/* %atmel_license% */ /** \addtogroup usart_module Working with USART * The USART driver provides the interface to configure and use the USART peripheral.\n * * The USART supports several kinds of comminication modes such as full-duplex asynchronous/ * synchronous serial commnunication,RS485 with driver control signal,ISO7816,SPI and Test modes. * * To start a USART transfer with \ref AT91SAM3S_PDC "PDC" support, the user could follow these steps: * * * For more accurate information, please look at the USART section of the * Datasheet. * * Related files :\n * \ref usart.c\n * \ref usart.h\n */ /** * \file * * Implementation of USART (Universal Synchronous Asynchronous Receiver Transmitter) * controller. * */ /*------------------------------------------------------------------------------ * Headers *------------------------------------------------------------------------------*/ #include "chip.h" #include #include /*---------------------------------------------------------------------------- * Local definitions *----------------------------------------------------------------------------*/ /*------------------------------------------------------------------------------ * Exported functions *------------------------------------------------------------------------------*/ /** * \brief Configures an USART peripheral with the specified parameters. * * * \param usart Pointer to the USART peripheral to configure. * \param mode Desired value for the USART mode register (see the datasheet). * \param baudrate Baudrate at which the USART should operate (in Hz). * \param masterClock Frequency of the system master clock (in Hz). */ void USART_Configure(Usart *usart, uint32_t mode, uint32_t baudrate, uint32_t masterClock) { /* Reset and disable receiver & transmitter*/ usart->US_CR = US_CR_RSTRX | US_CR_RSTTX | US_CR_RXDIS | US_CR_TXDIS; /* Configure mode*/ usart->US_MR = mode; /* Configure baudrate*/ /* Asynchronous, no oversampling*/ if ( ((mode & US_MR_SYNC) == 0) && ((mode & US_MR_OVER) == 0) ) { usart->US_BRGR = (masterClock / baudrate) / 16; } if( ((mode & US_MR_USART_MODE_SPI_MASTER) == US_MR_USART_MODE_SPI_MASTER) || ((mode & US_MR_SYNC) == US_MR_SYNC)) { if( (mode & US_MR_USCLKS_Msk) == US_MR_USCLKS_MCK) { usart->US_BRGR = masterClock / baudrate; } else { if ( (mode & US_MR_USCLKS_DIV) == US_MR_USCLKS_DIV) { usart->US_BRGR = masterClock / baudrate / 8; } } } /* TODO other modes*/ } /** * \brief Enables or disables the transmitter of an USART peripheral. * * * \param usart Pointer to an USART peripheral * \param enabled If true, the transmitter is enabled; otherwise it is * disabled. */ void USART_SetTransmitterEnabled(Usart *usart, uint8_t enabled) { if (enabled) { usart->US_CR = US_CR_TXEN; } else { usart->US_CR = US_CR_TXDIS; } } /** * \brief Enables or disables the receiver of an USART peripheral * * * \param usart Pointer to an USART peripheral * \param enabled If true, the receiver is enabled; otherwise it is disabled. */ void USART_SetReceiverEnabled(Usart *usart, uint8_t enabled) { if (enabled) { usart->US_CR = US_CR_RXEN; } else { usart->US_CR = US_CR_RXDIS; } } /** * \brief Sends one packet of data through the specified USART peripheral. This * function operates synchronously, so it only returns when the data has been * actually sent. * * * \param usart Pointer to an USART peripheral. * \param data Data to send including 9nth bit and sync field if necessary (in * the same format as the US_THR register in the datasheet). * \param timeOut Time out value (0 = no timeout). */ void USART_Write( Usart *usart, uint16_t data, volatile uint32_t timeOut) { if (timeOut == 0) { while ((usart->US_CSR & US_CSR_TXEMPTY) == 0); } else { while ((usart->US_CSR & US_CSR_TXEMPTY) == 0) { if (timeOut == 0) { // TRACE_ERROR("USART_Write: Timed out.