Expand description
§zbus
This is the main subcrate of the zbus project, that provides the API to interact with D-Bus. It takes care of the establishment of a connection, the creation, sending and receiving of different kind of D-Bus messages (method calls, signals etc) for you.
Status: Stable.
§Getting Started
The best way to get started with zbus is the book, where we start with basic D-Bus concepts and explain with code samples, how zbus makes D-Bus easy.
§Example code
We’ll create a simple D-Bus service and client to demonstrate the usage of zbus. Note that these
examples assume that a D-Bus broker is setup on your machine and you’ve a session bus running
(DBUS_SESSION_BUS_ADDRESS
environment variable must be set). This is guaranteed to be the case on
a typical Linux desktop session.
§Service
A simple service that politely greets whoever calls its SayHello
method:
use std::{error::Error, future::pending};
use zbus::{connection, interface};
struct Greeter {
count: u64
}
#[interface(name = "org.zbus.MyGreeter1")]
impl Greeter {
// Can be `async` as well.
fn say_hello(&mut self, name: &str) -> String {
self.count += 1;
format!("Hello {}! I have been called {} times.", name, self.count)
}
}
// Although we use `tokio` here, you can use any async runtime of choice.
#[tokio::main]
async fn main() -> Result<(), Box<dyn Error>> {
let greeter = Greeter { count: 0 };
let _conn = connection::Builder::session()?
.name("org.zbus.MyGreeter")?
.serve_at("/org/zbus/MyGreeter", greeter)?
.build()
.await?;
// Do other things or go to wait forever
pending::<()>().await;
Ok(())
}
You can use the following command to test it:
$ busctl --user call org.zbus.MyGreeter /org/zbus/MyGreeter org.zbus.MyGreeter1 SayHello s "Maria"
s "Hello Maria! I have been called 1 times."
§Client
Now let’s write the client-side code for MyGreeter
service:
use zbus::{Connection, Result, proxy};
#[proxy(
interface = "org.zbus.MyGreeter1",
default_service = "org.zbus.MyGreeter",
default_path = "/org/zbus/MyGreeter"
)]
trait MyGreeter {
async fn say_hello(&self, name: &str) -> Result<String>;
}
// Although we use `tokio` here, you can use any async runtime of choice.
#[tokio::main]
async fn main() -> Result<()> {
let connection = Connection::session().await?;
// `proxy` macro creates `MyGreaterProxy` based on `Notifications` trait.
let proxy = MyGreeterProxy::new(&connection).await?;
let reply = proxy.say_hello("Maria").await?;
println!("{reply}");
Ok(())
}
§Blocking API
While zbus is primarily asynchronous (since 2.0), blocking wrappers are provided for convenience.
§Compatibility with async runtimes
zbus is runtime-agnostic and should work out of the box with different Rust async runtimes. However, in order to achieve that, zbus spawns a thread per connection to handle various internal tasks. If that is something you would like to avoid, you need to:
- Use
connection::Builder
and disable theinternal_executor
flag. - Ensure the internal executor keeps ticking continuously.
Moreover, by default zbus makes use of async-io
for all I/O, which also launches its own thread
to run its own internal executor.
§Special tokio support
Since tokio
is the most popular async runtime, zbus provides an easy way to enable tight
integration with it without you having to worry about any of the above: Enabling the tokio
feature:
# Sample Cargo.toml snippet.
[dependencies]
# Also disable the default `async-io` feature to avoid unused dependencies.
zbus = { version = "3", default-features = false, features = ["tokio"] }
That’s it! No threads launched behind your back by zbus (directly or indirectly) now and no need to tick any executors etc. 😼
Note: On Windows, the async-io
feature is currently required for UNIX domain socket support,
see the corresponding tokio issue on GitHub.
Re-exports§
pub use address::Address;
pub use message::Message;
pub use connection as conn;
pub use connection::Connection;
pub use match_rule::MatchRule;
pub use match_rule::OwnedMatchRule;
pub use proxy::Proxy;
pub use object_server::ObjectServer;
pub use zbus_names as names;
pub use zvariant;
Modules§
- D-Bus address handling.
- The blocking API.
- Connection API.
- D-Bus standard interfaces.
- Bus match rule API.
- D-Bus Message.
- The object server API.
- The client-side proxy API.
Structs§
- A D-Bus server GUID.
- A
stream::Stream
implementation that yieldsMessage
items. - Owned version of
Guid
.
Enums§
- Authentication mechanisms
- The error type for
zbus
.
Traits§
- Async equivalent of
Drop
. - A trait that needs to be implemented by error types to be returned from D-Bus methods.
Type Aliases§
- Alias for a
Result
with the error typezbus::Error
.
Attribute Macros§
- Attribute macro for implementing a D-Bus interface.
- Attribute macro for defining D-Bus proxies (using
zbus::Proxy
andzbus::blocking::Proxy
).
Derive Macros§
- Derive macro for implementing
zbus::DBusError
trait.