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[freertos] / FreeRTOS / Demo / CORTEX_EFM32_Gecko_Starter_Kit_Simplicity_Studio / Source / SilLabs_Code / emlib / inc / em_ldma.h

/***************************************************************************//**\r
 * @file em_ldma.h\r
 * @brief Direct memory access (LDMA) API\r
 * @version 4.2.1\r
 *******************************************************************************\r
 * @section License\r
 * <b>(C) Copyright 2015 Silicon Labs, http://www.silabs.com</b>\r
 *******************************************************************************\r
 *\r
 * Permission is granted to anyone to use this software for any purpose,\r
 * including commercial applications, and to alter it and redistribute it\r
 * freely, subject to the following restrictions:\r
 *\r
 * 1. The origin of this software must not be misrepresented; you must not\r
 *    claim that you wrote the original software.@n\r
 * 2. Altered source versions must be plainly marked as such, and must not be\r
 *    misrepresented as being the original software.@n\r
 * 3. This notice may not be removed or altered from any source distribution.\r
 *\r
 * DISCLAIMER OF WARRANTY/LIMITATION OF REMEDIES: Silicon Labs has no\r
 * obligation to support this Software. Silicon Labs is providing the\r
 * Software "AS IS", with no express or implied warranties of any kind,\r
 * including, but not limited to, any implied warranties of merchantability\r
 * or fitness for any particular purpose or warranties against infringement\r
 * of any proprietary rights of a third party.\r
 *\r
 * Silicon Labs will not be liable for any consequential, incidental, or\r
 * special damages, or any other relief, or for any claim by any third party,\r
 * arising from your use of this Software.\r
 *\r
 ******************************************************************************/\r
\r
#ifndef __SILICON_LABS_EM_LDMA_H__\r
#define __SILICON_LABS_EM_LDMA_H__\r
\r
#include "em_device.h"\r
\r
#if defined( LDMA_PRESENT ) && ( LDMA_COUNT == 1 )\r
\r
#include <stdbool.h>\r
\r
#ifdef __cplusplus\r
extern "C" {\r
#endif\r
\r
\r
/***************************************************************************//**\r
 * @addtogroup EM_Library\r
 * @{\r
 ******************************************************************************/\r
\r
/***************************************************************************//**\r
 * @addtogroup LDMA\r
 * @{\r
 ******************************************************************************/\r
\r
/*******************************************************************************\r
 ********************************   ENUMS   ************************************\r
 ******************************************************************************/\r
\r
/**\r
 * This value controls the number of unit data transfers per arbitration\r
 * cycle, providing a means to balance DMA channels' load on the controller.\r
 */\r
typedef enum\r
{\r
  ldmaCtrlBlockSizeUnit1    = _LDMA_CH_CTRL_BLOCKSIZE_UNIT1,    /**< One transfer per arbitration.     */\r
  ldmaCtrlBlockSizeUnit2    = _LDMA_CH_CTRL_BLOCKSIZE_UNIT2,    /**< Two transfers per arbitration.    */\r
  ldmaCtrlBlockSizeUnit3    = _LDMA_CH_CTRL_BLOCKSIZE_UNIT3,    /**< Three transfers per arbitration.  */\r
  ldmaCtrlBlockSizeUnit4    = _LDMA_CH_CTRL_BLOCKSIZE_UNIT4,    /**< Four transfers per arbitration.   */\r
  ldmaCtrlBlockSizeUnit6    = _LDMA_CH_CTRL_BLOCKSIZE_UNIT6,    /**< Six transfers per arbitration.    */\r
  ldmaCtrlBlockSizeUnit8    = _LDMA_CH_CTRL_BLOCKSIZE_UNIT8,    /**< Eight transfers per arbitration.  */\r
  ldmaCtrlBlockSizeUnit16   = _LDMA_CH_CTRL_BLOCKSIZE_UNIT16,   /**< 16 transfers per arbitration.     */\r
  ldmaCtrlBlockSizeUnit32   = _LDMA_CH_CTRL_BLOCKSIZE_UNIT32,   /**< 32 transfers per arbitration.     */\r
  ldmaCtrlBlockSizeUnit64   = _LDMA_CH_CTRL_BLOCKSIZE_UNIT64,   /**< 64 transfers per arbitration.     */\r
  ldmaCtrlBlockSizeUnit128  = _LDMA_CH_CTRL_BLOCKSIZE_UNIT128,  /**< 128 transfers per arbitration.    */\r
  ldmaCtrlBlockSizeUnit256  = _LDMA_CH_CTRL_BLOCKSIZE_UNIT256,  /**< 256 transfers per arbitration.    */\r
  ldmaCtrlBlockSizeUnit512  = _LDMA_CH_CTRL_BLOCKSIZE_UNIT512,  /**< 512 transfers per arbitration.    */\r
  ldmaCtrlBlockSizeUnit1024 = _LDMA_CH_CTRL_BLOCKSIZE_UNIT1024, /**< 1024 transfers per arbitration.   */\r
  ldmaCtrlBlockSizeAll      = _LDMA_CH_CTRL_BLOCKSIZE_ALL       /**< Lock arbitration during transfer. */\r
} LDMA_CtrlBlockSize_t;\r
\r
/** DMA structure type. */\r
typedef enum\r
{\r
  ldmaCtrlStructTypeXfer  = _LDMA_CH_CTRL_STRUCTTYPE_TRANSFER,    /**< TRANSFER transfer type.    */\r
  ldmaCtrlStructTypeSync  = _LDMA_CH_CTRL_STRUCTTYPE_SYNCHRONIZE, /**< SYNCHRONIZE transfer type. */\r
  ldmaCtrlStructTypeWrite = _LDMA_CH_CTRL_STRUCTTYPE_WRITE        /**< WRITE transfer type.       */\r
} LDMA_CtrlStructType_t;\r
\r
/** DMA transfer block or cycle selector. */\r
typedef enum\r
{\r
  ldmaCtrlReqModeBlock = _LDMA_CH_CTRL_REQMODE_BLOCK, /**< Each DMA request trigger transfer of one block.     */\r
  ldmaCtrlReqModeAll   = _LDMA_CH_CTRL_REQMODE_ALL    /**< A DMA request trigger transfer of a complete cycle. */\r
} LDMA_CtrlReqMode_t;\r
\r
/** Source address increment unit size. */\r
typedef enum\r
{\r
  ldmaCtrlSrcIncOne  = _LDMA_CH_CTRL_SRCINC_ONE,  /**< Increment source address by one unit data size.   */\r
  ldmaCtrlSrcIncTwo  = _LDMA_CH_CTRL_SRCINC_TWO,  /**< Increment source address by two unit data sizes.  */\r
  ldmaCtrlSrcIncFour = _LDMA_CH_CTRL_SRCINC_FOUR, /**< Increment source address by four unit data sizes. */\r
  ldmaCtrlSrcIncNone = _LDMA_CH_CTRL_SRCINC_NONE  /**< Do not increment the source address.              */\r
} LDMA_CtrlSrcInc_t;\r
\r
/** DMA transfer unit size. */\r
typedef enum\r
{\r
  ldmaCtrlSizeByte = _LDMA_CH_CTRL_SIZE_BYTE,     /**< Each unit transfer is a byte.      */\r
  ldmaCtrlSizeHalf = _LDMA_CH_CTRL_SIZE_HALFWORD, /**< Each unit transfer is a half-word. */\r
  ldmaCtrlSizeWord = _LDMA_CH_CTRL_SIZE_WORD      /**< Each unit transfer is a word.      */\r
} LDMA_CtrlSize_t;\r
\r
/** Destination address increment unit size. */\r
typedef enum\r
{\r
  ldmaCtrlDstIncOne  = _LDMA_CH_CTRL_DSTINC_ONE,  /**< Increment destination address by one unit data size.   */\r
  ldmaCtrlDstIncTwo  = _LDMA_CH_CTRL_DSTINC_TWO,  /**< Increment destination address by two unit data sizes.  */\r
  ldmaCtrlDstIncFour = _LDMA_CH_CTRL_DSTINC_FOUR, /**< Increment destination address by four unit data sizes. */\r
  ldmaCtrlDstIncNone = _LDMA_CH_CTRL_DSTINC_NONE  /**< Do not increment the destination address.              */\r
} LDMA_CtrlDstInc_t;\r
\r
/** Source addressing mode. */\r
typedef enum\r
{\r
  ldmaCtrlSrcAddrModeAbs = _LDMA_CH_CTRL_SRCMODE_ABSOLUTE, /**< Address fetched from a linked structure is absolute.  */\r
  ldmaCtrlSrcAddrModeRel = _LDMA_CH_CTRL_SRCMODE_RELATIVE  /**< Address fetched from a linked structure is relative.  */\r
} LDMA_CtrlSrcAddrMode_t;\r
\r
/** Destination addressing mode. */\r
typedef enum\r
{\r
  ldmaCtrlDstAddrModeAbs = _LDMA_CH_CTRL_DSTMODE_ABSOLUTE, /**< Address fetched from a linked structure is absolute.  */\r
  ldmaCtrlDstAddrModeRel = _LDMA_CH_CTRL_DSTMODE_RELATIVE  /**< Address fetched from a linked structure is relative.  */\r
} LDMA_CtrlDstAddrMode_t;\r
\r
/** DMA linkload address mode. */\r
typedef enum\r
{\r
  ldmaLinkModeAbs = _LDMA_CH_LINK_LINKMODE_ABSOLUTE, /**< Link address is an absolute address value.            */\r
  ldmaLinkModeRel = _LDMA_CH_LINK_LINKMODE_RELATIVE  /**< Link address is a two's complement releative address. */\r
} LDMA_LinkMode_t;\r
\r
/** Insert extra arbitration slots to increase channel arbitration priority. */\r
typedef enum\r
{\r
  ldmaCfgArbSlotsAs1 = _LDMA_CH_CFG_ARBSLOTS_ONE,  /**< One arbitration slot selected.    */\r
  ldmaCfgArbSlotsAs2 = _LDMA_CH_CFG_ARBSLOTS_TWO,  /**< Two arbitration slots selected.   */\r
  ldmaCfgArbSlotsAs4 = _LDMA_CH_CFG_ARBSLOTS_FOUR, /**< Four arbitration slots selected.  */\r
  ldmaCfgArbSlotsAs8 = _LDMA_CH_CFG_ARBSLOTS_EIGHT /**< Eight arbitration slots selected. */\r
} LDMA_CfgArbSlots_t;\r
\r
/** Source address increment sign. */\r
typedef enum\r
{\r
  ldmaCfgSrcIncSignPos = _LDMA_CH_CFG_SRCINCSIGN_POSITIVE, /**< Increment source address. */\r
  ldmaCfgSrcIncSignNeg = _LDMA_CH_CFG_SRCINCSIGN_NEGATIVE  /**< Decrement source address. */\r
} LDMA_CfgSrcIncSign_t;\r
\r
/** Destination address increment sign. */\r
typedef enum\r
{\r
  ldmaCfgDstIncSignPos = _LDMA_CH_CFG_DSTINCSIGN_POSITIVE, /**< Increment destination address. */\r
  ldmaCfgDstIncSignNeg = _LDMA_CH_CFG_DSTINCSIGN_NEGATIVE  /**< Decrement destination address. */\r
} LDMA_CfgDstIncSign_t;\r
\r
/** Peripherals that can trigger LDMA transfers. */\r
typedef enum\r
{\r
