| ▼AIROC System | |
| AIROC Firmware Upgrade | |
| ▼AIROC HCI Firmware Upgrade | The AIROC HCI Firmware Upgrade Service is used by peer applications to upgrade firmware on AIROC Bluetooth devices over an HCI connection |
| Callback Functions | |
| Functions | |
| Macros | |
| ▼AIROC OTA Firmware Upgrade | The AIROC OTA Firmware Upgrade Service is used by peer applications to upgrade firmware on AIROC Bluetooth devices over a GATT connection |
| Callback Functions | |
| Functions | |
| Macros | |
| Structs | |
| AIROC Result Codes | AIROC Result list for Bluetooth BR/EDR and LE |
| AIROC Trace Utilities | Trace Utilities |
| Factory Config Library API | The Factory Config library of the AIROC BTSDK provides a simple method for an application to read from the static section of the flash items that has been typically programmed in the factory |
| Memory Management | AIROC Memory Management Interface |
| ▼Bluetooth | AIROC Bluetooth Framework Functions |
| ANC Library API | ANC library of the AIROC BTSDK provide a simple method for an application to integrate ANC service functionality |
| ANS Library API | The ANS library of the AIROC BTSDK provide a simple method for an application to integrate the ANS service functionality |
| ▼Audio / Video | This section describes the API to use various audio/video profiles, such as A2DP, AVDTP, AVRCP, HFP |
| AIROC Audio Utilities | |
| ►Advanced Audio (A2DP) | Advanced Audio Distribution Profile |
| A2DP Helper Functions | Advanced Audio Distribution Profile |
| A2DP SBC Support | |
| Audio / Video Distribution (AVDTP) | APIs to enable the upper layers to stream audio/video data over Bluetooth |
| ►Audio / Video Remote Control (AVRCP) | This section describes the API's to use Audio/Video Remote Control Profile |
| AVRCP Common | This section contains the API's that are common for both target and controller functionality |
| AVRCP Controller Role (CT) | AIROC Bluetooth AVRC Remote Control CT Functions |
| AVRCP Target Role (TG) | AVRC remote control functions |
| Audio Codec Interface | |
| Synchronous Connection Oriented (SCO) Channel | SCO Definitions and Functions |
| BAC Library API | The BAC library of the AIROC BTSDK provide a simple method for an application to integrate the BAC service functionality |
| BAS Library API | The BAS library of the AIROC BTSDK provide a simple method for an application to integrate the battery service functionality |
| ▼Device Management | Device Management Functions |
| BR/EDR (Bluetooth Basic Rate / Enhanced Data Rate) | Bluetooth Basic Rate / Enhanced Data Rate Functions |
| Bluetooth Low Energy | Bluetooth Low Energy (LE) Functions |
| Security | Bluetooth Security Functions |
| Framework | Framework Management Functions |
| ▼Generic Attribute (GATT) | Generic Attribute (GATT) Functions |
| Client | GATT Profile Client Functions |
| Common | GATT Profile Common Functions |
| GATT Database | GATT Database Access Functions |
| GATT Utilities | Generic Attribute (GATT) Utility Functions |
| Server | GATT Profile Server Functions |
| HRC Library API | HRC library of the AIROC BTSDK provides a simple method for an application to integrate Heart Rate Client functionality |
| HRS Library API | HRS library of the AIROC BTSDK provides a simple method for an application to integrate Heart Rate server functionality |
| ▼Human Interface Device (HID) | |
| HID Device Role (HIDD) over BR/EDR | HIDD Functions |
| HIDD Library API | HIDD Functions |
| ▼LE Mesh | Mesh API provides a developer a simple way to incorporate LE mesh functionality in an AIROC application |
| Mesh Client Library API | The mesh client API |
| Mesh Core Library API | Mesh Core library of the AIROC BTSDK provide a simple method for an application to integrate Bluetooth Mesh functionality |
| ►Mesh Models Library API | Mesh Models library of the AIROC BTSDK provide a simple method for an application to use various Mesh models defined in the Bluetooth Mesh Model specification |
| Mesh Battery Client | The AIROC Mesh Battery Client module provides a way for an application to retrieve the battery status of a mesh node |
| Mesh Battery Server | The AIROC Mesh Battery Server module provides a way for a client to retrieve the Battery status of this device |
| Mesh Default Transition Time Client | The AIROC Mesh Default Transition Time Client module of the Mesh Models library provides a way for a controlling device to set default transition time for the devices in the mesh network |
| Mesh Default Transition Time Server | The AIROC Mesh Default Transition Time Server module of the Mesh Models library provides implementation of the Default Transition Time model |
