A Node.js BLE (Bluetooth Low Energy) central module.
Want to implement a peripheral? Check out @stoprocent/bleno.
This fork of noble
was created to introduce several key improvements and new features:
-
HCI UART Support: This version enables HCI UART communication through the
@stoprocent/node-bluetooth-hci-socket
dependency, allowing more flexible use of Bluetooth devices across platforms. -
macOS Native Bindings Fix: I have fixed the native bindings for macOS, ensuring better compatibility and performance on Apple devices.
-
New Features:
- A
setAddress
function has been added, allowing users to set the MAC address of the central device. - A
connect(...)/connectAsync(...)
function has been added, allowing users to connect directly to specific device by address/identifier without a need to prior scan. - Additionally, I plan to add raw L2CAP channel support, enhancing low-level Bluetooth communication capabilities.
If you appreciate these enhancements and the continued development of this project, please consider supporting my work.
npm install @stoprocent/noble
const noble = require('@stoprocent/noble');
// Read the battery level of the first found peripheral exposing the Battery Level characteristic
const noble = require('@stoprocent/noble');
noble.on('stateChange', async (state) => {
if (state === 'poweredOn') {
await noble.startScanningAsync(['180f'], false);
}
});
noble.on('discover', async (peripheral) => {
await noble.stopScanningAsync();
await peripheral.connectAsync();
const {characteristics} = await peripheral.discoverSomeServicesAndCharacteristicsAsync(['180f'], ['2a19']);
const batteryLevel = (await characteristics[0].readAsync())[0];
console.log(`${peripheral.address} (${peripheral.advertisement.localName}): ${batteryLevel}%`);
await peripheral.disconnectAsync();
process.exit(0);
});
const noble = require('@stoprocent/noble/with-custom-binding')({extended: true});
Please refer to https://github.com/stoprocent/node-bluetooth-hci-socket#uartserial-any-os
$ export BLUETOOTH_HCI_SOCKET_UART_PORT=/dev/tty...
$ export BLUETOOTH_HCI_SOCKET_UART_BAUDRATE=1000000
NOTE: BLUETOOTH_HCI_SOCKET_UART_BAUDRATE
defaults to 1000000
so only needed if different.
const noble = require('@stoprocent/noble');
$ export BLUETOOTH_HCI_SOCKET_FORCE_UART=1
const noble = require('@stoprocent/noble/with-custom-binding') ( {
bindParams: {
uart: {
port: '/dev/tty...',
baudRate: 1000000
}
}
} );
NOTE: There is a UART code example in the /examples
directory.
- Install Xcode
- On newer versions of OSX, allow bluetooth access on the terminal app: "System Preferences" —> "Security & Privacy" —> "Bluetooth" -> Add terminal app (see Sandboxed terminal)
- Kernel version 3.6 or above
libbluetooth-dev
needs to be installed. For instructions for specific distributions, see below.- To set the necessary privileges to run without sudo, see this section. This is required for all distributions (Raspbian, Ubuntu, Fedora, etc). You will not get any errors if running without sudo, but nothing will happen.
See the generic Linux notes above first.
sudo apt-get install bluetooth bluez libbluetooth-dev libudev-dev
Make sure node
is on your PATH
. If it's not, some options:
- Symlink
nodejs
tonode
:sudo ln -s /usr/bin/nodejs /usr/bin/node
- Install Node.js using the NodeSource package
If you are having trouble connecting to BLE devices on a Raspberry Pi, you should disable the pnat
plugin. Add the following line at the bottom of /etc/bluetooth/main.conf
:
DisablePlugins=pnat
Then restart the system.
See Issue #425 · OpenWonderLabs/homebridge-switchbot.
See the generic Linux notes above first.
sudo yum install bluez bluez-libs bluez-libs-devel
See the generic Linux notes above first.
See Configure Intel Edison for Bluetooth LE (Smart) Development.
Make sure you have GNU Make:
sudo pkg install gmake
Disable automatic loading of the default Bluetooth stack by putting no-ubt.conf into /usr/local/etc/devd/no-ubt.conf
and restarting devd (sudo service devd restart
).
