/* * Copyright 2018-2022 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_CLOCK_H_ #define _FSL_CLOCK_H_ #include "fsl_device_registers.h" #include "fsl_common.h" #include #include #include #include /*! * @addtogroup clock * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief CLOCK driver version 2.4.0. */ #define FSL_CLOCK_DRIVER_VERSION (MAKE_VERSION(2, 4, 0)) /*@}*/ /* 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 (600000000UL) #endif /*! * @brief XTAL 24M clock frequency. */ #define OSC24M_CLK_FREQ 24000000U /*! * @brief pad clock frequency. */ #define CLKPAD_FREQ 0U /*! @brief Clock ip name array for ECSPI. */ #define ECSPI_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Ecspi1, kCLOCK_Ecspi2, kCLOCK_Ecspi3, \ } /*! @brief Clock ip name array for ENET. */ #define ENET_CLOCKS \ { \ kCLOCK_Enet1, \ } /*! @brief Clock ip name array for GPIO. */ #define GPIO_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Gpio1, kCLOCK_Gpio2, kCLOCK_Gpio3, kCLOCK_Gpio4, kCLOCK_Gpio5, \ } /*! @brief Clock ip name array for GPT. */ #define GPT_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Gpt1, kCLOCK_Gpt2, kCLOCK_Gpt3, kCLOCK_Gpt4, kCLOCK_Gpt5, kCLOCK_Gpt6, \ } /*! @brief Clock ip name array for I2C. */ #define I2C_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_I2c1, kCLOCK_I2c2, kCLOCK_I2c3, kCLOCK_I2c4, \ } /*! @brief Clock ip name array for IOMUX. */ #define IOMUX_CLOCKS \ { \ kCLOCK_Iomux, \ } /*! @brief Clock ip name array for IPMUX. */ #define IPMUX_CLOCKS \ { \ kCLOCK_Ipmux1, kCLOCK_Ipmux2, kCLOCK_Ipmux3, kCLOCK_Ipmux4, \ } /*! @brief Clock ip name array for PWM. */ #define PWM_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Pwm1, kCLOCK_Pwm2, kCLOCK_Pwm3, kCLOCK_Pwm4, \ } /*! @brief Clock ip name array for RDC. */ #define RDC_CLOCKS \ { \ kCLOCK_Rdc, \ } /*! @brief Clock ip name array for SAI. */ #define SAI_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_IpInvalid, kCLOCK_Sai2, kCLOCK_Sai3, kCLOCK_IpInvalid, kCLOCK_Sai5, kCLOCK_Sai6, \ kCLOCK_Sai7 \ } /*! @brief Clock ip name array for RDC SEMA42. */ #define RDC_SEMA42_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Sema42_1, kCLOCK_Sema42_2 \ } /*! @brief Clock ip name array for UART. */ #define UART_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Uart1, kCLOCK_Uart2, kCLOCK_Uart3, kCLOCK_Uart4, \ } /*! @brief Clock ip name array for USDHC. */ #define USDHC_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Usdhc1, kCLOCK_Usdhc2, kCLOCK_Usdhc3 \ } /*! @brief Clock ip name array for WDOG. */ #define WDOG_CLOCKS \ { \ kCLOCK_IpInvalid, kCLOCK_Wdog1, kCLOCK_Wdog2, kCLOCK_Wdog3 \ } /*! @brief Clock ip name array for TEMPSENSOR. */ #define TMU_CLOCKS \ { \ kCLOCK_TempSensor, \ } /*! @brief Clock ip name array for SDMA. */ #define SDMA_CLOCKS \ { \ kCLOCK_Sdma1, kCLOCK_Sdma2, kCLOCK_Sdma3 \ } /*! @brief Clock ip name array for MU. */ #define MU_CLOCKS \ { \ kCLOCK_Mu \ } /*! @brief Clock ip name array for QSPI. */ #define QSPI_CLOCKS \ { \ kCLOCK_Qspi \ } /*! @brief Clock ip name array for PDM. */ #define PDM_CLOCKS \ { \ kCLOCK_Pdm \ } /*! @brief Clock ip name array for ASRC. */ #define ASRC_CLOCKS \ { \ kCLOCK_Asrc \ } /*! * @brief CCM reg macros to extract corresponding registers bit field. */ #define CCM_BIT_FIELD_EXTRACTION(val, mask, shift) (((val) & (mask)) >> (shift)) /*! * @brief CCM reg macros to map corresponding registers. */ #define CCM_REG_OFF(root, off) (*((volatile uint32_t *)((uintptr_t)(root) + (off)))) #define CCM_REG(root) CCM_REG_OFF(root, 0U) #define CCM_REG_SET(root) CCM_REG_OFF(root, 4U) #define CCM_REG_CLR(root) CCM_REG_OFF(root, 8U) /*! * @brief CCM Analog registers offset. */ #define AUDIO_PLL1_GEN_CTRL_OFFSET 0x00 #define AUDIO_PLL2_GEN_CTRL_OFFSET 0x14 #define VIDEO_PLL1_GEN_CTRL_OFFSET 0x28 #define GPU_PLL_GEN_CTRL_OFFSET 0x64 #define VPU_PLL_GEN_CTRL_OFFSET 0x74 #define ARM_PLL_GEN_CTRL_OFFSET 0x84 #define