/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
use bluetooth_traits::{BluetoothCharacteristicMsg, BluetoothDescriptorMsg};
use bluetooth_traits::{BluetoothRequest, BluetoothResponse, BluetoothServiceMsg};
use dom::bindings::cell::DOMRefCell;
use dom::bindings::codegen::Bindings::BluetoothDeviceBinding;
use dom::bindings::codegen::Bindings::BluetoothDeviceBinding::BluetoothDeviceMethods;
use dom::bindings::codegen::Bindings::BluetoothRemoteGATTServerBinding::BluetoothRemoteGATTServerMethods;
use dom::bindings::codegen::Bindings::EventHandlerBinding::EventHandlerNonNull;
use dom::bindings::error::Error;
use dom::bindings::error::ErrorResult;
use dom::bindings::inheritance::Castable;
use dom::bindings::js::{JS, MutNullableJS, Root};
use dom::bindings::reflector::{DomObject, reflect_dom_object};
use dom::bindings::str::DOMString;
use dom::bluetooth::{AsyncBluetoothListener, Bluetooth, response_async};
use dom::bluetoothcharacteristicproperties::BluetoothCharacteristicProperties;
use dom::bluetoothremotegattcharacteristic::BluetoothRemoteGATTCharacteristic;
use dom::bluetoothremotegattdescriptor::BluetoothRemoteGATTDescriptor;
use dom::bluetoothremotegattserver::BluetoothRemoteGATTServer;
use dom::bluetoothremotegattservice::BluetoothRemoteGATTService;
use dom::eventtarget::EventTarget;
use dom::globalscope::GlobalScope;
use dom::promise::Promise;
use dom_struct::dom_struct;
use ipc_channel::ipc::{self, IpcSender};
use js::jsapi::JSContext;
use std::cell::Cell;
use std::collections::HashMap;
use std::rc::Rc;
// https://webbluetoothcg.github.io/web-bluetooth/#bluetoothdevice
#[dom_struct]
pub struct BluetoothDevice {
eventtarget: EventTarget,
id: DOMString,
name: Option<DOMString>,
gatt: MutNullableJS<BluetoothRemoteGATTServer>,
context: JS<Bluetooth>,
attribute_instance_map: (DOMRefCell<HashMap<String, JS<BluetoothRemoteGATTService>>>,
DOMRefCell<HashMap<String, JS<BluetoothRemoteGATTCharacteristic>>>,
DOMRefCell<HashMap<String, JS<BluetoothRemoteGATTDescriptor>>>),
watching_advertisements: Cell<bool>,
}
impl BluetoothDevice {
pub fn new_inherited(id: DOMString,
name: Option<DOMString>,
context: &Bluetooth)
-> BluetoothDevice {
BluetoothDevice {
eventtarget: EventTarget::new_inherited(),
id: id,
name: name,
gatt: Default::default(),
context: JS::from_ref(context),
attribute_instance_map: (DOMRefCell::new(HashMap::new()),
DOMRefCell::new(HashMap::new()),
DOMRefCell::new(HashMap::new())),
watching_advertisements: Cell::new(false),
}
}
pub fn new(global: &GlobalScope,
id: DOMString,
name: Option<DOMString>,
context: &Bluetooth)
-> Root<BluetoothDevice> {
reflect_dom_object(box BluetoothDevice::new_inherited(id,
name,
context),
global,
BluetoothDeviceBinding::Wrap)
}
pub fn get_gatt(&self) -> Root<BluetoothRemoteGATTServer> {
self.gatt.or_init(|| {
BluetoothRemoteGATTServer::new(&self.global(), self)
})
}
fn get_context(&self) -> Root<Bluetooth> {
Root::from_ref(&self.context)
}
pub fn get_or_create_service(&self,
service: &BluetoothServiceMsg,
server: &BluetoothRemoteGATTServer)
-> Root<BluetoothRemoteGATTService> {
let (ref service_map_ref, _, _) = self.attribute_instance_map;
let mut service_map = service_map_ref.borrow_mut();
if let Some(existing_service) = service_map.get(&service.instance_id) {
return Root::from_ref(&existing_service);
}
let bt_service = BluetoothRemoteGATTService::new(&server.global(),
&server.Device(),
DOMString::from(service.uuid.clone()),
service.is_primary,
service.instance_id.clone());
service_map.insert(service.instance_id.clone(), JS::from_ref(&bt_service));
return bt_service;
}
pub fn get_or_create_characteristic(&self,
characteristic: &BluetoothCharacteristicMsg,
service: &BluetoothRemoteGATTService)
-> Root<BluetoothRemoteGATTCharacteristic> {
let (_, ref characteristic_map_ref, _) = self.attribute_instance_map;
let mut characteristic_map = characteristic_map_ref.borrow_mut();
if let Some(existing_characteristic) = characteristic_map.get(&characteristic.instance_id) {
return Root::from_ref(&existing_characteristic);
}
let properties =
BluetoothCharacteristicProperties::new(&service.global(),
characteristic.broadcast,
characteristic.read,
characteristic.write_without_response,
characteristic.write,
characteristic.notify,
characteristic.indicate,
characteristic.authenticated_signed_writes,
characteristic.reliable_write,
characteristic.writable_auxiliaries);
let bt_characteristic = BluetoothRemoteGATTCharacteristic::new(&service.global(),
service,
DOMString::from(characteristic.uuid.clone()),
&properties,
characteristic.instance_id.clone());
characteristic_map.insert(characteristic.instance_id.clone(), JS::from_ref(&bt_characteristic));
return bt_characteristic;
}
pub fn is_represented_device_null(&self) -> bool {
let (sender, receiver) = ipc::channel().unwrap();
self.get_bluetooth_thread().send(
BluetoothRequest::IsRepresentedDeviceNull(self.Id().to_string(), sender)).unwrap();
receiver.recv().unwrap()
}
pub fn get_or_create_descriptor(&self,
descriptor: &BluetoothDescriptorMsg,
characteristic: &BluetoothRemoteGATTCharacteristic)
-> Root<BluetoothRemoteGATTDescriptor> {
let (_, _, ref descriptor_map_ref) = self.attribute_instance_map;
let mut descriptor_map = descriptor_map_ref.borrow_mut();
if let Some(existing_descriptor) = descriptor_map.get(&descriptor.instance_id) {
return Root::from_ref(&existing_descriptor);
}
let bt_descriptor = BluetoothRemoteGATTDescriptor::new(&characteristic.global(),
characteristic,
DOMString::from(descriptor.uuid.clone()),
descriptor.instance_id.clone());
descriptor_map.insert(descriptor.instance_id.clone(), JS::from_ref(&bt_descriptor));
return bt_descriptor;
}
fn get_bluetooth_thread(&self) -> IpcSender<BluetoothRequest> {
self.global().as_window().bluetooth_thread()
}
// https://webbluetoothcg.github.io/web-bluetooth/#clean-up-the-disconnected-device
#[allow(unrooted_must_root)]
pub fn clean_up_disconnected_device(&self) {
// Step 1.