\n\r"); return; } timeOut--; } } usart->US_THR = data; } /** * \brief Sends the contents of a data buffer through the specified USART peripheral. * This function returns immediately (1 if the buffer has been queued, 0 * otherwise); poll the ENDTX and TXBUFE bits of the USART status register * to check for the transfer completion. * * \param usart Pointer to an USART peripheral. * \param buffer Pointer to the data buffer to send. * \param size Size of the data buffer (in bytes). */ uint8_t USART_WriteBuffer( Usart *usart, void *buffer, uint32_t size) { /* Check if the first PDC bank is free*/ if ((usart->US_TCR == 0) && (usart->US_TNCR == 0)) { usart->US_TPR = (uint32_t) buffer; usart->US_TCR = size; usart->US_PTCR = US_PTCR_TXTEN; return 1; } /* Check if the second PDC bank is free*/ else if (usart->US_TNCR == 0) { usart->US_TNPR = (uint32_t) buffer; usart->US_TNCR = size; return 1; } else { return 0; } } /** * \brief Reads and return a packet of data on the specified USART peripheral. This * function operates asynchronously, so it waits until some data has been * received. * * \param usart Pointer to an USART peripheral. * \param timeOut Time out value (0 -> no timeout). */ uint16_t USART_Read( Usart *usart, volatile uint32_t timeOut) { if (timeOut == 0) { while ((usart->US_CSR & US_CSR_RXRDY) == 0); } else { while ((usart->US_CSR & US_CSR_RXRDY) == 0) { if (timeOut == 0) { // TRACE_ERROR( "USART_Read: Timed out.\n\r" ) ; return 0; } timeOut--; } } return usart->US_RHR; } /** * \brief Reads data from an USART peripheral, filling the provided buffer until it * becomes full. This function returns immediately with 1 if the buffer has * been queued for transmission; otherwise 0. * * \param usart Pointer to an USART peripheral. * \param buffer Pointer to the buffer where the received data will be stored. * \param size Size of the data buffer (in bytes). */ uint8_t USART_ReadBuffer(Usart *usart, void *buffer, uint32_t size) { /* Check if the first PDC bank is free*/ if ((usart->US_RCR == 0) && (usart->US_RNCR == 0)) { usart->US_RPR = (uint32_t) buffer; usart->US_RCR = size; usart->US_PTCR = US_PTCR_RXTEN; return 1; } /* Check if the second PDC bank is free*/ else if (usart->US_RNCR == 0) { usart->US_RNPR = (uint32_t) buffer; usart->US_RNCR = size; return 1; } else { return 0; } } /** * \brief Returns 1 if some data has been received and can be read from an USART; * otherwise returns 0. * * \param usart Pointer to an Usart instance. */ uint8_t USART_IsDataAvailable(Usart *usart) { if ((usart->US_CSR & US_CSR_RXRDY) != 0) { return 1; } else { return 0; } } /** * \brief Sets the filter value for the IRDA demodulator. * * \param pUsart Pointer to an Usart instance. * \param filter Filter value. */ void USART_SetIrdaFilter(Usart *pUsart, uint8_t filter) { assert( pUsart != NULL ) ; pUsart->US_IF = filter; } /** * \brief Sends one packet of data through the specified USART peripheral. This * function operates synchronously, so it only returns when the data has been * actually sent. * * \param usart Pointer to an USART peripheral. * \param c Character to send */ void USART_PutChar( Usart *usart, uint8_t c) { /* Wait for the transmitter to be ready*/ while ((usart->US_CSR & US_CSR_TXEMPTY) == 0); /* Send character*/ usart->US_THR = c; /* Wait for the transfer to complete*/ while ((usart->US_CSR & US_CSR_TXEMPTY) == 0); } /** * \brief Return 1 if a character can be read in USART */ uint32_t USART_IsRxReady(Usart *usart) { return (usart->US_CSR & US_CSR_RXRDY); } /** * \brief Get present status */ uint32_t USART_GetStatus(Usart *usart) { return usart->US_CSR; } /** * \brief Enable interrupt */ void USART_EnableIt(Usart *usart,uint32_t mode) { usart->US_IER = mode; } /** * \brief Disable interrupt */ void USART_DisableIt(Usart *usart,uint32_t mode) { usart->US_IDR = mode; } /** * \brief Reads and returns a character from the USART. * * \note This function is synchronous (i.e. uses polling). * \param usart Pointer to an USART peripheral. * \return Character received. */ uint8_t USART_GetChar(Usart *usart) { while ((usart->US_CSR & US_CSR_RXRDY) == 0); return usart->US_RHR; }