/* 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/. */
#[macro_use]
extern crate bitflags;
extern crate bluetooth_traits;
extern crate device;
extern crate ipc_channel;
extern crate servo_config;
extern crate servo_rand;
#[cfg(target_os = "linux")]
extern crate tinyfiledialogs;
extern crate uuid;
pub mod test;
use bluetooth_traits::{BluetoothCharacteristicMsg, BluetoothDescriptorMsg, BluetoothServiceMsg};
use bluetooth_traits::{BluetoothDeviceMsg, BluetoothRequest, BluetoothResponse, GATTType};
use bluetooth_traits::{BluetoothError, BluetoothResponseResult, BluetoothResult};
use bluetooth_traits::blocklist::{uuid_is_blocklisted, Blocklist};
use bluetooth_traits::scanfilter::{BluetoothScanfilter, BluetoothScanfilterSequence, RequestDeviceoptions};
use device::bluetooth::{BluetoothAdapter, BluetoothDevice, BluetoothGATTCharacteristic};
use device::bluetooth::{BluetoothGATTDescriptor, BluetoothGATTService};
use ipc_channel::ipc::{self, IpcReceiver, IpcSender};
#[cfg(target_os = "linux")]
use servo_config::opts;
use servo_config::prefs::PREFS;
use servo_rand::Rng;
use std::borrow::ToOwned;
use std::collections::{HashMap, HashSet};
use std::string::String;
use std::thread;
use std::time::Duration;
// A transaction not completed within 30 seconds shall time out. Such a transaction shall be considered to have failed.
// https://www.bluetooth.org/DocMan/handlers/DownloadDoc.ashx?doc_id=286439 (Vol. 3, page 480)
const MAXIMUM_TRANSACTION_TIME: u8 = 30;
const CONNECTION_TIMEOUT_MS: u64 = 1000;
// The discovery session needs some time to find any nearby devices
const DISCOVERY_TIMEOUT_MS: u64 = 1500;
#[cfg(target_os = "linux")]
const DIALOG_TITLE: &'static str = "Choose a device";
#[cfg(target_os = "linux")]
const DIALOG_COLUMN_ID: &'static str = "Id";
#[cfg(target_os = "linux")]
const DIALOG_COLUMN_NAME: &'static str = "Name";
bitflags! {
flags Flags: u32 {
const BROADCAST = 0b000000001,
const READ = 0b000000010,
const WRITE_WITHOUT_RESPONSE = 0b000000100,
const WRITE = 0b000001000,
const NOTIFY = 0b000010000,
const INDICATE = 0b000100000,
const AUTHENTICATED_SIGNED_WRITES = 0b001000000,
const RELIABLE_WRITE = 0b010000000,
const WRITABLE_AUXILIARIES = 0b100000000,
}
}
macro_rules! return_if_cached(
($cache:expr, $key:expr) => (
if $cache.contains_key($key) {
return $cache.get($key);
}
);
);
pub trait BluetoothThreadFactory {
fn new() -> Self;
}
impl BluetoothThreadFactory for IpcSender<BluetoothRequest> {
fn new() -> IpcSender<BluetoothRequest> {
let (sender, receiver) = ipc::channel().unwrap();
let adapter = if Some(true) == PREFS.get("dom.bluetooth.enabled").as_boolean() {
BluetoothAdapter::init()
} else {
BluetoothAdapter::init_mock()
}.ok();
thread::Builder::new().name("BluetoothThread".to_owned()).spawn(move || {
BluetoothManager::new(receiver, adapter).start();
}).expect("Thread spawning failed");
sender
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#matches-a-filter
fn matches_filter(device: &BluetoothDevice, filter: &BluetoothScanfilter) -> bool {
if filter.is_empty_or_invalid() {
return false;
}
// Step 1.
if let Some(name) = filter.get_name() {
if device.get_name().ok() != Some(name.to_string()) {
return false;
}
}
// Step 2.
