§Play Slick Migration Guide
This is a guide for migrating from Play Slick v0.8 to v1.0.
It assumes you have already migrated your project to use Play 2.4 (see Play 2.4 Migration Guide), that you have read the Slick 3.0 documentation, and are ready to migrate your Play application to use the new Slick Database I/O Actions API.
§Build changes
Update the Play Slick dependency in your sbt build to match the version provided in the Setup section.
§Removed H2 database dependency
Previous releases of Play Slick used to bundle the H2 database library. That’s no longer the case. Hence, if you want to use H2 you will need to explicitly add it to your project’s dependencies:
"com.h2database" % "h2" % "${H2_VERSION}" // replace `${H2_VERSION}` with an actual version number
§Evolutions support in a separate module
Support for database evolutions used to be included with Play Slick. That’s no longer the case. Therefore, if you are using evolutions, you now need to add an additional dependency to play-slick-evolutions
as explained here.
While, if you are not using evolutions, you can now safely remove evolutionplugin=disabled
from your application.conf
.
§Database configuration
With the past releases of Slick Play (which used Slick 2.1 or earlier), you used to configure Slick datasources exactly like you would configure Play JDBC datasources. This is no longer the case, and the following configuration will now be ignored by Play Slick:
db.default.driver=org.h2.Driver
db.default.url="jdbc:h2:mem:play"
db.default.user=sa
db.default.password=""
There are several reasons for this change. First, the above is not a valid Slick configuration. Second, in Slick 3 you configure not just the datasource, but also both a connection pool and a thread pool. Therefore, it makes sense for Play Slick to use an entirely different path for configuring Slick databases. The default path for Slick configuration is now slick.dbs
.
Here is how you would need to migrate the above configuration:
slick.dbs.default.driver=slick.driver.H2Driver$ # You must provide the required Slick driver!
slick.dbs.default.db.driver=org.h2.Driver
slick.dbs.default.db.url="jdbc:h2:mem:play"
slick.dbs.default.db.user=sa
slick.dbs.default.db.password=""
Note: If your database configuration contains settings for the connection pool, be aware that you will need to migrate those settings as well. However, this may be a bit trickier, because Play 2.3 default connection pool used to be BoneCP, while the default Slick 3 connection pool is HikariCP. Read here for how to configure the connection pool.
§Automatic Slick driver detection
Play Slick used to automatically infer the needed Slick driver from the datasource configuration. This feature was removed, hence you must provide the Slick driver to use, for each Slick database configuration, in your application.conf.
The rationale for removing this admittedly handy feature is that we want to accept only valid Slick configurations. Furthermore, it’s not always possible to automatically detect the correct Slick driver from the database configuration (if this was possible, then Slick would already provide such functionality).
Therefore, you will need to make the following changes:
- Each of your Slick database configuration must provide the Slick driver (see here for an example of how to migrate your database configuration).
- Remove all imports to
import play.api.db.slick.Config.driver.simple._
. - Read here for how to lookup the Slick driver and database instances (which are needed to use the new Slick 3 Database I/O Actions API).
§DBAction
and DBSessionRequest
were removed
Play Slick used to provide a DBAction
that was useful for:
- Conveniently pass the Slick
Session
into your Action method. - Execute the action’s body, and hence any blocking call to the database, in a separate thread pool.
- Limiting the number of blocking requests queued in the thread pool (useful to limit application’s latency)
DBAction
was indeed handy when using Slick 2.1. However, with the new Slick 3 release, we don’t need it anymore. The reason is that Slick 3 comes with a new asynchronous API (a.k.a., Database I/O Actions API) that doesn’t need the user to manipulate neither a Session
nor a Connection
. This makes DBSessionRequest
and DBAction
, together with its close friends CurrentDBAction
and PredicatedDBAction
, completely obsolete, which is why they have been removed.
Having said that, migrating your code should be as simple as changing all occurrences of DBAction
and friends, with the standard Play Action.async
. Click here for an example.
§Thread Pool
Play Slick used to provide a separate thread pool for executing controller’s actions requiring to access a database. Slick 3 already does exactly this, hence there is no longer a need for Play Slick to create and manage additional thread pools. It follows that the below configuration parameter are effectively obsolete and should be removed from your applications.conf:
db.$dbName.maxQueriesPerRequest
slick.db.execution.context
The parameter db.$dbName.maxQueriesPerRequest
was used to limit the number of tasks queued in the thread pool. In Slick 3 you can reach similar results by tuning the configuration parameters numThreads
and queueSize
. Read the Slick ScalaDoc for Database.forConfig (make sure to expand the forConfig
row in the doc).
While the parameter slick.db.execution.context
was used to name the thread pools created by Play Slick. In Slick 3, each thread pool is named using the Slick database configuration path, i.e., if in your application.conf you have provided a Slick configuration for the database named default
, then Slick will create a thread pool named default
for executing the database action on the default database. Note that the name used for the thread pool is not configurable.
§Profile
was removed
The trait Profile
was removed and you can use instead HasDatabaseConfigProvider
or HasDatabaseConfig
with similar results.
The trait to use depend on what approach you select to retrieve a Slick database and driver (i.e., an instance of DatabaseConfig
). If you decide to use dependency injection, then HasDatabaseConfigProvider
will serve you well. Otherwise, use HasDatabaseConfig
.
Read here for a discussion of how to use dependency injection vs global lookup to retrieve an instance of DatabaseConfig
.
§Database
was removed
The object Database
was removed. To retrieve a Slick database and driver (i.e., an instance of DatabaseConfig
) read here.
§Config
was removed
The Config
object, together with SlickConfig
and DefaultSlickConfig
, were removed. These abstractions are simply not needed. If you used to call Config.driver
or Config.datasource
to retrieve the Slick driver and database, you should now use DatabaseConfigProvider
. Read here for details.
§SlickPlayIteratees
was removed
If you were using SlickPlayIteratees.enumerateSlickQuery
to stream data from the database, you will be happy to know that doing so became a lot easier. Slick 3 implements the reactive-streams SPI, and Play 2.4 provides a utility class to handily convert a reactive stream into a Play enumerator.
In Slick, you can obtain a reactive stream by calling the method stream
on a Slick database instance (instead of the eager run
). To convert the stream into an enumerator simply call play.api.libs.streams.Streams.publisherToEnumerator
, passing the stream in argument.
For a full example, have a look at this sample projet.
§DDL support was removed
Previous versions of Play Slick included a DDL plugin which would read your Slick tables definitions, and automatically creates schema updates on reload. While this is an interesting and useful feature, the underlying implementation was fragile, and and relied on the assumption that your tables would be accessible via a module (i.e., a Scala object
). This coding pattern was possible because Play Slick allowed to import the Slick driver available via a top-level import. However, because support for automatic detection of the Slick driver was removed, you will not declare a top-level import for the Slick driver. This implies that Slick tables will no longer be accessible via a module. This fact breaks the assumption made in the initial implementation of the DDL plugin, and it’s the reason why the feature was removed.
The consequence of the above is that you are in charge of creating and managing your project’s database schema. Therefore, whenever you make a change a Slick table in the code, make sure to also update the database schema. If you find it tedious to manually keep in sync your database schema and the related table definition in your code, you may want to have a look at the code generation feature available in Slick.