self.get_gatt().set_connected(false);
// TODO: Step 2: Implement activeAlgorithms internal slot for BluetoothRemoteGATTServer.
// Step 3: We don't need `context`, we get the attributeInstanceMap from the device.
// https://github.com/WebBluetoothCG/web-bluetooth/issues/330
// Step 4.
let mut service_map = self.attribute_instance_map.0.borrow_mut();
let service_ids = service_map.drain().map(|(id, _)| id).collect();
let mut characteristic_map = self.attribute_instance_map.1.borrow_mut();
let characteristic_ids = characteristic_map.drain().map(|(id, _)| id).collect();
let mut descriptor_map = self.attribute_instance_map.2.borrow_mut();
let descriptor_ids = descriptor_map.drain().map(|(id, _)| id).collect();
// Step 5, 6.4, 7.
// TODO: Step 6: Implement `active notification context set` for BluetoothRemoteGATTCharacteristic.
let _ = self.get_bluetooth_thread().send(
BluetoothRequest::SetRepresentedToNull(service_ids, characteristic_ids, descriptor_ids));
// Step 8.
self.upcast::<EventTarget>().fire_bubbling_event(atom!("gattserverdisconnected"));
}
// https://webbluetoothcg.github.io/web-bluetooth/#garbage-collect-the-connection
#[allow(unrooted_must_root)]
pub fn garbage_collect_the_connection(&self) -> ErrorResult {
// Step 1: TODO: Check if other systems using this device.
// Step 2.
let context = self.get_context();
for (id, device) in context.get_device_map().borrow().iter() {
// Step 2.1 - 2.2.
if id == &self.Id().to_string() {
if device.get_gatt().Connected() {
return Ok(());
}
// TODO: Step 2.3: Implement activeAlgorithms internal slot for BluetoothRemoteGATTServer.
}
}
// Step 3.
let (sender, receiver) = ipc::channel().unwrap();
self.get_bluetooth_thread().send(
BluetoothRequest::GATTServerDisconnect(String::from(self.Id()), sender)).unwrap();
receiver.recv().unwrap().map_err(Error::from)
}
}
impl BluetoothDeviceMethods for BluetoothDevice {
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-id
fn Id(&self) -> DOMString {
self.id.clone()
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-name
fn GetName(&self) -> Option<DOMString> {
self.name.clone()
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-gatt
fn GetGatt(&self) -> Option<Root<BluetoothRemoteGATTServer>> {
// Step 1.
if self.global().as_window().bluetooth_extra_permission_data()
.allowed_devices_contains_id(self.id.clone()) && !self.is_represented_device_null() {
return Some(self.get_gatt())
}
// Step 2.
None
}
#[allow(unrooted_must_root)]
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-watchadvertisements
fn WatchAdvertisements(&self) -> Rc<Promise> {
let p = Promise::new(&self.global());
let sender = response_async(&p, self);
// TODO: Step 1.
// Note: Steps 2 - 3 are implemented in components/bluetooth/lib.rs in watch_advertisements function
// and in handle_response function.
self.get_bluetooth_thread().send(
BluetoothRequest::WatchAdvertisements(String::from(self.Id()), sender)).unwrap();
return p;
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-unwatchadvertisements
fn UnwatchAdvertisements(&self) {
// Step 1.
self.watching_advertisements.set(false)
// TODO: Step 2.
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-watchingadvertisements
fn WatchingAdvertisements(&self) -> bool {
self.watching_advertisements.get()
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdeviceeventhandlers-ongattserverdisconnected
event_handler!(gattserverdisconnected, GetOngattserverdisconnected, SetOngattserverdisconnected);
}
impl AsyncBluetoothListener for BluetoothDevice {
fn handle_response(&self, response: BluetoothResponse, promise_cx: *mut JSContext, promise: &Rc<Promise>) {
match response {
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-unwatchadvertisements
BluetoothResponse::WatchAdvertisements(_result) => {
// Step 3.1.
self.watching_advertisements.set(true);
// Step 3.2.
promise.resolve_native(promise_cx, &());
},
_ => promise.reject_error(promise_cx, Error::Type("Something went wrong...".to_owned())),
}
}
}