/* * Copyright 2017-2020 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_CLOCK_H_ #define _FSL_CLOCK_H_ #include "fsl_common.h" /*! @addtogroup clock */ /*! @{ */ /*! @file */ /******************************************************************************* * Definitions *****************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief CLOCK driver version 2.3.2. */ #define FSL_CLOCK_DRIVER_VERSION (MAKE_VERSION(2, 3, 2)) /*@}*/ /* Definition for delay API in clock driver, users can redefine it to the real application. */ #ifndef SDK_DEVICE_MAXIMUM_CPU_CLOCK_FREQUENCY #define SDK_DEVICE_MAXIMUM_CPU_CLOCK_FREQUENCY (15000000UL) #endif /*! @brief watchdog oscilltor clock frequency. * * This variable is used to store the watchdog oscillator frequency which is * set by CLOCK_InitWdtOsc, and it is returned by CLOCK_GetWdtOscFreq. */ extern volatile uint32_t g_Wdt_Osc_Freq; /*! @brief external clock frequency. * * This variable is used to store the external clock frequency which is include * external oscillator clock and external clk in clock frequency value, it is * set by CLOCK_InitExtClkin when CLK IN is used as external clock or by CLOCK_InitSysOsc * when external oscillator is used as external clock ,and it is returned by * CLOCK_GetExtClkFreq. */ extern volatile uint32_t g_Ext_Clk_Freq; /*! @brief FRO clock setting API address in ROM. */ #define CLOCK_FRO_SETTING_API_ROM_ADDRESS (0x0F001CD3U) /*! @brief FAIM base address*/ #define CLOCK_FAIM_BASE (0x50010000U) /*! @brief Clock ip name array for ADC. */ #define ADC_CLOCKS \ { \ kCLOCK_Adc, \ } /*! @brief Clock ip name array for ACMP. */ #define ACMP_CLOCKS \ { \ kCLOCK_Acmp, \ } /*! @brief Clock ip name array for DAC. */ #define DAC_CLOCKS \ { \ kCLOCK_Dac0, kCLOCK_Dac1, \ } /*! @brief Clock ip name array for SWM. */ #define SWM_CLOCKS \ { \ kCLOCK_Swm, \ } /*! @brief Clock ip name array for ROM. */ #define ROM_CLOCKS \ { \ kCLOCK_Rom, \ } /*! @brief Clock ip name array for SRAM. */ #define SRAM_CLOCKS \ { \ kCLOCK_Ram0_1, \ } /*! @brief Clock ip name array for IOCON. */ #define IOCON_CLOCKS \ { \ kCLOCK_Iocon, \ } /*! @brief Clock ip name array for GPIO. */ #define GPIO_CLOCKS \ { \ kCLOCK_Gpio0, \ } /*! @brief Clock ip name array for GPIO_INT. */ #define GPIO_INT_CLOCKS \ { \ kCLOCK_GpioInt, \ } /*! @brief Clock ip name array for DMA. */ #define DMA_CLOCKS \ { \ kCLOCK_Dma, \ } /*! @brief Clock ip name array for CRC. */ #define CRC_CLOCKS \ { \ kCLOCK_Crc, \ } /*! @brief Clock ip name array for WWDT. */ #define WWDT_CLOCKS \ { \ kCLOCK_Wwdt, \ } /*! @brief Clock ip name array for SCT0. */ #define SCT_CLOCKS \ { \ kCLOCK_Sct, \ } /*! @brief Clock ip name array for I2C. */ #define I2C_CLOCKS \ { \ kCLOCK_I2c0, \ } /*! @brief Clock ip name array for I2C. */ #define USART_CLOCKS \ { \ kCLOCK_Uart0, kCLOCK_Uart1, \ } /*! @brief Clock ip name array for SPI. */ #define SPI_CLOCKS \ { \ kCLOCK_Spi0, \ } /*! @brief Clock ip name array for CAPT. */ #define CAPT_CLOCKS \ { \ kCLOCK_Capt, \ } /*! @brief Clock ip name array for CTIMER. */ #define CTIMER_CLOCKS \ { \ kCLOCK_Ctimer0, \ } /*! @brief Clock ip name array for MTB. */ #define MTB_CLOCKS \ { \ kCLOCK_Mtb, \ } /*! @brief Clock ip name array for MRT. */ #define MRT_CLOCKS \ { \ kCLOCK_Mrt, \ } /*! @brief Clock ip name array for WKT. */ #define WKT_CLOCKS \ { \ kCLOCK_Wkt, \ } /*! @brief Internal used Clock definition only. */ #define CLK_GATE_DEFINE(reg, bit) ((((reg)&0xFFU) << 8U) | ((bit)&0xFFU)) #define CLK_GATE_GET_REG(x) (((x) >> 