if !filter.get_name_prefix().is_empty() {
if let Ok(device_name) = device.get_name() {
if !device_name.starts_with(filter.get_name_prefix()) {
return false;
}
} else {
return false;
}
}
// Step 3.
if !filter.get_services().is_empty() {
if let Ok(device_uuids) = device.get_uuids() {
for service in filter.get_services() {
if device_uuids.iter().find(|x| x == &service).is_none() {
return false;
}
}
}
}
// Step 4.
if let Some(ref manufacturer_data) = filter.get_manufacturer_data() {
let advertised_manufacturer_data = match device.get_manufacturer_data() {
Ok(data) => data,
Err(_) => return false,
};
for (ref id, &(ref prefix, ref mask)) in manufacturer_data.iter() {
if let Some(advertised_data) = advertised_manufacturer_data.get(id) {
if !data_filter_matches(advertised_data, prefix, mask) {
return false;
}
} else {
return false;
}
}
}
// Step 5.
if let Some(ref service_data) = filter.get_service_data() {
let advertised_service_data = match device.get_service_data() {
Ok(data) => data,
Err(_) => return false,
};
for (uuid, &(ref prefix, ref mask)) in service_data.iter() {
if let Some(advertised_data) = advertised_service_data.get(uuid.as_str()) {
if !data_filter_matches(advertised_data, prefix, mask) {
return false;
}
} else {
return false;
}
}
}
// Step 6.
true
}
// https://webbluetoothcg.github.io/web-bluetooth/#bluetoothdatafilterinit-matches
fn data_filter_matches(data: &[u8], prefix: &[u8], mask: &[u8]) -> bool {
// Step 1-2: No need to copy the bytes here.
// Step 3.
if data.len() < prefix.len() {
return false;
}
// Step 4.
for ((data, mask), prefix) in data.iter().zip(mask.iter()).zip(prefix.iter()) {
if data & mask != prefix & mask {
return false;
}
}
// Step 5.
true
}
fn matches_filters(device: &BluetoothDevice, filters: &BluetoothScanfilterSequence) -> bool {
if filters.has_empty_or_invalid_filter() {
return false;
}
return filters.iter().any(|f| matches_filter(device, f))
}
fn is_mock_adapter(adapter: &BluetoothAdapter) -> bool {
match adapter {
&BluetoothAdapter::Mock(_) => true,
_ => false,
}
}
pub struct BluetoothManager {
receiver: IpcReceiver<BluetoothRequest>,
adapter: Option<BluetoothAdapter>,
address_to_id: HashMap<String, String>,
service_to_device: HashMap<String, String>,
characteristic_to_service: HashMap<String, String>,
descriptor_to_characteristic: HashMap<String, String>,
cached_devices: HashMap<String, BluetoothDevice>,
cached_services: HashMap<String, BluetoothGATTService>,
cached_characteristics: HashMap<String, BluetoothGATTCharacteristic>,
cached_descriptors: HashMap<String, BluetoothGATTDescriptor>,
allowed_services: HashMap<String, HashSet<String>>,
}
impl BluetoothManager {
pub fn new(receiver: IpcReceiver<BluetoothRequest>, adapter: Option<BluetoothAdapter>) -> BluetoothManager {
BluetoothManager {
receiver: receiver,
adapter: adapter,
address_to_id: HashMap::new(),
service_to_device: HashMap::new(),
characteristic_to_service: HashMap::new(),
descriptor_to_characteristic: HashMap::new(),
cached_devices: HashMap::new(),
cached_services: HashMap::new(),
cached_characteristics: HashMap::new(),
cached_descriptors: HashMap::new(),
allowed_services: HashMap::new(),
}
}
fn start(&mut self) {
while let Ok(msg) = self.receiver.recv() {
match msg {
BluetoothRequest::RequestDevice(options, sender) => {
let _ = sender.send(self.request_device(options));
},
BluetoothRequest::GATTServerConnect(device_id, sender) => {
let _ = sender.send(self.gatt_server_connect(device_id));
},
BluetoothRequest::GATTServerDisconnect(device_id, sender) => {