SYS_PLL1_GEN_CTRL_OFFSET 0x94 #define SYS_PLL2_GEN_CTRL_OFFSET 0x104 #define SYS_PLL3_GEN_CTRL_OFFSET 0x114 #define DRAM_PLL_GEN_CTRL_OFFSET 0x50 /*! * @brief CCM ANALOG tuple macros to map corresponding registers and bit fields. */ #define CCM_ANALOG_TUPLE(reg, shift) ((((reg)&0xFFFFU) << 16U) | ((shift))) #define CCM_ANALOG_TUPLE_SHIFT(tuple) (((uint32_t)(tuple)) & 0x1FU) #define CCM_ANALOG_TUPLE_REG_OFF(base, tuple, off) \ (*((volatile uint32_t *)((uintptr_t)(base) + (((uint32_t)(tuple) >> 16U) & 0xFFFFU) + (off)))) #define CCM_ANALOG_TUPLE_REG(base, tuple) CCM_ANALOG_TUPLE_REG_OFF(base, tuple, 0U) /*! * @brief CCM CCGR and root tuple */ #define CCM_TUPLE(ccgr, root) ((ccgr) << 16U | (root)) #define CCM_TUPLE_CCGR(tuple) ((uintptr_t)(&(CCM)->CCGR[(uint32_t)(tuple) >> 16U].CCGR)) #define CCM_TUPLE_ROOT(tuple) ((uintptr_t)(&(CCM)->ROOT[(uint32_t)(tuple)&0xFFFFU].TARGET_ROOT)) /*! * @brief clock root source */ #define CLOCK_ROOT_SOURCE \ { \ {kCLOCK_Osc24MClk, kCLOCK_SysPll2Div5Clk, kCLOCK_SysPll2Div4Clk, kCLOCK_SysPll1Div3Clk, kCLOCK_SysPll1Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll3Clk}, /* Cortex-M7 Clock Root. */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div3Clk, kCLOCK_SysPll1Clk, \ kCLOCK_SysPll2Div4Clk, kCLOCK_SysPll2Clk, kCLOCK_AudioPll1Clk, \ kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div8Clk}, /* AXI Clock Root. */ \ {kCLOCK_Osc24MClk, kCLOCK_SysPll1Clk, kCLOCK_SysPll3Clk, kCLOCK_SysPll2Clk, kCLOCK_SysPll2Div2Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk, kCLOCK_AudioPll2Clk}, /* NOC Clock Root. */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div6Clk, kCLOCK_SysPll1Clk, \ kCLOCK_SysPll1Div2Clk, kCLOCK_SysPll2Div8Clk, kCLOCK_SysPll3Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk}, /* AHB Clock Root. */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div6Clk, kCLOCK_SysPll1Clk, \ kCLOCK_SysPll1Div2Clk, kCLOCK_SysPll2Div8Clk, kCLOCK_SysPll3Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk}, /* IPG Clock Root. */ \ {kCLOCK_Osc24MClk, kCLOCK_SysPll2Div2Clk, kCLOCK_SysPll1Clk, kCLOCK_SysPll2Clk, kCLOCK_SysPll2Div6Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk}, /* Audio AHB Clock Root. */ \ {kCLOCK_Osc24MClk, kCLOCK_SysPll2Div2Clk, kCLOCK_SysPll1Clk, kCLOCK_SysPll2Clk, kCLOCK_SysPll2Div6Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk}, /* Audio IPG Clock Root. */ \ {kCLOCK_Osc24MClk, kCLOCK_SysPll1Clk, kCLOCK_SysPll1Div8Clk, kCLOCK_SysPll2Div2Clk, kCLOCK_SysPll2Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_SysPll1Div3Clk}, /* DRAM ALT Clock Root */ \ {kCLOCK_Osc24MClk, kCLOCK_AudioPll1Clk, kCLOCK_AudioPll2Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_SysPll1Div6Clk, kCLOCK_NoneName, kCLOCK_ExtClk2, kCLOCK_ExtClk3}, /* SAI2 Clock Root */ \ {kCLOCK_Osc24MClk, kCLOCK_AudioPll1Clk, kCLOCK_AudioPll2Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_SysPll1Div6Clk, kCLOCK_NoneName, kCLOCK_ExtClk3, kCLOCK_ExtClk4}, /* SAI3 Clock Root */ \ {kCLOCK_Osc24MClk, kCLOCK_AudioPll1Clk, kCLOCK_AudioPll2Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_SysPll1Div6Clk, kCLOCK_NoneName, kCLOCK_ExtClk2, kCLOCK_ExtClk3}, /* SAI5 Clock Root */ \ {kCLOCK_Osc24MClk, kCLOCK_AudioPll1Clk, kCLOCK_AudioPll2Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_SysPll1Div6Clk, kCLOCK_NoneName, kCLOCK_ExtClk3, kCLOCK_ExtClk4}, /* SAI6 Clock Root. */ \ {kCLOCK_Osc24MClk, kCLOCK_AudioPll1Clk, kCLOCK_AudioPll2Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_SysPll1Div6Clk, kCLOCK_NoneName, kCLOCK_ExtClk3, kCLOCK_ExtClk4}, /* SAI7 Clock Root */ \ {kCLOCK_Osc24MClk, kCLOCK_SysPll1Div2Clk, kCLOCK_SysPll2Div3Clk, \ kCLOCK_SysPll2Div2Clk, kCLOCK_AudioPll2Clk, kCLOCK_SysPll1Div3Clk, \ kCLOCK_SysPll3Clk, kCLOCK_SysPll1Div8Clk}, /* QSPI Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll2Div20Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_AudioPll2Clk, kCLOCK_SysPll1Div6Clk}, /* I2C1 