Software FIFO Buffer for UART Communication

sw_fifo.c

////////////////////////////////////////////////////////////////////////////////////////     /* enter necessary header files for proper interrupt vector and UART/USART visibility */     ////////////////////////////////////////////////////////////////////////////////////////     #include <sw_fifo.h>     typedef struct {       uint8_t  data_buf[FIFO_BUFFER_SIZE]; // FIFO buffer       uint16_t i_first;                    // index of oldest data byte in buffer       uint16_t i_last;                     // index of newest data byte in buffer       uint16_t num_bytes;                  // number of bytes currently in buffer     }sw_fifo_typedef;     sw_fifo_typedef rx_fifo = { {0}, 0, 0, 0 }; // declare a receive software buffer     sw_fifo_typedef tx_fifo = { {0}, 0, 0, 0 }; // declare a transmit software buffer     /***************************************************************************************************************/     // UART receive interrupt sub-routine     //  - interrupts when valid data exists in rx hardware buffer     //  - checks if there's room in the rx software buffer     //  - if there's room, it transfers the received data into the sw buffer     //  - automatically handles "uart_rx_buffer_full_flag"     //  - sets overflow flag upon software buffer overflow (doesn't overwrite existing data)     //////////////////////////////////////////////     /* enter name of UART RX IRQ Handler here */ {     //////////////////////////////////////////////       /* Explicitly clear the source of interrupt if necessary */       if(rx_fifo.num_bytes == FIFO_BUFFER_SIZE) {      // if the sw buffer is full         uart_rx_fifo_ovf_flag = 1;                     // set the overflow flag       }else if(rx_fifo.num_bytes < FIFO_BUFFER_SIZE) { // if there's room in the sw buffer         ///////////////////////////////////////////////////         /* read error/status reg here if desired         */         /* handle any hardware RX errors here if desired */         ///////////////////////////////////////////////////         /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////         rx_fifo.data_buf[rx_fifo.i_last] = /* enter pointer to UART rx hardware buffer here */ // store the received data as the newest data element in the sw buffer         /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////         rx_fifo.i_last++;                              // increment the index of the most recently added element         rx_fifo.num_bytes++;                           // increment the bytes counter       }       if(rx_fifo.num_bytes == FIFO_BUFFER_SIZE) {      // if sw buffer just filled up         uart_rx_fifo_full_flag = 1;                    // set the RX FIFO full flag       }       if(rx_fifo.i_last == FIFO_BUFFER_SIZE) {         // if the index has reached the end of the buffer,         rx_fifo.i_last = 0;                            // roll over the index counter       }       uart_rx_fifo_not_empty_flag = 1;                 // set received-data flag     } // end UART RX IRQ handler     /***************************************************************************************************************/     /***************************************************************************************************************/     // UART transmit interrupt sub-routine     //  - interrupts when the tx hardware buffer is empty     //  - checks if data exists in the tx software buffer     //  - if data exists, it places the oldest element of the sw buffer into the tx hardware buffer     //  - if the sw buffer is emptied, it disables the "hw buffer empty" interrupt     //  - automatically handles "uart_tx_buffer_full_flag"     //////////////////////////////////////////////     /* enter name of UART TX IRQ Handler here */ {     //////////////////////////////////////////////       /* Explicitly clear the source of interrupt if necessary */       if(tx_fifo.num_bytes == FIFO_BUFFER_SIZE) { // if the sw buffer is full         uart_tx_fifo_full_flag = 0;               // clear the buffer full flag because we are about to make room       }       if(tx_fifo.num_bytes > 0) {                 // if data exists in the sw buffer         ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////         /* enter pointer to UART tx hardware buffer here */ = tx_fifo.data_buf[tx_fifo.i_first]; // place oldest data element in the TX hardware buffer         ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////         tx_fifo.i_first++;                        // increment the index of the oldest element         tx_fifo.num_bytes--;                      // decrement the bytes counter       }       if(tx_fifo.i_first == FIFO_BUFFER_SIZE) {   // if the index has reached the end of the buffer,         tx_fifo.i_first = 0;                      // roll over the index counter       }       if(tx_fifo.num_bytes == 0) {                // if no more data exists         uart_tx_fifo_not_empty_flag = 0;          // clear flag         //////////////////////////////////////////////////////////////////////////         /* disable UART "TX hw buffer empty" interrupt here                     */         /* if using shared RX/TX hardware buffer, enable RX data interrupt here */         //////////////////////////////////////////////////////////////////////////       }     }// end UART TX IRQ handler     /***************************************************************************************************************/     /***************************************************************************************************************/     // UART data transmit function     //  - checks if there's room in the transmit sw buffer     //  - if there's room, it transfers data byte to sw buffer     //  - automatically handles "uart_tx_buffer_full_flag"     //  - sets the overflow flag upon software buffer overflow (doesn't overwrite existing data)     //  - if this is the first data byte in the buffer, it enables the "hw buffer empty" interrupt     void uart_send_byte(uint8_t byte) {       ///////////////////////////////////////////////////////////       /* disable interrupts while manipulating buffer pointers */       ///////////////////////////////////////////////////////////       if(tx_fifo.num_bytes == FIFO_BUFFER_SIZE) {      // no room in the sw buffer         uart_tx_fifo_ovf_flag = 1;                     // set the overflow flag       }else if(tx_fifo.num_bytes < FIFO_BUFFER_SIZE) { // if there's room in the sw buffer         tx_fifo.data_buf[tx_fifo.i_last] = byte;       // transfer data byte to sw buffer         tx_fifo.i_last++;                              // increment the index of the most recently added element         tx_fifo.num_bytes++;                           // increment the bytes counter       }       if(tx_fifo.num_bytes == FIFO_BUFFER_SIZE) {      // if sw buffer is full         uart_tx_fifo_full_flag = 1;                    // set the TX FIFO full flag       }       if(tx_fifo.i_last == FIFO_BUFFER_SIZE) {         // if the "new data" index has reached the end of the buffer,         tx_fifo.i_last = 0;                            // roll over the index counter       }       ///////////////////////       /* enable interrupts */       ///////////////////////       if(tx_fifo.num_bytes > 0) {                      // if there is data in the buffer         uart_tx_fifo_not_empty_flag = 1;               // set flag         ///////////////////////////////////////////////////////////////////////////         /* if using shared RX/TX hardware buffer, disable RX data interrupt here */         /* enable UART "TX hw buffer empty" interrupt here                       */         ///////////////////////////////////////////////////////////////////////////       }     }     /***************************************************************************************************************/     /***************************************************************************************************************/     // UART data receive function     //  - checks if data exists in the receive sw buffer     //  - if data exists, it returns the oldest element contained in the buffer     //  - automatically handles "uart_rx_buffer_full_flag"     //  - if no data exists, it clears the uart_rx_flag     uint8_t uart_get_byte(void) {                 ///////////////////////////////////////////////////////////       /* disable interrupts while manipulating buffer pointers */       ///////////////////////////////////////////////////////////       uint8_t byte = 0;       if(rx_fifo.num_bytes == FIFO_BUFFER_SIZE) { // if the sw buffer is full         uart_rx_fifo_full_flag = 0;               // clear the buffer full flag because we are about to make room       }       if(rx_fifo.num_bytes > 0) {                 // if data exists in the sw buffer         byte = rx_fifo.data_buf[rx_fifo.i_first]; // grab the oldest element in the buffer         rx_fifo.i_first++;                        // increment the index of the oldest element         rx_fifo.num_bytes--;                      // decrement the bytes counter       }else{                                      // RX sw buffer is empty         uart_rx_fifo_not_empty_flag = 0;          // clear the rx flag       }       if(rx_fifo.i_first == FIFO_BUFFER_SIZE) {   // if the index has reached the end of the buffer,         rx_fifo.i_first = 0;                      // roll over the index counter       }       ///////////////////////       /* enable interrupts */       ///////////////////////       return byte;                                // return the data byte     }     /***************************************************************************************************************/      