| Mesh Level Client | The AIROC Mesh Level Client module of the Mesh Models library provides a way for an application to send Level commands (set, delta and move) to the server and optionally receive status information |
| Mesh Level Server | The AIROC Mesh Level Server module of the Mesh Models library provides a way to implement functionality for the devices that can be controlled using a simple level slider, aka Level client |
| Mesh Light CTL Client | The AIROC Mesh Light CTL Client module of the Mesh Models library provides a way for an application to configure and control color lights that support Color Temperature adjustments |
| Mesh Light CTL Server | The AIROC Mesh Color Temperature Lightness (CTL) Server module provides a way for an application to implement a dimmable light device with color temperature support |
| Mesh Light HSL Client | The AIROC Mesh Light HSL Client module of the Mesh Models library provides a way for an application to configure and control color lights that support Hue/Saturation control |
| Mesh Light HSL Server | The AIROC Mesh Hue Saturation Lightness (HSL) Server module provides a way for an application to implement a dimmable light device with hue/saturation support |
| Mesh Light LC Client | The AIROC Mesh Light LC Client module of the Mesh Models library provides a way for an application to configure and control lights that support LC control |
| Mesh Light LC Server | The AIROC Mesh Light LC Server module provides a way for an application to implement a Light Control Server device which can be a client to a Sensor Server model and controls the Light Lightness Actual state via defined state bindings |
| Mesh Light Lightness Client | The AIROC Mesh Light Lightness Client module of the Mesh Models library provides a way for an application to control brightness level of the Light Lightness Servers in the mesh network optionally receive status information |
| Mesh Light Lightness Server | The AIROC Mesh Light Lightness Server module provides a way for an application to implement a dimmable light device which can be controlled specifically by setting the brightness, but also can be can be controlled using a Level slider (Generic Level client) and On/Off switch (Generic On/Off client) |
| Mesh Light xyL Client | The AIROC Mesh Light XYL Client module of the Mesh Models library provides a way for an application to configure and control color lights that support xyL control |
| Mesh Light xyL Server | The AIROC Mesh Light xyL Server module provides a way for an application to implement a dimmable light device with x and y chromaticity coordinates support |
| Mesh Location Client | The AIROC Mesh Location Client module provides a way for an application to configure the device with a Global or a Local Location data or to retrieve this data |
| Mesh Location Server | The AIROC Mesh Location Server module provides a way for a client to set the Global and Local location for a mesh device |
| Mesh OnOff Client | The AIROC Mesh On/Off Client module of the Mesh Models library provides a way for an application to send OnOff commands to the server and optionally receive status information |
| Mesh OnOff Server | The AIROC Mesh OnOff Server module of the Mesh Models library provides a way to implement functionality for the devices that can be controlled using a simple On/Off switch, aka On/Off client |
| Mesh Power Level Client | The AIROC Mesh Power Level Client module of the Mesh Models library provides a way for an application to control power level of the Power Level Servers in the mesh network optionally receive status information |
| Mesh Power Level Server | The AIROC Mesh Power Level Server module of the Mesh Models library provides a way to implement functionality of a power plug type of a device that can be controlled using a Level slider (Generic Level client) and On/Off switch (Generic On/Off client) |
| Mesh Power OnOff Client | The AIROC Mesh Power On/Off Client module of the Mesh Models library provides a way for an application to manage the On Power Up behavior of other mesh devices |
| Mesh Power OnOff Server | The AIROC Mesh Power OnOff Server module of the Mesh Models library provides a way to implement functionality for the devices that can be controlled using a simple On/Off switch, aka On/Off client |
| Mesh Scene Client | The AIROC Mesh Scene Client module provides a way for an application to control Scene Servers in the mesh network |
| Mesh Scene Server | The AIROC Mesh Scene Server module provides a way for an application to implement a functionality for the devices that support scene state |
| Mesh Scheduler Client | The AIROC Mesh Scheduler Client module provides a way for an application to control Scheduler Servers in the mesh network |