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll2Div20Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_AudioPll2Clk, kCLOCK_SysPll1Div6Clk}, /* I2C2 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll2Div20Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_AudioPll2Clk, kCLOCK_SysPll1Div6Clk}, /* I2C3 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll2Div20Clk, \ kCLOCK_SysPll3Clk, kCLOCK_AudioPll1Clk, kCLOCK_VideoPll1Clk, \ kCLOCK_AudioPll2Clk, kCLOCK_SysPll1Div6Clk}, /* I2C4 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div10Clk, kCLOCK_SysPll2Div5Clk, \ kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk2, \ kCLOCK_ExtClk4, kCLOCK_AudioPll2Clk}, /* UART1 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div10Clk, kCLOCK_SysPll2Div5Clk, \ kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk2, \ kCLOCK_ExtClk3, kCLOCK_AudioPll2Clk}, /* UART2 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div10Clk, kCLOCK_SysPll2Div5Clk, \ kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk2, \ kCLOCK_ExtClk4, kCLOCK_AudioPll2Clk}, /* UART3 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll1Div10Clk, kCLOCK_SysPll2Div5Clk, \ kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk2, \ kCLOCK_ExtClk3, kCLOCK_AudioPll2Clk}, /* UART4 Clock Root */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div5Clk, kCLOCK_SysPll1Div20Clk, \ kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll1Clk, kCLOCK_SysPll3Clk, \ kCLOCK_SysPll2Div4Clk, kCLOCK_AudioPll2Clk}, /* ECSPI1 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div5Clk, kCLOCK_SysPll1Div20Clk, \ kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll1Clk, kCLOCK_SysPll3Clk, \ kCLOCK_SysPll2Div4Clk, kCLOCK_AudioPll2Clk}, /* ECSPI2 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div5Clk, kCLOCK_SysPll1Div20Clk, \ kCLOCK_SysPll1Div5Clk, kCLOCK_SysPll1Clk, kCLOCK_SysPll3Clk, \ kCLOCK_SysPll2Div4Clk, kCLOCK_AudioPll2Clk}, /* ECSPI3 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div5Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk1, \ kCLOCK_SysPll1Div10Clk, kCLOCK_VideoPll1Clk}, /* PWM1 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div5Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk1, \ kCLOCK_SysPll1Div10Clk, kCLOCK_VideoPll1Clk}, /* PWM2 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div5Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk2, \ kCLOCK_SysPll1Div10Clk, kCLOCK_VideoPll1Clk}, /* PWM3 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div5Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_SysPll3Clk, kCLOCK_ExtClk2, \ kCLOCK_SysPll1Div10Clk, kCLOCK_VideoPll1Clk}, /* PWM4 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div2Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div10Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_ExtClk1}, /* GPT1 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div2Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div10Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_ExtClk2}, /* GPT2 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div2Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div10Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_ExtClk3}, /* GPT3 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div2Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div10Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_ExtClk1}, /* GPT4 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div2Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div10Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_ExtClk2}, /* GPT5 Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_SysPll1Div2Clk, \ kCLOCK_SysPll1Div20Clk, kCLOCK_VideoPll1Clk, kCLOCK_SysPll1Div10Clk, \ kCLOCK_AudioPll1Clk, kCLOCK_ExtClk3}, /* GPT6 Clock ROOT */ \ {kCLOCK_Osc24MClk, kCLOCK_SysPll1Div6Clk, kCLOCK_SysPll1Div5Clk, kCLOCK_NoneName, kCLOCK_SysPll2Div8Clk, \ kCLOCK_SysPll3Clk, kCLOCK_SysPll1Div10Clk, kCLOCK_SysPll2Div6Clk}, /* WDOG Clock ROOT */ \ { \ kCLOCK_Osc24MClk, kCLOCK_SysPll2Div10Clk, kCLOCK_AudioPll1Clk, kCLOCK_SysPll1Clk, kCLOCK_SysPll2Clk, \ kCLOCK_SysPll3Clk, kCLOCK_ExtClk3, kCLOCK_AudioPll2Clk}, /* PDM Clock ROOT */ \ } #define CLOCK_ROOT_CONTROL_TUPLE \ { \ kCLOCK_RootM7, kCLOCK_RootAxi, kCLOCK_RootNoc, kCLOCK_RootAhb, kCLOCK_RootAhb, kCLOCK_RootAudioAhb, \ kCLOCK_RootAudioAhb, kCLOCK_RootDramAlt, kCLOCK_RootSai2, kCLOCK_RootSai3, kCLOCK_RootSai5, \ kCLOCK_RootSai6, kCLOCK_RootSai7, kCLOCK_RootQspi, kCLOCK_RootI2c1, kCLOCK_RootI2c2, kCLOCK_RootI2c3, \ kCLOCK_RootI2c4, kCLOCK_RootUart1, kCLOCK_RootUart2, kCLOCK_RootUart3, kCLOCK_RootUart4, \ kCLOCK_RootEcspi1, kCLOCK_RootEcspi2, kCLOCK_RootEcspi3, kCLOCK_RootPwm1, kCLOCK_RootPwm2, \ kCLOCK_RootPwm3, kCLOCK_RootPwm4, kCLOCK_RootGpt1, kCLOCK_RootGpt2, kCLOCK_RootGpt3, kCLOCK_RootGpt4, \ kCLOCK_RootGpt5, kCLOCK_RootGpt6, kCLOCK_RootWdog, kCLOCK_RootPdm, \ } /*! @brief Clock name used to get clock frequency. */ typedef enum _clock_name { kCLOCK_CoreM7Clk, /*!< ARM M7 Core clock */ kCLOCK_AxiClk, /*!< Main AXI bus clock. */ kCLOCK_AhbClk, /*!< AHB bus clock. */ kCLOCK_IpgClk, /*!< IPG bus clock. */ kCLOCK_PerClk, /*!< Peripheral Clock. */ kCLOCK_EnetIpgClk, /*!< ENET IPG Clock. */ kCLOCK_Osc24MClk, /*!< OSC 24M clock. */ kCLOCK_ArmPllClk, /*!< Arm PLL clock. */ kCLOCK_DramPllClk, /*!< Dram PLL clock. */ kCLOCK_SysPll1Clk, /*!< Sys PLL1 clock. */ kCLOCK_SysPll1Div2Clk, /*!< Sys PLL1 clock divided by 2. */ kCLOCK_SysPll1Div3Clk, /*!< Sys PLL1 clock divided by 3. */ kCLOCK_SysPll1Div4Clk, /*!< Sys PLL1 clock divided by 4. */ kCLOCK_SysPll1Div5Clk, /*!< Sys PLL1 clock divided by 5. */ kCLOCK_SysPll1Div6Clk, /*!< Sys PLL1 clock divided by 6. */ kCLOCK_SysPll1Div8Clk, /*!< Sys PLL1 clock divided by 8. */ kCLOCK_SysPll1Div10Clk, /*!< Sys PLL1 clock divided by 10. */ kCLOCK_SysPll1Div20Clk, /*!< Sys PLL1 clock divided by 20. */ kCLOCK_SysPll2Clk, /*!< Sys PLL2 clock. */ kCLOCK_SysPll2Div2Clk, /*!< Sys PLL2 clock divided by 2. */ kCLOCK_SysPll2Div3Clk, /*!< Sys PLL2 clock divided by 3. */ kCLOCK_SysPll2Div4Clk, /*!< Sys PLL2 clock divided by 4. */ kCLOCK_SysPll2Div5Clk, /*!< Sys PLL2 clock divided by 5. */ kCLOCK_SysPll2Div6Clk, /*!< Sys PLL2 clock divided by 6. */ kCLOCK_SysPll2Div8Clk, /*!< Sys PLL2 clock divided by 8. */ kCLOCK_SysPll2Div10Clk, /*!< Sys PLL2 clock divided by 10. */ kCLOCK_SysPll2Div20Clk, /*!< Sys PLL2 clock divided by 20. */ kCLOCK_SysPll3Clk, /*!< Sys PLL3 clock. */ kCLOCK_AudioPll1Clk, /*!< Audio PLL1 clock. */ kCLOCK_AudioPll2Clk, /*!< Audio PLL2 clock. */ kCLOCK_VideoPll1Clk, /*!< Video PLL1 clock. */ kCLOCK_ExtClk1, /*!< External clock1. */ kCLOCK_ExtClk2, /*!< External clock2. */ kCLOCK_ExtClk3, /*!< External clock3. */ kCLOCK_ExtClk4, /*!< External clock4. */ kCLOCK_NoneName, /*!< None Clock Name. */ /* -------------------------------- Other clock --------------------------*/ } clock_name_t; #define kCLOCK_CoreSysClk kCLOCK_CoreM7Clk /*!< For compatible with other platforms without CCM. */ #define CLOCK_GetCoreSysClkFreq CLOCK_GetCoreM7Freq /*!< For compatible with other platforms without CCM. */ /*! @brief CCM CCGR gate control. */ typedef enum _clock_ip_name { kCLOCK_IpInvalid = -1, kCLOCK_Debug = CCM_TUPLE(4U, 32U), /*!< DEBUG Clock Gate.*/ kCLOCK_Dram = CCM_TUPLE(5U, 64U), /*!< DRAM Clock Gate.*/ kCLOCK_Ecspi1 = CCM_TUPLE(7U, 101U), /*!< ECSPI1 Clock Gate.*/ kCLOCK_Ecspi2 = CCM_TUPLE(8U, 102U), /*!< ECSPI2 Clock Gate.*/ kCLOCK_Ecspi3 = CCM_TUPLE(9U, 131U), /*!< ECSPI3 Clock Gate.*/ kCLOCK_Enet1 = CCM_TUPLE(10U, 17U), /*!< ENET1 Clock Gate.*/ kCLOCK_Gpio1 = CCM_TUPLE(11U, 33U), /*!< GPIO1 Clock Gate.*/ kCLOCK_Gpio2 = CCM_TUPLE(12U, 33U), /*!< GPIO2 Clock Gate.*/ kCLOCK_Gpio3 = CCM_TUPLE(13U, 33U), /*!< GPIO3 Clock Gate.*/ kCLOCK_Gpio4 = CCM_TUPLE(14U, 33U), /*!< GPIO4 Clock Gate.*/ kCLOCK_Gpio5 = CCM_TUPLE(15U, 33U), /*!