rt-thread-official/bsp/frdm-k64f/device/MK64F12/fsl_rcm.h

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2017-07-01 11:33:12 +08:00
/*
* Copyright (c) 2015, Freescale Semiconductor, Inc.
* Copyright 2016-2017 NXP
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
*
* o Redistributions of source code must retain the above copyright notice, this list
* of conditions and the following disclaimer.
*
* o Redistributions in binary form must reproduce the above copyright notice, this
* list of conditions and the following disclaimer in the documentation and/or
* other materials provided with the distribution.
*
* o Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef _FSL_RCM_H_
#define _FSL_RCM_H_
#include "fsl_common.h"
/*! @addtogroup rcm */
/*! @{*/
/*******************************************************************************
* Definitions
******************************************************************************/
/*! @name Driver version */
/*@{*/
/*! @brief RCM driver version 2.0.1. */
#define FSL_RCM_DRIVER_VERSION (MAKE_VERSION(2, 0, 1))
/*@}*/
/*!
* @brief System Reset Source Name definitions
*/
typedef enum _rcm_reset_source
{
#if (defined(FSL_FEATURE_RCM_REG_WIDTH) && (FSL_FEATURE_RCM_REG_WIDTH == 32))
/* RCM register bit width is 32. */
#if (defined(FSL_FEATURE_RCM_HAS_WAKEUP) && FSL_FEATURE_RCM_HAS_WAKEUP)
kRCM_SourceWakeup = RCM_SRS_WAKEUP_MASK, /*!< Low-leakage wakeup reset */
#endif
kRCM_SourceLvd = RCM_SRS_LVD_MASK, /*!< Low-voltage detect reset */
#if (defined(FSL_FEATURE_RCM_HAS_LOC) && FSL_FEATURE_RCM_HAS_LOC)
kRCM_SourceLoc = RCM_SRS_LOC_MASK, /*!< Loss of clock reset */
#endif /* FSL_FEATURE_RCM_HAS_LOC */
#if (defined(FSL_FEATURE_RCM_HAS_LOL) && FSL_FEATURE_RCM_HAS_LOL)
kRCM_SourceLol = RCM_SRS_LOL_MASK, /*!< Loss of lock reset */
#endif /* FSL_FEATURE_RCM_HAS_LOL */
kRCM_SourceWdog = RCM_SRS_WDOG_MASK, /*!< Watchdog reset */
kRCM_SourcePin = RCM_SRS_PIN_MASK, /*!< External pin reset */
kRCM_SourcePor = RCM_SRS_POR_MASK, /*!< Power on reset */
#if (defined(FSL_FEATURE_RCM_HAS_JTAG) && FSL_FEATURE_RCM_HAS_JTAG)
kRCM_SourceJtag = RCM_SRS_JTAG_MASK, /*!< JTAG generated reset */
#endif /* FSL_FEATURE_RCM_HAS_JTAG */
kRCM_SourceLockup = RCM_SRS_LOCKUP_MASK, /*!< Core lock up reset */
kRCM_SourceSw = RCM_SRS_SW_MASK, /*!< Software reset */
#if (defined(FSL_FEATURE_RCM_HAS_MDM_AP) && FSL_FEATURE_RCM_HAS_MDM_AP)
kRCM_SourceMdmap = RCM_SRS_MDM_AP_MASK, /*!< MDM-AP system reset */
#endif /* FSL_FEATURE_RCM_HAS_MDM_AP */
#if (defined(FSL_FEATURE_RCM_HAS_EZPORT) && FSL_FEATURE_RCM_HAS_EZPORT)
kRCM_SourceEzpt = RCM_SRS_EZPT_MASK, /*!< EzPort reset */
#endif /* FSL_FEATURE_RCM_HAS_EZPORT */
