I'm working on an iOS app that is to read pulse oximeter data from a Bluetooth LE enabled device, using CoreBluetooth on iOS 11.4 in Swift 4.1.
I've got the CBCentralManager searching for peripherals, I find the CBPeripheral I am interested in, I verify that it has the 0x1822 Pulse Oximeter Service, as described by Bluetooth SIG here. (You may need to register with Bluetooth SIG to access that link. It's free but takes a day or two.)
After that, I connect to it, then I discover services:
func centralManager(_ central: CBCentralManager, didConnect peripheral: CBPeripheral) {
peripheral.discoverServices(nil)
}
Then in my peripheral:didDiscoverServices I discover GATT characteristics:
func peripheral(_ peripheral: CBPeripheral, didDiscoverServices error: Error?){
for service in peripheral.services ?? [] {
if service.uuid.uuidString == "1822" {
peripheral.discoverCharacteristics(nil, for: service)
}
}
}
From that I see the the following characteristics (CBCharacteristic.uuid) available: 0x2A5F, 0x2A5E, 0x2a60, and 0x2A52. I then subscribe to updates for 0x2A5F, which is PLX Continuous Measurement, which is described here:
if service.uuid.uuidString == "1822" && characteristic.uuid.uuidString == "2A5F" {
// pulseox continuous
print("[SUBSCRIBING TO UPDATES FOR SERVICE 1822 'PulseOx' for Characteristic 2A5F 'PLX Continuous']")
peripheral.setNotifyValue(true, for: characteristic)
}
I then begin to receive back 20-byte packets in my peripheral:didUpdateValueFor method:
func peripheral(_ peripheral: CBPeripheral, didUpdateValueFor characteristic: CBCharacteristic, error: Error?) {
if characteristic.service.uuid.uuidString == "1822" && characteristic.uuid.uuidString == "2A5F" {
if let data = characteristic.value {
var values = [UInt8](repeating:0, count:data.count)
data.copyBytes(to: &values, count: data.count)
}
}
}
From the reference doc you can see the first byte is a bunch of bitfields describing which optional values are included in the packet. The next 2 bytes are an SFLOAT value for the SpO2PR-Normal - SpO2 (oxygenation) reading, and the following 2 bytes are another SFLOAT value for the SpO2PR-Normal - PR (pulse rate) value.
Bluetooth SIG lists an SFLOAT as an IEEE-11073 16-bit SFLOAT here. IEEE's document on IEEE-11073 is not publicly listed, and is available for purchase, but I'd prefer to avoid that.
Any idea how to decode? I found another question on Stack Overflow referencing the normal 32-bit Float, but that question was for a different type of Float, and its answer was not applicable.