core-bluetooth
# ClaudeWave Editor Description This Core Bluetooth skill enables developers to build Bluetooth Low Energy workflows in Swift for iOS, covering both central role operations (scanning and connecting to peripherals) and peripheral role operations (advertising services). Use this skill when implementing direct GATT communication, managing CBCentralManager and CBPeripheral, discovering services and characteristics, handling read/write/subscribe operations, and configuring background BLE modes and state restoration.
git clone --depth 1 https://github.com/dpearson2699/swift-ios-skills /tmp/core-bluetooth && cp -r /tmp/core-bluetooth/skills/core-bluetooth ~/.claude/skills/core-bluetoothSKILL.md
# Core Bluetooth
Scan for, connect to, and exchange data with Bluetooth Low Energy (BLE) devices.
Covers the central role (scanning and connecting to peripherals), the peripheral
role (advertising services), background modes, and state restoration.
Targets Swift 6.3 / iOS 26+.
Use `accessorysetupkit` for privacy-preserving accessory discovery and setup;
use this skill for direct Core Bluetooth GATT communication.
## Contents
- [Setup](#setup)
- [Central Role: Scanning](#central-role-scanning)
- [Central Role: Connecting](#central-role-connecting)
- [Discovering Services and Characteristics](#discovering-services-and-characteristics)
- [Reading, Writing, and Notifications](#reading-writing-and-notifications)
- [Peripheral Role: Advertising](#peripheral-role-advertising)
- [Background BLE](#background-ble)
- [State Restoration](#state-restoration)
- [Common Mistakes](#common-mistakes)
- [Review Checklist](#review-checklist)
- [References](#references)
## Setup
### Info.plist Keys
| Key | Purpose |
|---|---|
| `NSBluetoothAlwaysUsageDescription` | Required. Explains why the app uses Bluetooth |
| `UIBackgroundModes` with `bluetooth-central` | Background scanning and connecting |
| `UIBackgroundModes` with `bluetooth-peripheral` | Background advertising |
### Bluetooth Authorization
Core Bluetooth has no explicit permission request API. Add
`NSBluetoothAlwaysUsageDescription`, create the manager when the app is ready for
Bluetooth access, then check `manager.authorization` and `manager.state`.
Treat `.denied` and `.restricted` as terminal until the user changes Settings;
wait for `.poweredOn` before scanning, connecting, advertising, or publishing
services.
## Central Role: Scanning
### Creating the Central Manager
Always wait for the `poweredOn` state before scanning.
```swift
import CoreBluetooth
final class BluetoothManager: NSObject, CBCentralManagerDelegate {
private var centralManager: CBCentralManager!
private var discoveredPeripheral: CBPeripheral?
override init() {
super.init()
centralManager = CBCentralManager(delegate: self, queue: nil)
}
func centralManagerDidUpdateState(_ central: CBCentralManager) {
guard central.state == .poweredOn else { return }
startScanning()
}
}
```
### Scanning for Peripherals
Scan for specific service UUIDs to save power. Pass `nil` to discover all
peripherals (not recommended in production).
```swift
let heartRateServiceUUID = CBUUID(string: "180D")
func startScanning() {
centralManager.scanForPeripherals(
withServices: [heartRateServiceUUID],
options: [CBCentralManagerScanOptionAllowDuplicatesKey: false]
)
}
func centralManager(
_ central: CBCentralManager,
didDiscover peripheral: CBPeripheral,
advertisementData: [String: Any],
rssi RSSI: NSNumber
) {
guard RSSI.intValue > -70 else { return } // Filter weak signals
// IMPORTANT: Retain the peripheral -- it will be deallocated otherwise
discoveredPeripheral = peripheral
centralManager.stopScan()
centralManager.connect(peripheral, options: nil)
}
```
## Central Role: Connecting
```swift
func centralManager(
_ central: CBCentralManager,
didConnect peripheral: CBPeripheral
) {
peripheral.delegate = self
peripheral.discoverServices([heartRateServiceUUID])
}
func centralManager(
_ central: CBCentralManager,
didDisconnectPeripheral peripheral: CBPeripheral,
timestamp: CFAbsoluteTime,
isReconnecting: Bool,
error: Error?
) {
if isReconnecting {
// System is automatically reconnecting
return
}
// Handle disconnection -- optionally reconnect
discoveredPeripheral = nil
}
```
## Discovering Services and Characteristics
Implement `CBPeripheralDelegate` to walk the service/characteristic tree.
```swift
extension BluetoothManager: CBPeripheralDelegate {
func peripheral(
_ peripheral: CBPeripheral,
didDiscoverServices error: Error?
) {
guard let services = peripheral.services else { return }
for service in services {
peripheral.discoverCharacteristics(nil, for: service)
}
}
func peripheral(
_ peripheral: CBPeripheral,
didDiscoverCharacteristicsFor service: CBService,
error: Error?
) {
guard let characteristics = service.characteristics else { return }
for characteristic in characteristics {
if characteristic.properties.contains(.notify) {
peripheral.setNotifyValue(true, for: characteristic)
}
if characteristic.properties.contains(.read) {
peripheral.readValue(for: characteristic)
}
}
}
}
```
## Reading, Writing, and Notifications
### Reading a Value
```swift
func peripheral(
_ peripheral: CBPeripheral,
didUpdateValueFor characteristic: CBCharacteristic,
error: Error?
) {
guard let data = characteristic.value else { return }
switch characteristic.uuid {
case CBUUID(string: "2A37"):
if let heartRate = parseHeartRate(data) {
print("Heart rate: \(heartRate) bpm")
}
case CBUUID(string: "2A19"):
let batteryLevel = data.first.map { Int($0) } ?? 0
print("Battery: \(batteryLevel)%")
default:
break
}
}
private func parseHeartRate(_ data: Data) -> Int? {
guard data.count >= 2 else { return nil }
let flags = data[0]
let is16Bit = (flags & 0x01) != 0
if is16Bit {
guard data.count >= 3 else { return nil }
return Int(data[1]) | (Int(data[2]) << 8)
} else {
return Int(data[1])
}
}
```
### Writing a Value
```swift
func writeValue(_ data: Data, to characteristic: CBCharacteristic,
on peripheral: CBPeripheral,
preferResponse: Bool = true) {
let type: CBCharacteristicWriteType
if preferResponse, characteristic.properties.contains(.write) {
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