An interrupt driven UART Library for 8-bit AVR microcontrollers.
Maintained by Andy Gock.
https://github.com/andygock/avr-uart
Derived from original library by Peter Fleury.
Interrupt driven UART library using the built-in UART with circular transmit and receive buffers.
An interrupt is generated when the UART has finished transmitting or receiving a byte. The interrupt handling routines use circular buffers for buffering received and transmitted data.
The UART_RXn_BUFFER_SIZE
and UART_TXn_BUFFER_SIZE
symbols define
the size of the circular buffers in bytes. These values must be a power of 2.
You may need to adapt this symbols to your target and your application by adding into your compiler options:
-DUART_RXn_BUFFER_SIZE=nn -DUART_TXn_BUFFER_SIZE=nn
RXn
and TXn
refer to the UART number, for UART3 with 128 byte buffers, add:
-DUART_RX3_BUFFER_SIZE=128 -DUART_TX3_BUFFER_SIZE=128
UART0 is always enabled by default, to enable the other available UARTs, add the following to your compiler's symbol options for the relevant UART (also known as USART) number.
-DUSART1_ENABLED -DUSART2_ENABLED -DUSART3_ENABLED
To enable large buffer support (over 256 bytes, up to 2^15 bytes) use:
-DUSARTn_LARGE_BUFFER
Where n
is the USART number. The maximum buffer size is 32768 bytes.
This library supports AVR devices with up to 4 hardware USARTs.
Define F_CPU
in your Makefile or compiler examples. Example, if you're running a 8 MHz clock, then use:
-DF_CPU=8000000UL
AVR/GNU C compiler requires the -std=gnu99
flag.
Doxygen based documentation can be viwed at:
- HTML: https://andygock.github.io/avr-uart-documentation/html/index.html
- PDF: https://andygock.github.io/avr-uart-documentation/latex/refman.pdf
- RTF: https://andygock.github.io/avr-uart-documentation/rtf/refman.rtf
When the RX circular buffer is full, and it receives further data from the UART, a buffer overflow condition occurs. Any new data is dropped. The RX buffer must be read before any more incoming data from the UART is placed into the RX buffer.
If the TX buffer is full, and new data is sent to it using one of the uartN_put*()
functions, this function will loop and wait until the buffer is not full any more. It is important to make sure you have not disabled your UART transmit interrupts (TXEN*
) elsewhere in your application (e.g with cli()
) before calling the uartN_put*()
functions, as the application will lock up. The UART interrupts are automatically enabled when you use the uartN_init()
functions. This is probably not the idea behaviour, I'll probably fix this some time.
For now, make sure TXEN*
interrupts are enabled when calling uartN_put*()
functions. This should not be an issue unless you have code elsewhere purposely turning it off.