Unload ng_ubt
kernel module if already loaded:
sudo kldunload ng_ubt
Make sure you have read and write permissions on the /dev/usb/*
device that corresponds to your Bluetooth adapter.
node-gyp requirements for Windows
Install the required tools and configurations using Microsoft's windows-build-tools from an elevated PowerShell or cmd.exe (run as Administrator).
npm install --global --production windows-build-tools
node-bluetooth-hci-socket prerequisites
- Compatible Bluetooth 5.0 Zephyr HCI-USB adapter (you need to add BLUETOOTH_HCI_SOCKET_USB_VID and BLUETOOTH_HCI_SOCKET_USB_PID to the process env)
- Compatible Bluetooth 4.0 USB adapter
- WinUSB driver setup for Bluetooth 4.0 USB adapter, using Zadig tool
See @don's setup guide on Bluetooth LE with Node.js and Noble on Windows
Make sure your container runs with --network=host
options and all specific environment preriquisites are verified.
npm install @stoprocent/noble
In Windows OS add your custom hci-usb dongle to the process env
set BLUETOOTH_HCI_SOCKET_USB_VID=xxx
set BLUETOOTH_HCI_SOCKET_USB_PID=xxx
const noble = require('@stoprocent/noble');
All operations have two API variants – one expecting a callback, one returning a Promise (denoted by Async
suffix).
Additionally, there are events corresponding to each operation (and a few global events).
For example, in case of the "discover services" operation of Peripheral:
- There's a
discoverServices
method expecting a callback:peripheral.discoverServices((error, services) => { // callback - handle error and services });
- There's a
discoverServicesAsync
method returning a Promise:try { const services = await peripheral.discoverServicesAsync(); // handle services } catch (e) { // handle error }
- There's a
servicesDiscover
event emitted after services are discovered:peripheral.once('servicesDiscover', (services) => { // handle services });
API structure:
- Scanning and discovery
- Reset device
- Peripheral
- Connect
- Event: Connected
- Cancel a pending connection
- Disconnect
- Event: Disconnected
- Update RSSI
- Event: RSSI updated
- Discover services
- Discover all services and characteristics
- Discover some services and characteristics
- Event: Services discovered
- Read handle
- Event: Handle read
- Write handle
- Event: Handle written
- Service
- Characteristic
- Descriptor
noble.on('stateChange', callback(state));
state
can be one of:
unknown
resetting
unsupported
unauthorized
poweredOff
poweredOn
noble.setAddress('00:11:22:33:44:55'); // set adapter's mac address
NOTE: Curently this feature is only supported on HCI as it's using vendor specific commands. Source of the commands is based on the BlueZ bdaddr.c.
NOTE: noble.state
must be poweredOn
before address can be set. noble.on('stateChange', callback(state));
can be used to listen for state change events.
noble.startScanning(); // any service UUID, no duplicates
noble.startScanning([], true); // any service UUID, allow duplicates
var serviceUUIDs = ['<service UUID 1>', ...]; // default: [] => all
var allowDuplicates = falseOrTrue; // default: false
noble.startScanning(serviceUUIDs, allowDuplicates[, callback(error)]); // particular UUIDs
NOTE: noble.state
must be poweredOn
before scanning is started. noble.on('stateChange', callback(state));
can be used to listen for state change events.
noble.on('scanStart', callback);
The event is emitted when:
- Scanning is started
- Another application enables scanning
- Another application changes scanning settings
noble.stopScanning();
noble.on('scanStop', callback);
The event is emitted when:
- Scanning is stopped
- Another application stops scanning
The connect
function is used to establish a Bluetooth Low Energy connection to a peripheral device using its UUID. It provides both callback-based and Promise-based interfaces.
// Callback-based usage
connect(peripheralUuid: string, options?: object, callback?: (error?: Error, peripheral: Peripheral) => void): void;
// Promise-based usage
connectAsync(peripheralUuid: string, options?: object): Promise<Peripheral>;
peripheralUuid
: The UUID of the peripheral to connect to.options
: Optional parameters for the connection (this may include connection interval, latency, supervision timeout, etc.).callback
: An optional callback that returns an error or the connected peripheral object.
