/* * Copyright 2019-2021, NXP * All rights reserved. * * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_PGMC_H_ #define _FSL_PGMC_H_ #include "fsl_common.h" /*! * @addtogroup PGMC * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief PGMC driver version 2.1.1. */ #define FSL_PGMC_RIVER_VERSION (MAKE_VERSION(2, 1, 1)) /*@}*/ /*! @brief The enumeration of setpoint. * @anchor _pgmc_setpoint_map */ enum { kPGMC_SetPoint0 = 1UL << 0UL, /*!< The mask of set point0. */ kPGMC_SetPoint1 = 1UL << 1UL, /*!< The mask of set point1. */ kPGMC_SetPoint2 = 1UL << 2UL, /*!< The mask of set point2. */ kPGMC_SetPoint3 = 1UL << 3UL, /*!< The mask of set point3. */ kPGMC_SetPoint4 = 1UL << 4UL, /*!< The mask of set point4. */ kPGMC_SetPoint5 = 1UL << 5UL, /*!< The mask of set point5. */ kPGMC_SetPoint6 = 1UL << 6UL, /*!< The mask of set point6. */ kPGMC_SetPoint7 = 1UL << 7UL, /*!< The mask of set point7. */ kPGMC_SetPoint8 = 1UL << 8UL, /*!< The mask of set point8. */ kPGMC_SetPoint9 = 1UL << 9UL, /*!< The mask of set point9. */ kPGMC_SetPoint10 = 1UL << 10UL, /*!< The mask of set point10. */ kPGMC_SetPoint11 = 1UL << 11UL, /*!< The mask of set point11. */ kPGMC_SetPoint12 = 1UL << 12UL, /*!< The mask of set point12. */ kPGMC_SetPoint13 = 1UL << 13UL, /*!< The mask of set point13. */ kPGMC_SetPoint14 = 1UL << 14UL, /*!< The mask of set point14. */ kPGMC_SetPoint15 = 1UL << 15UL, /*!< The mask of set point15. */ }; /*! * @brief The enumeration of MIF signal behaviour(Such as Sleep Signal, Standby Signal, and so on). */ enum _pgmc_mif_signal_behaviour { kPGMC_AssertSleepSignal = 1U << 0U, /*!< Assert Sleep signal. */ kPGMC_AssertInputGateSignal = 1U << 1U, /*!< Assert InputGate signal. */ kPGMC_AssetLowSpeedSignal = 1U << 2U, /*!< Assert LowSpeed signal. */ kPGMC_AssertHighSpeedSignal = 1U << 3U, /*!< Assert HighSpeed signal. */ kPGMC_AssertStandbySignal = 1U << 4U, /*!< Assert Standby signal. */ kPGMC_AssertArrayPowerDownSignal = 1U << 5U, /*!< Assert ArrayPowerDown signal. */ kPGMC_AssertPeripheralPowerDownSignal = 1U << 6U, /*!< Assert PeripheralPowerDown signal. */ kPGMC_AssertInitnSignal = 1U << 7U, /*!< Assert Initn signal. */ kPGMC_AssertSwitch1OffSignal = 1U << 8U, /*!< Assert Switch1Off signal. */ kPGMC_AssertSwitch2OffSignal = 1U << 9U, /*!< Assert Switch2Off signal. */ kPGMC_AssertIsoSignal = 1U << 10U, /*!< Assert Iso_en signal. */ }; /*! * @brief PGMC BPC assign domain enumeration. */ typedef enum _pgmc_bpc_assign_domain { kPGMC_CM7Core = 0U, /*!< CM7 Core domain. */ kPGMC_CM4Core = 1U /*!< CM4 Core domain. */ } pgmc_bpc_assign_domain_t; /*! @brief CPU mode. */ typedef enum _pgmc_cpu_mode { kPGMC_RunMode = 0x0UL, /*!< RUN mode. */ kPGMC_WaitMode = 0x1UL, /*!< WAIT mode. */ kPGMC_StopMode = 0x2UL, /*!< STOP mode. */ kPGMC_SuspendMode = 0x3UL, /*!< SUSPEND mode. */ } pgmc_cpu_mode_t; /*! @brief PGMC control modes. */ typedef enum _pgmc_control_mode { kPGMC_DisableLowPowerControl = 0UL, kPGMC_ControlledByCpuPowerMode = 1UL, kPGMC_ControlledBySetPoint = 2UL, } pgmc_control_mode_t; /*! * @brief The enumeration of memory low power level. */ typedef enum _pgmc_memory_low_power_level { kPGMC_MLPLHighSpeed = 1U, /*!< Memory low power level: High speed. */ kPGMC_MLPLNormal = 3U, /*!