7bdc40a1f6
Fixes build errors when the `native-bluetooth` feature is enable:
```
error[E0308]: mismatched types
--> components/bluetooth/bluetooth.rs:91:9
|
90 | pub async fn is_connected(&self) -> Result<bool, Box<dyn Error>> {
| ---------------------------- expected `Result<bool, Box<(dyn StdError + 'static)>>` because of return type
91 | self.peripheral.is_connected().await.map_err(Box::new)
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ expected `Result<bool, Box<dyn Error>>`, found `Result<bool, Box<Error>>`
|
= note: expected enum `Result<_, Box<(dyn StdError + 'static)>>`
found enum `Result<_, Box<btleplug::Error>>`
= help: `btleplug::Error` implements `Error` so you could box the found value and coerce it to the trait object `Box<dyn Error>`, you will have to change the expected type as well
help: use `?` to coerce and return an appropriate `Err`, and wrap the resulting value in `Ok` so the expression remains of type `Result`
|
91 | Ok(self.peripheral.is_connected().await.map_err(Box::new)?)
| +++ ++
```
Testing: `./mach build --features native-bluetooth` doesn't fail.
Signed-off-by: webbeef <me@webbeef.org>
Bluetooth
Servo-specific APIs to access Bluetooth devices.
Bluetooth related code is located in bluetooth.rs.
Implementation
Underlying dependency crates:
- Android platform: blurdroid
- Linux platform: blurz
- macOS platform: blurmac
Fakeprefixed structures: blurmock
Empty prefixed structures are located in empty.rs.
Usage
Without the bluetooth-test feature
There are three supported platforms (Android, Linux, macOS), on other platforms we fall back to a default (Empty prefixed) implementation. Each enum (BluetoothAdapter, BluetoothDevice, etc.) will contain only one variant for each targeted platform. See the following BluetoothAdapter example:
Android:
pub enum BluetoothAdapter {
Android(Arc<BluetoothAdapterAndroid>),
}
Linux:
pub enum BluetoothAdapter {
Bluez(Arc<BluetoothAdapterBluez>),
}
macOS:
pub enum BluetoothAdapter {
Mac(Arc<BluetoothAdapterMac>),
}
Unsupported platforms:
pub enum BluetoothAdapter {
Empty(Arc<BluetoothAdapterEmpty>),
}
You will have a platform specific adapter, e.g. on Android target, BluetoothAdapter::init() will create a BluetoothAdapter::Android enum variant, which wraps an Arc<BluetoothAdapterAndroid>.
pub fn init() -> Result<BluetoothAdapter, Box<Error>> {
let blurdroid_adapter = try!(BluetoothAdapterAndroid::get_adapter());
Ok(BluetoothAdapter::Android(Arc::new(blurdroid_adapter)))
}
On each platform you can call the same functions to reach the same GATT hierarchy elements. The following code can access the same Bluetooth device on all supported platforms:
use device::{BluetoothAdapter, BluetoothDevice};
fn main() {
// Get the bluetooth adapter.
let adapter = BluetoothAdpater::init().expect("No bluetooth adapter found!");
// Get a device with the id 01:2A:00:4D:00:04 if it exists.
let device = adapter.get_device("01:2A:00:4D:00:04".to_owned() /*device address*/)
.expect("No bluetooth device found!");
}
With the bluetooth-test feature
Each enum (BluetoothAdapter, BluetoothDevice, etc.) will contain one variant of the three possible default target, and a Mock variant, which wraps a Fake structure.
Android:
pub enum BluetoothAdapter {
Android(Arc<BluetoothAdapterAndroid>),
Mock(Arc<FakeBluetoothAdapter>),
}
Linux:
pub enum BluetoothAdapter {
Bluez(Arc<BluetoothAdapterBluez>),
Mock(Arc<FakeBluetoothAdapter>),
}
macOS:
pub enum BluetoothAdapter {
Mac(Arc<BluetoothAdapterMac>),
Mock(Arc<FakeBluetoothAdapter>),
}
Unsupported platforms:
pub enum BluetoothAdapter {
Empty(Arc<BluetoothAdapterEmpty>),
Mock(Arc<FakeBluetoothAdapter>),
}
Beside the platform specific structures, you can create and access mock adapters, devices, services etc. These mock structures implements all the platform specific functions too. To create a mock GATT hierarchy, first you need to call the BluetoothAdapter::init_mock() function, insted of BluetoothAdapter::init().
use device::{BluetoothAdapter, BluetoothDevice};
use std::String;
// This function takes a BluetoothAdapter,
// and print the ids of the devices, which the adapter can find.
fn print_device_ids(adapter: &BluetoothAdpater) {
let devices = match adapter.get_devices().expect("No devices on the adapter!");
for device in devices {
println!("{:?}", device.get_id());
}
}
fn main() {
// This code uses a real adapter.
// Get the bluetooth adapter.
let adapter = BluetoothAdpater::init().expect("No bluetooth adapter found!");
// Get a device with the id 01:2A:00:4D:00:04 if it exists.
let device = adapter.get_device("01:2A:00:4D:00:04".to_owned() /*device address*/)
.expect("No bluetooth device found!");
// This code uses a mock adapter.
// Creating a mock adapter.
let mock_adapter = BluetoothAdpater::init_mock().unwrap();
// Creating a mock device.
let mock_device =
BluetoothDevice::create_mock_device(mock_adapter,
"device_id_string_goes_here".to_owned())
.unwrap();
// Changing its device_id.
let new_device_id = String::from("new_device_id_string".to_owned());
mock_device.set_id(new_device_id.clone());
// Calling the get_id function must return the last id we set.
assert_equals!(new_device_id, mock_device.get_id());
// Getting the mock_device with its id
// must return the same mock device object we created before.
assert_equals!(Some(mock_device),
mock_adapter.get_device(new_device_id.clone()).unwrap());
// The print_device_ids function accept real and mock adapters too.
print_device_ids(&adapter);
print_device_ids(&mock_adapter);
}
Calling a test function on a not Mock structure, will result an error with the message: Error! Test functions are not supported on real devices!.