let _ = sender.send(self.gatt_server_disconnect(device_id));
},
BluetoothRequest::GetGATTChildren(id, uuid, single, child_type, sender) => {
let _ = sender.send(self.get_gatt_children(id, uuid, single, child_type));
},
BluetoothRequest::ReadValue(id, sender) => {
let _ = sender.send(self.read_value(id));
},
BluetoothRequest::WriteValue(id, value, sender) => {
let _ = sender.send(self.write_value(id, value));
},
BluetoothRequest::EnableNotification(id, enable, sender) => {
let _ = sender.send(self.enable_notification(id, enable));
},
BluetoothRequest::WatchAdvertisements(id, sender) => {
let _ = sender.send(self.watch_advertisements(id));
},
BluetoothRequest::Test(data_set_name, sender) => {
let _ = sender.send(self.test(data_set_name));
},
BluetoothRequest::SetRepresentedToNull(service_ids, characteristic_ids, descriptor_ids) => {
self.remove_ids_from_caches(service_ids, characteristic_ids, descriptor_ids)
},
BluetoothRequest::IsRepresentedDeviceNull(id, sender) => {
let _ = sender.send(!self.device_is_cached(&id));
},
BluetoothRequest::GetAvailability(sender) => {
let _ = sender.send(self.get_availability());
},
BluetoothRequest::MatchesFilter(id, filters, sender) => {
let _ = sender.send(self.device_matches_filter(&id, &filters));
},
BluetoothRequest::Exit => {
break
},
}
}
}
// Test
fn test(&mut self, data_set_name: String) -> BluetoothResult<()> {
self.address_to_id.clear();
self.service_to_device.clear();
self.characteristic_to_service.clear();
self.descriptor_to_characteristic.clear();
self.cached_devices.clear();
self.cached_services.clear();
self.cached_characteristics.clear();
self.cached_descriptors.clear();
self.allowed_services.clear();
self.adapter = BluetoothAdapter::init_mock().ok();
match test::test(self, data_set_name) {
Ok(_) => return Ok(()),
Err(error) => Err(BluetoothError::Type(error.description().to_owned())),
}
}
fn remove_ids_from_caches(&mut self,
service_ids: Vec<String>,
characteristic_ids: Vec<String>,
descriptor_ids: Vec<String>) {
for id in service_ids {
self.cached_services.remove(&id);
self.service_to_device.remove(&id);
}
for id in characteristic_ids {
self.cached_characteristics.remove(&id);
self.characteristic_to_service.remove(&id);
}
for id in descriptor_ids {
self.cached_descriptors.remove(&id);
self.descriptor_to_characteristic.remove(&id);
}
}
// Adapter
pub fn get_or_create_adapter(&mut self) -> Option<BluetoothAdapter> {
let adapter_valid = self.adapter.as_ref().map_or(false, |a| a.get_address().is_ok());
if !adapter_valid {
self.adapter = BluetoothAdapter::init().ok();
}
let adapter = match self.adapter.as_ref() {
Some(adapter) => adapter,
None => return None,
};
if is_mock_adapter(adapter) && !adapter.is_present().unwrap_or(false) {
return None;
}
self.adapter.clone()
}
fn get_adapter(&mut self) -> BluetoothResult<BluetoothAdapter> {
match self.get_or_create_adapter() {
Some(adapter) => {
if !adapter.is_powered().unwrap_or(false) {
return Err(BluetoothError::NotFound);
}
return Ok(adapter);
},
None => return Err(BluetoothError::NotFound),
}
}
// Device
fn get_and_cache_devices(&mut self, adapter: &mut BluetoothAdapter) -> Vec<BluetoothDevice> {
let devices = adapter.get_devices().unwrap_or(vec!());
for device in &devices {
if let Ok(address) = device.get_address() {
if !self.address_to_id.contains_key(&address) {
let generated_id = self.generate_device_id();
self.address_to_id.insert(address, generated_id.clone());
self.cached_devices.insert(generated_id.clone(), device.clone());