< Memory low power level: Normal. */ kPGMC_MLPLLowSpeed = 4U, /*!< Memory low power level: Low Speed. */ kPGMC_MLPLInputGating = 5U, /*!< Memory low power level: Input Gating. */ kPGMC_MLPLStandby = 6U, /*!< Memory low power level: Standby. */ kPGMC_MLPLSleep = 8U, /*!< Memory low power level: Sleep. */ kPGMC_MLPLArrOnPerOff = 9U, /*!< Memory low power level: Arr on per off. */ kPGMC_MLPLArrOffPerOn = 10U, /*!< Memory low power level: Arr off per on. */ kPGMC_MLPLArrOffPerOff = 11U, /*!< Memory low power level: Arr off per off. */ kPGMC_MLPLSw2 = 13U, /*!< Memory low power level: SW2. */ kPGMC_MLPLSw2PerOff = 14U, /*!< Memory low power level: SW2 Per off. */ kPGMC_MLPLSw1PerOff = 15U, /*!< Memory low power level: SW1 Per off. */ } pgmc_memory_low_power_level_t; /*! * @brief The enumeration of MIF signal. */ typedef enum _pgmc_mif_signal { kPGMC_SleepSignal = 0U, /*!< MIF Sleep signal. */ kPGMC_InputGateSignal = 1U, /*!< MIF InputGate signal. */ kPGMC_LowSpeedSignal = 2U, /*!< MIF LowSpeed signal. */ kPGMC_HighSpeedSignal = 3U, /*!< MIF HighSpeed signal. */ kPGMC_StandbySignal = 4U, /*!< MIF Standby signal. */ kPGMC_ArrayPowerDownSignal = 5U, /*!< MIF ArrayPowerDown signal. */ kPGMC_PeripheralPowerDownSignal = 6U, /*!< MIF PeripheralPowerDown signal. */ kPGMC_InitnSignal = 7U, /*!< MIF Initn signal. */ kPGMC_Switch1OffSignal = 8U, /*!< MIF Switch1Off signal. */ kPGMC_Switch2OffSignal = 9U, /*!< MIF Switch2Off signal. */ kPGMC_IsoSignal = 10U, /*!< MIF Iso_en signal. */ } pgmc_mif_signal_t; /*! * @brief The control option of the power domain controlled by CPU power mode. */ typedef struct _pgmc_bpc_cpu_power_mode_option { pgmc_bpc_assign_domain_t assignDomain; /*!< Domain assignment of the BPC. The power mode of the selected core domain will control the selected power domain. */ bool stateSave; /*!< Request save the state of power domain before entering target power mode. - \b true Save data when domain enter the selected mode. - \b false Do not save data when domain enter the selected mode. */ bool powerOff; /*!< Request power off the power domain. - \b true Power off the power domain when enter the selected mode. - \b false Do not power off the power domain when enter the selected mode. */ } pgmc_bpc_cpu_power_mode_option_t; /*! * @brief The control option of the power domain controlled by setpoint mode. */ typedef struct _pgmc_bpc_setpoint_mode_option { bool stateSave; /*!< Request save the state of power domain before entering target setpoint. - \b true Save data when domain enter the selected setpoint. - \b false Do not save data when domain enter the selected setpoint. */ bool powerOff; /*!< Request power off the power domain. - \b true Power off the power domain when enter the selected setpoint. - \b false Do not power off the power domain when enter the selected setpoint. */ } pgmc_bpc_setpoint_mode_option_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @name Basic Power Controller Related Interfaces * @{ */ /*! * @brief Makes the BPC module controlled by the target CPU power mode, such as Wait mode. * * This function makes the module controlled by four typical CPU power modes, It also configs the resource domain and * set memory low power level. * * @param base PGMC basic power controller base address. * @param