View Source Actions
action-types
Action Types
Ash has 4 action types :read
, :create
, :update
, :destroy
. The purpose of these action types is to provide expectations about what is required to run those actions, and what is returned from them.
The actions do not need to do exactly what their action type implies however. Using manual actions, you can define a create action that actually updates something, or using the soft?
option for destroy
actions you can treat them as updates. The important part to consider is their interface. More action types may be added in the future.
Actions either read data or mutate it. :read
actions are fundamentally different from :create
, :update
and :destroy
actions. For the most part, :create
, :update
and :destroy
follow all of the same rules, and so will be grouped together when explaining how they behave. Small differences will be pointed out in a few places.
idiomatic-actions
Idiomatic Actions
name-your-actions
Name Your Actions
The intent behind Ash is not to have you building simple CRUD style applications. In a typical set up you may have a resource with four basic actions, there is even a shorthand to accomplish this:
actions do
defaults [:create, :read, :update, :destroy]
end
But that is just a simple way to get started, or to create resources that really don't do anything beyond those four operations. You can have as many actions as you want. The best designed Ash applications will have numerous actions, named after the intent behind how they are used. They won't have all reads going through a single read action, and the same goes for the other action types. The richer the actions on the resource, the better interface you can have. With that said, many resources may only have those four basic actions, especially those that are "managed" through some parent resource. See the guide on Managing Relationships for more.
primary-actions
Primary Actions
Primary actions are a way to inform the framework which actions should be used in certain "automated" circumstances, or in cases where an action has not been specified. If a primary action is attempted to be used but does not exist, you will get an error about it at runtime. The place you typically need primary actions is, when Managing Relationships. However, some prefer to be as explicit as possible, and so will always indicate an action name, and in that case will never use primary actions. When using the defaults
option to add default actions, they are marked as primary.
A simple example where a primary action would be used:
# No action is specified, so we look for a primary read.
Api.get!(Resource, "8ba0ab56-c6e3-4ab0-9c9c-df70e9945281")
To mark an action as primary, add the option, i.e
read :action_name do
primary? true
end
put-everything-inside-the-action
Put everything inside the action!
Ash provides utilities to modify queries and changesets outside of the actions on the resources. This is a very important tool in our tool belt, but it is very easy to abuse. The intent is that as much behavior as possible is put into the action. Here is the "wrong way" to do it. There is a lot going on here, so don't hesitate to check out other relevant guides if you see something you don't understand.
def top_tickets(user_id) do
Ticket
|> Ash.Query.for_read(:read)
|> Ash.Query.filter(priority in [:medium, :high])
|> Ash.Query.filter(representative_id == ^user_id)
|> Ash.Query.filter(status == :open)
|> Ash.Query.sort(opened_at: :desc)
|> Ash.Query.limit(10)
|> Helpdesk.Support.read!()
end
# in the resource
defaults [:read, ...]
And here is the "right way", where the rules about getting the top tickets have been moved into the resource as a nicely named action, and included in the code_interface
of that resource. The reality of the situation is that top_tickets/1
is meant to be obsoleted by your Ash resource! Here is how it should be done.
# in the resource
code_interface do
define_for Helpdesk.Support
define :top, args: [:user_id]
end
read :top do
argument :user_id, :uuid do
allow_nil? false
end
prepare build(limit: 10, sort: [opened_at: :desc])
filter expr(priority in [:medium, :high] and representative_id == ^arg(:user_id) and status == :open)
end
Now, whatever code I had that would have called top_tickets/1
can now call Helpdesk.Support.Ticket.top(user.id)
. By doing it this way, you get the primary benefit of getting a nice simple Api to call into, but you also have a way to modify how the action is invoked in any way necessary, by going back to the old way of building the query manually. For example, if I also only want to see top tickets that were opened in the last 10 minutes:
Ticket
|> Ash.Query.for_read(:top)
|> Ash.Query.filter(opened_at > ago(10, :minute))
|> Helpdesk.Support.read!()
That is the best of both worlds! These same lessons transfer to changeset based actions as well.
action-lifecycle
Action Lifecycle
Ash uses an "engine" internally that takes lists of "requests" that have dependencies on each-other, and resolves them in some acceptable order. This engine allows for things like parallelizing steps and performing complex workflows without having to handwrite all of the control flow. It isn't important that you know how the engine works, but knowing the basic idea of "list of requests get sent to the engine" should help contextualize the following flow charts.
read-actions
Read Actions
Read actions operate on an Ash.Query
. They take no input by default, but arguments can be added to the action. All read actions expect to work on lists. The act of pagination, or returning a single result, is handled as part of the interface, and is not a concern of the action itself. Here is an example of a read action:
# Giving your actions informative names is always a good idea
read :ticket_queue do
# Use arguments to take in values to run your read action.
argument :priorities, {:array, :atom} do
constraints items: [one_of: [:low, :medium, :high]]
end
# This action may be paginated, and returns a total count of records by default
pagination offset: true, countable: :by_default
# Use arguments to modify filters
# You can also use arguments in custom preparations using `Ash.Changeset.get_argument/2`
# This is useful when a simple filter like the one below does not suffice
filter expr(status == :open and priority in ^arg(:priorities))
end
Ash.Query.for_read/4
The following steps are performed when you call Ash.Query.for_read/4
.