  ldmaPeripheralSignal_NONE = LDMA_CH_REQSEL_SOURCESEL_NONE,                                                                ///< No peripheral selected for DMA triggering.\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_ADC0SCAN )\r
  ldmaPeripheralSignal_ADC0_SCAN = LDMA_CH_REQSEL_SIGSEL_ADC0SCAN | LDMA_CH_REQSEL_SOURCESEL_ADC0,                          ///< Trig on ADC0_SCAN.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_ADC0SINGLE )\r
  ldmaPeripheralSignal_ADC0_SINGLE = LDMA_CH_REQSEL_SIGSEL_ADC0SINGLE | LDMA_CH_REQSEL_SOURCESEL_ADC0,                      ///< Trig on ADC0_SINGLE.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_AGCRSSI )\r
  ldmaPeripheralSignal_AGC_RSSI = LDMA_CH_REQSEL_SIGSEL_AGCRSSI | LDMA_CH_REQSEL_SOURCESEL_AGC,                             ///< Trig on AGC_RSSI.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_CRYPTODATA0RD )\r
  ldmaPeripheralSignal_CRYPTO_DATA0RD = LDMA_CH_REQSEL_SIGSEL_CRYPTODATA0RD | LDMA_CH_REQSEL_SOURCESEL_CRYPTO,              ///< Trig on CRYPTO_DATA0RD.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_CRYPTODATA0WR )\r
  ldmaPeripheralSignal_CRYPTO_DATA0WR = LDMA_CH_REQSEL_SIGSEL_CRYPTODATA0WR | LDMA_CH_REQSEL_SOURCESEL_CRYPTO,              ///< Trig on CRYPTO_DATA0WR.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_CRYPTODATA0XWR )\r
  ldmaPeripheralSignal_CRYPTO_DATA0XWR = LDMA_CH_REQSEL_SIGSEL_CRYPTODATA0XWR | LDMA_CH_REQSEL_SOURCESEL_CRYPTO,            ///< Trig on CRYPTO_DATA0XWR.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_CRYPTODATA1RD )\r
  ldmaPeripheralSignal_CRYPTO_DATA1RD = LDMA_CH_REQSEL_SIGSEL_CRYPTODATA1RD | LDMA_CH_REQSEL_SOURCESEL_CRYPTO,              ///< Trig on CRYPTO_DATA1RD.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_CRYPTODATA1WR )\r
  ldmaPeripheralSignal_CRYPTO_DATA1WR = LDMA_CH_REQSEL_SIGSEL_CRYPTODATA1WR | LDMA_CH_REQSEL_SOURCESEL_CRYPTO,              ///< Trig on CRYPTO_DATA1WR.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_I2C0RXDATAV )\r
  ldmaPeripheralSignal_I2C0_RXDATAV = LDMA_CH_REQSEL_SIGSEL_I2C0RXDATAV | LDMA_CH_REQSEL_SOURCESEL_I2C0,                    ///< Trig on I2C0_RXDATAV.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_I2C0TXBL )\r
  ldmaPeripheralSignal_I2C0_TXBL = LDMA_CH_REQSEL_SIGSEL_I2C0TXBL | LDMA_CH_REQSEL_SOURCESEL_I2C0,                          ///< Trig on I2C0_TXBL.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_LEUART0RXDATAV )\r
  ldmaPeripheralSignal_LEUART0_RXDATAV = LDMA_CH_REQSEL_SIGSEL_LEUART0RXDATAV | LDMA_CH_REQSEL_SOURCESEL_LEUART0,           ///< Trig on LEUART0_RXDATAV.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_LEUART0TXBL )\r
  ldmaPeripheralSignal_LEUART0_TXBL = LDMA_CH_REQSEL_SIGSEL_LEUART0TXBL | LDMA_CH_REQSEL_SOURCESEL_LEUART0,                 ///< Trig on LEUART0_TXBL.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_LEUART0TXEMPTY )\r
  ldmaPeripheralSignal_LEUART0_TXEMPTY = LDMA_CH_REQSEL_SIGSEL_LEUART0TXEMPTY | LDMA_CH_REQSEL_SOURCESEL_LEUART0,           ///< Trig on LEUART0_TXEMPTY.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_MODEMDEBUG )\r
  ldmaPeripheralSignal_MODEM_DEBUG = LDMA_CH_REQSEL_SIGSEL_MODEMDEBUG | LDMA_CH_REQSEL_SOURCESEL_MODEM,                     ///< Trig on MODEM_DEBUG.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_MSCWDATA )\r
  ldmaPeripheralSignal_MSC_WDATA = LDMA_CH_REQSEL_SIGSEL_MSCWDATA | LDMA_CH_REQSEL_SOURCESEL_MSC,                           ///< Trig on MSC_WDATA.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERBOF )\r
  ldmaPeripheralSignal_PROTIMER_BOF = LDMA_CH_REQSEL_SIGSEL_PROTIMERBOF | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_BOF.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERCC0 )\r
  ldmaPeripheralSignal_PROTIMER_CC0 = LDMA_CH_REQSEL_SIGSEL_PROTIMERCC0 | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_CC0.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERCC1 )\r
  ldmaPeripheralSignal_PROTIMER_CC1 = LDMA_CH_REQSEL_SIGSEL_PROTIMERCC1 | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_CC1.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERCC2 )\r
  ldmaPeripheralSignal_PROTIMER_CC2 = LDMA_CH_REQSEL_SIGSEL_PROTIMERCC2 | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_CC2.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERCC3 )\r
  ldmaPeripheralSignal_PROTIMER_CC3 = LDMA_CH_REQSEL_SIGSEL_PROTIMERCC3 | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_CC3.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERCC4 )\r
  ldmaPeripheralSignal_PROTIMER_CC4 = LDMA_CH_REQSEL_SIGSEL_PROTIMERCC4 | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_CC4.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERPOF )\r
  ldmaPeripheralSignal_PROTIMER_POF = LDMA_CH_REQSEL_SIGSEL_PROTIMERPOF | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_POF.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PROTIMERWOF )\r
  ldmaPeripheralSignal_PROTIMER_WOF = LDMA_CH_REQSEL_SIGSEL_PROTIMERWOF | LDMA_CH_REQSEL_SOURCESEL_PROTIMER,                ///< Trig on PROTIMER_WOF.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PRSREQ0 )\r
  ldmaPeripheralSignal_PRS_REQ0 = LDMA_CH_REQSEL_SIGSEL_PRSREQ0 | LDMA_CH_REQSEL_SOURCESEL_PRS,                             ///< Trig on PRS_REQ0.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_PRSREQ1 )\r
  ldmaPeripheralSignal_PRS_REQ1 = LDMA_CH_REQSEL_SIGSEL_PRSREQ1 | LDMA_CH_REQSEL_SOURCESEL_PRS,                             ///< Trig on PRS_REQ1.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER0CC0 )\r
  ldmaPeripheralSignal_TIMER0_CC0 = LDMA_CH_REQSEL_SIGSEL_TIMER0CC0 | LDMA_CH_REQSEL_SOURCESEL_TIMER0,                      ///< Trig on TIMER0_CC0.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER0CC1 )\r
  ldmaPeripheralSignal_TIMER0_CC1 = LDMA_CH_REQSEL_SIGSEL_TIMER0CC1 | LDMA_CH_REQSEL_SOURCESEL_TIMER0,                      ///< Trig on TIMER0_CC1.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER0CC2 )\r
  ldmaPeripheralSignal_TIMER0_CC2 = LDMA_CH_REQSEL_SIGSEL_TIMER0CC2 | LDMA_CH_REQSEL_SOURCESEL_TIMER0,                      ///< Trig on TIMER0_CC2.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER0UFOF )\r
  ldmaPeripheralSignal_TIMER0_UFOF = LDMA_CH_REQSEL_SIGSEL_TIMER0UFOF | LDMA_CH_REQSEL_SOURCESEL_TIMER0,                    ///< Trig on TIMER0_UFOF.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER1CC0 )\r
  ldmaPeripheralSignal_TIMER1_CC0 = LDMA_CH_REQSEL_SIGSEL_TIMER1CC0 | LDMA_CH_REQSEL_SOURCESEL_TIMER1,                      ///< Trig on TIMER1_CC0.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER1CC1 )\r
  ldmaPeripheralSignal_TIMER1_CC1 = LDMA_CH_REQSEL_SIGSEL_TIMER1CC1 | LDMA_CH_REQSEL_SOURCESEL_TIMER1,                      ///< Trig on TIMER1_CC1.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER1CC2 )\r
  ldmaPeripheralSignal_TIMER1_CC2 = LDMA_CH_REQSEL_SIGSEL_TIMER1CC2 | LDMA_CH_REQSEL_SOURCESEL_TIMER1,                      ///< Trig on TIMER1_CC2.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER1CC3 )\r
  ldmaPeripheralSignal_TIMER1_CC3 = LDMA_CH_REQSEL_SIGSEL_TIMER1CC3 | LDMA_CH_REQSEL_SOURCESEL_TIMER1,                      ///< Trig on TIMER1_CC3.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_TIMER1UFOF )\r
  ldmaPeripheralSignal_TIMER1_UFOF = LDMA_CH_REQSEL_SIGSEL_TIMER1UFOF | LDMA_CH_REQSEL_SOURCESEL_TIMER1,                    ///< Trig on TIMER1_UFOF.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART0RXDATAV )\r
  ldmaPeripheralSignal_USART0_RXDATAV = LDMA_CH_REQSEL_SIGSEL_USART0RXDATAV | LDMA_CH_REQSEL_SOURCESEL_USART0,              ///< Trig on USART0_RXDATAV.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART0TXBL )\r
  ldmaPeripheralSignal_USART0_TXBL = LDMA_CH_REQSEL_SIGSEL_USART0TXBL | LDMA_CH_REQSEL_SOURCESEL_USART0,                    ///< Trig on USART0_TXBL.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART0TXEMPTY )\r
  ldmaPeripheralSignal_USART0_TXEMPTY = LDMA_CH_REQSEL_SIGSEL_USART0TXEMPTY | LDMA_CH_REQSEL_SOURCESEL_USART0,              ///< Trig on USART0_TXEMPTY.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART1RXDATAV )\r
  ldmaPeripheralSignal_USART1_RXDATAV = LDMA_CH_REQSEL_SIGSEL_USART1RXDATAV | LDMA_CH_REQSEL_SOURCESEL_USART1,              ///< Trig on USART1_RXDATAV.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART1RXDATAVRIGHT )\r
  ldmaPeripheralSignal_USART1_RXDATAVRIGHT = LDMA_CH_REQSEL_SIGSEL_USART1RXDATAVRIGHT | LDMA_CH_REQSEL_SOURCESEL_USART1,    ///< Trig on USART1_RXDATAVRIGHT.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART1TXBL )\r
  ldmaPeripheralSignal_USART1_TXBL = LDMA_CH_REQSEL_SIGSEL_USART1TXBL | LDMA_CH_REQSEL_SOURCESEL_USART1,                    ///< Trig on USART1_TXBL.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART1TXBLRIGHT )\r
  ldmaPeripheralSignal_USART1_TXBLRIGHT = LDMA_CH_REQSEL_SIGSEL_USART1TXBLRIGHT | LDMA_CH_REQSEL_SOURCESEL_USART1,          ///< Trig on USART1_TXBLRIGHT.\r