mode Target CPU power mode. * @param option The pointer of @ref pgmc_bpc_cpu_power_mode_option_t structure. */ void PGMC_BPC_ControlPowerDomainByCpuPowerMode(PGMC_BPC_Type *base, pgmc_cpu_mode_t mode, const pgmc_bpc_cpu_power_mode_option_t *option); /*! * @brief Makes the BPC module controlled by the target set points. * * This function makes the module controlled by specific set point, It also supports set memory lowe power level. * * @note When setting more than one set point, use "|" between the map values in @ref _pgmc_setpoint_map. * * @param base PGMC basic power controller base address. * @param setPointMap Should be the OR'ed value of @ref _pgmc_setpoint_map. * @param option The pointer of @ref pgmc_bpc_setpoint_mode_option_t structure. */ void PGMC_BPC_ControlPowerDomainBySetPointMode(PGMC_BPC_Type *base, uint32_t setPointMap, const pgmc_bpc_setpoint_mode_option_t *option); /*! * @brief Controls the selected power domain by software mode. * * @note The function is used to control power domain when the CPU is in RUN mode. * * @param base PGMC basic power controller base address. * @param powerOff Power On/Off power domain in software mode. * - \b true Power off the power domain in software mode. * - \b false Power on the power domain in software mode. */ void PGMC_BPC_ControlPowerDomainBySoftwareMode(PGMC_BPC_Type *base, bool powerOff); /*! * @brief Disables low power mode control. * * @param base PGMC basic power controller base address. */ static inline void PGMC_BPC_DisableLowPower(PGMC_BPC_Type *base) { base->BPC_MODE = PGMC_BPC_BPC_MODE_CTRL_MODE(kPGMC_DisableLowPowerControl); } /*! * @brief Requests power domain state restore at run mode. * * @param base PGMC basic power controller base address. */ static inline void PGMC_BPC_RequestStateRestoreAtRunMode(PGMC_BPC_Type *base) { base->BPC_SSAR_RESTORE_CTRL |= PGMC_BPC_BPC_SSAR_RESTORE_CTRL_RESTORE_AT_RUN_MASK; } /*! * @brief Requests power domain state restore when enters the selected set points. * * @note When setting more than one set point, use "|" between the map values in @ref _pgmc_setpoint_map. * @param base PGMC basic power controller base address. * @param setPointMap Should be the OR'ed value of @ref _pgmc_setpoint_map. */ static inline void PGMC_BPC_RequestStateRestoreAtSetPoint(PGMC_BPC_Type *base, uint32_t setPointMap) { base->BPC_SSAR_RESTORE_CTRL |= PGMC_BPC_BPC_SSAR_RESTORE_CTRL_RESTORE_AT_SP(setPointMap & 0xFFFFU); } /*! * @brief Allows user mode access or not for the BPC module. * * @note If locked access related settings, the setting via this function is useless. * * @param base PGMC basic power controller base address. * @param enable Used to control whether allow user mode access. * - \b true Allow both privilege and user mode to access CPU mode control registers. * - \b false Allow only privilege mode to access CPU mode control registers. */ static inline void PGMC_BPC_AllowUserModeAccess(PGMC_BPC_Type *base, bool enable) { if (enable) { base->BPC_AUTHEN_CTRL |= PGMC_BPC_BPC_AUTHEN_CTRL_USER_MASK; } else { base->BPC_AUTHEN_CTRL &= ~PGMC_BPC_BPC_AUTHEN_CTRL_USER_MASK; } } /*! * @brief Allows non-secure mode access or not for the BPC module. * * @note If locked access related settings, the setting via this function