self.allowed_services.insert(generated_id, HashSet::new());
}
}
}
self.cached_devices.iter().map(|(_, d)| d.clone()).collect()
}
fn get_device(&mut self, adapter: &mut BluetoothAdapter, device_id: &str) -> Option<&BluetoothDevice> {
return_if_cached!(self.cached_devices, device_id);
self.get_and_cache_devices(adapter);
return_if_cached!(self.cached_devices, device_id);
None
}
#[cfg(target_os = "linux")]
fn select_device(&mut self, devices: Vec<BluetoothDevice>, adapter: &BluetoothAdapter) -> Option<String> {
if is_mock_adapter(adapter) || opts::get().headless {
for device in devices {
if let Ok(address) = device.get_address() {
return Some(address);
}
}
return None;
}
let mut dialog_rows: Vec<String> = vec!();
for device in devices {
dialog_rows.extend_from_slice(&[device.get_address().unwrap_or("".to_string()),
device.get_name().unwrap_or("".to_string())]);
}
let dialog_rows: Vec<&str> = dialog_rows.iter()
.map(|s| s.as_ref())
.collect();
let dialog_rows: &[&str] = dialog_rows.as_slice();
if let Some(device) = tinyfiledialogs::list_dialog(DIALOG_TITLE,
&[DIALOG_COLUMN_ID, DIALOG_COLUMN_NAME],
Some(dialog_rows)) {
// The device string format will be "Address|Name". We need the first part of it.
return device.split("|").next().map(|s| s.to_string());
}
None
}
#[cfg(not(target_os = "linux"))]
fn select_device(&mut self, devices: Vec<BluetoothDevice>, _adapter: &BluetoothAdapter) -> Option<String> {
for device in devices {
if let Ok(address) = device.get_address() {
return Some(address);
}
}
None
}
fn generate_device_id(&mut self) -> String {
let mut device_id;
let mut rng = servo_rand::thread_rng();
loop {
device_id = rng.gen::<u32>().to_string();
if !self.cached_devices.contains_key(&device_id) {
break;
}
}
device_id
}
fn device_from_service_id(&self, service_id: &str) -> Option<BluetoothDevice> {
let device_id = match self.service_to_device.get(service_id) {
Some(id) => id,
None => return None,
};
match self.cached_devices.get(device_id) {
Some(d) => Some(d.clone()),
None => None,
}
}
fn device_is_cached(&self, device_id: &str) -> bool {
self.cached_devices.contains_key(device_id) && self.address_to_id.values().any(|v| v == device_id)
}
fn device_matches_filter(&mut self,
device_id: &str,
filters: &BluetoothScanfilterSequence)
-> BluetoothResult<bool> {
let mut adapter = self.get_adapter()?;
match self.get_device(&mut adapter, device_id) {
Some(ref device) => Ok(matches_filters(device, filters)),
None => Ok(false),
}
}
// Service
fn get_and_cache_gatt_services(&mut self,
adapter: &mut BluetoothAdapter,
device_id: &str)
-> Vec<BluetoothGATTService> {
let mut services = match self.get_device(adapter, device_id) {
Some(d) => d.get_gatt_services().unwrap_or(vec!()),
None => vec!(),
};
services.retain(|s| !uuid_is_blocklisted(&s.get_uuid().unwrap_or(String::new()), Blocklist::All) &&
self.allowed_services
.get(device_id)
.map_or(false, |uuids| uuids.contains(&s.get_uuid().unwrap_or(String::new()))));
for service in &services {
self.cached_services.insert(service.get_id(), service.clone());
self.service_to_device.insert(service.get_id(), device_id.to_owned());
}
services
}
fn get_gatt_service(&mut self, adapter: &mut BluetoothAdapter, service_id: &str) -> Option<&BluetoothGATTService> {
return_if_cached!(self.cached_services, service_id);
let device_id = match self.service_to_device.get(service_id) {
Some(d) => d.clone(),
None => return None,
};
self.get_and_cache_gatt_services(adapter, &device_id);
return_if_cached!(self.cached_services, service_id);
