WINC1500 (Wi-Fi) | |
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 |
HTTP client service | This module provides implementation of HTTP client 1.1 for WINC1500 board |
BSP | Description of the BSP (<strong>B</strong>oard <strong>S</strong>upport <strong>P</strong>ackage) module. |
Data Types | |
Defines | |
Functions | Lists the available BSP (<strong>B</strong>oard <strong>S</strong>upport <strong>P</strong>ackage) APIs. |
nm_bsp_init | Initialization for BSP (<strong>B</strong>oard <strong>S</strong>upport <strong>P</strong>ackage)
such as Reset and Chip Enable Pins for WINC, delays, register ISR, enable/disable IRQ for WINC, etc. |
nm_bsp_deinit | De-initialization of the BSP (<strong>B</strong>oard <strong>S</strong>upport <strong>P</strong>ackage). |
nm_bsp_reset | Resets the WINC SoC by setting CHIP_EN and RESET_N signals low, then after an appropriate delay,
this function will put CHIP_EN high then RESET_N high, for more details on the timing between signals
please check the WINC data-sheet. |
nm_bsp_sleep | Sleep in units of milliseconds. |
nm_bsp_register_isr | Register ISR (Interrupt Service Routine) in the initialization of the HIF (Host Interface) Layer. |
nm_bsp_interrupt_ctrl | Synchronous enable/disable of WINC to host interrupts. |
Common | |
Defines | |
Functions | |
OTA | The WINC supports OTA (Over-The-Air) updates. |
Callbacks | Lists the different callbacks that can be used during OTA updates. |
Defines | Specifies the macros and defines used by the OTA APIs. |
Enumerations and Typedefs | Specifies the enums and Data Structures used by the OTA APIs. |
Functions | Lists the full set of available APIs to manage OTA updates and Host File Downloads. |
Common | |
WINC | |
HFD | |
SSL | Provides a description of the SSL Layer. |
Callbacks | Provides detail on the available callbacks for the SSL Layer. |
Enumerations and Typedefs | Specifies the enums and Data Structures used by the SSL APIs. |
Functions | Provides detail on the available APIs for the SSL Layer. |
TLS Defines | |
TLS Socket Options | The following list of macros are used to define SSL Socket options |
Legacy names for TLS Cipher Suite IDs | The following list of macros MUST NOT be used |
TLS Cipher Suite IDs | The following list of macros defined the list of supported TLS Cipher suites |
WLAN | |
Callbacks | Provides detail on the available callbacks for the Wlan APIs. |
Defines | Specifies the macros and defines used by the Wlan APIs. |
DebugDefines | |
Enumerations and Typedefs | Specifies the enums and Data Structures used by the Wlan APIs. |
Functions | Here are listed all the functions that implement the Wlan APIs. |
Initialization | Here are listed all the functions that implement the Wlan Initialization APIs. |
Wlan Events | Here are listed all the functions that implement the Wlan Events APIs. |
Connection | Here are listed all the functions that implement the Wifi Connection APIs. |
Scanning | Here are listed all the functions that implement the Wifi Scanning APIs. |
Hot-Spot (Access-Point) | Here are listed all the functions that implement the Wifi Hot-Spot (Access-Point) APIs. |
Bypass Mode | Here are listed all the functions that implement the Bypass Mode APIs. |
Roaming | Here are listed all the functions that implement the Wifi Roaming APIs. |
Power Save | Here are listed all the functions that implement the Power-Save APIs. |
Configuration | Here are listed all the functions that implement the Wlan Configuration APIs. |
System Time | Here are listed all the functions that implement the System Time APIs. |
Provisioning | Here are listed all the functions that implement the Wifi Provisioning APIs. |
Crypto | Here are listed all the functions that implement the Wifi Crypto APIs. |
Version | Describes the APIs for reading the version information of the WINC firmware. |
Defines | Specifies the macros and defines used by the version APIs. |
Functions | Lists the APIs for reading the version information of the WINC firmware. |
Socket | BSD compatible socket interface between the host layer and the network protocol stacks in the firmware |
Defines | |
TCP/IP Defines | The following list of macros are used to define constants used throughout the socket layer |
Error Codes | The following list of macros are used to define the possible error codes |
DataTypes | Specific Enumeration-typedefs used for socket operations |
Asynchronous Events | Specific Enumeration used for asynchronous operations |
Callbacks | |
Functions | |