is useless. * * @param base PGMC basic power controller base address. * @param enable Used to control whether allow non-secure mode to access CPU mode control registers. * - \b true Allow both secure and non-secure mode to access CPU mode control registers. * - \b false Allow only secure mode to access CPU mode control registers. */ static inline void PGMC_BPC_AllowNonSecureModeAccess(PGMC_BPC_Type *base, bool enable) { if (enable) { base->BPC_AUTHEN_CTRL |= PGMC_BPC_BPC_AUTHEN_CTRL_NONSECURE_MASK; } else { base->BPC_AUTHEN_CTRL &= ~PGMC_BPC_BPC_AUTHEN_CTRL_NONSECURE_MASK; } } /*! * @brief Locks access related settings for the BPC module, including Secure access setting and user access setting. * * @note This function used to lock access related settings. After locked the related bit field * can not be written unless POR. * * @param base PGMC basic power controller base address. */ static inline void PGMC_BPC_LockAccessSetting(PGMC_BPC_Type *base) { base->BPC_AUTHEN_CTRL |= PGMC_BPC_BPC_AUTHEN_CTRL_LOCK_SETTING_MASK; } /*! * @brief Sets the corrsponding domain ID that can access CPU mode control registers for the BPC module. * * @note If locked the domain ID white list, the setting via this function is useless. * * @param base PGMC basic power controller base address. * @param domainId Should be the OR'ed value of @ref pgmc_bpc_assign_domain_t. */ static inline void PGMC_BPC_SetDomainIdWhiteList(PGMC_BPC_Type *base, uint8_t domainId) { base->BPC_AUTHEN_CTRL = (base->BPC_AUTHEN_CTRL & (~PGMC_BPC_BPC_AUTHEN_CTRL_WHITE_LIST_MASK)) | PGMC_BPC_BPC_AUTHEN_CTRL_WHITE_LIST(domainId); } /*! * @brief Locks the value of Domain ID white list for the BPC module. * * @note After locked the domain ID white list can not be written again unless POR. * * @param base PGMC basic power controller base address. */ static inline void PGMC_BPC_LockDomainIDWhiteList(PGMC_BPC_Type *base) { base->BPC_AUTHEN_CTRL |= PGMC_BPC_BPC_AUTHEN_CTRL_LOCK_LIST_MASK; } /*! * @brief Locks low power configuration fields for the BPC module. * * @note After locked the low power configurations fields can not be updated unless POR. * * @param base PGMC basic power controller base address. */ static inline void PGMC_BPC_LockLowPowerConfigurationFields(PGMC_BPC_Type *base) { base->BPC_AUTHEN_CTRL |= PGMC_BPC_BPC_AUTHEN_CTRL_LOCK_CFG_MASK; } /*! * @} */ /*! * @name CPU Power Controller Related Interfaces * @{ */ /*! * @brief Powers off the CPC core module by the target CPU power mode, such as Wait mode. * * @param base CPC CORE module base address. * @param mode Target CPU power mode. */ void PGMC_CPC_CORE_PowerOffByCpuPowerMode(PGMC_CPC_Type *base, pgmc_cpu_mode_t mode); /*! * @brief Powers off/on the CPC core module by the software. * * @param base CPC CORE module base address. * @param powerOff Used to power off/on the CPC core module. * - \b true Power off the CPC core module. * - \b false Power on the CPC core module. */ static inline void PGMC_CPC_CORE_PowerOffBySoftwareMode(PGMC_CPC_Type *base, bool powerOff) { if (powerOff) { base->CPC_CORE_POWER_CTRL |= (PGMC_CPC_CPC_CORE_POWER_CTRL_PSW_OFF_SOFT_MASK | PGMC_CPC_CPC_CORE_POWER_CTRL_ISO_ON_SOFT_MASK); } else { base->CPC_CORE_POWER_CTRL |= (PGMC_CPC_CPC_CORE_POWER_CTRL_ISO_OFF_SOFT_MASK | PGMC_CPC_CPC_CORE_POWER_CTRL_PSW_ON_SOFT_MASK); } } /*! * @brief Disables low power mode control, the CPU core will not be affected by any low power modes. * * @param base CPC CORE module base address. */ static inline void PGMC_CPC_CORE_DisableLowPower(PGMC_CPC_Type *base) { base->CPC_CORE_MODE = PGMC_CPC_CPC_CORE_MODE_CTRL_MODE(kPGMC_DisableLowPowerControl); } /*! * @brief Makes the CPC CACHE module controlled by the target CPU power mode, such as Wait mode. * * This function makes the module controlled by four typical CPU power modes, it also can set memory low power level. * * @param base CPC CACHE module base address. * @param mode Target CPU power mode. * @param memoryLowPowerLevel Memory low power level. */ void PGMC_CPC_CACHE_ControlByCpuPowerMode(PGMC_CPC_Type *base, pgmc_cpu_mode_t mode, pgmc_memory_low_power_level_t memoryLowPowerLevel); /*! * @brief Makes the CPC CACHE module controlled by the target set points. * * This function makes the module controlled by specific set point, It also supports set memory lowe power level. * * @note When setting more than one set point, use "|" between the map values in @ref _pgmc_setpoint_map. * * @param base CPC CACHE module base address. * @param setPointMap Should be the OR'ed value of @ref _pgmc_setpoint_map. * @param memoryLowPowerLevel Memory low power level. */ void PGMC_CPC_CACHE_ControlBySetPointMode(PGMC_CPC_Type *base, uint32_t setPointMap, pgmc_memory_low_power_level_t memoryLowPowerLevel); /*! * @brief Disables low power mode control, so the cache will not be affected by any low power modes. * * @param base CPC CACHE module base address. */ static inline void PGMC_CPC_CACHE_DisableLowPower(PGMC_CPC_Type *base) { base->CPC_CACHE_MODE = PGMC_CPC_CPC_CACHE_MODE_CTRL_MODE(kPGMC_DisableLowPowerControl); } /*! * @brief Requests CPC cache module's memory low power level change by software mode. * * @note If request memory low power level change, must wait the MLPL transition complete. * * @param base CPC LMEM module base address. */ void PGMC_CPC_CACHE_TriggerMLPLSoftwareChange(PGMC_CPC_Type *base); /*! * @brief Makes the CPC LMEM module controlled by the target CPU power mode, such as Wait mode. * * This function makes the module controlled by four typical CPU power modes, it also can set memory low power level. * * @param base CPC LMEM module base address. * @param mode Target CPU power mode. * @param memoryLowPowerLevel Memory low power level. */ void PGMC_CPC_LMEM_ControlByCpuPowerMode(PGMC_CPC_Type *base, pgmc_cpu_mode_t mode, pgmc_memory_low_power_level_t memoryLowPowerLevel); /*! * @brief Makes the CPC LMEM module controlled by the target set points. * * This function makes the module controlled by specific set point, It also supports set memory lowe power level. * * @note When setting more than one set point, use "|" between the map values in @ref _pgmc_setpoint_map. * * @param base CPC LMEM module base address. * @param setPointMap Should be the OR'ed value of @ref _pgmc_setpoint_map. * @param memoryLowPowerLevel Memory low power level. */ void PGMC_CPC_LMEM_ControlBySetPointMode(PGMC_CPC_Type *base, uint32_t setPointMap, pgmc_memory_low_power_level_t memoryLowPowerLevel); /*! * @brief Disables low power mode control, so that the CPC