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| /*! \file uart2.h \brief Dual UART driver with buffer support. */ |
| //***************************************************************************** |
| // |
| // File Name : 'uart2.h' |
| // Title : Dual UART driver with buffer support |
| // Author : Pascal Stang - Copyright (C) 2000-2002 |
| // Created : 11/20/2000 |
| // Revised : 07/04/2004 |
| // Version : 1.0 |
| // Target MCU : ATMEL AVR Series |
| // Editor Tabs : 4 |
| // |
| // This code is distributed under the GNU Public License |
| // which can be found at http://www.gnu.org/licenses/gpl.txt |
| // |
| /// \ingroup driver_avr |
| /// \defgroup uart2 UART Driver/Function Library for dual-UART processors (uart2.c) |
| /// \code #include "uart2.h" \endcode |
| /// \par Overview |
| /// This is a UART driver for AVR-series processors with two hardware |
| /// UARTs such as the mega161 and mega128. This library provides both |
| /// buffered and unbuffered transmit and receive functions for the AVR |
| /// processor UART. Buffered access means that the UART can transmit |
| /// and receive data in the "background", while your code continues |
| /// executing. Also included are functions to initialize the UARTs, |
| /// set the baud rate, flush the buffers, and check buffer status. |
| /// |
| /// \note For full text output functionality, you may wish to use the rprintf |
| /// functions along with this driver. |
| /// |
| /// \par About UART operations |
| /// Most Atmel AVR-series processors contain one or more hardware UARTs |
| /// (aka, serial ports). UART serial ports can communicate with other |
| /// serial ports of the same type, like those used on PCs. In general, |
| /// UARTs are used to communicate with devices that are RS-232 compatible |
| /// (RS-232 is a certain kind of serial port). |
| /// \par |
| /// By far, the most common use for serial communications on AVR processors |
| /// is for sending information and data to a PC running a terminal program. |
| /// Here is an exmaple: |
| /// \code |
| /// uartInit(); // initialize UARTs (serial ports) |
| /// uartSetBaudRate(0, 9600); // set UART0 speed to 9600 baud |
| /// uartSetBaudRate(1, 115200); // set UART1 speed to 115200 baud |
| /// |
| /// rprintfInit(uart0SendByte); // configure rprintf to use UART0 for output |
| /// rprintf("Hello UART0\r\n"); // send "hello world" message via UART0 |
| /// |
| /// rprintfInit(uart1SendByte); // configure rprintf to use UART1 for output |
| /// rprintf("Hello UART1\r\n"); // send "hello world" message via UART1 |
| /// \endcode |
| /// |
| /// \warning The CPU frequency (F_CPU) must be set correctly in \c global.h |
| /// for the UART library to calculate correct baud rates. Furthermore, |
| /// certain CPU frequencies will not produce exact baud rates due to |
| /// integer frequency division round-off. See your AVR processor's |
| /// datasheet for full details. |
| // |
| //***************************************************************************** |
| //@{ |
| |
| #ifndef UART2_H |
| #define UART2_H |
| |
| #include "global.h" |
| #include "buffer.h" |
| |
| //! Default uart baud rate. |
| /// This is the default speed after a uartInit() command, |
| /// and can be changed by using uartSetBaudRate(). |
| #define UART0_DEFAULT_BAUD_RATE 9600 ///< default baud rate for UART0 |
| #define UART1_DEFAULT_BAUD_RATE 9600 ///< default baud rate for UART1 |
| |
| // buffer memory allocation defines |
| // buffer sizes |
| #ifndef UART0_TX_BUFFER_SIZE |
| #define UART0_TX_BUFFER_SIZE 0x0010 ///< number of bytes for uart0 transmit buffer |
| #endif |
| #ifndef UART0_RX_BUFFER_SIZE |
| #define UART0_RX_BUFFER_SIZE 0x0080 ///< number of bytes for uart0 receive buffer |
| #endif |
| #ifndef UART1_TX_BUFFER_SIZE |
| #define UART1_TX_BUFFER_SIZE 0x0010 ///< number of bytes for uart1 transmit buffer |
| #endif |
| #ifndef UART1_RX_BUFFER_SIZE |
| #define UART1_RX_BUFFER_SIZE 0x0080 ///< number of bytes for uart1 receive buffer |