  #endif\r
  #if defined( LDMA_CH_REQSEL_SIGSEL_USART1TXEMPTY )\r
  ldmaPeripheralSignal_USART1_TXEMPTY = LDMA_CH_REQSEL_SIGSEL_USART1TXEMPTY | LDMA_CH_REQSEL_SOURCESEL_USART1               ///< Trig on USART1_TXEMPTY.\r
  #endif\r
} LDMA_PeripheralSignal_t;\r
\r
\r
/*******************************************************************************\r
 *******************************   STRUCTS   ***********************************\r
 ******************************************************************************/\r
\r
/**\r
 * @brief\r
 *   DMA descriptor.\r
 * @details\r
 *   The LDMA DMA controller supports three different DMA descriptors. Each\r
 *   consist of four WORD's which map directly onto hw control registers for a\r
 *   given DMA channel. The three descriptor types are XFER, SYNC and WRI.\r
 *   Refer to the reference manual for further information.\r
 */\r
typedef union\r
{\r
  /**\r
   *  TRANSFER DMA descriptor, this is the only descriptor type which can be\r
   *  used to start a DMA transfer.\r
   */\r
  struct\r
  {\r
    uint32_t  structType : 2;   /**< Set to 0 to select XFER descriptor type. */\r
    uint32_t  reserved0  : 1;\r
    uint32_t  structReq  : 1;   /**< DMA transfer trigger during LINKLOAD.    */\r
    uint32_t  xferCnt    : 11;  /**< Transfer count minus one.                */\r
    uint32_t  byteSwap   : 1;   /**< Enable byte swapping transfers.          */\r
    uint32_t  blockSize  : 4;   /**< Number of unit transfers per arb. cycle. */\r
    uint32_t  doneIfs    : 1;   /**< Generate interrupt when done.            */\r
    uint32_t  reqMode    : 1;   /**< Block or cycle transfer selector.        */\r
    uint32_t  decLoopCnt : 1;   /**< Enable looped transfers.                 */\r
    uint32_t  ignoreSrec : 1;   /**< Ignore single requests.                  */\r
    uint32_t  srcInc     : 2;   /**< Source address increment unit size.      */\r
    uint32_t  size       : 2;   /**< DMA transfer unit size.                  */\r
    uint32_t  dstInc     : 2;   /**< Destination address increment unit size. */\r
    uint32_t  srcAddrMode: 1;   /**< Source addressing mode.                  */\r
    uint32_t  dstAddrMode: 1;   /**< Destination addressing mode.             */\r
\r
    uint32_t  srcAddr;          /**< DMA source address.                      */\r
    uint32_t  dstAddr;          /**< DMA destination address.                 */\r
\r
    uint32_t  linkMode   : 1;   /**< Select absolute or relative link address.*/\r
    uint32_t  link       : 1;   /**< Enable LINKLOAD when transfer is done.   */\r
    int32_t   linkAddr   : 30;  /**< Address of next (linked) descriptor.     */\r
  } xfer;\r
\r
  /** SYNCHRONIZE DMA descriptor, used for intra channel transfer\r
  *   syncronization.\r
  */\r
  struct\r
  {\r
    uint32_t  structType : 2;   /**< Set to 1 to select SYNC descriptor type. */\r
    uint32_t  reserved0  : 1;\r
    uint32_t  structReq  : 1;   /**< DMA transfer trigger during LINKLOAD.    */\r
    uint32_t  xferCnt    : 11;  /**< Transfer count minus one.                */\r
    uint32_t  byteSwap   : 1;   /**< Enable byte swapping transfers.          */\r
    uint32_t  blockSize  : 4;   /**< Number of unit transfers per arb. cycle. */\r
    uint32_t  doneIfs    : 1;   /**< Generate interrupt when done.            */\r
    uint32_t  reqMode    : 1;   /**< Block or cycle transfer selector.        */\r
    uint32_t  decLoopCnt : 1;   /**< Enable looped transfers.                 */\r
    uint32_t  ignoreSrec : 1;   /**< Ignore single requests.                  */\r
    uint32_t  srcInc     : 2;   /**< Source address increment unit size.      */\r
    uint32_t  size       : 2;   /**< DMA transfer unit size.                  */\r
    uint32_t  dstInc     : 2;   /**< Destination address increment unit size. */\r
    uint32_t  srcAddrMode: 1;   /**< Source addressing mode.                  */\r
    uint32_t  dstAddrMode: 1;   /**< Destination addressing mode.             */\r
\r
    uint32_t  syncSet    : 8;   /**< Set bits in LDMA_CTRL.SYNCTRIG register. */\r
    uint32_t  syncClr    : 8;   /**< Clear bits in LDMA_CTRL.SYNCTRIG register*/\r
    uint32_t  reserved3  : 16;\r
    uint32_t  matchVal   : 8;   /**< Sync trig match value.                   */\r
    uint32_t  matchEn    : 8;   /**< Sync trig match enable.                  */\r
    uint32_t  reserved4  : 16;\r
\r
    uint32_t  linkMode   : 1;   /**< Select absolute or relative link address.*/\r
    uint32_t  link       : 1;   /**< Enable LINKLOAD when transfer is done.   */\r
    int32_t   linkAddr   : 30;  /**< Address of next (linked) descriptor.     */\r
  } sync;\r
\r
  /** WRITE DMA descriptor, used for write immediate operations.              */\r
  struct\r
  {\r
    uint32_t  structType : 2;   /**< Set to 2 to select WRITE descriptor type.*/\r
    uint32_t  reserved0  : 1;\r
    uint32_t  structReq  : 1;   /**< DMA transfer trigger during LINKLOAD.    */\r
    uint32_t  xferCnt    : 11;  /**< Transfer count minus one.                */\r
    uint32_t  byteSwap   : 1;   /**< Enable byte swapping transfers.          */\r
    uint32_t  blockSize  : 4;   /**< Number of unit transfers per arb. cycle. */\r
    uint32_t  doneIfs    : 1;   /**< Generate interrupt when done.            */\r
    uint32_t  reqMode    : 1;   /**< Block or cycle transfer selector.        */\r
    uint32_t  decLoopCnt : 1;   /**< Enable looped transfers.                 */\r
    uint32_t  ignoreSrec : 1;   /**< Ignore single requests.                  */\r
    uint32_t  srcInc     : 2;   /**< Source address increment unit size.      */\r
    uint32_t  size       : 2;   /**< DMA transfer unit size.                  */\r
    uint32_t  dstInc     : 2;   /**< Destination address increment unit size. */\r
    uint32_t  srcAddrMode: 1;   /**< Source addressing mode.                  */\r
    uint32_t  dstAddrMode: 1;   /**< Destination addressing mode.             */\r
\r
    uint32_t  immVal;           /**< Data to be written at dstAddr.           */\r
    uint32_t  dstAddr;          /**< DMA write destination address.           */\r
\r
    uint32_t  linkMode   : 1;   /**< Select absolute or relative link address.*/\r
    uint32_t  link       : 1;   /**< Enable LINKLOAD when transfer is done.   */\r
    int32_t   linkAddr   : 30;  /**< Address of next (linked) descriptor.     */\r
  } wri;\r
} LDMA_Descriptor_t;\r
\r
/** @brief LDMA initialization configuration structure. */\r
typedef struct\r
{\r
  uint8_t               ldmaInitCtrlNumFixed;     /**< Arbitration mode separator.*/\r
  uint8_t               ldmaInitCtrlSyncPrsClrEn; /**< PRS Synctrig clear enable. */\r
  uint8_t               ldmaInitCtrlSyncPrsSetEn; /**< PRS Synctrig set enable.   */\r
  uint8_t               ldmaInitIrqPriority;      /**< LDMA IRQ priority (0..7).  */\r
} LDMA_Init_t;\r
\r
/**\r
 * @brief\r
 *   DMA transfer configuration structure.\r
 * @details\r
 *   This struct configures all aspects of a DMA transfer.\r
 */\r
typedef struct\r
{\r
  uint32_t              ldmaReqSel;            /**< Selects DMA trigger source.          */\r
  uint8_t               ldmaCtrlSyncPrsClrOff; /**< PRS Synctrig clear enables to clear. */\r
  uint8_t               ldmaCtrlSyncPrsClrOn;  /**< PRS Synctrig clear enables to set.   */\r
  uint8_t               ldmaCtrlSyncPrsSetOff; /**< PRS Synctrig set enables to clear.   */\r
  uint8_t               ldmaCtrlSyncPrsSetOn;  /**< PRS Synctrig set enables to set.     */\r
  bool                  ldmaReqDis;            /**< Mask the PRS trigger input.          */\r
  bool                  ldmaDbgHalt;           /**< Dis. DMA trig when cpu is halted.    */\r
  uint8_t               ldmaCfgArbSlots;       /**< Arbitration slot number.             */\r
  uint8_t               ldmaCfgSrcIncSign;     /**< Source addr. increment sign.         */\r
  uint8_t               ldmaCfgDstIncSign;     /**< Dest. addr. increment sign.          */\r
  uint8_t               ldmaLoopCnt;           /**< Counter for looped transfers.        */\r
} LDMA_TransferCfg_t;\r
\r
\r
/*******************************************************************************\r
 **************************   STRUCT INITIALIZERS   ****************************\r
 ******************************************************************************/\r
\r
\r
/** @brief Default DMA initialization structure. */\r
#define LDMA_INIT_DEFAULT                                                                   \\r
{                                                                                           \\r
  .ldmaInitCtrlNumFixed     = _LDMA_CTRL_NUMFIXED_DEFAULT, /* Fixed priority arbitration. */ \\r
  .ldmaInitCtrlSyncPrsClrEn = 0,                           /* No PRS Synctrig clear enable*/ \\r