< GPIO5 Clock Gate.*/ kCLOCK_Gpt1 = CCM_TUPLE(16U, 107U), /*!< GPT1 Clock Gate.*/ kCLOCK_Gpt2 = CCM_TUPLE(17U, 108U), /*!< GPT2 Clock Gate.*/ kCLOCK_Gpt3 = CCM_TUPLE(18U, 109U), /*!< GPT3 Clock Gate.*/ kCLOCK_Gpt4 = CCM_TUPLE(19U, 110U), /*!< GPT4 Clock Gate.*/ kCLOCK_Gpt5 = CCM_TUPLE(20U, 111U), /*!< GPT5 Clock Gate.*/ kCLOCK_Gpt6 = CCM_TUPLE(21U, 112U), /*!< GPT6 Clock Gate.*/ kCLOCK_I2c1 = CCM_TUPLE(23U, 90U), /*!< I2C1 Clock Gate.*/ kCLOCK_I2c2 = CCM_TUPLE(24U, 91U), /*!< I2C2 Clock Gate.*/ kCLOCK_I2c3 = CCM_TUPLE(25U, 92U), /*!< I2C3 Clock Gate.*/ kCLOCK_I2c4 = CCM_TUPLE(26U, 93U), /*!< I2C4 Clock Gate.*/ kCLOCK_Iomux = CCM_TUPLE(27U, 33U), /*!< IOMUX Clock Gate.*/ kCLOCK_Ipmux1 = CCM_TUPLE(28U, 33U), /*!< IPMUX1 Clock Gate.*/ kCLOCK_Ipmux2 = CCM_TUPLE(29U, 33U), /*!< IPMUX2 Clock Gate.*/ kCLOCK_Ipmux3 = CCM_TUPLE(30U, 33U), /*!< IPMUX3 Clock Gate.*/ kCLOCK_Ipmux4 = CCM_TUPLE(31U, 33U), /*!< IPMUX4 Clock Gate.*/ kCLOCK_Mu = CCM_TUPLE(33U, 33U), /*!< MU Clock Gate.*/ kCLOCK_Ocram = CCM_TUPLE(35U, 16U), /*!< OCRAM Clock Gate.*/ kCLOCK_OcramS = CCM_TUPLE(36U, 32U), /*!< OCRAM S Clock Gate.*/ kCLOCK_Pwm1 = CCM_TUPLE(40U, 103U), /*!< PWM1 Clock Gate.*/ kCLOCK_Pwm2 = CCM_TUPLE(41U, 104U), /*!< PWM2 Clock Gate.*/ kCLOCK_Pwm3 = CCM_TUPLE(42U, 105U), /*!< PWM3 Clock Gate.*/ kCLOCK_Pwm4 = CCM_TUPLE(43U, 106U), /*!< PWM4 Clock Gate.*/ kCLOCK_Qspi = CCM_TUPLE(47U, 87U), /*!< QSPI Clock Gate.*/ kCLOCK_Rdc = CCM_TUPLE(49U, 33U), /*!< RDC Clock Gate.*/ kCLOCK_Sai2 = CCM_TUPLE(52U, 76U), /*!< SAI2 Clock Gate.*/ kCLOCK_Sai3 = CCM_TUPLE(53U, 77U), /*!< SAI3 Clock Gate.*/ kCLOCK_Sai5 = CCM_TUPLE(55U, 79U), /*!< SAI5 Clock Gate.*/ kCLOCK_Sai6 = CCM_TUPLE(56U, 80U), /*!< SAI6 Clock Gate.*/ kCLOCK_Sai7 = CCM_TUPLE(101U, 134U), /*!< SAI7 Clock Gate.*/ kCLOCK_Sdma1 = CCM_TUPLE(58U, 33U), /*!< SDMA1 Clock Gate.*/ kCLOCK_Sdma2 = CCM_TUPLE(59U, 35U), /*!< SDMA2 Clock Gate.*/ kCLOCK_Sec_Debug = CCM_TUPLE(60U, 33U), /*!< SEC_DEBUG Clock Gate.*/ kCLOCK_Sema42_1 = CCM_TUPLE(61U, 33U), /*!< RDC SEMA42 Clock Gate.*/ kCLOCK_Sema42_2 = CCM_TUPLE(62U, 33U), /*!< RDC SEMA42 Clock Gate.*/ kCLOCK_Sim_display = CCM_TUPLE(63U, 16U), /*!< SIM_Display Clock Gate.*/ kCLOCK_Sim_m = CCM_TUPLE(65U, 32U), /*!< SIM_M Clock Gate.*/ kCLOCK_Sim_main = CCM_TUPLE(66U, 16U), /*!< SIM_MAIN Clock Gate.*/ kCLOCK_Sim_s = CCM_TUPLE(67U, 32U), /*!< SIM_S Clock Gate.*/ kCLOCK_Sim_wakeup = CCM_TUPLE(68U, 32U), /*!< SIM_WAKEUP Clock Gate.*/ kCLOCK_Uart1 = CCM_TUPLE(73U, 94U), /*!< UART1 Clock Gate.*/ kCLOCK_Uart2 = CCM_TUPLE(74U, 95U), /*!< UART2 Clock Gate.*/ kCLOCK_Uart3 = CCM_TUPLE(75U, 96U), /*!< UART3 Clock Gate.*/ kCLOCK_Uart4 = CCM_TUPLE(76U, 97U), /*!< UART4 Clock Gate.*/ kCLOCK_Usdhc1 = CCM_TUPLE(81U, 88U), /*!< USDHC1 Clock Gate.*/ kCLOCK_Usdhc2 = CCM_TUPLE(82U, 89U), /*!< USDHC2 Clock Gate.*/ kCLOCK_Wdog1 = CCM_TUPLE(83U, 114U), /*!< WDOG1 Clock Gate.*/ kCLOCK_Wdog2 = CCM_TUPLE(84U, 114U), /*!< WDOG2 Clock Gate.*/ kCLOCK_Wdog3 = CCM_TUPLE(85U, 114U), /*!< WDOG3 Clock Gate.*/ kCLOCK_Asrc = CCM_TUPLE(88U, 33U), /*!< ASRC Clock Gate.*/ kCLOCK_Pdm = CCM_TUPLE(91U, 132U), /*!< PDM Clock Gate.*/ kCLOCK_Usdhc3 = CCM_TUPLE(94U, 121U), /*!< USDHC3 Clock Gate.*/ kCLOCK_Sdma3 = CCM_TUPLE(95U, 35U), /*!< SDMA3 Clock Gate.*/ kCLOCK_TempSensor = CCM_TUPLE(98U, 0xFFFF), /*!< TempSensor Clock Gate.*/ } clock_ip_name_t; /*! @brief ccm root name used to get clock frequency. */ typedef enum _clock_root_control { kCLOCK_RootM7 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[1].TARGET_ROOT), /*!< ARM Cortex-M7 Clock control name.*/ kCLOCK_RootAxi = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[16].TARGET_ROOT), /*!< AXI Clock control name.*/ kCLOCK_RootEnetAxi = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[17].TARGET_ROOT), /*!< ENET AXI Clock control name.*/ kCLOCK_RootNoc = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[26].TARGET_ROOT), /*!< NOC Clock control name.