kRCM_SourceSackerr = RCM_SRS_SACKERR_MASK, /*!< Parameter could get all reset flags */
#else /* (FSL_FEATURE_RCM_REG_WIDTH == 32) */
/* RCM register bit width is 8. */
#if (defined(FSL_FEATURE_RCM_HAS_WAKEUP) && FSL_FEATURE_RCM_HAS_WAKEUP)
kRCM_SourceWakeup = RCM_SRS0_WAKEUP_MASK, /*!< Low-leakage wakeup reset */
#endif
kRCM_SourceLvd = RCM_SRS0_LVD_MASK, /*!< Low-voltage detect reset */
#if (defined(FSL_FEATURE_RCM_HAS_LOC) && FSL_FEATURE_RCM_HAS_LOC)
kRCM_SourceLoc = RCM_SRS0_LOC_MASK, /*!< Loss of clock reset */
#endif /* FSL_FEATURE_RCM_HAS_LOC */
#if (defined(FSL_FEATURE_RCM_HAS_LOL) && FSL_FEATURE_RCM_HAS_LOL)
kRCM_SourceLol = RCM_SRS0_LOL_MASK, /*!< Loss of lock reset */
#endif /* FSL_FEATURE_RCM_HAS_LOL */
kRCM_SourceWdog = RCM_SRS0_WDOG_MASK, /*!< Watchdog reset */
kRCM_SourcePin = RCM_SRS0_PIN_MASK, /*!< External pin reset */
kRCM_SourcePor = RCM_SRS0_POR_MASK, /*!< Power on reset */
#if (defined(FSL_FEATURE_RCM_HAS_JTAG) && FSL_FEATURE_RCM_HAS_JTAG)
kRCM_SourceJtag = RCM_SRS1_JTAG_MASK << 8U, /*!< JTAG generated reset */
#endif /* FSL_FEATURE_RCM_HAS_JTAG */
kRCM_SourceLockup = RCM_SRS1_LOCKUP_MASK << 8U, /*!< Core lock up reset */
kRCM_SourceSw = RCM_SRS1_SW_MASK << 8U, /*!< Software reset */
#if (defined(FSL_FEATURE_RCM_HAS_MDM_AP) && FSL_FEATURE_RCM_HAS_MDM_AP)
kRCM_SourceMdmap = RCM_SRS1_MDM_AP_MASK << 8U, /*!< MDM-AP system reset */
#endif /* FSL_FEATURE_RCM_HAS_MDM_AP */
#if (defined(FSL_FEATURE_RCM_HAS_EZPORT) && FSL_FEATURE_RCM_HAS_EZPORT)
kRCM_SourceEzpt = RCM_SRS1_EZPT_MASK << 8U, /*!< EzPort reset */
#endif /* FSL_FEATURE_RCM_HAS_EZPORT */
kRCM_SourceSackerr = RCM_SRS1_SACKERR_MASK << 8U, /*!< Parameter could get all reset flags */
#endif /* (FSL_FEATURE_RCM_REG_WIDTH == 32) */
kRCM_SourceAll = 0xffffffffU,
} rcm_reset_source_t;
/*!
* @brief Reset pin filter select in Run and Wait modes.
*/
typedef enum _rcm_run_wait_filter_mode
{
kRCM_FilterDisable = 0U, /*!< All filtering disabled */
kRCM_FilterBusClock = 1U, /*!< Bus clock filter enabled */
kRCM_FilterLpoClock = 2U /*!< LPO clock filter enabled */
} rcm_run_wait_filter_mode_t;
#if (defined(FSL_FEATURE_RCM_HAS_BOOTROM) && FSL_FEATURE_RCM_HAS_BOOTROM)
/*!
* @brief Boot from ROM configuration.
*/
typedef enum _rcm_boot_rom_config
{
kRCM_BootFlash = 0U, /*!< Boot from flash */
kRCM_BootRomCfg0 = 1U, /*!< Boot from boot ROM due to BOOTCFG0 */
kRCM_BootRomFopt = 2U, /*!< Boot from boot ROM due to FOPT[7] */
kRCM_BootRomBoth = 3U /*!< Boot from boot ROM due to both BOOTCFG0 and FOPT[7] */
} rcm_boot_rom_config_t;
#endif /* FSL_FEATURE_RCM_HAS_BOOTROM */
#if (defined(FSL_FEATURE_RCM_HAS_SRIE) && FSL_FEATURE_RCM_HAS_SRIE)
/*!