  .ldmaInitCtrlSyncPrsSetEn = 0,                           /* No PRS Synctrig set enable. */ \\r
  .ldmaInitIrqPriority      = 3                            /* IRQ priority level 3.       */ \\r
}\r
\r
/**\r
 * @brief\r
 *   Generic DMA transfer configuration for memory to memory transfers.\r
 */\r
#define LDMA_TRANSFER_CFG_MEMORY()              \\r
{                                               \\r
  0, 0, 0, 0, 0,                                \\r
  false, false, ldmaCfgArbSlotsAs1,             \\r
  ldmaCfgSrcIncSignPos, ldmaCfgDstIncSignPos, 0 \\r
}\r
\r
/**\r
 * @brief\r
 *   Generic DMA transfer configuration for looped memory to memory transfers.\r
 */\r
#define LDMA_TRANSFER_CFG_MEMORY_LOOP( loopCnt) \\r
{                                               \\r
  0, 0, 0, 0, 0,                                \\r
  false, false, ldmaCfgArbSlotsAs1,             \\r
  ldmaCfgSrcIncSignPos, ldmaCfgDstIncSignPos,   \\r
  loopCnt                                       \\r
}\r
\r
/**\r
 * @brief\r
 *   Generic DMA transfer configuration for memory to/from peripheral transfers.\r
 */\r
#define LDMA_TRANSFER_CFG_PERIPHERAL( signal )  \\r
{                                               \\r
  signal, 0, 0, 0, 0,                           \\r
  false, false, ldmaCfgArbSlotsAs1,             \\r
  ldmaCfgSrcIncSignPos, ldmaCfgDstIncSignPos, 0 \\r
}\r
\r
/**\r
 * @brief\r
 *   Generic DMA transfer configuration for looped memory to/from peripheral transfers.\r
 */\r
#define LDMA_TRANSFER_CFG_PERIPHERAL_LOOP( signal, loopCnt )  \\r
{                                                             \\r
  signal, 0, 0, 0, 0,                                         \\r
  false, false, ldmaCfgArbSlotsAs1,                           \\r
  ldmaCfgSrcIncSignPos, ldmaCfgDstIncSignPos, loopCnt         \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for single memory to memory word transfer.\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of words to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_M2M_WORD( src, dest, count ) \\r
{                                                           \\r
  .xfer =                                                   \\r
  {                                                         \\r
    .structType   = ldmaCtrlStructTypeXfer,                 \\r
    .structReq    = 1,                                      \\r
    .xferCnt      = ( count ) - 1,                          \\r
    .byteSwap     = 0,                                      \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                 \\r
    .doneIfs      = 1,                                      \\r
    .reqMode      = ldmaCtrlReqModeAll,                     \\r
    .decLoopCnt   = 0,                                      \\r
    .ignoreSrec   = 0,                                      \\r
    .srcInc       = ldmaCtrlSrcIncOne,                      \\r
    .size         = ldmaCtrlSizeWord,                       \\r
    .dstInc       = ldmaCtrlDstIncOne,                      \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                 \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                 \\r
    .srcAddr      = (uint32_t)(src),                        \\r
    .dstAddr      = (uint32_t)(dest),                       \\r
    .linkMode     = 0,                                      \\r
    .link         = 0,                                      \\r
    .linkAddr     = 0                                       \\r
  }                                                         \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for single memory to memory half-word transfer.\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of half-words to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_M2M_HALF( src, dest, count ) \\r
{                                                           \\r
  .xfer =                                                   \\r
  {                                                         \\r
    .structType   = ldmaCtrlStructTypeXfer,                 \\r
    .structReq    = 1,                                      \\r
    .xferCnt      = ( count ) - 1,                          \\r
    .byteSwap     = 0,                                      \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                 \\r
    .doneIfs      = 1,                                      \\r
    .reqMode      = ldmaCtrlReqModeAll,                     \\r
    .decLoopCnt   = 0,                                      \\r
    .ignoreSrec   = 0,                                      \\r
    .srcInc       = ldmaCtrlSrcIncOne,                      \\r
    .size         = ldmaCtrlSizeHalf,                       \\r
    .dstInc       = ldmaCtrlDstIncOne,                      \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                 \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                 \\r
    .srcAddr      = (uint32_t)(src),                        \\r
    .dstAddr      = (uint32_t)(dest),                       \\r
    .linkMode     = 0,                                      \\r
    .link         = 0,                                      \\r
    .linkAddr     = 0                                       \\r
  }                                                         \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for single memory to memory byte transfer.\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of bytes to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_M2M_BYTE( src, dest, count ) \\r
{                                                           \\r
  .xfer =                                                   \\r
  {                                                         \\r
    .structType   = ldmaCtrlStructTypeXfer,                 \\r
    .structReq    = 1,                                      \\r
    .xferCnt      = ( count ) - 1,                          \\r
    .byteSwap     = 0,                                      \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                 \\r
    .doneIfs      = 1,                                      \\r
    .reqMode      = ldmaCtrlReqModeAll,                     \\r
    .decLoopCnt   = 0,                                      \\r
    .ignoreSrec   = 0,                                      \\r
    .srcInc       = ldmaCtrlSrcIncOne,                      \\r
    .size         = ldmaCtrlSizeByte,                       \\r
    .dstInc       = ldmaCtrlDstIncOne,                      \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                 \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                 \\r
    .srcAddr      = (uint32_t)(src),                        \\r
    .dstAddr      = (uint32_t)(dest),                       \\r
    .linkMode     = 0,                                      \\r
    .link         = 0,                                      \\r
    .linkAddr     = 0                                       \\r
  }                                                         \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for linked memory to memory word transfer.\r
 *\r
 *   The link address must be an absolute address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is not\r
 *   initialized.\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of words to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_LINKABS_M2M_WORD( src, dest, count ) \\r
{                                                            \\r
  .xfer =                                                    \\r
  {                                                          \\r
    .structType   = ldmaCtrlStructTypeXfer,                  \\r
    .structReq    = 1,                                       \\r
    .xferCnt      = ( count ) - 1,                           \\r
    .byteSwap     = 0,                                       \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                  \\r
    .doneIfs      = 0,                                       \\r
    .reqMode      = ldmaCtrlReqModeAll,                      \\r
    .decLoopCnt   = 0,                                       \\r
    .ignoreSrec   = 0,                                       \\r
    .srcInc       = ldmaCtrlSrcIncOne,                       \\r
    .size         = ldmaCtrlSizeWord,                        \\r
    .dstInc       = ldmaCtrlDstIncOne,                       \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                  \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                  \\r
    .srcAddr      = (uint32_t)(src),                         \\r
    .dstAddr      = (uint32_t)(dest),                        \\r
    .linkMode     = ldmaLinkModeAbs,                         \\r
    .link         = 1,                                       \\r