*/ kCLOCK_RootAhb = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[32].TARGET_ROOT), /*!< AHB Clock control name.*/ kCLOCK_RootIpg = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[33].TARGET_ROOT), /*!< IPG Clock control name.*/ kCLOCK_RootAudioAhb = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[34].TARGET_ROOT), /*!< Audio AHB Clock control name.*/ kCLOCK_RootAudioIpg = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[35].TARGET_ROOT), /*!< Audio IPG Clock control name.*/ kCLOCK_RootDramAlt = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[64].TARGET_ROOT), /*!< DRAM ALT Clock control name.*/ kCLOCK_RootSai2 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[76].TARGET_ROOT), /*!< SAI2 Clock control name.*/ kCLOCK_RootSai3 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[77].TARGET_ROOT), /*!< SAI3 Clock control name.*/ kCLOCK_RootSai5 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[79].TARGET_ROOT), /*!< SAI5 Clock control name.*/ kCLOCK_RootSai6 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[80].TARGET_ROOT), /*!< SAI6 Clock control name.*/ kCLOCK_RootSai7 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[134].TARGET_ROOT), /*!< SAI7 Clock control name.*/ kCLOCK_RootEnetRef = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[83].TARGET_ROOT), /*!< ENET Clock control name.*/ kCLOCK_RootEnetTimer = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[84].TARGET_ROOT), /*!< ENET TIMER Clock control name.*/ kCLOCK_RootEnetPhy = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[85].TARGET_ROOT), /*!< ENET PHY Clock control name.*/ kCLOCK_RootQspi = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[87].TARGET_ROOT), /*!< QSPI Clock control name.*/ kCLOCK_RootI2c1 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[90].TARGET_ROOT), /*!< I2C1 Clock control name.*/ kCLOCK_RootI2c2 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[91].TARGET_ROOT), /*!< I2C2 Clock control name.*/ kCLOCK_RootI2c3 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[92].TARGET_ROOT), /*!< I2C3 Clock control name.*/ kCLOCK_RootI2c4 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[93].TARGET_ROOT), /*!< I2C4 Clock control name.*/ kCLOCK_RootUart1 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[94].TARGET_ROOT), /*!< UART1 Clock control name.*/ kCLOCK_RootUart2 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[95].TARGET_ROOT), /*!< UART2 Clock control name.*/ kCLOCK_RootUart3 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[96].TARGET_ROOT), /*!< UART3 Clock control name.*/ kCLOCK_RootUart4 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[97].TARGET_ROOT), /*!< UART4 Clock control name.*/ kCLOCK_RootEcspi1 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[101].TARGET_ROOT), /*!< ECSPI1 Clock control name.*/ kCLOCK_RootEcspi2 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[102].TARGET_ROOT), /*!< ECSPI2 Clock control name.*/ kCLOCK_RootEcspi3 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[131].TARGET_ROOT), /*!< ECSPI3 Clock control name.*/ kCLOCK_RootPwm1 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[103].TARGET_ROOT), /*!< PWM1 Clock control name.*/ kCLOCK_RootPwm2 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[104].TARGET_ROOT), /*!< PWM2 Clock control name.*/ kCLOCK_RootPwm3 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[105].TARGET_ROOT), /*!< PWM3 Clock control name.*/ kCLOCK_RootPwm4 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[106].TARGET_ROOT), /*!< PWM4 Clock control name.*/ kCLOCK_RootGpt1 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[107].TARGET_ROOT), /*!< GPT1 Clock control name.*/ kCLOCK_RootGpt2 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[108].TARGET_ROOT), /*!< GPT2 Clock control name.*/ kCLOCK_RootGpt3 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[109].TARGET_ROOT), /*!< GPT3 Clock control name.