* @brief Maximum delay time from interrupt asserts to system reset.
*/
typedef enum _rcm_reset_delay
{
kRCM_ResetDelay8Lpo = 0U, /*!< Delay 8 LPO cycles. */
kRCM_ResetDelay32Lpo = 1U, /*!< Delay 32 LPO cycles. */
kRCM_ResetDelay128Lpo = 2U, /*!< Delay 128 LPO cycles. */
kRCM_ResetDelay512Lpo = 3U /*!< Delay 512 LPO cycles. */
} rcm_reset_delay_t;
/*!
* @brief System reset interrupt enable bit definitions.
*/
typedef enum _rcm_interrupt_enable
{
kRCM_IntNone = 0U, /*!< No interrupt enabled. */
kRCM_IntLossOfClk = RCM_SRIE_LOC_MASK, /*!< Loss of clock interrupt. */
kRCM_IntLossOfLock = RCM_SRIE_LOL_MASK, /*!< Loss of lock interrupt. */
kRCM_IntWatchDog = RCM_SRIE_WDOG_MASK, /*!< Watch dog interrupt. */
kRCM_IntExternalPin = RCM_SRIE_PIN_MASK, /*!< External pin interrupt. */
kRCM_IntGlobal = RCM_SRIE_GIE_MASK, /*!< Global interrupts. */
kRCM_IntCoreLockup = RCM_SRIE_LOCKUP_MASK, /*!< Core lock up interrupt */
kRCM_IntSoftware = RCM_SRIE_SW_MASK, /*!< software interrupt */
kRCM_IntStopModeAckErr = RCM_SRIE_SACKERR_MASK, /*!< Stop mode ACK error interrupt. */
#if (defined(FSL_FEATURE_RCM_HAS_CORE1) && FSL_FEATURE_RCM_HAS_CORE1)
kRCM_IntCore1 = RCM_SRIE_CORE1_MASK, /*!< Core 1 interrupt. */
#endif
kRCM_IntAll = RCM_SRIE_LOC_MASK /*!< Enable all interrupts. */
|
RCM_SRIE_LOL_MASK | RCM_SRIE_WDOG_MASK | RCM_SRIE_PIN_MASK | RCM_SRIE_GIE_MASK |
RCM_SRIE_LOCKUP_MASK | RCM_SRIE_SW_MASK | RCM_SRIE_SACKERR_MASK
#if (defined(FSL_FEATURE_RCM_HAS_CORE1) && FSL_FEATURE_RCM_HAS_CORE1)
|
RCM_SRIE_CORE1_MASK
#endif
} rcm_interrupt_enable_t;
#endif /* FSL_FEATURE_RCM_HAS_SRIE */
#if (defined(FSL_FEATURE_RCM_HAS_VERID) && FSL_FEATURE_RCM_HAS_VERID)
/*!
* @brief IP version ID definition.
*/
typedef struct _rcm_version_id
{
uint16_t feature; /*!< Feature Specification Number. */
uint8_t minor; /*!< Minor version number. */
uint8_t major; /*!< Major version number. */
} rcm_version_id_t;
#endif
/*!
* @brief Reset pin filter configuration.
*/
typedef struct _rcm_reset_pin_filter_config
{
bool enableFilterInStop; /*!< Reset pin filter select in stop mode. */
rcm_run_wait_filter_mode_t filterInRunWait; /*!< Reset pin filter in run/wait mode. */
uint8_t busClockFilterCount; /*!< Reset pin bus clock filter width. */
} rcm_reset_pin_filter_config_t;
/*******************************************************************************
* API
******************************************************************************/
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus*/
/*! @name Reset Control Module APIs*/
/*@{*/
#if (defined(FSL_FEATURE_RCM_HAS_VERID) && FSL_FEATURE_RCM_HAS_VERID)
/*!
* @brief Gets the RCM version ID.
*
* This function gets the RCM version ID including the major version number,
* the minor version number, and the feature specification number.
*
* @param base RCM peripheral base address.
* @param versionId Pointer to the version ID structure.