    .linkAddr     = 0   /* Must be set runtime ! */          \\r
  }                                                          \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for linked memory to memory half-word transfer.\r
 *\r
 *   The link address must be an absolute address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is not\r
 *   initialized.\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of half-words to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_LINKABS_M2M_HALF( src, dest, count ) \\r
{                                                            \\r
  .xfer =                                                    \\r
  {                                                          \\r
    .structType   = ldmaCtrlStructTypeXfer,                  \\r
    .structReq    = 1,                                       \\r
    .xferCnt      = ( count ) - 1,                           \\r
    .byteSwap     = 0,                                       \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                  \\r
    .doneIfs      = 0,                                       \\r
    .reqMode      = ldmaCtrlReqModeAll,                      \\r
    .decLoopCnt   = 0,                                       \\r
    .ignoreSrec   = 0,                                       \\r
    .srcInc       = ldmaCtrlSrcIncOne,                       \\r
    .size         = ldmaCtrlSizeHalf,                        \\r
    .dstInc       = ldmaCtrlDstIncOne,                       \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                  \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                  \\r
    .srcAddr      = (uint32_t)(src),                         \\r
    .dstAddr      = (uint32_t)(dest),                        \\r
    .linkMode     = ldmaLinkModeAbs,                         \\r
    .link         = 1,                                       \\r
    .linkAddr     = 0   /* Must be set runtime ! */          \\r
  }                                                          \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for linked memory to memory byte transfer.\r
 *\r
 *   The link address must be an absolute address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is not\r
 *   initialized.\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of bytes to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_LINKABS_M2M_BYTE( src, dest, count ) \\r
{                                                            \\r
  .xfer =                                                    \\r
  {                                                          \\r
    .structType   = ldmaCtrlStructTypeXfer,                  \\r
    .structReq    = 1,                                       \\r
    .xferCnt      = ( count ) - 1,                           \\r
    .byteSwap     = 0,                                       \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                  \\r
    .doneIfs      = 0,                                       \\r
    .reqMode      = ldmaCtrlReqModeAll,                      \\r
    .decLoopCnt   = 0,                                       \\r
    .ignoreSrec   = 0,                                       \\r
    .srcInc       = ldmaCtrlSrcIncOne,                       \\r
    .size         = ldmaCtrlSizeByte,                        \\r
    .dstInc       = ldmaCtrlDstIncOne,                       \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                  \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                  \\r
    .srcAddr      = (uint32_t)(src),                         \\r
    .dstAddr      = (uint32_t)(dest),                        \\r
    .linkMode     = ldmaLinkModeAbs,                         \\r
    .link         = 1,                                       \\r
    .linkAddr     = 0   /* Must be set runtime ! */          \\r
  }                                                          \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for linked memory to memory word transfer.\r
 *\r
 *   The link address is a relative address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is\r
 *   initialized to 4, assuming that the next descriptor immediately follows\r
 *   this descriptor (in memory).\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of words to transfer.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_M2M_WORD( src, dest, count, linkjmp ) \\r
{                                                                     \\r
  .xfer =                                                             \\r
  {                                                                   \\r
    .structType   = ldmaCtrlStructTypeXfer,                           \\r
    .structReq    = 1,                                                \\r
    .xferCnt      = ( count ) - 1,                                    \\r
    .byteSwap     = 0,                                                \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                           \\r
    .doneIfs      = 0,                                                \\r
    .reqMode      = ldmaCtrlReqModeAll,                               \\r
    .decLoopCnt   = 0,                                                \\r
    .ignoreSrec   = 0,                                                \\r
    .srcInc       = ldmaCtrlSrcIncOne,                                \\r
    .size         = ldmaCtrlSizeWord,                                 \\r
    .dstInc       = ldmaCtrlDstIncOne,                                \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                           \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                           \\r
    .srcAddr      = (uint32_t)(src),                                  \\r
    .dstAddr      = (uint32_t)(dest),                                 \\r
    .linkMode     = ldmaLinkModeRel,                                  \\r
    .link         = 1,                                                \\r
    .linkAddr     = ( linkjmp ) * 4                                   \\r
  }                                                                   \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for linked memory to memory half-word transfer.\r
 *\r
 *   The link address is a relative address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is\r
 *   initialized to 4, assuming that the next descriptor immediately follows\r
 *   this descriptor (in memory).\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of half-words to transfer.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_M2M_HALF( src, dest, count, linkjmp ) \\r
{                                                                     \\r
  .xfer =                                                             \\r
  {                                                                   \\r
    .structType   = ldmaCtrlStructTypeXfer,                           \\r
    .structReq    = 1,                                                \\r
    .xferCnt      = ( count ) - 1,                                    \\r
    .byteSwap     = 0,                                                \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                           \\r
    .doneIfs      = 0,                                                \\r
    .reqMode      = ldmaCtrlReqModeAll,                               \\r
    .decLoopCnt   = 0,                                                \\r
    .ignoreSrec   = 0,                                                \\r
    .srcInc       = ldmaCtrlSrcIncOne,                                \\r
    .size         = ldmaCtrlSizeHalf,                                 \\r
    .dstInc       = ldmaCtrlDstIncOne,                                \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                           \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                           \\r
    .srcAddr      = (uint32_t)(src),                                  \\r
    .dstAddr      = (uint32_t)(dest),                                 \\r
    .linkMode     = ldmaLinkModeRel,                                  \\r
    .link         = 1,                                                \\r
    .linkAddr     = ( linkjmp ) * 4                                   \\r
  }                                                                   \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for linked memory to memory byte transfer.\r
 *\r
 *   The link address is a relative address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is\r
 *   initialized to 4, assuming that the next descriptor immediately follows\r
 *   this descriptor (in memory).\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of bytes to transfer.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_M2M_BYTE( src, dest, count, linkjmp ) \\r
