Bluetooth Low Energy
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Android provides built-in platform support for Bluetooth Low Energy (BLE) in the
central role and provides APIs that apps can use to discover devices, query for
services, and transmit information.
Common use cases include the following:
- Transferring small amounts of data between nearby devices.
- Interacting with proximity sensors to give users a customized experience based
on their current location.
In contrast to classic Bluetooth,
BLE is designed for significantly lower power consumption. This allows apps to
communicate with BLE devices that have stricter power requirements, such as
proximity sensors, heart rate monitors, and fitness devices.
Caution: When a user pairs their device with another device
using BLE, the data that's communicated between the two devices is
accessible to all apps on the user's device.
For this reason, if your app captures sensitive data, you should implement
app-layer security to protect the privacy of that data.
The basics
For BLE-enabled devices to transmit data between each other, they must first
form a channel of communication. Use of the Bluetooth LE APIs requires you to
declare several permissions
in your manifest file. Once your app has permission to use Bluetooth, your app
needs to access the BluetoothAdapter and
determine if Bluetooth is available on the device
If Bluetooth is available, the device will
scan for nearby BLE devices.
Once a device is found, the capabilities of the BLE device are discovered by
connecting to the GATT server on the BLE device.
Once a connection is made,
data can be transferred with the connected device
based on the available services and characteristics.
Key terms and concepts
The following is a summary of key BLE terms and concepts:
- Generic Attribute Profile (GATT)
- The GATT profile is a general specification for sending and receiving short
pieces of data known as "attributes" over a BLE link. All current BLE
application profiles are based on GATT. Review the Android BluetoothLeGatt
sample
on GitHub to learn more.
- Profiles
- The Bluetooth SIG defines many
profiles
for BLE devices. A profile is a specification for how a device works in a
particular application. Note that a device can implement more than one
profile. For example, a device could contain a heart rate monitor and a
battery level detector.
- Attribute Protocol (ATT)
- GATT is built on top of the Attribute Protocol (ATT). This is also referred to
as GATT/ATT. ATT is optimized to run on BLE devices. To this end, it uses as
few bytes as possible. Each attribute is uniquely identified by a Universally
Unique Identifier (UUID), which is a standardized 128-bit format for a string
ID used to uniquely identify information. The attributes transported by ATT
are formatted as characteristics and services.
- Characteristic
- A characteristic contains a single value and 0-n descriptors that describe the
characteristic's value. A characteristic can be thought of as a type,
analogous to a class.
- Descriptor
- Descriptors are defined attributes that describe a characteristic value. For
example, a descriptor might specify a human-readable description, an
acceptable range for a characteristic's value, or a unit of measure that is
specific to a characteristic's value.
- Service
- A service is a collection of characteristics. For example, you could have a
service called "Heart Rate Monitor" that includes characteristics such as
"heart rate measurement." You can find a list of existing GATT-based profiles
and services on bluetooth.org.
Roles and responsibilities
When a device interacts with a BLE device, roles and responsibilities are
divided in two different ways:
Central versus peripheral. This applies to the BLE connection itself—the
device in the central role scans, looking for advertisement, and the device in
the peripheral role advertises. Two devices that only support the peripheral
role can't talk to each other, and neither can two devices that only support
the central role.
GATT server versus GATT client. This determines how the two devices talk
to each other after they've established the connection. The device in the
client role sends requests for data, and the device in the server role
fulfills them.
To understand the distinction between the central-peripheral and server-client
role divisions, consider an example where you have an Android phone and a
BLE-enabled activity tracker that reports sensor data back to the phone.
The phone—the central device—actively scans for BLE devices. The activity
tracker—the peripheral device—advertises and waits to receive a request for
connection.
After the phone and the activity tracker have established a connection, they
start transferring GATT metadata to each other. In this case, the app running
on the phone sends requests for data, so it acts as the GATT client. The
activity tracker fulfills those requests, so it acts as the GATT server.
An alternative design of the app might involve the phone playing the GATT server
role instead. See
BluetoothGattServer for
more information.
Content and code samples on this page are subject to the licenses described in the Content License. Java and OpenJDK are trademarks or registered trademarks of Oracle and/or its affiliates.
