rt-thread-official/bsp/efm32/Libraries/emlib/inc/em_msc.h

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2013-01-08 22:40:58 +08:00
/***************************************************************************//**
* @file
* @brief Flash controller module (MSC) peripheral API
* @author Energy Micro AS
* @version 3.0.0
*******************************************************************************
* @section License
* <b>(C) Copyright 2012 Energy Micro AS, http://www.energymicro.com</b>
*******************************************************************************
*
* 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_MSC_H
#define __EM_MSC_H
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#include <stdbool.h>
#include "em_part.h"
#include "em_bitband.h"
/***************************************************************************//**
* @addtogroup EM_Library
* @{
******************************************************************************/
/***************************************************************************//**
* @addtogroup MSC
* @brief Flash controller (MSC) peripheral API
* @{
******************************************************************************/
/*******************************************************************************
************************* DEFINES *****************************************
******************************************************************************/
/**
* @brief
* The timeout used while waiting for the flash to become ready after
* a write. This number indicates the number of iterations to perform before
* issuing a timeout.
* @note
* This timeout is set very large (in the order of 100x longer than
* necessary). This is to avoid any corner cases.
*
*/
#define MSC_PROGRAM_TIMEOUT 10000000ul
/*******************************************************************************
************************* TYPEDEFS ****************************************
******************************************************************************/
/** Return codes for writing/erasing the flash */
typedef enum
{
mscReturnOk = 0, /**< Flash write/erase successful. */
mscReturnInvalidAddr = -1, /**< Invalid address. Write to an address that is not flash. */
mscReturnLocked = -2, /**< Flash address is locked. */
mscReturnTimeOut = -3, /**< Timeout while writing to flash. */
mscReturnUnaligned = -4 /**< Unaligned access to flash. */
} msc_Return_TypeDef;
#if defined (_EFM32_GIANT_FAMILY)
/** Strategy for prioritized bus access */
typedef enum {
mscBusStrategyCPU = MSC_READCTRL_BUSSTRATEGY_CPU, /**< Prioritize CPU bus accesses */
mscBusStrategyDMA = MSC_READCTRL_BUSSTRATEGY_DMA, /**< Prioritize DMA bus accesses */
mscBusStrategyDMAEM1 = MSC_READCTRL_BUSSTRATEGY_DMAEM1, /**< Prioritize DMAEM1 for bus accesses */
mscBusStrategyNone = MSC_READCTRL_BUSSTRATEGY_NONE /**< No unit has bus priority */
} mscBusStrategy_Typedef;
#endif
/*******************************************************************************
************************* PROTOTYPES **************************************
******************************************************************************/
void MSC_Deinit(void);
void MSC_Init(void);
/***************************************************************************//**
* @brief
* Clear one or more pending MSC interrupts.
*
* @param[in] flags
* Pending MSC intterupt source to clear. Use a bitwise logic OR combination
* of valid interrupt flags for the MSC module (MSC_IF_nnn).
******************************************************************************/
__STATIC_INLINE void MSC_IntClear(uint32_t flags)
{
MSC->IFC = flags;
}
/***************************************************************************//**
* @brief
* Disable one or more MSC interrupts.
*
* @param[in] flags
* MSC interrupt sources to disable. Use a bitwise logic OR combination of
* valid interrupt flags for the MSC module (MSC_IF_nnn).
******************************************************************************/
__STATIC_INLINE void MSC_IntDisable(uint32_t flags)
{
MSC->IEN &= ~(flags);
}
/***************************************************************************//**
* @brief
* Enable one or more MSC interrupts.
*
* @note
* Depending on the use, a pending interrupt may already be set prior to
* enabling the interrupt. Consider using MSC_IntClear() prior to enabling
* if such a pending interrupt should be ignored.
*
* @param[in] flags
* MSC interrupt sources to enable. Use a bitwise logic OR combination of
* valid interrupt flags for the MSC module (MSC_IF_nnn).