{                                                                     \\r
  .xfer =                                                             \\r
  {                                                                   \\r
    .structType   = ldmaCtrlStructTypeXfer,                           \\r
    .structReq    = 1,                                                \\r
    .xferCnt      = ( count ) - 1,                                    \\r
    .byteSwap     = 0,                                                \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                           \\r
    .doneIfs      = 0,                                                \\r
    .reqMode      = ldmaCtrlReqModeAll,                               \\r
    .decLoopCnt   = 0,                                                \\r
    .ignoreSrec   = 0,                                                \\r
    .srcInc       = ldmaCtrlSrcIncOne,                                \\r
    .size         = ldmaCtrlSizeByte,                                 \\r
    .dstInc       = ldmaCtrlDstIncOne,                                \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                           \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                           \\r
    .srcAddr      = (uint32_t)(src),                                  \\r
    .dstAddr      = (uint32_t)(dest),                                 \\r
    .linkMode     = ldmaLinkModeRel,                                  \\r
    .link         = 1,                                                \\r
    .linkAddr     = ( linkjmp ) * 4                                   \\r
  }                                                                   \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for byte transfers from a peripheral to memory.\r
 * @param[in] src       Peripheral data source register address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of bytes to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_P2M_BYTE( src, dest, count ) \\r
{                                                           \\r
  .xfer =                                                   \\r
  {                                                         \\r
    .structType   = ldmaCtrlStructTypeXfer,                 \\r
    .structReq    = 0,                                      \\r
    .xferCnt      = ( count ) - 1,                          \\r
    .byteSwap     = 0,                                      \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                 \\r
    .doneIfs      = 1,                                      \\r
    .reqMode      = ldmaCtrlReqModeBlock,                   \\r
    .decLoopCnt   = 0,                                      \\r
    .ignoreSrec   = 0,                                      \\r
    .srcInc       = ldmaCtrlSrcIncNone,                     \\r
    .size         = ldmaCtrlSizeByte,                       \\r
    .dstInc       = ldmaCtrlDstIncOne,                      \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                 \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                 \\r
    .srcAddr      = (uint32_t)(src),                        \\r
    .dstAddr      = (uint32_t)(dest),                       \\r
    .linkMode     = 0,                                      \\r
    .link         = 0,                                      \\r
    .linkAddr     = 0                                       \\r
  }                                                         \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for byte transfers from memory to a peripheral\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Peripheral data register destination address.\r
 * @param[in] count     Number of bytes to transfer.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_M2P_BYTE( src, dest, count ) \\r
{                                                           \\r
  .xfer =                                                   \\r
  {                                                         \\r
    .structType   = ldmaCtrlStructTypeXfer,                 \\r
    .structReq    = 0,                                      \\r
    .xferCnt      = ( count ) - 1,                          \\r
    .byteSwap     = 0,                                      \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                 \\r
    .doneIfs      = 1,                                      \\r
    .reqMode      = ldmaCtrlReqModeBlock,                   \\r
    .decLoopCnt   = 0,                                      \\r
    .ignoreSrec   = 0,                                      \\r
    .srcInc       = ldmaCtrlSrcIncOne,                      \\r
    .size         = ldmaCtrlSizeByte,                       \\r
    .dstInc       = ldmaCtrlDstIncNone,                     \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                 \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                 \\r
    .srcAddr      = (uint32_t)(src),                        \\r
    .dstAddr      = (uint32_t)(dest),                       \\r
    .linkMode     = 0,                                      \\r
    .link         = 0,                                      \\r
    .linkAddr     = 0                                       \\r
  }                                                         \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for byte transfers from a peripheral to memory.\r
 * @param[in] src       Peripheral data source register address.\r
 * @param[in] dest      Destination data address.\r
 * @param[in] count     Number of bytes to transfer.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_P2M_BYTE( src, dest, count, linkjmp ) \\r
{                                                                     \\r
  .xfer =                                                             \\r
  {                                                                   \\r
    .structType   = ldmaCtrlStructTypeXfer,                           \\r
    .structReq    = 0,                                                \\r
    .xferCnt      = ( count ) - 1,                                    \\r
    .byteSwap     = 0,                                                \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                           \\r
    .doneIfs      = 1,                                                \\r
    .reqMode      = ldmaCtrlReqModeBlock,                             \\r
    .decLoopCnt   = 0,                                                \\r
    .ignoreSrec   = 0,                                                \\r
    .srcInc       = ldmaCtrlSrcIncNone,                               \\r
    .size         = ldmaCtrlSizeByte,                                 \\r
    .dstInc       = ldmaCtrlDstIncOne,                                \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                           \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                           \\r
    .srcAddr      = (uint32_t)(src),                                  \\r
    .dstAddr      = (uint32_t)(dest),                                 \\r
    .linkMode     = ldmaLinkModeRel,                                  \\r
    .link         = 1,                                                \\r
    .linkAddr     = ( linkjmp ) * 4                                   \\r
  }                                                                   \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for byte transfers from memory to a peripheral\r
 * @param[in] src       Source data address.\r
 * @param[in] dest      Peripheral data register destination address.\r
 * @param[in] count     Number of bytes to transfer.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_M2P_BYTE( src, dest, count, linkjmp ) \\r
{                                                                     \\r
  .xfer =                                                             \\r
  {                                                                   \\r
    .structType   = ldmaCtrlStructTypeXfer,                           \\r
    .structReq    = 0,                                                \\r
    .xferCnt      = ( count ) - 1,                                    \\r
    .byteSwap     = 0,                                                \\r
    .blockSize    = ldmaCtrlBlockSizeUnit1,                           \\r
    .doneIfs      = 1,                                                \\r
    .reqMode      = ldmaCtrlReqModeBlock,                             \\r
    .decLoopCnt   = 0,                                                \\r
    .ignoreSrec   = 0,                                                \\r
    .srcInc       = ldmaCtrlSrcIncOne,                                \\r
    .size         = ldmaCtrlSizeByte,                                 \\r