*/
static inline void RCM_GetVersionId(RCM_Type *base, rcm_version_id_t *versionId)
{
*((uint32_t *)versionId) = base->VERID;
}
#endif
#if (defined(FSL_FEATURE_RCM_HAS_PARAM) && FSL_FEATURE_RCM_HAS_PARAM)
/*!
* @brief Gets the reset source implemented status.
*
* This function gets the RCM parameter that indicates whether the corresponding reset source is implemented.
* Use source masks defined in the rcm_reset_source_t to get the desired source status.
*
* This is an example.
@code
uint32_t status;
// To test whether the MCU is reset using Watchdog.
status = RCM_GetResetSourceImplementedStatus(RCM) & (kRCM_SourceWdog | kRCM_SourcePin);
@endcode
*
* @param base RCM peripheral base address.
* @return All reset source implemented status bit map.
*/
static inline uint32_t RCM_GetResetSourceImplementedStatus(RCM_Type *base)
{
return base->PARAM;
}
#endif /* FSL_FEATURE_RCM_HAS_PARAM */
/*!
* @brief Gets the reset source status which caused a previous reset.
*
* This function gets the current reset source status. Use source masks
* defined in the rcm_reset_source_t to get the desired source status.
*
* This is an example.
@code
uint32_t resetStatus;
// To get all reset source statuses.
resetStatus = RCM_GetPreviousResetSources(RCM) & kRCM_SourceAll;
// To test whether the MCU is reset using Watchdog.
resetStatus = RCM_GetPreviousResetSources(RCM) & kRCM_SourceWdog;
// To test multiple reset sources.
resetStatus = RCM_GetPreviousResetSources(RCM) & (kRCM_SourceWdog | kRCM_SourcePin);
@endcode
*
* @param base RCM peripheral base address.
* @return All reset source status bit map.
*/
static inline uint32_t RCM_GetPreviousResetSources(RCM_Type *base)
{
#if (defined(FSL_FEATURE_RCM_REG_WIDTH) && (FSL_FEATURE_RCM_REG_WIDTH == 32))
return base->SRS;
#else
return (uint32_t)((uint32_t)base->SRS0 | ((uint32_t)base->SRS1 << 8U));
#endif /* (FSL_FEATURE_RCM_REG_WIDTH == 32) */
}
#if (defined(FSL_FEATURE_RCM_HAS_SSRS) && FSL_FEATURE_RCM_HAS_SSRS)
/*!
* @brief Gets the sticky reset source status.
*
* This function gets the current reset source status that has not been cleared
* by software for a specific source.
*
* This is an example.
@code
uint32_t resetStatus;
// To get all reset source statuses.
resetStatus = RCM_GetStickyResetSources(RCM) & kRCM_SourceAll;
// To test whether the MCU is reset using Watchdog.
resetStatus = RCM_GetStickyResetSources(RCM) & kRCM_SourceWdog;
// To test multiple reset sources.
resetStatus = RCM_GetStickyResetSources(RCM) & (kRCM_SourceWdog | kRCM_SourcePin);
@endcode
*
* @param base RCM peripheral base address.
* @return All reset source status bit map.
*/
static inline uint32_t RCM_GetStickyResetSources(RCM_Type *base)
{
#if (defined(FSL_FEATURE_RCM_REG_WIDTH) && (FSL_FEATURE_RCM_REG_WIDTH == 32))
return base->SSRS;
#else
return (base->SSRS0 | ((uint32_t)base->SSRS1 << 8U));
#endif /* (FSL_FEATURE_RCM_REG_WIDTH == 32) */
}
/*!
* @brief Clears the sticky reset source status.
*
* This function clears the sticky system reset flags indicated by source masks.
*
* This is an example.
@code
// Clears multiple reset sources.
RCM_ClearStickyResetSources(kRCM_SourceWdog | kRCM_SourcePin);
@endcode
*
* @param base RCM peripheral base address.