*/ kCLOCK_RootGpt4 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[110].TARGET_ROOT), /*!< GPT4 Clock control name.*/ kCLOCK_RootGpt5 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[111].TARGET_ROOT), /*!< GPT5 Clock control name.*/ kCLOCK_RootGpt6 = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[112].TARGET_ROOT), /*!< GPT6 Clock control name.*/ kCLOCK_RootWdog = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[114].TARGET_ROOT), /*!< WDOG Clock control name.*/ kCLOCK_RootPdm = (uintptr_t)CCM_BASE + offsetof(CCM_Type, ROOT[132].TARGET_ROOT), /*!< PDM Clock control name.*/ } clock_root_control_t; /*! @brief ccm clock root index used to get clock frequency. */ typedef enum _clock_root { kCLOCK_M7ClkRoot = 0, /*!< ARM Cortex-M7 Clock control name.*/ kCLOCK_AxiClkRoot, /*!< AXI Clock control name.*/ kCLOCK_NocClkRoot, /*!< NOC Clock control name.*/ kCLOCK_AhbClkRoot, /*!< AHB Clock control name.*/ kCLOCK_IpgClkRoot, /*!< IPG Clock control name.*/ kCLOCK_AudioAhbClkRoot, /*!< Audio AHB Clock control name.*/ kCLOCK_AudioIpgClkRoot, /*!< Audio IPG Clock control name.*/ kCLOCK_DramAltClkRoot, /*!< DRAM ALT Clock control name.*/ kCLOCK_Sai2ClkRoot, /*!< SAI2 Clock control name.*/ kCLOCK_Sai3ClkRoot, /*!< SAI3 Clock control name.*/ kCLOCK_Sai5ClkRoot, /*!< SAI5 Clock control name.*/ kCLOCK_Sai6ClkRoot, /*!< SAI6 Clock control name.*/ kCLOCK_Sai7ClkRoot, /*!< SAI7 Clock control name.*/ kCLOCK_QspiClkRoot, /*!< QSPI Clock control name.*/ kCLOCK_I2c1ClkRoot, /*!< I2C1 Clock control name.*/ kCLOCK_I2c2ClkRoot, /*!< I2C2 Clock control name.*/ kCLOCK_I2c3ClkRoot, /*!< I2C3 Clock control name.*/ kCLOCK_I2c4ClkRoot, /*!< I2C4 Clock control name.*/ kCLOCK_Uart1ClkRoot, /*!< UART1 Clock control name.*/ kCLOCK_Uart2ClkRoot, /*!< UART2 Clock control name.*/ kCLOCK_Uart3ClkRoot, /*!< UART3 Clock control name.*/ kCLOCK_Uart4ClkRoot, /*!< UART4 Clock control name.*/ kCLOCK_Ecspi1ClkRoot, /*!< ECSPI1 Clock control name.*/ kCLOCK_Ecspi2ClkRoot, /*!< ECSPI2 Clock control name.*/ kCLOCK_Ecspi3ClkRoot, /*!< ECSPI3 Clock control name.*/ kCLOCK_Pwm1ClkRoot, /*!< PWM1 Clock control name.*/ kCLOCK_Pwm2ClkRoot, /*!< PWM2 Clock control name.*/ kCLOCK_Pwm3ClkRoot, /*!< PWM3 Clock control name.*/ kCLOCK_Pwm4ClkRoot, /*!< PWM4 Clock control name.*/ kCLOCK_Gpt1ClkRoot, /*!< GPT1 Clock control name.*/ kCLOCK_Gpt2ClkRoot, /*!< GPT2 Clock control name.*/ kCLOCK_Gpt3ClkRoot, /*!< GPT3 Clock control name.*/ kCLOCK_Gpt4ClkRoot, /*!< GPT4 Clock control name.*/ kCLOCK_Gpt5ClkRoot, /*!< GPT5 Clock control name.*/ kCLOCK_Gpt6ClkRoot, /*!< GPT6 Clock control name.*/ kCLOCK_WdogClkRoot, /*!< WDOG Clock control name.*/ kCLOCK_PdmClkRoot, /*!< PDM Clock control name.*/ } clock_root_t; /*! @brief Root clock select enumeration for ARM Cortex-M7 core. */ typedef enum _clock_rootmux_m7_clk_sel { kCLOCK_M7RootmuxOsc24M = 0U, /*!< ARM Cortex-M7 Clock from OSC 24M.*/ kCLOCK_M7RootmuxSysPll2Div5 = 1U, /*!< ARM Cortex-M7 Clock from SYSTEM PLL2 divided by 5.*/ kCLOCK_M7RootmuxSysPll2Div4 = 2U, /*!< ARM Cortex-M7 Clock from SYSTEM PLL2 divided by 4.*/ kCLOCK_M7RootmuxSysPll1Div3 = 3U, /*!< ARM Cortex-M7 Clock from SYSTEM PLL1 divided by 3.*/ kCLOCK_M7RootmuxSysPll1 = 4U, /*!< ARM Cortex-M7 Clock from SYSTEM PLL1.*/ kCLOCK_M7RootmuxAudioPll1 = 5U, /*!< ARM Cortex-M7 Clock from AUDIO PLL1.*/ kCLOCK_M7RootmuxVideoPll1 = 6U, /*!< ARM Cortex-M7 Clock from VIDEO PLL1.*/ kCLOCK_M7RootmuxSysPll3 = 7U, /*!< ARM Cortex-M7 Clock from SYSTEM PLL3.*/ } clock_rootmux_m7_clk_sel_t; /*! @brief Root clock select enumeration for AXI bus. */ typedef enum _clock_rootmux_axi_clk_sel { kCLOCK_AxiRootmuxOsc24M = 0U, /*!< ARM AXI Clock from OSC 24M.*/ kCLOCK_AxiRootmuxSysPll2Div3 = 1U, /*!< ARM AXI Clock from SYSTEM PLL2 divided by 3.*/ kCLOCK_AxiRootmuxSysPll1 = 2U, /*!< ARM AXI Clock from SYSTEM PLL1.*/ kCLOCK_AxiRootmuxSysPll2Div4 = 3U, /*!< ARM AXI Clock from SYSTEM PLL2 divided by 4.*/ kCLOCK_AxiRootmuxSysPll2 = 4U, /*!