    .dstInc       = ldmaCtrlDstIncNone,                               \\r
    .srcAddrMode  = ldmaCtrlSrcAddrModeAbs,                           \\r
    .dstAddrMode  = ldmaCtrlDstAddrModeAbs,                           \\r
    .srcAddr      = (uint32_t)(src),                                  \\r
    .dstAddr      = (uint32_t)(dest),                                 \\r
    .linkMode     = ldmaLinkModeRel,                                  \\r
    .link         = 1,                                                \\r
    .linkAddr     = ( linkjmp ) * 4                                   \\r
  }                                                                   \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for Immediate WRITE transfer\r
 * @param[in] value     Immediate value to write.\r
 * @param[in] address   Write sddress.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_WRITE( value, address )  \\r
{                                                       \\r
  .wri =                                                \\r
  {                                                     \\r
    .structType   = ldmaCtrlStructTypeWrite,            \\r
    .structReq    = 1,                                  \\r
    .xferCnt      = 0,                                  \\r
    .byteSwap     = 0,                                  \\r
    .blockSize    = 0,                                  \\r
    .doneIfs      = 1,                                  \\r
    .reqMode      = 0,                                  \\r
    .decLoopCnt   = 0,                                  \\r
    .ignoreSrec   = 0,                                  \\r
    .srcInc       = 0,                                  \\r
    .size         = 0,                                  \\r
    .dstInc       = 0,                                  \\r
    .srcAddrMode  = 0,                                  \\r
    .dstAddrMode  = 0,                                  \\r
    .immVal       = (value),                            \\r
    .dstAddr      = (uint32_t)(address),                \\r
    .linkMode     = 0,                                  \\r
    .link         = 0,                                  \\r
    .linkAddr     = 0                                   \\r
  }                                                     \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for Immediate WRITE transfer\r
 *\r
 *   The link address must be an absolute address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is not\r
 *   initialized.\r
 * @param[in] value     Immediate value to write.\r
 * @param[in] address   Write sddress.\r
 */\r
#define LDMA_DESCRIPTOR_LINKABS_WRITE( value, address )  \\r
{                                                        \\r
  .wri =                                                 \\r
  {                                                      \\r
    .structType   = ldmaCtrlStructTypeWrite,             \\r
    .structReq    = 1,                                   \\r
    .xferCnt      = 0,                                   \\r
    .byteSwap     = 0,                                   \\r
    .blockSize    = 0,                                   \\r
    .doneIfs      = 0,                                   \\r
    .reqMode      = 0,                                   \\r
    .decLoopCnt   = 0,                                   \\r
    .ignoreSrec   = 0,                                   \\r
    .srcInc       = 0,                                   \\r
    .size         = 0,                                   \\r
    .dstInc       = 0,                                   \\r
    .srcAddrMode  = 0,                                   \\r
    .dstAddrMode  = 0,                                   \\r
    .immVal       = (value),                             \\r
    .dstAddr      = (uint32_t)(address),                 \\r
    .linkMode     = ldmaLinkModeAbs,                     \\r
    .link         = 1,                                   \\r
    .linkAddr     = 0   /* Must be set runtime ! */      \\r
  }                                                      \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for Immediate WRITE transfer\r
 * @param[in] value     Immediate value to write.\r
 * @param[in] address   Write sddress.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_WRITE( value, address, linkjmp )  \\r
{                                                                 \\r
  .wri =                                                          \\r
  {                                                               \\r
    .structType   = ldmaCtrlStructTypeWrite,                      \\r
    .structReq    = 1,                                            \\r
    .xferCnt      = 0,                                            \\r
    .byteSwap     = 0,                                            \\r
    .blockSize    = 0,                                            \\r
    .doneIfs      = 0,                                            \\r
    .reqMode      = 0,                                            \\r
    .decLoopCnt   = 0,                                            \\r
    .ignoreSrec   = 0,                                            \\r
    .srcInc       = 0,                                            \\r
    .size         = 0,                                            \\r
    .dstInc       = 0,                                            \\r
    .srcAddrMode  = 0,                                            \\r
    .dstAddrMode  = 0,                                            \\r
    .immVal       = (value),                                      \\r
    .dstAddr      = (uint32_t)(address),                          \\r
    .linkMode     = ldmaLinkModeRel,                              \\r
    .link         = 1,                                            \\r
    .linkAddr     = ( linkjmp ) * 4                               \\r
  }                                                               \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for SYNC transfer\r
 * @param[in] set          Sync pattern bits to set.\r
 * @param[in] clr          Sync pattern bits to clear.\r
 * @param[in] matchValue   Sync pattern to match.\r
 * @param[in] matchEnable  Sync pattern bits to enable for match.\r
 */\r
#define LDMA_DESCRIPTOR_SINGLE_SYNC( set, clr, matchValue, matchEnable )  \\r
{                                                                         \\r
  .sync =                                                                 \\r
  {                                                                       \\r
    .structType   = ldmaCtrlStructTypeSync,                               \\r
    .structReq    = 1,                                                    \\r
    .xferCnt      = 0,                                                    \\r
    .byteSwap     = 0,                                                    \\r
    .blockSize    = 0,                                                    \\r
    .doneIfs      = 1,                                                    \\r
    .reqMode      = 0,                                                    \\r
    .decLoopCnt   = 0,                                                    \\r
    .ignoreSrec   = 0,                                                    \\r
    .srcInc       = 0,                                                    \\r
    .size         = 0,                                                    \\r
    .dstInc       = 0,                                                    \\r
    .srcAddrMode  = 0,                                                    \\r
    .dstAddrMode  = 0,                                                    \\r
    .syncSet      = (set),                                                \\r
    .syncClr      = (clr),                                                \\r
    .matchVal     = (matchValue),                                         \\r
    .matchEn      = (matchEnable),                                        \\r
    .linkMode     = 0,                                                    \\r
    .link         = 0,                                                    \\r
    .linkAddr     = 0                                                     \\r
  }                                                                       \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for SYNC transfer\r
 *\r
 *   The link address must be an absolute address.\r
 * @note\r
 *   The linkAddr member of the transfer descriptor is not\r
 *   initialized.\r
 * @param[in] set          Sync pattern bits to set.\r
 * @param[in] clr          Sync pattern bits to clear.\r
 * @param[in] matchValue   Sync pattern to match.\r
 * @param[in] matchEnable  Sync pattern bits to enable for match.\r
 */\r
#define LDMA_DESCRIPTOR_LINKABS_SYNC( set, clr, matchValue, matchEnable ) \\r