8U) & 0xFFU) #define CLK_GATE_GET_BITS_SHIFT(x) ((uint32_t)(x)&0xFFU) /* clock mux register definition */ #define CLK_MUX_DEFINE(reg, mux) (((offsetof(SYSCON_Type, reg) & 0xFFU) << 8U) | ((mux)&0xFFU)) #define CLK_MUX_GET_REG(x) ((volatile uint32_t *)(((uint32_t)(SYSCON)) + (((uint32_t)(x) >> 8U) & 0xFFU))) #define CLK_MUX_GET_MUX(x) (((uint32_t)x) & 0xFFU) #define CLK_MAIN_CLK_MUX_DEFINE(preMux, mux) ((preMux) << 8U | (mux)) #define CLK_MAIN_CLK_MUX_GET_PRE_MUX(x) ((((uint32_t)(x)) >> 8U) & 0xFFU) #define CLK_MAIN_CLK_MUX_GET_MUX(x) (((uint32_t)(x)) & 0xFFU) /* clock divider register definition */ #define CLK_DIV_DEFINE(reg) (((uint32_t)offsetof(SYSCON_Type, reg)) & 0xFFFU) #define CLK_DIV_GET_REG(x) *((volatile uint32_t *)(((uint32_t)(SYSCON)) + (((uint32_t)(x)) & 0xFFFU))) /* watch dog oscillator definition */ #define CLK_WDT_OSC_DEFINE(freq, regValue) (((freq)&0xFFFFFFU) | (((regValue)&0xFFU) << 24U)) #define CLK_WDT_OSC_GET_FREQ(x) ((x)&0xFFFFFFU) #define CLK_WDT_OSC_GET_REG(x) (((x) >> 24U) & 0xFFU) /* Fractional clock register map */ #define CLK_FRG_DIV_REG_MAP(base) (*(base)) #define CLK_FRG_MUL_REG_MAP(base) (*((uint32_t *)((uint32_t)(base) + 4U))) #define CLK_FRG_SEL_REG_MAP(base) (*((uint32_t *)((uint32_t)(base) + 8U))) /* register offset */ #define SYS_AHB_CLK_CTRL0 (0U) /*! @brief Clock gate name used for CLOCK_EnableClock/CLOCK_DisableClock. */ typedef enum _clock_ip_name { kCLOCK_IpInvalid = 0U, kCLOCK_Rom = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 1U), kCLOCK_Ram0 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 2U), kCLOCK_Flash = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 4U), kCLOCK_I2c0 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 5U), kCLOCK_Gpio0 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 6U), kCLOCK_Swm = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 7U), kCLOCK_Wkt = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 9U), kCLOCK_Mrt = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 10U), kCLOCK_Spi0 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 11U), kCLOCK_Crc = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 13U), kCLOCK_Uart0 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 14U), kCLOCK_Uart1 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 15U), kCLOCK_Wwdt = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 17U), kCLOCK_Iocon = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 18U), kCLOCK_Acmp = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 19U), kCLOCK_Adc = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 24U), kCLOCK_Ctimer0 = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 25U), kCLOCK_GpioInt = CLK_GATE_DEFINE(SYS_AHB_CLK_CTRL0, 28U), } clock_ip_name_t; /*! @brief Clock name used to get clock frequency. */ typedef enum _clock_name { kCLOCK_CoreSysClk, /*!< Cpu/AHB/AHB matrix/Memories,etc */ kCLOCK_MainClk, /*!< Main clock */ kCLOCK_Fro, /*!< FRO18/24/30 */ kCLOCK_FroDiv, /*!< FRO div clock */ kCLOCK_ExtClk, /*!< External Clock */ kCLOCK_LPOsc, /*!< Low power Oscillator */ kCLOCK_Frg, /*!