| Mesh Scheduler Server | The AIROC Mesh Scheduler Server module provides a way for an application to implement a functionality for the devices that support Scheduler |
| Mesh Sensor Client | The AIROC Mesh Sensor Client module provides a way for an application to control Sensor Servers in the mesh network |
| Mesh Sensor Server | The AIROC Mesh Sensor Server module provides a way for an application to implement a functionality for the devices that can be controlled using sensor |
| Mesh Time Client | The AIROC Mesh Time Client module provides a way for an application to control Time Servers in the mesh network |
| Mesh Time Server | The AIROC Mesh Time Server module provides a way for an application to implement a functionality for the devices that support time state |
| Mesh Provisioning Library API | Mesh provisioning is split into two parts |
| ▼Logical Link Control and Adaptation Protocol (L2CAP) | Bluetooth L2CAP Application Programming Interface |
| API Functions | API Functions module for L2CAP |
| Callback Functions | Callback functions for Logical Link Control and Adaptation Layer Protocol (L2CAP) |
| Data Types | Data Types for Logical Link Control and Adaptation Layer Protocol (L2CAP) |
| ▼OBEX | OBEX API Functions |
| ►Client | OBEX Client Functions |
| Header Operations | OBEX Header Operations |
| Header Operations | OBEX Header Operations |
| ►Server | OBEX Server Functions |
| ►Client | OBEX Client Functions |
| Header Operations | OBEX Header Operations |
| RFCOMM | RFCOMM Functions |
| SPP Library API | SPP library of the AIROC BTSDK provide a simple method for an application to integrate SPP functionality |
| ▼Service Discovery Protocol (SDP) | |
| SDP API Functions | Service Discovery (SDP) Functions |
| SDP Data Types | |
| iAP2 Protocol Library API | IAP2 library of the AIROC BTSDK provides a simple method for an application to integrate iAP2 functionality |
| ▼Hardware Drivers | |
| AIROC Sleep Configuration | Defines functions for using the AIROC Sleep Framework |
| AIROC Transport | Defines the transport utilities for configuring the transport, send data and receive data |
| AesCalculation | Defines a driver for the AES calculation with Hardware acceleration |
| Analog-to-Digital Converter (ADC) | Defines a driver to facilitate interfacing with the Analog-to-Digital Converter (ADC) driver |
| Auxiliary Clock (ACLK) | Defines a driver to facilitate interfacing with the auxiliary clock |
| Battery Monitor | Defines a driver to facilitate interfacing with the Battery Monitor |
| Clock | Defines a driver to facilitate interfacing with the CPU clock |
| Embedded Flash Interface | Defines a driver for the Embedded Flash interface |
| GPIO | Defines a driver to facilitate interfacing with the GPIO pins |
| ▼I2C | Defines an I2C driver to facilitate communication with other devices on an I2C bus (such as a temperature sensor, etc) |
| I2C EEPROM Interface | Defines a driver for the I2C EEPROM interface |
| ▼Keyscan Interface | |
| Keyscan Interface Queue | |
| Multiple Interface Adapter (MIA) | Defines a Multiple Interface Adapter (MIA) driver to facilitate interfacing with various components of the hardware The MIA driver controls aspects such as GPIO pin muxing, interrupt managment, and timing |
| NVRAM | Defines the interface for reading and writing any data to the NVRAM |
| Peripheral SPI | Defines an SPI driver to facilitate communication with other devices on an SPI bus (such as a temperature sensor, etc) |
| Peripheral UART (PUART) | Defines a driver to facilitate interfacing with the UART hardware to send and receive bytes or a stream of bytes over the UART hardware |
| Power Management Integrated Circuit | Defines a driver to facilitate interfacing with a PMIC |
| ▼Pulse Width Modulation (PWM) | Defines a driver to facilitate interfacing with the Pulse-Width Modulation (PWM) driver |
| Functions | PWM Functions |
| Structures | PWM Structures |
| RTCDriver | |
| Random Number Generator (RNG) | Defines a driver for the Random Number Generator (RNG) |
| Serial Flash Interface | Defines a driver for the Serial Flash interface |
| Timer Management Services | Defines the interfaces for Timer Management Services |
| Watchdog Interface | Defines a driver for the watchdog interface |
| ▼RTOS | AIROC Real-Time Operating System Functions |
| Application Thread Serialization | |
| Event Flags | Event flags management functions |
| Events | Event management functions |
| Mutexes | Mutex management functionss |
| Queues | Queue management functionss |
| Semaphores | Semaphore management functionss |
| Threads | Thread management functions |
| Worker Threads | Worker thread management functions |