{                                                                         \\r
  .sync =                                                                 \\r
  {                                                                       \\r
    .structType   = ldmaCtrlStructTypeSync,                               \\r
    .structReq    = 1,                                                    \\r
    .xferCnt      = 0,                                                    \\r
    .byteSwap     = 0,                                                    \\r
    .blockSize    = 0,                                                    \\r
    .doneIfs      = 0,                                                    \\r
    .reqMode      = 0,                                                    \\r
    .decLoopCnt   = 0,                                                    \\r
    .ignoreSrec   = 0,                                                    \\r
    .srcInc       = 0,                                                    \\r
    .size         = 0,                                                    \\r
    .dstInc       = 0,                                                    \\r
    .srcAddrMode  = 0,                                                    \\r
    .dstAddrMode  = 0,                                                    \\r
    .syncSet      = (set),                                                \\r
    .syncClr      = (clr),                                                \\r
    .matchVal     = (matchValue),                                         \\r
    .matchEn      = (matchEnable),                                        \\r
    .linkMode     = ldmaLinkModeAbs,                                      \\r
    .link         = 1,                                                    \\r
    .linkAddr     = 0   /* Must be set runtime ! */                       \\r
  }                                                                       \\r
}\r
\r
/**\r
 * @brief\r
 *   DMA descriptor initializer for SYNC transfer\r
 * @param[in] set          Sync pattern bits to set.\r
 * @param[in] clr          Sync pattern bits to clear.\r
 * @param[in] matchValue   Sync pattern to match.\r
 * @param[in] matchEnable  Sync pattern bits to enable for match.\r
 * @param[in] linkjmp   Address of descriptor to link to expressed as a\r
 *                      signed number of descriptors from "here".\r
 *                      1=one descriptor forward in memory,\r
 *                      0=one this descriptor,\r
 *                      -1=one descriptor back in memory.\r
 */\r
#define LDMA_DESCRIPTOR_LINKREL_SYNC( set, clr, matchValue, matchEnable, linkjmp ) \\r
{                                                                         \\r
  .sync =                                                                 \\r
  {                                                                       \\r
    .structType   = ldmaCtrlStructTypeSync,                               \\r
    .structReq    = 1,                                                    \\r
    .xferCnt      = 0,                                                    \\r
    .byteSwap     = 0,                                                    \\r
    .blockSize    = 0,                                                    \\r
    .doneIfs      = 0,                                                    \\r
    .reqMode      = 0,                                                    \\r
    .decLoopCnt   = 0,                                                    \\r
    .ignoreSrec   = 0,                                                    \\r
    .srcInc       = 0,                                                    \\r
    .size         = 0,                                                    \\r
    .dstInc       = 0,                                                    \\r
    .srcAddrMode  = 0,                                                    \\r
    .dstAddrMode  = 0,                                                    \\r
    .syncSet      = (set),                                                \\r
    .syncClr      = (clr),                                                \\r
    .matchVal     = (matchValue),                                         \\r
    .matchEn      = (matchEnable),                                        \\r
    .linkMode     = ldmaLinkModeRel,                                      \\r
    .link         = 1,                                                    \\r
    .linkAddr     = ( linkjmp ) * 4                                       \\r
  }                                                                       \\r
}\r
\r
/*******************************************************************************\r
 *****************************   PROTOTYPES   **********************************\r
 ******************************************************************************/\r
\r
void LDMA_DeInit( void );\r
void LDMA_Init( LDMA_Init_t *init );\r
void LDMA_StartTransfer(  int ch,\r
                          LDMA_TransferCfg_t *transfer,\r
                          LDMA_Descriptor_t  *descriptor );\r
void LDMA_StopTransfer( int ch );\r
bool LDMA_TransferDone( int ch );\r
uint32_t LDMA_TransferRemainingCount( int ch );\r
\r
\r
/***************************************************************************//**\r
 * @brief\r
 *   Clear one or more pending LDMA interrupts.\r
 *\r
 * @param[in] flags\r
 *   Pending LDMA interrupt sources to clear. Use one or more valid\r
 *   interrupt flags for the LDMA module (LDMA_IFC_nnn).\r
 ******************************************************************************/\r
__STATIC_INLINE void LDMA_IntClear(uint32_t flags)\r
{\r
  LDMA->IFC = flags;\r
}\r
\r
\r
/***************************************************************************//**\r
 * @brief\r
 *   Disable one or more LDMA interrupts.\r
 *\r
 * @param[in] flags\r
 *   LDMA interrupt sources to disable. Use one or more valid\r
 *   interrupt flags for the LDMA module (LDMA_IEN_nnn).\r
 ******************************************************************************/\r
__STATIC_INLINE void LDMA_IntDisable(uint32_t flags)\r
{\r
  LDMA->IEN &= ~flags;\r
}\r
\r
\r
/***************************************************************************//**\r
 * @brief\r
 *   Enable one or more LDMA interrupts.\r
 *\r
 * @note\r
 *   Depending on the use, a pending interrupt may already be set prior to\r
 *   enabling the interrupt. Consider using LDMA_IntClear() prior to enabling\r
 *   if such a pending interrupt should be ignored.\r
 *\r
 * @param[in] flags\r
 *   LDMA interrupt sources to enable. Use one or more valid\r
 *   interrupt flags for the LDMA module (LDMA_IEN_nnn).\r
 ******************************************************************************/\r
__STATIC_INLINE void LDMA_IntEnable(uint32_t flags)\r
{\r
  LDMA->IEN |= flags;\r
}\r
\r
\r
/***************************************************************************//**\r
 * @brief\r
 *   Get pending LDMA interrupt flags.\r
 *\r
 * @note\r
 *   The event bits are not cleared by the use of this function.\r
 *\r
 * @return\r
 *   LDMA interrupt sources pending. Returns one or more valid\r
 *   interrupt flags for the LDMA module (LDMA_IF_nnn).\r
 ******************************************************************************/\r
__STATIC_INLINE uint32_t LDMA_IntGet(void)\r
{\r
  return LDMA->IF;\r
}\r
\r
\r
/***************************************************************************//**\r
 * @brief\r
 *   Get enabled and pending LDMA interrupt flags.\r
 *   Useful for handling more interrupt sources in the same interrupt handler.\r
 *\r
 * @note\r
 *   Interrupt flags are not cleared by the use of this function.\r
 *\r
 * @return\r
 *   Pending and enabled LDMA interrupt sources\r
 *   The return value is the bitwise AND of\r
 *   - the enabled interrupt sources in LDMA_IEN and\r
 *   - the pending interrupt flags LDMA_IF\r
 ******************************************************************************/\r
__STATIC_INLINE uint32_t LDMA_IntGetEnabled(void)\r
{\r
  uint32_t ien;\r
\r
  ien = LDMA->IEN;\r
  return LDMA->IF & ien;\r
}\r
\r
\r
/***************************************************************************//**\r
 * @brief\r
 *   Set one or more pending LDMA interrupts\r
 *\r
 * @param[in] flags\r
 *   LDMA interrupt sources to set to pending. Use one or more valid\r
 *   interrupt flags for the LDMA module (LDMA_IFS_nnn).\r
 ******************************************************************************/\r
__STATIC_INLINE void LDMA_IntSet(uint32_t flags)\r
{\r
  LDMA->IFS = flags;\r
}\r
\r
/** @} (end addtogroup LDMA) */\r
/** @} (end addtogroup EM_Library) */\r
\r
#ifdef __cplusplus\r
}\r
#endif\r
\r
#endif /* defined( LDMA_PRESENT ) && ( LDMA_COUNT == 1 ) */\r
#endif /* __SILICON_LABS_EM_LDMA_H__ */\r