LMEM will not be affected by any low power modes. * * @param base CPC LMEM module base address. */ static inline void PGMC_CPC_LMEM_DisableLowPower(PGMC_CPC_Type *base) { base->CPC_LMEM_MODE = PGMC_CPC_CPC_LMEM_MODE_CTRL_MODE(kPGMC_DisableLowPowerControl); } /*! * @brief Requests CPC LMEM module's memory low power level change in software mode. * * @note If request memory low power level change, must wait the MLPL transition complete. * * @param base CPC LMEM module base address. */ void PGMC_CPC_LMEM_TriggerMLPLSoftwareChange(PGMC_CPC_Type *base); /*! * @brief Allows user mode access or not for the CPC module. * * @note If locked access related settings, the setting via this function is useless. * * @param base CPC LMEM module base address. * @param enable Used to control whether allow user mode access. * - \b true Allow both privilege and user mode to access CPU mode control registers. * - \b false Allow only privilege mode to access CPU mode control registers. */ static inline void PGMC_CPC_AllowUserModeAccess(PGMC_CPC_Type *base, bool enable) { if (enable) { base->CPC_AUTHEN_CTRL |= PGMC_CPC_CPC_AUTHEN_CTRL_USER_MASK; } else { base->CPC_AUTHEN_CTRL &= ~PGMC_CPC_CPC_AUTHEN_CTRL_USER_MASK; } } /*! * @brief Allows non-secure mode access or not for the CPC module. * * @note If locked access related settings, the setting via this function is useless. * * @param base CPC LMEM module base address. * @param enable Used to control whether allow non-secure mode to access CPU mode control registers. * - \b true Allow both secure and non-secure mode to access CPU mode control registers. * - \b false Allow only secure mode to access CPU mode control registers. */ static inline void PGMC_CPC_AllowNonSecureModeAccess(PGMC_CPC_Type *base, bool enable) { if (enable) { base->CPC_AUTHEN_CTRL |= PGMC_CPC_CPC_AUTHEN_CTRL_NONSECURE_MASK; } else { base->CPC_AUTHEN_CTRL &= ~PGMC_CPC_CPC_AUTHEN_CTRL_NONSECURE_MASK; } } /*! * @brief Locks access related settings, including secure access setting and user access setting, for the CPC module. * * @note This function used to lock access related settings. After locked the related bit field * can not be written unless POR. * * @param base CPC LMEM module base address. */ static inline void PGMC_CPC_LockAccessSetting(PGMC_CPC_Type *base) { base->CPC_AUTHEN_CTRL |= PGMC_CPC_CPC_AUTHEN_CTRL_LOCK_SETTING_MASK; } /*! * @brief Sets the corrsponding domain ID that can access CPU mode control registers for the CPC module. * * @note If the domain ID whitelist is locked, the setting via this function is useless. * * @param base CPC LMEM module base address. * @param domainId Should be the OR'ed value of @ref pgmc_bpc_assign_domain_t. */ static inline void PGMC_CPC_SetDomainIdWhiteList(PGMC_CPC_Type *base, uint8_t domainId) { base->CPC_AUTHEN_CTRL = (base->CPC_AUTHEN_CTRL & (~PGMC_CPC_CPC_AUTHEN_CTRL_WHITE_LIST_MASK)) | PGMC_CPC_CPC_AUTHEN_CTRL_WHITE_LIST(domainId); } /*! * @brief Locks the value of Domain ID white list for CPC module. * * @note After locked the domain ID white list can not be written again unless POR. * * @param base CPC LMEM module base address. */ static inline void PGMC_CPC_LockDomainIDWhiteList(PGMC_CPC_Type *base) { base->CPC_AUTHEN_CTRL |= PGMC_CPC_CPC_AUTHEN_CTRL_LOCK_LIST_MASK; } /*! * @brief Locks CPC realted low power configuration fields for CPC module. * * @note After locked the low power configurations fields can not be updated unless POR. * * @param base CPC LMEM module base address. */ static inline void PGMC_CPC_LockLowPowerConfigurationFields(PGMC_CPC_Type *base) { base->CPC_AUTHEN_CTRL |= PGMC_CPC_CPC_AUTHEN_CTRL_LOCK_CFG_MASK; } /*! * @} */ /*! * @name MIF Module Related APIs * @{ */ /*! * @brief Sets the behaviour of each signal in MIF, such as Sleep signal. * * @note To control the memory low power operation, this function must be invoked after selecting the * memory low power level. * Use case: * @code * PGMC_BPC_ControlPowerDomainByCpuPowerMode(PGMC_BPC0_BASE, kPGMC_WaitMode, kPGMC_CM7Core, * kPGMC_MLPLSleep, false); * PGMC_MIF_SetSignalBehaviour(PGMC_BPC0_MIF_BASE, kPGMC_MLPLSleep, kPGMC_AssertSleepSignal); * @endcode * * @param base PGMC MIF peripheral base address. * @param memoryLevel The selected memory low power level. For details please refer to @ref * pgmc_memory_low_power_level_t. * @param mask The mask of MIF signal behaviour. Should be the OR'ed value of @ref _pgmc_mif_signal_behaviour */ void PGMC_MIF_SetSignalBehaviour(PGMC_MIF_Type *base, pgmc_memory_low_power_level_t memoryLevel, uint32_t mask); /*! * @brief Locks MIF realted low power configuration fields for MIF module. * * @note After locked the low power configurations fields can not be updated unless POR. * * @param base PGMC MIF peripheral base address. */ static inline void PGMC_MIF_LockLowPowerConfigurationFields(PGMC_MIF_Type *base) { base->MIF_AUTHEN_CTRL |= PGMC_MIF_MIF_AUTHEN_CTRL_LOCK_CFG_MASK; } /*! @} */ /*! * @name PMIC Power Related Interfaces * @{ */ /*! * @brief Trigger PMIC standby ON/OFF. * * @param base PMIC module base address. * @param enable Trigger on/off PMIC standby. * - \b true Trigger PMIC standby ON. * - \b false Trigger PMIC standby OFF. */ static inline void PGMC_PPC_TriggerPMICStandbySoftMode(PGMC_PPC_Type *base, bool enable) { if (enable) { PGMC_PPC0->PPC_STBY_CM_CTRL |= PGMC_PPC_PPC_STBY_CM_CTRL_STBY_ON_SOFT_MASK; } else { PGMC_PPC0->PPC_STBY_CM_CTRL |= PGMC_PPC_PPC_STBY_CM_CTRL_STBY_OFF_SOFT_MASK; } } /*! * @brief Makes the PMIC module controlled by the target CPU power mode, such as Wait mode. * * @param base PMIC module base address. * @param mode Target CPU power mode. */ void PGMC_PPC_ControlByCpuPowerMode(PGMC_PPC_Type *base, pgmc_cpu_mode_t mode); /*! * @brief Makes the PMIC module controlled by the target set points. * * This function makes the module controlled by specific set point, It also supports PMIC standby on. * * @note When setting more than one set point, use "|" between the map values in @ref _pgmc_setpoint_map. * * @param base PMIC module base address. * @param setPointMap Should be the OR'ed value of @ref _pgmc_setpoint_map. * @param enableStandby true: PMIC standby on when system enters set point number and system is in standby mode. * false: PMIC standby on when system enters set point number */ void PGMC_PPC_ControlBySetPointMode(PGMC_PPC_Type *base, uint32_t setPointMap, bool enableStandby); /*! * @brief Disables low power mode control. * * @param base PMIC module bsase address. */ static inline void