is treated as a variable that refers back to one of the other yaml fields in the file.
Here is an example of a piece of a variables.yaml file:
#
# Styles
#
white: "#fff"
red: "#ff0055"
green: "#aaff00"
blue: "#00aaff"
purple: "#aa00ff"
yellow: "#ffff00"
orange: "#ffaa00"
gray_dark: "#444"
gray_medium: "#666"
gray_light: "#888"
#Page and widget defaults
background_style: ""
text_style: ""
#These are used for icons and indicators
style_inactive: "color: $gray_light"
style_active: "color: gold"
style_active_warn: "color: gold"
style_info: "color: gold; font-weight: 500; font-size: 250%"
style_title: "color: gold; font-weight: 900"
style_title2: "color: $white"
Here we are setting up some general variables that we can reuse for styling the actual widgets.
Below, we are setting styles for a specific widget, the light widget. All entries are required but can be left blank by using double quotes.
light_icon_on: fa-circle
light_icon_off: fa-circle-thin
light_icon_up: fa-plus
light_icon_down: fa-minus
light_title_style: $style_title
light_title2_style: $style_title2
light_icon_style_active: $style_active
light_icon_style_inactive: $style_inactive
light_state_text_style: $white
light_level_style: "color: $gray_light"
light_level_up_style: "color: $gray_light"
light_level_down_style: "color: $gray_light"
light_widget_style: ""
Images can be included - create a sub directory in your skin directory, call it img
or whatever you like, then refer to it in the css as:
/custom_css/<skin name>/<image directory>/<image filename>
One final feature is the ability to include additional files in the header and body of the page if required. This can be useful to allow additional CSS from 3rd parties or include JavaScript.
Custom head includes - should be a YAML List inside variables.yaml
, e.g.:
head_includes:
- some include
- some other include
Text will be included verbatim in the head section of the doc, use for styles, javascript or 3rd party css etc. etc. It is your responsibility to ensure the HTML is correct
Similarly for body includes:
body_includes:
- some include
- some other include
To learn more about complete styles, take a look at the supplied styles to see how they are put together. Start off with the dashboard.css
and variables.yaml
from an exisitng file and edit to suit your needs.
Widget Development is currently not supported in the Beta version of HADashboard. When the full release is available, there will be a fully developed Widget API and a description of how to add new widgets and contribute them back to the community. For now, although the widgets supplied are fully functional, they are likely to change significantly in the future, and are not currently a good basis for widget development.