< fractional rate0 */ } clock_name_t; /*! @brief Clock Mux Switches *CLK_MUX_DEFINE(reg, mux) *reg is used to define the mux register *mux is used to define the mux value * */ typedef enum _clock_select { kADC_Clk_From_Fro = CLK_MUX_DEFINE(ADCCLKSEL, 0U), kADC_Clk_From_ClkIn = CLK_MUX_DEFINE(ADCCLKSEL, 1U), kUART0_Clk_From_Fro = CLK_MUX_DEFINE(UART0CLKSEL, 0U), kUART0_Clk_From_MainClk = CLK_MUX_DEFINE(UART0CLKSEL, 1U), kUART0_Clk_From_Frg0Clk = CLK_MUX_DEFINE(UART0CLKSEL, 2U), kUART0_Clk_From_Fro_Div = CLK_MUX_DEFINE(UART0CLKSEL, 4U), kUART1_Clk_From_Fro = CLK_MUX_DEFINE(UART1CLKSEL, 0U), kUART1_Clk_From_MainClk = CLK_MUX_DEFINE(UART1CLKSEL, 1U), kUART1_Clk_From_Frg0Clk = CLK_MUX_DEFINE(UART1CLKSEL, 2U), kUART1_Clk_From_Fro_Div = CLK_MUX_DEFINE(UART1CLKSEL, 4U), kI2C_Clk_From_Fro = CLK_MUX_DEFINE(I2C0CLKSEL, 0U), kI2C_Clk_From_MainClk = CLK_MUX_DEFINE(I2C0CLKSEL, 1U), kI2C_Clk_From_Frg0Clk = CLK_MUX_DEFINE(I2C0CLKSEL, 2U), kI2C_Clk_From_Fro_Div = CLK_MUX_DEFINE(I2C0CLKSEL, 4U), kSPI_Clk_From_Fro = CLK_MUX_DEFINE(SPI0CLKSEL, 0U), kSPI_Clk_From_MainClk = CLK_MUX_DEFINE(SPI0CLKSEL, 1U), kSPI_Clk_From_Frg0Clk = CLK_MUX_DEFINE(SPI0CLKSEL, 2U), kSPI_Clk_From_Fro_Div = CLK_MUX_DEFINE(SPI0CLKSEL, 4U), kFRG0_Clk_From_Fro = CLK_MUX_DEFINE(FRG[0].FRGCLKSEL, 0U), kFRG0_Clk_From_MainClk = CLK_MUX_DEFINE(FRG[0].FRGCLKSEL, 1U), kCLKOUT_From_Fro = CLK_MUX_DEFINE(CLKOUTSEL, 0U), kCLKOUT_From_MainClk = CLK_MUX_DEFINE(CLKOUTSEL, 1U), kCLKOUT_From_ExtClk = CLK_MUX_DEFINE(CLKOUTSEL, 3U), kCLKOUT_From_WdtOsc = CLK_MUX_DEFINE(CLKOUTSEL, 4U) } clock_select_t; /*! @brief Clock divider */ typedef enum _clock_divider { kCLOCK_DivAdcClk = CLK_DIV_DEFINE(ADCCLKDIV), kCLOCK_DivClkOut = CLK_DIV_DEFINE(CLKOUTDIV) } clock_divider_t; /*! @brief fro output frequency source definition */ typedef enum _clock_fro_src { kCLOCK_FroSrcLpwrBootValue = 0U, /*!< fro source from the fro oscillator divided by low power boot value */ // kCLOCK_FroSrcFroOsc = 1U << SYSCON_FROOSCCTRL_DIRECT_SHIFT, } clock_fro_src_t; /*! @brief fro oscillator output frequency value definition */ typedef enum _clock_fro_osc_freq { kCLOCK_FroOscOut18M = 18000U, /*!< FRO oscillator output 18M */ kCLOCK_FroOscOut24M = 24000U, /*!< FRO oscillator output 24M */ kCLOCK_FroOscOut30M = 30000U, /*!< FRO oscillator output 30M */ } clock_fro_osc_freq_t; /*! @brief Main clock source definition */ typedef enum _clock_main_clk_src { kCLOCK_MainClkSrcFro = CLK_MAIN_CLK_MUX_DEFINE(0U, 0U), /*!< main clock source from FRO */ kCLOCK_MainClkSrcExtClk = CLK_MAIN_CLK_MUX_DEFINE(1U, 0U), /*!< main clock source from Ext clock */ kCLOCK_MainClkSrcLPOsc = CLK_MAIN_CLK_MUX_DEFINE(2U, 0U), /*!< main clock source from watchdog oscillator */ kCLOCK_MainClkSrcFroDiv = CLK_MAIN_CLK_MUX_DEFINE(3U, 0U), /*!< main clock source from FRO Div */ } clock_main_clk_src_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /* __cplusplus */ /*! * @name Clock gate, mux, and divider. * @{ */ /* *! @brief enable ip clock. * * @param clk clock ip definition. */ static inline void CLOCK_EnableClock(clock_ip_name_t clk) { SYSCON->SYSAHBCLKCTRL0 |= 1UL << CLK_GATE_GET_BITS_SHIFT(clk); } /* *!@brief disable ip clock. * * @param clk clock ip definition. */ static inline void CLOCK_DisableClock(clock_ip_name_t clk) { SYSCON->SYSAHBCLKCTRL0 &= ~(1UL << CLK_GATE_GET_BITS_SHIFT(clk)); } /* *! @brief Configure the clock selection muxes. * @param mux : Clock to be configured. * @return Nothing */ static inline void CLOCK_Select(clock_select_t sel) { *(CLK_MUX_GET_REG(sel)) = CLK_MUX_GET_MUX(sel); } /* *! @brief Setup peripheral clock dividers. * @param name : Clock divider name * @param value: Value to be divided * @return Nothing */ static inline void CLOCK_SetClkDivider(clock_divider_t name, uint32_t value) { CLK_DIV_GET_REG(name) = value & 0xFFU; } /* *! @brief Get peripheral clock dividers. * @param name : Clock divider name * @return clock divider