******************************************************************************/
__STATIC_INLINE void MSC_IntEnable(uint32_t flags)
{
MSC->IEN |= flags;
}
/***************************************************************************//**
* @brief
* Get pending MSV interrupt flags.
*
* @note
* The event bits are not cleared by the use of this function.
*
* @return
* MSC interrupt sources pending. A bitwise logic OR combination of valid
* interrupt flags for the MSC module (MSC_IF_nnn).
******************************************************************************/
__STATIC_INLINE uint32_t MSC_IntGet(void)
{
return(MSC->IF);
}
/***************************************************************************//**
* @brief
* Set one or more pending MSC interrupts from SW.
*
* @param[in] flags
* MSC interrupt sources to set to pending. Use a bitwise logic OR combination of
* valid interrupt flags for the MSC module (MSC_IF_nnn).
******************************************************************************/
__STATIC_INLINE void MSC_IntSet(uint32_t flags)
{
MSC->IFS = flags;
}
#if defined(_EFM32_TINY_FAMILY) || defined(_EFM32_GIANT_FAMILY)
/***************************************************************************//**
* @brief
* Starts measuring cache hit ratio.
* @details
* This function starts the performance counters. It is defined inline to
* minimize the impact of this code on the measurement itself.
******************************************************************************/
__STATIC_INLINE void MSC_StartCacheMeasurement(void)
{
/* Clear CMOF and CHOF to catch these later */
MSC->IFC = MSC_IF_CHOF | MSC_IF_CMOF;
/* Start performance counters */
MSC->CMD = MSC_CMD_STARTPC;
}
/***************************************************************************//**
* @brief
* Stops measuring the hit rate.
* @note
* This function is defined inline to minimize the impact of this
* code on the measurement itself.
* This code only works for relatively short sections of code. If you wish
* to measure longer sections of code you need to implement a IRQ Handler for
* The CHOF and CMOF overflow interrupts. Theses overflows needs to be
* counted and included in the total.
* The functions can then be implemented as follows:
* @verbatim
* volatile uint32_t hitOverflows
* volatile uint32_t missOverflows
*
* void MSC_IRQHandler(void)
* {
* uint32_t flags;
* flags = MSC->IF;
* if (flags & MSC_IF_CHOF)
* {
* MSC->IFC = MSC_IF_CHOF;
* hitOverflows++;
* }
* if (flags & MSC_IF_CMOF)
* {
* MSC->IFC = MSC_IF_CMOF;
* missOverflows++;
* }
* }
*
* void startPerformanceCounters(void)
* {
* hitOverflows = 0;
* missOverflows = 0;
*
* MSC_IntEnable(MSC_IF_CHOF | MSC_IF_CMOF);
* NVIC_EnableIRQ(MSC_IRQn);
*
* MSC_StartCacheMeasurement();
* }
* @endverbatim
* @return
* Returns -1 if there has been no cache accesses.
* Returns -2 if there has been an overflow in the performance counters.
* If not, it will return the percentage of hits versus misses.
******************************************************************************/
__STATIC_INLINE int32_t MSC_GetCacheMeasurement(void)
{
int32_t total;
/* Stop the counter before computing the hit-rate */
MSC->CMD = MSC_CMD_STOPPC;
/* Check for overflows in performance counters */
if (MSC->IF & (MSC_IF_CHOF | MSC_IF_CMOF))
return -2;
/* Because the hits and misses are volatile, we need to split this up into
* two statements to avoid a compiler warning regarding the order of volatile
* accesses. */
total = MSC->CACHEHITS;
total += MSC->CACHEMISSES;
/* To avoid a division by zero. */
if (total == 0)
return -1;
return (MSC->CACHEHITS * 100) / total;
}
/***************************************************************************//**
* @brief
* Flush the contents of the instruction cache.