None
}
fn service_is_cached(&self, service_id: &str) -> bool {
self.cached_services.contains_key(service_id) && self.service_to_device.contains_key(service_id)
}
// Characteristic
fn get_and_cache_gatt_characteristics(&mut self,
adapter: &mut BluetoothAdapter,
service_id: &str)
-> Vec<BluetoothGATTCharacteristic> {
let mut characteristics = match self.get_gatt_service(adapter, service_id) {
Some(s) => s.get_gatt_characteristics().unwrap_or(vec!()),
None => vec!(),
};
characteristics.retain(|c| !uuid_is_blocklisted(&c.get_uuid().unwrap_or(String::new()), Blocklist::All));
for characteristic in &characteristics {
self.cached_characteristics.insert(characteristic.get_id(), characteristic.clone());
self.characteristic_to_service.insert(characteristic.get_id(), service_id.to_owned());
}
characteristics
}
fn get_gatt_characteristic(&mut self,
adapter: &mut BluetoothAdapter,
characteristic_id: &str)
-> Option<&BluetoothGATTCharacteristic> {
return_if_cached!(self.cached_characteristics, characteristic_id);
let service_id = match self.characteristic_to_service.get(characteristic_id) {
Some(s) => s.clone(),
None => return None,
};
self.get_and_cache_gatt_characteristics(adapter, &service_id);
return_if_cached!(self.cached_characteristics, characteristic_id);
None
}
fn get_characteristic_properties(&self, characteristic: &BluetoothGATTCharacteristic) -> Flags {
let mut props: Flags = Flags::empty();
let flags = characteristic.get_flags().unwrap_or(vec!());
for flag in flags {
match flag.as_ref() {
"broadcast" => props.insert(BROADCAST),
"read" => props.insert(READ),
"write-without-response" => props.insert(WRITE_WITHOUT_RESPONSE),
"write" => props.insert(WRITE),
"notify" => props.insert(NOTIFY),
"indicate" => props.insert(INDICATE),
"authenticated-signed-writes" => props.insert(AUTHENTICATED_SIGNED_WRITES),
"reliable-write" => props.insert(RELIABLE_WRITE),
"writable-auxiliaries" => props.insert(WRITABLE_AUXILIARIES),
_ => (),
}
}
props
}
fn characteristic_is_cached(&self, characteristic_id: &str) -> bool {
self.cached_characteristics.contains_key(characteristic_id) &&
self.characteristic_to_service.contains_key(characteristic_id)
}
// Descriptor
fn get_and_cache_gatt_descriptors(&mut self,
adapter: &mut BluetoothAdapter,
characteristic_id: &str)
-> Vec<BluetoothGATTDescriptor> {
let mut descriptors = match self.get_gatt_characteristic(adapter, characteristic_id) {
Some(c) => c.get_gatt_descriptors().unwrap_or(vec!()),
None => vec!(),
};
descriptors.retain(|d| !uuid_is_blocklisted(&d.get_uuid().unwrap_or(String::new()), Blocklist::All));
for descriptor in &descriptors {
self.cached_descriptors.insert(descriptor.get_id(), descriptor.clone());
self.descriptor_to_characteristic.insert(descriptor.get_id(), characteristic_id.to_owned());
}
descriptors
}
fn get_gatt_descriptor(&mut self,
adapter: &mut BluetoothAdapter,
descriptor_id: &str)
-> Option<&BluetoothGATTDescriptor> {
return_if_cached!(self.cached_descriptors, descriptor_id);
let characteristic_id = match self.descriptor_to_characteristic.get(descriptor_id) {
Some(c) => c.clone(),
None => return None,
};
self.get_and_cache_gatt_descriptors(adapter, &characteristic_id);
return_if_cached!(self.cached_descriptors, descriptor_id);
None
}
// Methods
// https://webbluetoothcg.github.io/web-bluetooth/#request-bluetooth-devices
fn request_device(&mut self,
options: RequestDeviceoptions)
-> BluetoothResponseResult {
// Step 6.
let mut adapter = self.get_adapter()?;
// Step 7.