value */ static inline uint32_t CLOCK_GetClkDivider(clock_divider_t name) { return CLK_DIV_GET_REG(name) & 0xFFU; } /* *! @brief Setup Core clock dividers. * Be careful about the core divider value, due to core/system frequency should be lower than 30MHZ. * @param value: Value to be divided * @return Nothing */ static inline void CLOCK_SetCoreSysClkDiv(uint32_t value) { assert(value != 0U); SYSCON->SYSAHBCLKDIV = (SYSCON->SYSAHBCLKDIV & (~SYSCON_SYSAHBCLKDIV_DIV_MASK)) | SYSCON_SYSAHBCLKDIV_DIV(value); } /*! @brief Set main clock reference source. * @param src Reference clock_main_clk_src_t to set the main clock source. */ void CLOCK_SetMainClkSrc(clock_main_clk_src_t src); /* *! @brief Set Fractional generator multiplier value. * @param base: Fractional generator register address * @param mul : FRG multiplier value. * @return Nothing */ static inline void CLOCK_SetFRGClkMul(uint32_t *base, uint32_t mul) { CLK_FRG_DIV_REG_MAP(base) = SYSCON_FRG_FRGDIV_DIV_MASK; CLK_FRG_MUL_REG_MAP(base) = SYSCON_FRG_FRGMULT_MULT(mul); } /* @} */ /*! * @name Get frequency * @{ */ /*! @brief Return Frequency of FRG0 Clock. * @return Frequency of FRG0 Clock. */ uint32_t CLOCK_GetFRGClkFreq(void); /*! @brief Return Frequency of Main Clock. * @return Frequency of Main Clock. */ uint32_t CLOCK_GetMainClkFreq(void); /*! @brief Return Frequency of FRO. * @return Frequency of FRO. */ uint32_t CLOCK_GetFroFreq(void); /*! @brief Return Frequency of core. * @return Frequency of core. */ static inline uint32_t CLOCK_GetCoreSysClkFreq(void) { return CLOCK_GetMainClkFreq() / (SYSCON->SYSAHBCLKDIV & 0xffU); } /*! @brief Return Frequency of ClockOut * @return Frequency of ClockOut */ uint32_t CLOCK_GetClockOutClkFreq(void); /*! @brief Get UART0 frequency * @retval UART0 frequency value. */ uint32_t CLOCK_GetUart0ClkFreq(void); /*! @brief Get UART1 frequency * @retval UART1 frequency value. */ uint32_t CLOCK_GetUart1ClkFreq(void); /*! @brief Return Frequency of selected clock * @return Frequency of selected clock */ uint32_t CLOCK_GetFreq(clock_name_t clockName); /*! @brief Get watch dog OSC frequency * @retval watch dog OSC frequency value. */ static inline uint32_t CLOCK_GetLPOscFreq(void) { return 1000000; } /*! @brief Get external clock frequency * @retval external clock frequency value. */ static inline uint32_t CLOCK_GetExtClkFreq(void) { return g_Ext_Clk_Freq; } /* @} */ /* @} */ /*! * @name Fractional clock operations * @{ */ /*! @brief Set FRG0 output frequency. * @param freq, target output frequency,freq < input and (input / freq) < 2 should be satisfy. * @retval true - successfully, false - input argument is invalid. * */ bool CLOCK_SetFRGClkFreq(uint32_t freq); /* @} */ /*! * @name External/internal oscillator clock operations * @{ */ /*! @brief Init external CLK IN, select the CLKIN as the external clock source. * @param clkInFreq external clock in frequency. */ void CLOCK_InitExtClkin(uint32_t clkInFreq); /*! @brief Deinit watch dog OSC * @param config oscillator configuration. */ static inline void CLOCK_DeinitLPOsc(void) { SYSCON->PDRUNCFG |= SYSCON_PDRUNCFG_LPOSC_PD_MASK; } /*! @brief Set FRO oscillator output frequency. * Initialize the FRO clock to given frequency (18, 24 or 30 MHz). * @param freq, please reference clock_fro_osc_freq_t definition, frequency must be one of 18000, 24000 or 30000 KHz. * */ void CLOCK_SetFroOscFreq(clock_fro_osc_freq_t freq); /* @} */ #if defined(__cplusplus) } #endif /* __cplusplus */ /*! @} */ #endif /* _FSL_CLOCK_H_ */