 Standard I/O (stdio) | Common standard I/O driver that implements the stdio read and write functions on AVR and SAM devices |
  Standard serial I/O (stdio) | Common standard serial I/O management driver that implements a stdio serial interface on AVR and SAM devices |
 Serial Interface Module | This module is responsible for encoding and decoding the serial bytes to/from Host into corresponding MAC APIs |
| Common WL Definitions | All General Definitions used by the Wireless Stack applications are defined in this module |
| IEEE Constants | Includes IEEE Constant Definitions |
| MAC Build Configurations | All Build configurations Macros are defined in this module |
| Return Values | All return Value Enumerations are defined in this module |
| Common Stack Definitions | Includes Stack Definitions |
| IEEE 802.15.4 MAC v3.1.1 | The IEEE standard 802.15.4 MAC Layer defines the protocol and compatible interconnection for data communication devices using low data rate, low power and low complexity, short-range radio frequency (RF) transmissions in a wireless personal area network (WPAN) |
| MAC Build Configurations | All Build configurations Macros are defined in this module |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
 MAC Definitions | All Definitions used by the MAC Layer is described here |
 MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
 MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Prototypes | All MAC Prototypes are described in this module |
| MAC API's | The application interfaces the MAC stack via the MAC-API |
| MAC Request API's | This module describes all MAC Request API's |
| MAC General API's | This module describes all MAC General API's |
| MAC Response API's | This module describes all MAC Response API's |
| MCL API's | This module describes all Mac Core Layer(MCL) API's |
| MCL Request API's | This module describes all MCL Request API's |
| MCL General API's | This module describes all MCL General API's |
| MCL Confirmation API's | This module describes all MCL Confirmation API's |
| MCL Indication API's | This module describes all MCL Indication API's |
| MCL Response API's | This module describes all MCL Response API's |
| MAC Callback's | This module describes all MAC Callback's |
| MAC Confirmation Callback's | This module describes all MAC Confirmation Callback's |
| MAC Indication Callback' | This module describes all MAC Indication Callback's |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| SIO2HOST - UART | This module performs serial input/output functionalities via UART |
| Clock Management | |
| System Clock Management | See sysclk_quickstart |
| MEGA reset cause | See reset_cause_quickstart |
| Assembler Support | This group provides a good handful of macros intended to smooth out the differences between various assemblers, similar to what compiler.h does for compilers, except that assemblers tend to be much less standardized than compilers |
| Macro Repeat | |
| Stringize | |
| Token Paste | |
| Program memory | |
| Global interrupt management | This is a driver for global enabling and disabling of interrupts |
| Deprecated interrupt definitions | |
| Atmel part identification macros | This collection of macros identify which series and families that the various Atmel parts belong to |
| AVR UC3 parts | |
| AVR XMEGA parts | |
| megaAVR parts | |
| SAM parts | |
| Serial Interface (Serial) | See Quick start guide for Serial Interface service |
| USART module (USART) | See Quick start guide for USART module |
| Common IOPORT API | See Quick start guide for the common IOPORT service |
| PAL | This module acts as a wrapper layer between the Wireless stack and the ASF drivers All hardwar level acess to the ASF drivers from the stack happens through this module |
| Common SW Timer | Implements the software Algorithm for Timer Handling in the Stack |
| Group_pal_common_hw_timer | Implements a common api interface for accessing timer drivers of all architectures |
| Busy-Wait Delay Routines | This module provides simple loop-based delay routines for those applications requiring a brief wait during execution |
| Transceiver Abstraction Layer | The Transceiver Abstraction Layer (TAL) implements the transceiver specific functionalities and provides interfaces to the upper layers (like IEEE 802.15.4 MAC )and uses the services of PAL |
| ATMEGARFR2 Transceiver Abstraction Layer | The ATmega256RFR2 is a low-power CMOS 8-bit microcontroller based on the AVR enhanced RISC architecture combined with a high data rate transceiver for the 2.4 GHz ISM band |
| TAL State Machine | The different operating states of the Transceiver are controlled by the TAL state machine |
| TAL Initialization and reset | Performs initialization and reset functionalities of the transceiver |
| TAL Energy Detection | Performs the ED scan functionalities |
| Transceiver Interrupt Handling | Handles Transceiver related Interrupts |
| TAL PIB Storage | The PIB(Pan Information Base) attributes related to the TAL are Stored and handled by the TAL PIB storage |
| TAL Frame Transmission Unit | The Frame Transmission Unit generates and transmits the frames using PAL |
| TAL CSMA/CA Module | Performs channel access mechanism for frame transmission For Detailed information refer CSMA-CA algorithm section of IEEE Std 802.15.4-2006 |
| TAL Frame Reception Unit | The Frame Reception Unit reads/uploads the incoming frames |
| Resource Management | The Resource Management provides access to resources to the stack or the application |
| Buffer Management | Buffer Management (large and small buffers): provides services for dynamically allocating and freeing memory buffers |
| Queue Management | Queue Management: provides services for creating and maintaining the queues |
| Security toolbox | The STB (Security Toolbox) is a high level security abstraction layer providing an easy- to-use crypto API for direct application access.It is placed on top of the SAL and abstracts and implements transceiver or MCU dependent functionality that encrypts or decrypts frames usimg CCM according to 802.15.4/Zigbee |
| Group_sal | SAL Security abstraction layer The SAL (Security Abstraction Layer) provides an API that allows access to low level AES engine functions abstraction to encrypt and decrypt frames |
| General Purpose Input/Output | This is the common API for GPIO |
| Generic board support | The generic board support module includes board-specific definitions and function prototypes, such as the board initialization function |
| Ioport_service_group |
1.8.5