// Note: There are no requiredServiceUUIDS, we scan for all devices.
if let Ok(ref session) = adapter.create_discovery_session() {
if session.start_discovery().is_ok() {
if !is_mock_adapter(&adapter) {
thread::sleep(Duration::from_millis(DISCOVERY_TIMEOUT_MS));
}
}
let _ = session.stop_discovery();
}
let mut matched_devices = self.get_and_cache_devices(&mut adapter);
// Step 8.
if !options.is_accepting_all_devices() {
matched_devices = matched_devices.into_iter()
.filter(|d| matches_filters(d, options.get_filters()))
.collect();
}
// Step 9.
if let Some(address) = self.select_device(matched_devices, &adapter) {
let device_id = match self.address_to_id.get(&address) {
Some(id) => id.clone(),
None => return Err(BluetoothError::NotFound),
};
let mut services = options.get_services_set();
if let Some(services_set) = self.allowed_services.get(&device_id) {
services = services_set | &services;
}
self.allowed_services.insert(device_id.clone(), services);
if let Some(device) = self.get_device(&mut adapter, &device_id) {
let message = BluetoothDeviceMsg {
id: device_id,
name: device.get_name().ok(),
};
return Ok(BluetoothResponse::RequestDevice(message));
}
}
// Step 10.
return Err(BluetoothError::NotFound);
// Step 12: Missing, because it is optional.
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattserver-connect
fn gatt_server_connect(&mut self, device_id: String) -> BluetoothResponseResult {
// Step 2.
if !self.device_is_cached(&device_id) {
return Err(BluetoothError::Network);
}
let mut adapter = self.get_adapter()?;
// Step 5.1.1.
match self.get_device(&mut adapter, &device_id) {
Some(d) => {
if d.is_connected().unwrap_or(false) {
return Ok(BluetoothResponse::GATTServerConnect(true));
}
let _ = d.connect();
for _ in 0..MAXIMUM_TRANSACTION_TIME {
match d.is_connected().unwrap_or(false) {
true => return Ok(BluetoothResponse::GATTServerConnect(true)),
false => {
if is_mock_adapter(&adapter) {
break;
}
thread::sleep(Duration::from_millis(CONNECTION_TIMEOUT_MS));
},
}
// TODO: Step 5.1.4: Use the exchange MTU procedure.
}
// Step 5.1.3.
return Err(BluetoothError::Network);
},
None => return Err(BluetoothError::NotFound),
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattserver-disconnect
fn gatt_server_disconnect(&mut self, device_id: String) -> BluetoothResult<()> {
let mut adapter = self.get_adapter()?;
match self.get_device(&mut adapter, &device_id) {
Some(d) => {
// Step 2.
if !d.is_connected().unwrap_or(true) {
return Ok(());
}
let _ = d.disconnect();
for _ in 0..MAXIMUM_TRANSACTION_TIME {
match d.is_connected().unwrap_or(true) {
true => thread::sleep(Duration::from_millis(CONNECTION_TIMEOUT_MS)),
false => return Ok(()),
}
}
return Err(BluetoothError::Network);
},
None => return Err(BluetoothError::NotFound),
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#getgattchildren
fn get_gatt_children(&mut self,
id: String,
uuid: Option<String>,
single: bool,
child_type: GATTType)
-> BluetoothResponseResult {
let mut adapter = self.get_adapter()?;
match child_type {
GATTType::PrimaryService => {
// Step 5.
if !self.device_is_cached(&id) {
return Err(BluetoothError::InvalidState);
}
// Step 6.
if let Some(ref uuid) = uuid {
if !self.allowed_services.get(&id).map_or(false, |s| s.contains(uuid)) {
return Err(BluetoothError::Security);
}
}
let mut services = self.get_and_cache_gatt_services(&mut adapter, &id);
if let Some(uuid) = uuid {
services.retain(|ref e| e.get_uuid().unwrap_or(String::new()) == uuid);
}
let mut services_vec = vec!();
for service in services {
if service.is_primary().unwrap_or(false) {
if let Ok(uuid) = service.get_uuid() {
services_vec.push(
BluetoothServiceMsg {
uuid: uuid,
is_primary: true,
instance_id: service.get_id(),
}
);
}
}
}
// Step 7.
