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actix-website/content/docs/databases.md

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---
title: Databases
menu: docs_patterns
weight: 1010
---
# Diesel
At the moment, Diesel 1.0 does not support asynchronous operations,
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but it's possible to use the `actix` synchronous actor system as a database interface api.
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Technically, sync actors are worker style actors. Multiple sync actors
can be run in parallel and process messages from same queue. Sync actors work in mpsc mode.
Let's create a simple database api that can insert a new user row into a SQLite table.
We must define a sync actor and a connection that this actor will use. The same approach
can be used for other databases.
```rust
use actix::prelude::*;
struct DbExecutor(SqliteConnection);
impl Actor for DbExecutor {
type Context = SyncContext<Self>;
}
```
This is the definition of our actor. Now, we must define the *create user* message and response.
```rust
struct CreateUser {
name: String,
}
impl Message for CreateUser {
type Result = Result<User, Error>;
}
```
We can send a `CreateUser` message to the `DbExecutor` actor, and as a result, we will receive a
`User` model instance. Next, we must define the handler implementation for this message.
```rust
impl Handler<CreateUser> for DbExecutor {
type Result = Result<User, Error>;
fn handle(&mut self, msg: CreateUser, _: &mut Self::Context) -> Self::Result
{
use self::schema::users::dsl::*;
// Create insertion model
let uuid = format!("{}", uuid::Uuid::new_v4());
let new_user = models::NewUser {
id: &uuid,
name: &msg.name,
};
// normal diesel operations
diesel::insert_into(users)
.values(&new_user)
.execute(&self.0)
.expect("Error inserting person");
let mut items = users
.filter(id.eq(&uuid))
.load::<models::User>(&self.0)
.expect("Error loading person");
Ok(items.pop().unwrap())
}
}
```
That's it! Now, we can use the *DbExecutor* actor from any http handler or middleware.
All we need is to start *DbExecutor* actors and store the address in a state where http handler
can access it.
```rust
/// This is state where we will store *DbExecutor* address.
struct State {
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db: Addr<DbExecutor>,
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}
fn main() {
let sys = actix::System::new("diesel-example");
// Start 3 parallel db executors
let addr = SyncArbiter::start(3, || {
DbExecutor(SqliteConnection::establish("test.db").unwrap())
});
// Start http server
HttpServer::new(move || {
App::with_state(State{db: addr.clone()})
.resource("/{name}", |r| r.method(Method::GET).a(index))})
.bind("127.0.0.1:8080").unwrap()
.start().unwrap();
println!("Started http server: 127.0.0.1:8080");
let _ = sys.run();
}
```
We will use the address in a request handler. The handle returns a future object;
thus, we receive the message response asynchronously.
`Route::a()` must be used for async handler registration.
```rust
/// Async handler
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fn index(req: &HttpRequest<State>) -> Box<Future<Item=HttpResponse, Error=Error>> {
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let name = &req.match_info()["name"];
// Send message to `DbExecutor` actor
req.state().db.send(CreateUser{name: name.to_owned()})
.from_err()
.and_then(|res| {
match res {
Ok(user) => Ok(HttpResponse::Ok().json(user)),
Err(_) => Ok(HttpResponse::InternalServerError().into())
}
})
.responder()
}
```
> A full example is available in the
> [examples directory](https://github.com/actix/examples/tree/master/diesel/).
> More information on sync actors can be found in the
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> [actix documentation](https://docs.rs/actix/0.7.0/actix/sync/index.html).