- Gather Process Context
- Cast input arguments -
Ash.Resource.Dsl.actions.read.argument
- Set default argument values -
d:Ash.Resource.Dsl.actions.read.argument.default
Add errors for missing required arguments .
d:Ash.Resource.Dsl.actions.read.argument.allow_nil?
Run query preparations .
d:Ash.Resource.Dsl.actions.read.prepare
Add action filter .
d:Ash.Resource.Dsl.actions.read.filter
Running the Read Action
If the query has not yet been run through Ash.Query.for_read/3
for the action in question, we do that first. Then we perform the following steps. These steps are trimmed down, and are aimed at helping users understand the general flow. Some steps are omitted.
- Run
Ash.Query.for_read/3
if it has not already been run - Apply tenant filters for attribute
- Apply pagination options
- Run before action hooks
- Multi-datalayer filter is synthesized. We run queries in other data layers to fetch ids and translate related filters to
(destination_field in ^ids)
- Strict Check & Filter Authorization is run
- Data layer query is built and validated
- Data layer query is Run
- Authorizer "runtime" checks are run (you likely do not have any of these)
The following steps happen asynchronously during or after the main data layer query has been run
- If paginating and count was requested, the count is determined at the same time as the query is run.
- Any calculations & aggregates that were able to be run outside of the main query are run
- Any relationships are loaded
create-update-destroy-actions
Create/Update/Destroy Actions
These actions operate on an Ash.Changeset
. While standard destroy actions don't care about the changes you add to a changeset, you may mark a destroy action as Ash.Resource.Dsl.actions.destroy.soft?
, which means you will be performing an update that will in some way "hide" the resource. Generally this hiding is done by adding a d:Ash.Resource.Dsl.resource.base_filter
i.e base_filter [is_nil: :archived_at]
Here is an example create action:
create :register do
# By default all public attributes are accepted, but this should only take email
accept [:email]
# Accept additional input by adding arguments
argument :password, :string do
allow_nil? false
end
argument :password_confirmation, :string do
allow_nil? false
end
# Use the built in `confirm/2` validation
validate confirm(:password, :password_confirmation)
# Call a custom change that will hash the password
change MyApp.User.Changes.HashPassword
end
Changesets for actions
The following steps are run when calling Ash.Changeset.for_create/4
, Ash.Changeset.for_update/4
or Ash.Changeset.for_destroy/4
.
- Gather process context
Cast input params | This is any arguments in addition to any accepted attributes
- Set argument defaults
- Require any missing arguments
- Validate all provided attributes are accepted
- Require any accepted attributes that are
allow_nil?
false - Set any default values for attributes
- Run action changes & validations
- Run validations, or add them in
before_action
hooks if usingAsh.Resource.Dsl.actions.create.validate.before_action?
. Any global validations are skipped if the action hasskip_global_validations?
set totrue
.
Running the Create/Update/Destroy Action
All of these actions are run in a transaction if the data layer supports it. You can opt out of this behavior by supplying transaction?: false
when creating the action. When an action is being run in a transaction, all steps inside of it are serialized, because generally speaking, transactions cannot be split across processes.
- Authorization is performed on the changes
- A before action hook is added to set up belongs_to relationships that are managed. This means potentially creating/modifying the destination of the relationship, and then changing the
destination_attribute
of the relationship. - Before transaction hooks are called (
Ash.Changeset.before_transaction/2
). Keep in mind, any validations that are marked asbefore_action? true
(or all global validations if your action hasdelay_global_validations? true
) will not have happened at this point. - A transaction is opened if the action is configured for it (by default they are) and the data layer supports transactions
- Before action hooks are performed in reverse order they were added. (unless
append?
option was used) - For manual actions, a before action hook must have set
- After action hooks are performed in the order they were added (unless
prepend?
option was used) - For Manual Actions, one of these after action hooks must have returned a result, otherwise an error is returned.
- Non-belongs-to relationships are managed, creating/updating/destroying related records.
- A transaction is opened if the action is configured for it (by default they are) and the data layer supports transactions
- If an
after_action
option was passed when running the action, it is run with the changeset and the result. Only supported for create & update actions. - The transaction is closed, if one was opened
- After transaction hooks are invoked with the result of the transaction (even if it was an error)