PGMC_PPC_DisableLowPower(PGMC_PPC_Type *base) { base->PPC_MODE = PGMC_PPC_PPC_MODE_CTRL_MODE(kPGMC_DisableLowPowerControl); } /*! * @brief Allows user mode access or not for PMIC module. * * @note If locked access related settings, the setting via this function is useless. * * @param base PMIC module base address. * @param enable Used to control whether allow user mode access. * - \b true Allow both privilege and user mode to access CPU mode control registers. * - \b false Allow only privilege mode to access CPU mode control registers. */ static inline void PGMC_PPC_AllowUserModeAccess(PGMC_PPC_Type *base, bool enable) { if (enable) { base->PPC_AUTHEN_CTRL |= PGMC_PPC_PPC_AUTHEN_CTRL_USER_MASK; } else { base->PPC_AUTHEN_CTRL &= ~PGMC_PPC_PPC_AUTHEN_CTRL_USER_MASK; } } /*! * @brief Allows non-secure mode access or not for the PMIC module. * * @note If locked access related settings, the setting via this function is useless. * * @param base PMIC module base address. * @param enable Used to control whether allow non-secure mode to access CPU mode control registers. * - \b true Allow both secure and non-secure mode to access CPU mode control registers. * - \b false Allow only secure mode to access CPU mode control registers. */ static inline void PGMC_PPC_AllowNonSecureModeAccess(PGMC_PPC_Type *base, bool enable) { if (enable) { base->PPC_AUTHEN_CTRL |= PGMC_PPC_PPC_AUTHEN_CTRL_NONSECURE_MASK; } else { base->PPC_AUTHEN_CTRL &= ~PGMC_PPC_PPC_AUTHEN_CTRL_NONSECURE_MASK; } } /*! * @brief Locks access related settings, including secure access setting and user access setting, for the PMIC module. * * @note This function used to lock access related settings. After locked the related bit field * can not be written unless POR. * * @param base PMIC module base address. */ static inline void PGMC_PPC_LockAccessSetting(PGMC_PPC_Type *base) { base->PPC_AUTHEN_CTRL |= PGMC_PPC_PPC_AUTHEN_CTRL_LOCK_SETTING_MASK; } /*! * @brief Sets the corrsponding domain ID that can access CPU mode control registers for the PMIC module. * * @note If the domain ID whitelist is locked, the setting via this function is useless. * * @param base PMIC module base address. * @param domainId Should be the OR'ed value of @ref pgmc_bpc_assign_domain_t. */ static inline void PGMC_PPC_SetDomainIdWhiteList(PGMC_PPC_Type *base, uint8_t domainId) { base->PPC_AUTHEN_CTRL = (base->PPC_AUTHEN_CTRL & (~PGMC_PPC_PPC_AUTHEN_CTRL_WHITE_LIST_MASK)) | PGMC_PPC_PPC_AUTHEN_CTRL_WHITE_LIST(domainId); } /*! * @brief Locks the value of Domain ID white list for the PMIC module. * * @note After locked the domain ID white list can not be written again unless POR. * * @param base PMIC module base address. */ static inline void PGMC_PPC_LockDomainIDWhiteList(PGMC_PPC_Type *base) { base->PPC_AUTHEN_CTRL |= PGMC_PPC_PPC_AUTHEN_CTRL_LOCK_LIST_MASK; } /*! * @brief Locks low power configuration fields for the PMIC module. * * @note After locked the low power configurations fields can not be updated unless POR. * * @param base PMIC module base address. */ static inline void PGMC_PPC_LockLowPowerConfigurationFields(PGMC_PPC_Type *base) { base->PPC_AUTHEN_CTRL |= PGMC_PPC_PPC_AUTHEN_CTRL_LOCK_CFG_MASK; } /*! * @} */ #if defined(__cplusplus) } #endif /*! * @} */ #endif /* _FSL_PGMC_H_ */