mbed-os-examples
This example creates and updates a standard Battery Level service containing a single GATT characteristic. The battery service transmits a device's battery level in percentage, with 100% being a fully charged battery and 0% being a fully drained battery. The canonical source for this example lives at https://github.com/ARMmbed/mbed-os-example-ble/tree/master/BLE_BatteryLevel
This example creates and updates a standard Battery Level service containing a single GATT characteristic.
The battery service transmits a device's battery level in percentage, with 100% being a fully charged battery and 0% being a fully drained battery.
Although the sample application runs on a BLE device, it doesn't show the device's real battery level (because that changes very slowly and will make for a dull example). Instead, it transmits a fake battery level that starts at 50% (half charged). Every half second, it increments the battery level, going in single increments until reaching 100% (as if the battery is charging). It then drops down to 20% to start incrementing again.
Running the application
Requirements
The sample application can be seen on any BLE scanner on a smartphone. If you don't have a scanner on your phone, please install :
- nRF Master Control Panel for Android.
- LightBlue for iPhone.
Hardware requirements are in the main readme.
Building instructions
Building with mbed CLI
If you'd like to use mbed CLI to build this, then you should refer to the main readme. The instructions here relate to using the developer.mbed.org Online Compiler
In order to build this example in the mbed Online Compiler, first import the example using the ‘Import’ button on the right hand side.
Next, select a platform to build for. This must either be a platform that supports BLE, for example the NRF51-DK, or one of the following:
List of platforms supporting Bluetooth Low Energy
Or you must also add a piece of hardware and the supporting library that includes a Bluetooth Low Energy driver for that hardware, for example the K64F or NUCLEO_F401RE with the X-NUCLEO-IDB05A1
List of components supporting Bluetooth Low Energy.
Once you have selected your platform, compile the example and drag and drop the resulting binary onto your board.
For general instructions on using the mbed Online Compiler, please see the mbed Handbook
Checking for success
Note: Screens captures depicted below show what is expected from this example if the scanner used is nRF Master Control Panel version 4.0.5. If you encounter any difficulties consider trying another scanner or another version of nRF Master Control Panel. Alternative scanners may require reference to their manuals.
- Build the application and install it on your board as explained in the building instructions.
- Open the BLE scanner on your phone.
- Start a scan.
figure 1 How to start scan using nRF Master Control Panel 4.0.5
- Find your device; it should be named `BATTERY`.
figure 2 Scan results using nRF Master Control Panel 4.0.5
- Establish a connection with your device.
figure 3 How to establish a connection using Master Control Panel 4.0.5
- Discover the services and the characteristics on the device. The *Battery service* has the UUID 0x180F and includes the *Battery level* characteristic which has the UUID 0x2A19.
figure 4 Representation of the Battery service using Master Control Panel 4.0.5
- Register for the notifications sent by the *Battery level* characteristic.
figure 5 How to register to notifications using Master Control Panel 4.0.5
- You should see the battery level value change every half second. It begins at 50, goes up to 100 (in steps of 1), resets to 20 and so on.
figure 6 Notifications view using Master Control Panel 4.0.5
If you can see the characteristic, and if its value is incrementing correctly, the application is working properly.
source/main.cpp
- Committer:
- mbed_official
- Date:
- 2017-11-07
- Revision:
- 48:5d8484f69181
- Parent:
- 46:6b66d08f304e
- Child:
- 76:e489712bcbcf
File content as of revision 48:5d8484f69181:
/* mbed Microcontroller Library
* Copyright (c) 2006-2014 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <events/mbed_events.h>
#include <mbed.h>
#include "ble/BLE.h"
#include "ble/Gap.h"
#include "ble/services/BatteryService.h"
DigitalOut led1(LED1, 1);
const static char DEVICE_NAME[] = "BATTERY";
static const uint16_t uuid16_list[] = {GattService::UUID_BATTERY_SERVICE};
static uint8_t batteryLevel = 50;
static BatteryService* batteryServicePtr;
static EventQueue eventQueue(/* event count */ 16 * EVENTS_EVENT_SIZE);
void disconnectionCallback(const Gap::DisconnectionCallbackParams_t *params)
{
BLE::Instance().gap().startAdvertising();
}
void updateSensorValue() {
batteryLevel++;
if (batteryLevel > 100) {
batteryLevel = 20;
}
batteryServicePtr->updateBatteryLevel(batteryLevel);
}
void blinkCallback(void)
{
led1 = !led1; /* Do blinky on LED1 while we're waiting for BLE events */
BLE &ble = BLE::Instance();
if (ble.gap().getState().connected) {
eventQueue.call(updateSensorValue);
}
}
/**
* This function is called when the ble initialization process has failled
*/
void onBleInitError(BLE &ble, ble_error_t error)
{
/* Initialization error handling should go here */
}
void printMacAddress()
{
/* Print out device MAC address to the console*/
Gap::AddressType_t addr_type;
Gap::Address_t address;
BLE::Instance().gap().getAddress(&addr_type, address);
printf("DEVICE MAC ADDRESS: ");
for (int i = 5; i >= 1; i--){
printf("%02x:", address[i]);
}
printf("%02x\r\n", address[0]);
}
/**
* Callback triggered when the ble initialization process has finished
*/
void bleInitComplete(BLE::InitializationCompleteCallbackContext *params)
{
BLE& ble = params->ble;
ble_error_t error = params->error;
if (error != BLE_ERROR_NONE) {
/* In case of error, forward the error handling to onBleInitError */
onBleInitError(ble, error);
return;
}
/* Ensure that it is the default instance of BLE */
if(ble.getInstanceID() != BLE::DEFAULT_INSTANCE) {
return;
}
ble.gap().onDisconnection(disconnectionCallback);
/* Setup primary service */
batteryServicePtr = new BatteryService(ble, batteryLevel);
/* Setup advertising */
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, (uint8_t *) uuid16_list, sizeof(uuid16_list));
ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME, (uint8_t *) DEVICE_NAME, sizeof(DEVICE_NAME));
ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
ble.gap().setAdvertisingInterval(1000); /* 1000ms */
ble.gap().startAdvertising();
printMacAddress();
}
void scheduleBleEventsProcessing(BLE::OnEventsToProcessCallbackContext* context) {
BLE &ble = BLE::Instance();
eventQueue.call(Callback<void()>(&ble, &BLE::processEvents));
}
int main()
{
eventQueue.call_every(500, blinkCallback);
BLE &ble = BLE::Instance();
ble.onEventsToProcess(scheduleBleEventsProcessing);
ble.init(bleInitComplete);
eventQueue.dispatch_forever();
return 0;
}