* @param sourceMasks reset source status bit map
*/
static inline void RCM_ClearStickyResetSources(RCM_Type *base, uint32_t sourceMasks)
{
#if (defined(FSL_FEATURE_RCM_REG_WIDTH) && (FSL_FEATURE_RCM_REG_WIDTH == 32))
base->SSRS = sourceMasks;
#else
base->SSRS0 = (sourceMasks & 0xffU);
base->SSRS1 = ((sourceMasks >> 8U) & 0xffU);
#endif /* (FSL_FEATURE_RCM_REG_WIDTH == 32) */
}
#endif /* FSL_FEATURE_RCM_HAS_SSRS */
/*!
* @brief Configures the reset pin filter.
*
* This function sets the reset pin filter including the filter source, filter
* width, and so on.
*
* @param base RCM peripheral base address.
* @param config Pointer to the configuration structure.
*/
void RCM_ConfigureResetPinFilter(RCM_Type *base, const rcm_reset_pin_filter_config_t *config);
#if (defined(FSL_FEATURE_RCM_HAS_EZPMS) && FSL_FEATURE_RCM_HAS_EZPMS)
/*!
* @brief Gets the EZP_MS_B pin assert status.
*
* This function gets the easy port mode status (EZP_MS_B) pin assert status.
*
* @param base RCM peripheral base address.
* @return status true - asserted, false - reasserted
*/
static inline bool RCM_GetEasyPortModePinStatus(RCM_Type *base)
{
return (bool)(base->MR & RCM_MR_EZP_MS_MASK);
}
#endif /* FSL_FEATURE_RCM_HAS_EZPMS */
#if (defined(FSL_FEATURE_RCM_HAS_BOOTROM) && FSL_FEATURE_RCM_HAS_BOOTROM)
/*!
* @brief Gets the ROM boot source.
*
* This function gets the ROM boot source during the last chip reset.
*
* @param base RCM peripheral base address.
* @return The ROM boot source.
*/
static inline rcm_boot_rom_config_t RCM_GetBootRomSource(RCM_Type *base)
{
return (rcm_boot_rom_config_t)((base->MR & RCM_MR_BOOTROM_MASK) >> RCM_MR_BOOTROM_SHIFT);
}
/*!
* @brief Clears the ROM boot source flag.
*
* This function clears the ROM boot source flag.
*
* @param base Register base address of RCM
*/
static inline void RCM_ClearBootRomSource(RCM_Type *base)
{
base->MR |= RCM_MR_BOOTROM_MASK;
}
/*!
* @brief Forces the boot from ROM.
*
* This function forces booting from ROM during all subsequent system resets.
*
* @param base RCM peripheral base address.
* @param config Boot configuration.
*/
void RCM_SetForceBootRomSource(RCM_Type *base, rcm_boot_rom_config_t config);
#endif /* FSL_FEATURE_RCM_HAS_BOOTROM */
#if (defined(FSL_FEATURE_RCM_HAS_SRIE) && FSL_FEATURE_RCM_HAS_SRIE)
/*!
* @brief Sets the system reset interrupt configuration.
*
* For a graceful shut down, the RCM supports delaying the assertion of the system
* reset for a period of time when the reset interrupt is generated. This function
* can be used to enable the interrupt and the delay period. The interrupts
* are passed in as bit mask. See rcm_int_t for details. For example, to
* delay a reset for 512 LPO cycles after the WDOG timeout or loss-of-clock occurs,
* configure as follows:
* RCM_SetSystemResetInterruptConfig(kRCM_IntWatchDog | kRCM_IntLossOfClk, kRCM_ResetDelay512Lpo);
*
* @param base RCM peripheral base address.
* @param intMask Bit mask of the system reset interrupts to enable. See
* rcm_interrupt_enable_t for details.
* @param Delay Bit mask of the system reset interrupts to enable.
*/
static inline void RCM_SetSystemResetInterruptConfig(RCM_Type *base, uint32_t intMask, rcm_reset_delay_t delay)
{
base->SRIE = (intMask | delay);
}
#endif /* FSL_FEATURE_RCM_HAS_SRIE */
/*@}*/
#if defined(__cplusplus)
}
#endif /* __cplusplus*/
/*! @}*/
#endif /* _FSL_RCM_H_ */