socketInit | The function performs the necessary initializations for the socket library through the following steps: |
socketDeInit | |
socketState | |
registerSocketCallback | Register two callback functions one for asynchronous socket events and the other one for DNS callback registering function |
socket | Synchronous socket allocation function based on the specified socket type |
bind | Asynchronous bind function associates the provided address and local port to the socket |
listen | After successful socket binding to an IP address and port on the system, start listening on a passive socket for incoming connections |
accept | The function has no current implementation |
connect | Establishes a TCP connection with a remote server. |
secure | Converts an (insecure) TCP connection with a remote server into a secure TLS-over-TCP connection. |
recv | An asynchronous receive function, used to retrieve data from a TCP stream. |
recvfrom | Receives data from a UDP Socket |
send | Asynchronous sending function, used to send data on a TCP/UDP socket |
sendto | Asynchronous sending function, used to send data on a UDP socket |
close | Synchronous close function, releases all the socket assigned resources |
nmi_inet_addr | Synchronous function which returns a BSD socket compliant Internet Protocol (IPv4) socket address |
gethostbyname | Asynchronous DNS resolving function |
sslEnableCertExpirationCheck | Configure the behavior of the SSL Library for Certificate Expiry Validation |
setsockopt | The setsockopt() function shall set the option specified by the option_name argument, at the protocol level specified by the level argument, to the value pointed to by the option_value argument for the socket specified by the socket argument |
getsockopt | Get socket options retrieves This Function isn't implemented yet but this is the form that will be released later |
m2m_ping_req | The function sends ping request to the given IP Address. |
Byte Order | The following list of macros are used to convert between host representation and network byte order |
Spi Flash | |
Function | |
spi_flexible_flash_find_section | |
spi_flash_get_size | |
spi_flash_write | |
spi_flash_erase | |
SAM Port (PORT) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's General Purpose Input/Output (GPIO) pin functionality, for manual pin state reading and writing |
Compiler abstraction layer and code utilities | Compiler abstraction layer and code utilities for Cortex-M0+ based Atmel SAM devices |
Status Codes | |
Preprocessor - Macro Recursion | |
Preprocessor - Macro Repeat | |
Preprocessor - Stringize | |
Preprocessor - Token Paste | |
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 | |
SAM System Pin Multiplexer (SYSTEM PINMUX) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's physical I/O Pins, to alter the direction and input/drive characteristics as well as to configure the pin peripheral multiplexer selection |
SAM Serial Peripheral Interface (SERCOM SPI) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the SERCOM module in its SPI mode to transfer SPI data frames |
SAM System (SYSTEM) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's system relation functionality, necessary for the basic device operation |
SAM System Clock Management (SYSTEM CLOCK) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's clocking related functions |
SAM System Interrupt (SYSTEM INTERRUPT) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of internal software and hardware interrupts/exceptions |
Busy-Wait Delay Routines | This module provides simple loop-based delay routines for those applications requiring a brief wait during execution |
SAM External Interrupt (EXTINT) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of external interrupts generated by the physical device pins, including edge detection |
SAM Timer Counter for Control Applications (TCC) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the TCC module within the device, for waveform generation and timing operations |
Serial Interface (Serial) | See Quick start guide for Serial Interface service |
SAM Serial USART (SERCOM USART) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the SERCOM module in its USART mode to transfer or receive USART data frames |
Generic board support | The generic board support module includes board-specific definitions and function prototypes, such as the board initialization function |
SAM L21 Xplained Pro board | |
Features | Symbols that describe features and capabilities of the board |