if services_vec.is_empty() {
return Err(BluetoothError::NotFound);
}
return Ok(BluetoothResponse::GetPrimaryServices(services_vec, single));
},
GATTType::Characteristic => {
// Step 5.
if !self.service_is_cached(&id) {
return Err(BluetoothError::InvalidState);
}
// Step 6.
let mut characteristics = self.get_and_cache_gatt_characteristics(&mut adapter, &id);
if let Some(uuid) = uuid {
characteristics.retain(|ref e| e.get_uuid().unwrap_or(String::new()) == uuid);
}
let mut characteristics_vec = vec!();
for characteristic in characteristics {
if let Ok(uuid) = characteristic.get_uuid() {
let properties = self.get_characteristic_properties(&characteristic);
characteristics_vec.push(
BluetoothCharacteristicMsg {
uuid: uuid,
instance_id: characteristic.get_id(),
broadcast: properties.contains(BROADCAST),
read: properties.contains(READ),
write_without_response: properties.contains(WRITE_WITHOUT_RESPONSE),
write: properties.contains(WRITE),
notify: properties.contains(NOTIFY),
indicate: properties.contains(INDICATE),
authenticated_signed_writes: properties.contains(AUTHENTICATED_SIGNED_WRITES),
reliable_write: properties.contains(RELIABLE_WRITE),
writable_auxiliaries: properties.contains(WRITABLE_AUXILIARIES),
}
);
}
}
// Step 7.
if characteristics_vec.is_empty() {
return Err(BluetoothError::NotFound);
}
return Ok(BluetoothResponse::GetCharacteristics(characteristics_vec, single));
},
GATTType::IncludedService => {
// Step 5.
if !self.service_is_cached(&id) {
return Err(BluetoothError::InvalidState);
}
// Step 6.
let device = match self.device_from_service_id(&id) {
Some(device) => device,
None => return Err(BluetoothError::NotFound),
};
let primary_service = match self.get_gatt_service(&mut adapter, &id) {
Some(s) => s,
None => return Err(BluetoothError::NotFound),
};
let services = primary_service.get_includes(device).unwrap_or(vec!());
let mut services_vec = vec!();
for service in services {
if let Ok(service_uuid) = service.get_uuid() {
services_vec.push(
BluetoothServiceMsg {
uuid: service_uuid,
is_primary: service.is_primary().unwrap_or(false),
instance_id: service.get_id(),
}
);
}
}
if let Some(uuid) = uuid {
services_vec.retain(|ref s| s.uuid == uuid);
}
services_vec.retain(|s| !uuid_is_blocklisted(&s.uuid, Blocklist::All));
// Step 7.
if services_vec.is_empty() {
return Err(BluetoothError::NotFound);
}
return Ok(BluetoothResponse::GetIncludedServices(services_vec, single));
},
GATTType::Descriptor => {
// Step 5.
if !self.characteristic_is_cached(&id) {
return Err(BluetoothError::InvalidState);
}
// Step 6.
let mut descriptors = self.get_and_cache_gatt_descriptors(&mut adapter, &id);
if let Some(uuid) = uuid {
descriptors.retain(|ref e| e.get_uuid().unwrap_or(String::new()) == uuid);
}
let mut descriptors_vec = vec!();
for descriptor in descriptors {
if let Ok(uuid) = descriptor.get_uuid() {
descriptors_vec.push(
BluetoothDescriptorMsg {
uuid: uuid,
instance_id: descriptor.get_id(),
}
);
}
}
// Step 7.
if descriptors_vec.is_empty() {
return Err(BluetoothError::NotFound);
}
return Ok(BluetoothResponse::GetDescriptors(descriptors_vec, single));
},
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattcharacteristic-readvalue
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattdescriptor-readvalue
fn read_value(&mut self, id: String) -> BluetoothResponseResult {
// (Characteristic) Step 5.2: Missing because it is optional.