Last updated 2024-10-19 UTC.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2024-10-19 UTC."],[],[],null,["# Bluetooth Low Energy\n\nAndroid provides built-in platform support for Bluetooth Low Energy (BLE) in the\ncentral role and provides APIs that apps can use to discover devices, query for\nservices, and transmit information.\n\nCommon use cases include the following:\n\n- Transferring small amounts of data between nearby devices.\n- Interacting with proximity sensors to give users a customized experience based on their current location.\n\nIn contrast to [classic Bluetooth](/develop/connectivity/bluetooth),\nBLE is designed for significantly lower power consumption. This allows apps to\ncommunicate with BLE devices that have stricter power requirements, such as\nproximity sensors, heart rate monitors, and fitness devices. \n\n**Caution:** When a user pairs their device with another device\nusing BLE, the data that's communicated between the two devices is\naccessible to **all** apps on the user's device.\n\n\nFor this reason, if your app captures sensitive data, you should implement\napp-layer security to protect the privacy of that data.\n\nThe basics\n----------\n\nFor BLE-enabled devices to transmit data between each other, they must first\nform a channel of communication. Use of the Bluetooth LE APIs requires you to\n[declare several permissions](/develop/connectivity/bluetooth/bt-permissions)\nin your manifest file. Once your app has permission to use Bluetooth, your app\nneeds to access the `BluetoothAdapter` and\n[determine if Bluetooth is available on the device](/develop/connectivity/bluetooth/setup)\nIf Bluetooth is available, the device will\n[scan for nearby BLE devices](/develop/connectivity/bluetooth/ble/find-ble-devices).\nOnce a device is found, the capabilities of the BLE device are discovered by\n[connecting to the GATT server on the BLE device](/develop/connectivity/bluetooth/ble/connect-gatt-server).\nOnce a connection is made,\n[data can be transferred with the connected device](/develop/connectivity/bluetooth/ble/transfer-ble-data)\nbased on the available services and characteristics.\n\nKey terms and concepts\n----------------------\n\nThe following is a summary of key BLE terms and concepts:\n\n-\n\n **Generic Attribute Profile (GATT)**\n : The GATT profile is a general specification for sending and receiving short\n pieces of data known as \"attributes\" over a BLE link. All current BLE\n application profiles are based on GATT. Review the [Android BluetoothLeGatt\n sample](https://github.com/android/platform-samples/tree/main/samples/connectivity/bluetooth/ble/src/main/java/com/example/platform/connectivity/bluetooth/ble)\n on GitHub to learn more.\n-\n\n **Profiles**\n : The **Bluetooth SIG** defines many\n [profiles](https://www.bluetooth.org/en-us/specification/adopted-specifications)\n for BLE devices. A profile is a specification for how a device works in a\n particular application. Note that a device can implement more than one\n profile. For example, a device could contain a heart rate monitor and a\n battery level detector.\n-\n\n **Attribute Protocol (ATT)**\n : GATT is built on top of the Attribute Protocol (ATT). This is also referred to\n as GATT/ATT. ATT is optimized to run on BLE devices. To this end, it uses as\n few bytes as possible. Each attribute is uniquely identified by a Universally\n Unique Identifier (UUID), which is a standardized 128-bit format for a string\n ID used to uniquely identify information. The *attributes* transported by ATT\n are formatted as *characteristics* and *services*.\n-\n\n **Characteristic**\n : A characteristic contains a single value and 0-n descriptors that describe the\n characteristic's value. A characteristic can be thought of as a type,\n analogous to a class.\n-\n\n **Descriptor**\n : Descriptors are defined attributes that describe a characteristic value. For\n example, a descriptor might specify a human-readable description, an\n acceptable range for a characteristic's value, or a unit of measure that is\n specific to a characteristic's value.\n-\n\n **Service**\n : A service is a collection of characteristics. For example, you could have a\n service called \"Heart Rate Monitor\" that includes characteristics such as\n \"heart rate measurement.\" You can find a list of existing GATT-based profiles\n and services on [bluetooth.org](https://www.bluetooth.org/en-us/specification/adopted-specifications).\n\n### Roles and responsibilities\n\nWhen a device interacts with a BLE device, roles and responsibilities are\ndivided in two different ways:\n\n- **Central versus peripheral.** This applies to the BLE connection itself---the\n device in the central role scans, looking for advertisement, and the device in\n the peripheral role advertises. Two devices that only support the peripheral\n role can't talk to each other, and neither can two devices that only support\n the central role.\n\n- **GATT server versus GATT client.** This determines how the two devices talk\n to each other after they've established the connection. The device in the\n client role sends requests for data, and the device in the server role\n fulfills them.\n\nTo understand the distinction between the central-peripheral and server-client\nrole divisions, consider an example where you have an Android phone and a\nBLE-enabled activity tracker that reports sensor data back to the phone.\n\n- The phone---the *central* device---actively scans for BLE devices. The activity\n tracker---the *peripheral* device---advertises and waits to receive a request for\n connection.\n\n- After the phone and the activity tracker have established a connection, they\n start transferring GATT metadata to each other. In this case, the app running\n on the phone sends requests for data, so it acts as the *GATT client* . The\n activity tracker fulfills those requests, so it acts as the *GATT server*.\n\nAn alternative design of the app might involve the phone playing the GATT server\nrole instead. See\n[`BluetoothGattServer`](/reference/android/bluetooth/BluetoothGattServer) for\nmore information."]]