The connect
function initiates a connection to a BLE peripheral. The function immediately returns, and the actual connection result is provided asynchronously via the callback or Promise. If the peripheral is successfully connected, a Peripheral
object representing the connected device is provided.
const noble = require('@stoprocent/noble');
// Using callback
noble.connect('1234567890abcdef', {}, (error, peripheral) => {
if (error) {
console.error('Connection error:', error);
} else {
console.log('Connected to:', peripheral.uuid);
}
});
// Using async/await
async function connectPeripheral() {
try {
const peripheral = await noble.connectAsync('1234567890abcdef');
console.log('Connected to:', peripheral.uuid);
} catch (error) {
console.error('Connection error:', error);
}
}
connectPeripheral();
noble.on('discover', callback(peripheral));
peripheral
:{ id: '<id>', address: '<BT address'>, // Bluetooth Address of device, or 'unknown' if not known addressType: '<BT address type>', // Bluetooth Address type (public, random), or 'unknown' if not known connectable: trueOrFalseOrUndefined, // true or false, or undefined if not known advertisement: { localName: '<name>', txPowerLevel: someInteger, serviceUuids: ['<service UUID>', ...], serviceSolicitationUuid: ['<service solicitation UUID>', ...], manufacturerData: someBuffer, // a Buffer serviceData: [ { uuid: '<service UUID>', data: someBuffer // a Buffer }, // ... ] }, rssi: integerValue, mtu: integerValue // MTU will be null, until device is connected and hci-socket is used };
Note: On macOS, the address will be set to '' if the device has not been connected previously.
noble.on('warning', callback(message));
noble.reset()
peripheral.connect([callback(error)]);
Some of the bluetooth devices doesn't connect seamlessly, may be because of bluetooth device firmware or kernel. Do reset the device with noble.reset() API before connect API.
peripheral.once('connect', callback);
peripheral.cancelConnect();
// Will emit a 'connect' event with error
peripheral.disconnect([callback(error)]);
peripheral.once('disconnect', callback);
peripheral.updateRssi([callback(error, rssi)]);
peripheral.once('rssiUpdate', callback(rssi));
peripheral.discoverServices(); // any service UUID
var serviceUUIDs = ['<service UUID 1>', ...];
peripheral.discoverServices(serviceUUIDs[, callback(error, services)]); // particular UUIDs
peripheral.discoverAllServicesAndCharacteristics([callback(error, services, characteristics)]);
var serviceUUIDs = ['<service UUID 1>', ...];
var characteristicUUIDs = ['<characteristic UUID 1>', ...];
peripheral.discoverSomeServicesAndCharacteristics(serviceUUIDs, characteristicUUIDs, [callback(error, services, characteristics));
peripheral.once('servicesDiscover', callback(services));
peripheral.readHandle(handle, callback(error, data));
peripheral.once('handleRead<handle>', callback(data)); // data is a Buffer
<handle>
is the handle identifier.
peripheral.writeHandle(handle, data, withoutResponse, callback(error));
peripheral.once('handleWrite<handle>', callback());
<handle>
is the handle identifier.
service.discoverIncludedServices(); // any service UUID
var serviceUUIDs = ['<service UUID 1>', ...];
service.discoverIncludedServices(serviceUUIDs[, callback(error, includedServiceUuids)]); // particular UUIDs
service.once('includedServicesDiscover', callback(includedServiceUuids));
service.discoverCharacteristics() // any characteristic UUID
var characteristicUUIDs = ['<characteristic UUID 1>', ...];
service.discoverCharacteristics(characteristicUUIDs[, callback(error, characteristics)]); // particular UUIDs
service.once('characteristicsDiscover', callback(characteristics));
characteristics
{ uuid: '<uuid>', properties: ['...'] // 'broadcast', 'read', 'writeWithoutResponse', 'write', 'notify', 'indicate', 'authenticatedSignedWrites', 'extendedProperties' };
characteristic.read([callback(error, data)]);
characteristic.on('data', callback(data, isNotification));
characteristic.once('read', callback(data, isNotification)); // legacy
Emitted when:
- Characteristic read has completed, result of
characteristic.read(...)