// (Descriptor) Step 5.1: Missing because it is optional.
let mut adapter = self.get_adapter()?;
// (Characteristic) Step 5.3.
let mut value = self.get_gatt_characteristic(&mut adapter, &id)
.map(|c| c.read_value().unwrap_or(vec![]));
// (Characteristic) TODO: Step 5.4: Handle all the errors returned from the read_value call.
// (Descriptor) Step 5.2.
if value.is_none() {
value = self.get_gatt_descriptor(&mut adapter, &id)
.map(|d| d.read_value().unwrap_or(vec![]));
}
// (Descriptor) TODO: Step 5.3: Handle all the errors returned from the read_value call.
match value {
// (Characteristic) Step 5.5.4.
// (Descriptor) Step 5.4.3.
Some(v) => return Ok(BluetoothResponse::ReadValue(v)),
// (Characteristic) Step 4.
// (Descriptor) Step 4.
None => return Err(BluetoothError::InvalidState),
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattcharacteristic-writevalue
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattdescriptor-writevalue
fn write_value(&mut self, id: String, value: Vec<u8>) -> BluetoothResponseResult {
// (Characteristic) Step 7.2: Missing because it is optional.
// (Descriptor) Step 7.1: Missing because it is optional.
let mut adapter = self.get_adapter()?;
// (Characteristic) Step 7.3.
let mut result = self.get_gatt_characteristic(&mut adapter, &id)
.map(|c| c.write_value(value.clone()));
// (Characteristic) TODO: Step 7.4: Handle all the errors returned from the write_value call.
// (Descriptor) Step 7.2.
if result.is_none() {
result = self.get_gatt_descriptor(&mut adapter, &id)
.map(|d| d.write_value(value.clone()));
}
// (Descriptor) TODO: Step 7.3: Handle all the errors returned from the write_value call.
match result {
Some(v) => match v {
// (Characteristic) Step 7.5.3.
// (Descriptor) Step 7.4.3.
Ok(_) => return Ok(BluetoothResponse::WriteValue(value)),
// (Characteristic) Step 7.1.
Err(_) => return Err(BluetoothError::NotSupported),
},
// (Characteristic) Step 6.
// (Descriptor) Step 6.
None => return Err(BluetoothError::InvalidState),
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattcharacteristic-startnotifications
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothremotegattcharacteristic-stopnotifications
fn enable_notification(&mut self, id: String, enable: bool) -> BluetoothResponseResult {
// (StartNotifications) Step 3 - 4.
// (StopNotifications) Step 1 - 2.
if !self.characteristic_is_cached(&id) {
return Err(BluetoothError::InvalidState);
}
// (StartNotification) TODO: Step 7: Missing because it is optional.
let mut adapter = self.get_adapter()?;
match self.get_gatt_characteristic(&mut adapter, &id) {
Some(c) => {
let result = match enable {
// (StartNotification) Step 8.
// TODO: Handle all the errors returned from the start_notify call.
true => c.start_notify(),
// (StopNotification) Step 4.
false => c.stop_notify(),
};
match result {
// (StartNotification) Step 11.
// (StopNotification) Step 5.
Ok(_) => return Ok(BluetoothResponse::EnableNotification(())),
// (StartNotification) Step 5.
Err(_) => return Err(BluetoothError::NotSupported),
}
},
// (StartNotification) Step 4.
None => return Err(BluetoothError::InvalidState),
}
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetoothdevice-watchadvertisements
fn watch_advertisements(&mut self, _device_id: String) -> BluetoothResponseResult {
// Step 2.
// TODO: Implement this when supported in lower level
return Err(BluetoothError::NotSupported);
}
// https://webbluetoothcg.github.io/web-bluetooth/#dom-bluetooth-getavailability
fn get_availability(&mut self) -> BluetoothResponseResult {
Ok(BluetoothResponse::GetAvailability(self.get_adapter().is_ok()))
}
}