/***************************************************************************//** * @file * @brief Low Energy Universal Asynchronous Receiver/Transmitter (LEUART) * peripheral API * @author Energy Micro AS * @version 3.0.0 ******************************************************************************* * @section License * (C) Copyright 2012 Energy Micro AS, http://www.energymicro.com ******************************************************************************* * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. * * DISCLAIMER OF WARRANTY/LIMITATION OF REMEDIES: Energy Micro AS has no * obligation to support this Software. Energy Micro AS is providing the * Software "AS IS", with no express or implied warranties of any kind, * including, but not limited to, any implied warranties of merchantability * or fitness for any particular purpose or warranties against infringement * of any proprietary rights of a third party. * * Energy Micro AS will not be liable for any consequential, incidental, or * special damages, or any other relief, or for any claim by any third party, * arising from your use of this Software. * ******************************************************************************/ #ifndef __EM_LEUART_H #define __EM_LEUART_H #include #include "em_part.h" #ifdef __cplusplus extern "C" { #endif /***************************************************************************//** * @addtogroup EM_Library * @{ ******************************************************************************/ /***************************************************************************//** * @addtogroup LEUART * @{ ******************************************************************************/ /******************************************************************************* ******************************** ENUMS ************************************ ******************************************************************************/ /** Databit selection. */ typedef enum { leuartDatabits8 = LEUART_CTRL_DATABITS_EIGHT, /**< 8 databits. */ leuartDatabits9 = LEUART_CTRL_DATABITS_NINE /**< 9 databits. */ } LEUART_Databits_TypeDef; /** Enable selection. */ typedef enum { /** Disable both receiver and transmitter. */ leuartDisable = 0x0, /** Enable receiver only, transmitter disabled. */ leuartEnableRx = LEUART_CMD_RXEN, /** Enable transmitter only, receiver disabled. */ leuartEnableTx = LEUART_CMD_TXEN, /** Enable both receiver and transmitter. */ leuartEnable = (LEUART_CMD_RXEN | LEUART_CMD_TXEN) } LEUART_Enable_TypeDef; /** Parity selection. */ typedef enum { leuartNoParity = LEUART_CTRL_PARITY_NONE, /**< No parity. */ leuartEvenParity = LEUART_CTRL_PARITY_EVEN, /**< Even parity. */ leuartOddParity = LEUART_CTRL_PARITY_ODD /**< Odd parity. */ } LEUART_Parity_TypeDef; /** Stopbits selection. */ typedef enum { leuartStopbits1 = LEUART_CTRL_STOPBITS_ONE, /**< 1 stopbits. */ leuartStopbits2 = LEUART_CTRL_STOPBITS_TWO /**< 2 stopbits. */ } LEUART_Stopbits_TypeDef; /******************************************************************************* ******************************* STRUCTS *********************************** ******************************************************************************/ /** Init structure. */ typedef struct { /** Specifies whether TX and/or RX shall be enabled when init completed. */ LEUART_Enable_TypeDef enable; /** * LEUART reference clock assumed when configuring baudrate setup. Set * it to 0 if currently configurated reference clock shall be used. */ uint32_t refFreq; /** Desired baudrate. */ uint32_t baudrate; /** Number of databits in frame. */ LEUART_Databits_TypeDef databits; /** Parity mode to use. */ LEUART_Parity_TypeDef parity; /** Number of stopbits to use. */ LEUART_Stopbits_TypeDef stopbits; } LEUART_Init_TypeDef; /** Default config for LEUART init structure. */ #define LEUART_INIT_DEFAULT \ { leuartEnable, /* Enable RX/TX when init completed. */ \ 0, /* Use current configured reference clock for configuring baudrate. */ \ 9600, /* 9600 bits/s. */ \ leuartDatabits8, /* 8 databits. */ \ leuartNoParity, /* No parity. */ \ leuartStopbits1 /* 1 stopbit. */ \ } /******************************************************************************* ***************************** PROTOTYPES ********************************** ******************************************************************************/ uint32_t LEUART_BaudrateCalc(uint32_t refFreq, uint32_t clkdiv); uint32_t LEUART_BaudrateGet(LEUART_TypeDef *leuart); void LEUART_BaudrateSet(LEUART_TypeDef *leuart, uint32_t refFreq, uint32_t baudrate); void LEUART_Enable(LEUART_TypeDef *leuart, LEUART_Enable_TypeDef enable); void LEUART_FreezeEnable(LEUART_TypeDef *leuart, bool enable); void LEUART_Init(LEUART_TypeDef *leuart, LEUART_Init_TypeDef *init); /***************************************************************************//** * @brief * Clear one or more pending LEUART interrupts. * * @param[in] leuart * Pointer to LEUART peripheral register block. * * @param[in] flags * Pending LEUART interrupt source to clear. Use a bitwise logic OR * combination of valid interrupt flags for the LEUART module (LEUART_IF_nnn). ******************************************************************************/ __STATIC_INLINE void LEUART_IntClear(LEUART_TypeDef *leuart, uint32_t flags) { leuart->IFC = flags; } /***************************************************************************//** * @brief * Disable one or more LEUART interrupts. * * @param[in] leuart * Pointer to LEUART peripheral register block. * * @param[in] flags * LEUART interrupt sources to disable. Use a bitwise logic OR combination of * valid interrupt flags for the LEUART module (LEUART_IF_nnn). ******************************************************************************/ __STATIC_INLINE void LEUART_IntDisable(LEUART_TypeDef *leuart, uint32_t flags) { leuart->IEN &= ~(flags); } /***************************************************************************//** * @brief * Enable one or more LEUART interrupts. * * @note * Depending on the use, a pending interrupt may already be set prior to * enabling the interrupt. Consider using LEUART_IntClear() prior to enabling * if such a pending interrupt should be ignored. * * @param[in] leuart * Pointer to LEUART peripheral register block. * * @param[in] flags * LEUART interrupt sources to enable. Use a bitwise logic OR combination of * valid interrupt flags for the LEUART module (LEUART_IF_nnn). ******************************************************************************/ __STATIC_INLINE void LEUART_IntEnable(LEUART_TypeDef *leuart, uint32_t flags) { leuart->IEN |= flags; } /***************************************************************************//** * @brief * Get pending LEUART interrupt flags. * * @note * The event bits are not cleared by the use of this function. * * @param[in] leuart * Pointer to LEUART peripheral register block. * * @return * LEUART interrupt sources pending. A bitwise logic OR combination of valid * interrupt flags for the LEUART module (LEUART_IF_nnn). ******************************************************************************/ __STATIC_INLINE uint32_t LEUART_IntGet(LEUART_TypeDef *leuart) { return(leuart->IF); } /***************************************************************************//** * @brief * Set one or more pending LEUART interrupts from SW. * * @param[in] leuart * Pointer to LEUART peripheral register block. * * @param[in] flags * LEUART interrupt sources to set to pending. Use a bitwise logic OR * combination of valid interrupt flags for the LEUART module (LEUART_IF_nnn). ******************************************************************************/ __STATIC_INLINE void LEUART_IntSet(LEUART_TypeDef *leuart, uint32_t flags) { leuart->IFS = flags; } void LEUART_Reset(LEUART_TypeDef *leuart); uint8_t LEUART_Rx(LEUART_TypeDef *leuart); uint16_t LEUART_RxExt(LEUART_TypeDef *leuart); void LEUART_Tx(LEUART_TypeDef *leuart, uint8_t data); void LEUART_TxExt(LEUART_TypeDef *leuart, uint16_t data); /** @} (end addtogroup LEUART) */ /** @} (end addtogroup EM_Library) */ #ifdef __cplusplus } #endif #endif /* __EM_LEUART_H */