| #endif |
| |
| // define this key if you wish to use |
| // external RAM for the UART buffers |
| //#define UART_BUFFER_EXTERNAL_RAM |
| #ifdef UART_BUFFER_EXTERNAL_RAM |
| // absolute address of uart0 buffers |
| #define UART0_TX_BUFFER_ADDR 0x1000 |
| #define UART0_RX_BUFFER_ADDR 0x1100 |
| // absolute address of uart1 buffers |
| #define UART1_TX_BUFFER_ADDR 0x1200 |
| #define UART1_RX_BUFFER_ADDR 0x1300 |
| #endif |
| |
| //! Type of interrupt handler to use for uart interrupts. |
| /// Value may be SIGNAL or INTERRUPT. |
| /// \warning Do not change unless you know what you're doing. |
| #ifndef UART_INTERRUPT_HANDLER |
| #define UART_INTERRUPT_HANDLER SIGNAL |
| #endif |
| |
| // compatibility for the mega161 |
| #ifndef RXCIE |
| #define RXCIE RXCIE0 |
| #define TXCIE TXCIE0 |
| #define UDRIE UDRIE0 |
| #define RXEN RXEN0 |
| #define TXEN TXEN0 |
| #define CHR9 CHR90 |
| #define RXB8 RXB80 |
| #define TXB8 TXB80 |
| #endif |
| #ifndef UBRR0L |
| #define UBRR0L UBRR0 |
| #define UBRR1L UBRR1 |
| #endif |
| |
| // functions |
| |
| //! Initializes UARTs. |
| /// \note After running this init function, the processor |
| /// I/O pins that used for uart communications (RXD, TXD) |
| /// are no long available for general purpose I/O. |
| void uartInit(void); |
| |
| //! Initializes UART0 only. |
| void uart0Init(void); |
| |
| //! Initializes UART1 only. |
| void uart1Init(void); |
| |
| //! Initializes transmit and receive buffers. |
| /// Automatically called from uartInit() |
| void uart0InitBuffers(void); |
| void uart1InitBuffers(void); |
| |
| //! Redirects received data to a user function. |
| /// |
| void uartSetRxHandler(u08 nUart, void (*rx_func)(unsigned char c)); |
| |
| //! Sets the uart baud rate. |
| /// Argument should be in bits-per-second, like \c uartSetBaudRate(9600); |
| void uartSetBaudRate(u08 nUart, u32 baudrate); |
| |
| //! Returns pointer to the receive buffer structure. |
| /// |
| cBuffer* uartGetRxBuffer(u08 nUart); |
| |
| //! Returns pointer to the transmit buffer structure. |
| /// |
| cBuffer* uartGetTxBuffer(u08 nUart); |
| |
| //! Sends a single byte over the uart. |
| /// |
| void uartSendByte(u08 nUart, u08 data); |
| |
| //! SendByte commands with the UART number hardcoded |
| /// Use these with printfInit() - example: \c printfInit(uart0SendByte); |
| void uart0SendByte(u08 data); |
| void uart1SendByte(u08 data); |
| |
| //! Gets a single byte from the uart receive buffer. |
| /// Returns the byte, or -1 if no byte is available (getchar-style). |
| int uart0GetByte(void); |
| int uart1GetByte(void); |
| |
| //! Gets a single byte from the uart receive buffer. |
| /// Function returns TRUE if data was available, FALSE if not. |
| /// Actual data is returned in variable pointed to by "data". |
| /// Example usage: |
| /// \code |
| /// char myReceivedByte; |
| /// uartReceiveByte(0, &myReceivedByte ); |
| /// \endcode |
| u08 uartReceiveByte(u08 nUart, u08* data); |
| |
| //! Returns TRUE/FALSE if receive buffer is empty/not-empty. |
| /// |
| u08 uartReceiveBufferIsEmpty(u08 nUart); |
| |
| //! Flushes (deletes) all data from receive buffer. |
| /// |
| void uartFlushReceiveBuffer(u08 nUart); |
| |
| //! Add byte to end of uart Tx buffer. |
| /// |
| void uartAddToTxBuffer(u08 nUart, u08 data); |
| |
| //! AddToTxBuffer commands with the UART number hardcoded |
| /// Use this with printfInit() - example: \c printfInit(uart0AddToTxBuffer); |
| void uart0AddToTxBuffer(u08 data); |
| void uart1AddToTxBuffer(u08 data); |
| |
| //! Begins transmission of the transmit buffer under interrupt control. |
| /// |
| void uartSendTxBuffer(u08 nUart); |
| |
| //! sends a buffer of length nBytes via the uart using interrupt control. |
| /// |
| u08 uartSendBuffer(u08 nUart, char *buffer, u16 nBytes); |
| |
| //! interrupt service handlers |
| void uartTransmitService(u08 nUart); |
| void uartReceiveService(u08 nUart); |
| |
| #endif |
| |