sw_fifo.h

#define FIFO_BUFFER_SIZE 128 // software buffer size (in bytes)     // UART data transmit function     //  - checks if there's room in the transmit sw buffer     //  - if there's room, it transfers data byte to sw buffer     //  - automatically handles "uart_tx_buffer_full_flag"     //  - sets the overflow flag upon software buffer overflow (doesn't overwrite existing data)     //  - if this is the first data byte in the buffer, it enables the "hw buffer empty" interrupt     void uart_send_byte(uint8_t byte);     // UART data receive function     //  - checks if data exists in the receive sw buffer     //  - if data exists, it returns the oldest element contained in the buffer     //  - automatically handles "uart_rx_buffer_full_flag"     //  - if no data exists, it clears the uart_rx_flag     uint8_t uart_get_byte(void);     volatile extern uint8_t uart_rx_fifo_not_empty_flag; // this flag is automatically set and cleared by the software buffer     volatile extern uint8_t uart_rx_fifo_full_flag;      // this flag is automatically set and cleared by the software buffer     volatile extern uint8_t uart_rx_fifo_ovf_flag;       // this flag is not automatically cleared by the software buffer     volatile extern uint8_t uart_tx_fifo_full_flag;      // this flag is automatically set and cleared by the software buffer     volatile extern uint8_t uart_tx_fifo_ovf_flag;       // this flag is not automatically cleared by the software buffer     volatile extern uint8_t uart_tx_fifo_not_empty_flag; // this flag is automatically set and cleared by the software buffer      

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https://forum.digikey.com/t/software-fifo-buffer-for-uart-communication/13476