- Characteristic value has been updated by peripheral via notification or indication, after having been enabled with
characteristic.notify(true[, callback(error)])
Note: isNotification
event parameter value MAY be undefined
depending on platform. The parameter is deprecated after version 1.8.1, and not supported on macOS High Sierra and later.
characteristic.write(data, withoutResponse[, callback(error)]); // data is a Buffer, withoutResponse is true|false
withoutResponse
:false
: send a write request, used with "write" characteristic propertytrue
: send a write command, used with "write without response" characteristic property
characteristic.once('write', withoutResponse, callback());
Emitted when characteristic write has completed, result of characteristic.write(...)
.
characteristic.broadcast(broadcast[, callback(error)]); // broadcast is true|false
characteristic.once('broadcast', callback(state));
Emitted when characteristic broadcast state changes, result of characteristic.broadcast(...)
.
characteristic.subscribe([callback(error)]);
Subscribe to a characteristic.
Triggers data
events when peripheral sends a notification or indication. Use for characteristics with "notify" or "indicate" properties.
characteristic.once('notify', callback(state));
Emitted when characteristic notification state changes, result of characteristic.notify(...)
.
characteristic.unsubscribe([callback(error)]);
Unsubscribe from a characteristic.
Use for characteristics with "notify" or "indicate" properties
characteristic.discoverDescriptors([callback(error, descriptors)]);
characteristic.once('descriptorsDiscover', callback(descriptors));
descriptors
:[ { uuid: '<uuid>' }, // ... ]
descriptor.readValue([callback(error, data)]);
descriptor.once('valueRead', data); // data is a Buffer
descriptor.writeValue(data[, callback(error)]); // data is a Buffer
descriptor.once('valueWrite');
By default, noble will select appropriate Bluetooth device bindings based on your platform. You can provide custom bindings using the with-bindings
module.
var noble = require('@stoprocent/noble/with-bindings')(require('./my-custom-bindings'));
Run the following command:
sudo setcap cap_net_raw+eip $(eval readlink -f `which node`)
This grants the node
binary cap_net_raw
privileges, so it can start/stop BLE advertising.
Note: The above command requires setcap
to be installed.
It can be installed the following way:
- apt:
sudo apt-get install libcap2-bin
- yum:
su -c \'yum install libcap2-bin\'
hci0
is used by default.
To override, set the NOBLE_HCI_DEVICE_ID
environment variable to the interface number.
For example, to specify hci1
:
sudo NOBLE_HCI_DEVICE_ID=1 node <your file>.js
If you are using multiple HCI devices in one setup you can run two instances of noble with different binding configurations by initializing them seperatly in code:
const HCIBindings = require('@stoprocent/noble/lib/hci-socket/bindings');
const Noble = require('@stoprocent/noble/lib/noble');
const params = {
deviceId: 0,
userChannel: true,
extended: false //ble5 extended features
};
const noble = new Noble(new HCIBindings(params));
By default, noble waits for both the advertisement data and scan response data for each Bluetooth address. If your device does not use scan response, the NOBLE_REPORT_ALL_HCI_EVENTS
environment variable can be used to bypass it.
sudo NOBLE_REPORT_ALL_HCI_EVENTS=1 node <your file>.js
By default, noble will respond with an error whenever a GATT request message is received. If your intention is to use bleno in tandem with noble, the NOBLE_MULTI_ROLE
environment variable can be used to bypass this behaviour.
Note: this requires a Bluetooth 4.1 adapter.
sudo NOBLE_MULTI_ROLE=1 node <your file>.js
This limit is imposed by the Bluetooth adapter hardware as well as its firmware.
Platform | |
---|---|
OS X 10.11 (El Capitan) | 6 |
Linux/Windows - Adapter-dependent | 5 (CSR based adapter) |
On newer versions of OSX, the terminal app is sandboxed to not allow bluetooth connections by default. If you run a script that tries to access it, you will get an Abort trap: 6
error.
To enable bluetooth, go to "System Preferences" —> "Security & Privacy" —> "Bluetooth" -> Add your terminal into allowed apps.
Some BLE adapters cannot connect to a peripheral while they are scanning (examples below). You will get the following messages when trying to connect:
Sena UD-100 (Cambridge Silicon Radio, Ltd Bluetooth Dongle (HCI mode)): Error: Command disallowed
Intel Dual Band Wireless-AC 7260 (Intel Corporation Wireless 7260 (rev 73)): Error: Connection Rejected due to Limited Resources (0xd)
You need to stop scanning before trying to connect in order to solve this issue.