******************************************************************************/
__STATIC_INLINE void MSC_FlushCache(void)
{
MSC->CMD = MSC_CMD_INVCACHE;
}
/***************************************************************************//**
* @brief
* Enable or disable instruction cache functionality
* @param[in] enable
* Enable instruction cache. Default is on.
******************************************************************************/
__STATIC_INLINE void MSC_EnableCache(bool enable)
{
BITBAND_Peripheral(&(MSC->READCTRL), _MSC_READCTRL_IFCDIS_SHIFT, ~enable);
}
/***************************************************************************//**
* @brief
* Enable or disable instruction cache functionality in IRQs
* @param[in] enable
* Enable instruction cache. Default is on.
******************************************************************************/
__STATIC_INLINE void MSC_EnableCacheIRQs(bool enable)
{
BITBAND_Peripheral(&(MSC->READCTRL), _MSC_READCTRL_ICCDIS_SHIFT, ~enable);
}
/***************************************************************************//**
* @brief
* Enable or disable instruction cache flushing when writing to flash
* @param[in] enable
* Enable automatic cache flushing. Default is on.
******************************************************************************/
__STATIC_INLINE void MSC_EnableAutoCacheFlush(bool enable)
{
BITBAND_Peripheral(&(MSC->READCTRL), _MSC_READCTRL_AIDIS_SHIFT, ~enable);
}
#endif
#if defined(_EFM32_GIANT_FAMILY)
/***************************************************************************//**
* @brief
* Configure which unit should get priority on system bus.
* @param[in] mode
* Unit to prioritize bus accesses for.
******************************************************************************/
__STATIC_INLINE void MSC_BusStrategy(mscBusStrategy_Typedef mode)
{
MSC->READCTRL = (MSC->READCTRL & ~(_MSC_READCTRL_BUSSTRATEGY_MASK))|mode;
}
#endif
#ifdef __CC_ARM /* MDK-ARM compiler */
msc_Return_TypeDef MSC_WriteWord(uint32_t *address, void const *data, int numBytes);
msc_Return_TypeDef MSC_ErasePage(uint32_t *startAddress);
#if defined (_EFM32_GIANT_FAMILY)
msc_Return_TypeDef MSC_MassErase(void);
#endif
#endif /* __CC_ARM */
#ifdef __ICCARM__ /* IAR compiler */
__ramfunc msc_Return_TypeDef MSC_WriteWord(uint32_t *address, void const *data, int numBytes);
__ramfunc msc_Return_TypeDef MSC_ErasePage(uint32_t *startAddress);
#if defined (_EFM32_GIANT_FAMILY)
__ramfunc msc_Return_TypeDef MSC_MassErase(void);
#endif
#endif /* __ICCARM__ */
#ifdef __GNUC__ /* GCC based compilers */
#ifdef __CROSSWORKS_ARM /* Rowley Crossworks */
msc_Return_TypeDef MSC_WriteWord(uint32_t *address, void const *data, int numBytes) __attribute__ ((section(".fast")));
msc_Return_TypeDef MSC_ErasePage(uint32_t *startAddress) __attribute__ ((section(".fast")));
#if defined (_EFM32_GIANT_FAMILY)
msc_Return_TypeDef MSC_MassErase(void) __attribute__ ((section(".fast")));
#endif
#else /* Sourcery G++ */
msc_Return_TypeDef MSC_WriteWord(uint32_t *address, void const *data, int numBytes) __attribute__ ((section(".ram")));
msc_Return_TypeDef MSC_ErasePage(uint32_t *startAddress) __attribute__ ((section(".ram")));
#if defined (_EFM32_GIANT_FAMILY)
msc_Return_TypeDef MSC_MassErase(void) __attribute__ ((section(".ram")));
#endif
#endif /* __GNUC__ */
#endif /* __CROSSWORKS_ARM */
/** @} (end addtogroup MSC) */
/** @} (end addtogroup EM_Library) */
#ifdef __cplusplus
}
#endif
#endif /* __EM_MSC_H */