< ARM AXI Clock from SYSTEM PLL2.*/ kCLOCK_AxiRootmuxAudioPll1 = 5U, /*!< ARM AXI Clock from AUDIO PLL1.*/ kCLOCK_AxiRootmuxVideoPll1 = 6U, /*!< ARM AXI Clock from VIDEO PLL1.*/ kCLOCK_AxiRootmuxSysPll1Div8 = 7U, /*!< ARM AXI Clock from SYSTEM PLL1 divided by 8.*/ } clock_rootmux_axi_clk_sel_t; /*! @brief Root clock select enumeration for AHB bus. */ typedef enum _clock_rootmux_ahb_clk_sel { kCLOCK_AhbRootmuxOsc24M = 0U, /*!< ARM AHB Clock from OSC 24M.*/ kCLOCK_AhbRootmuxSysPll1Div6 = 1U, /*!< ARM AHB Clock from SYSTEM PLL1 divided by 6.*/ kCLOCK_AhbRootmuxSysPll1 = 2U, /*!< ARM AHB Clock from SYSTEM PLL1.*/ kCLOCK_AhbRootmuxSysPll1Div2 = 3U, /*!< ARM AHB Clock from SYSTEM PLL1 divided by 2.*/ kCLOCK_AhbRootmuxSysPll2Div8 = 4U, /*!< ARM AHB Clock from SYSTEM PLL2 divided by 8.*/ kCLOCK_AhbRootmuxSysPll3 = 5U, /*!< ARM AHB Clock from SYSTEM PLL3.*/ kCLOCK_AhbRootmuxAudioPll1 = 6U, /*!< ARM AHB Clock from AUDIO PLL1.*/ kCLOCK_AhbRootmuxVideoPll1 = 7U, /*!< ARM AHB Clock from VIDEO PLL1.*/ } clock_rootmux_ahb_clk_sel_t; /*! @brief Root clock select enumeration for Audio AHB bus. */ typedef enum _clock_rootmux_audio_ahb_clk_sel { kCLOCK_AudioAhbRootmuxOsc24M = 0U, /*!< ARM Audio AHB Clock from OSC 24M.*/ kCLOCK_AudioAhbRootmuxSysPll2Div2 = 1U, /*!< ARM Audio AHB Clock from SYSTEM PLL2 divided by 2.*/ kCLOCK_AudioAhbRootmuxSysPll1 = 2U, /*!< ARM Audio AHB Clock from SYSTEM PLL1.*/ kCLOCK_AudioAhbRootmuxSysPll2 = 3U, /*!< ARM Audio AHB Clock from SYSTEM PLL2.*/ kCLOCK_AudioAhbRootmuxSysPll2Div6 = 4U, /*!< ARM Audio AHB Clock from SYSTEM PLL2 divided by 6.*/ kCLOCK_AudioAhbRootmuxSysPll3 = 5U, /*!< ARM Audio AHB Clock from SYSTEM PLL3.*/ kCLOCK_AudioAhbRootmuxAudioPll1 = 6U, /*!< ARM Audio AHB Clock from AUDIO PLL1.*/ kCLOCK_AudioAhbRootmuxVideoPll1 = 7U, /*!< ARM Audio AHB Clock from VIDEO PLL1.*/ } clock_rootmux_audio_ahb_clk_sel_t; /*! @brief Root clock select enumeration for QSPI peripheral. */ typedef enum _clock_rootmux_qspi_clk_sel { kCLOCK_QspiRootmuxOsc24M = 0U, /*!< ARM QSPI Clock from OSC 24M.*/ kCLOCK_QspiRootmuxSysPll1Div2 = 1U, /*!< ARM QSPI Clock from SYSTEM PLL1 divided by 2.*/ kCLOCK_QspiRootmuxSysPll2Div3 = 2U, /*!< ARM QSPI Clock from SYSTEM PLL2 divided by 3.*/ kCLOCK_QspiRootmuxSysPll2Div2 = 3U, /*!< ARM QSPI Clock from SYSTEM PLL2 divided by 2.*/ kCLOCK_QspiRootmuxAudioPll2 = 4U, /*!< ARM QSPI Clock from AUDIO PLL2.*/ kCLOCK_QspiRootmuxSysPll1Div3 = 5U, /*!< ARM QSPI Clock from SYSTEM PLL1 divided by 3 */ kCLOCK_QspiRootmuxSysPll3 = 6, /*!< ARM QSPI Clock from SYSTEM PLL3.*/ kCLOCK_QspiRootmuxSysPll1Div8 = 7U, /*!< ARM QSPI Clock from SYSTEM PLL1 divided by 8.*/ } clock_rootmux_qspi_clk_sel_t; /*! @brief Root clock select enumeration for ECSPI peripheral. */ typedef enum _clock_rootmux_ecspi_clk_sel { kCLOCK_EcspiRootmuxOsc24M = 0U, /*!< ECSPI Clock from OSC 24M.*/ kCLOCK_EcspiRootmuxSysPll2Div5 = 1U, /*!< ECSPI Clock from SYSTEM PLL2 divided by 5.*/ kCLOCK_EcspiRootmuxSysPll1Div20 = 2U, /*!< ECSPI Clock from SYSTEM PLL1 divided by 20.*/ kCLOCK_EcspiRootmuxSysPll1Div5 = 3U, /*!< ECSPI Clock from SYSTEM PLL1 divided by 5.*/ kCLOCK_EcspiRootmuxSysPll1 = 4U, /*!< ECSPI Clock from SYSTEM PLL1.*/ kCLOCK_EcspiRootmuxSysPll3 = 5U, /*!< ECSPI Clock from SYSTEM PLL3.*/ kCLOCK_EcspiRootmuxSysPll2Div4 = 6U, /*!< ECSPI Clock from SYSTEM PLL2 divided by 4.*/ kCLOCK_EcspiRootmuxAudioPll2 = 7U, /*!< ECSPI Clock from AUDIO PLL2.*/ } clock_rootmux_ecspi_clk_sel_t; /*! @brief Root clock select enumeration for ENET AXI bus. */ typedef enum _clock_rootmux_enet_axi_clk_sel { kCLOCK_EnetAxiRootmuxOsc24M = 0U, /*!< ENET AXI Clock from OSC 24M.*/ kCLOCK_EnetAxiRootmuxSysPll1Div3 = 1U, /*!< ENET AXI Clock from SYSTEM PLL1 divided by 3.*/ kCLOCK_EnetAxiRootmuxSysPll1 = 2U, /*!< ENET AXI Clock from SYSTEM PLL1.*/ kCLOCK_EnetAxiRootmuxSysPll2Div4 = 3U, /*!< ENET AXI Clock from SYSTEM PLL2 divided by 4.*/ kCLOCK_EnetAxiRootmuxSysPll2Div5 = 4U, /*!< ENET AXI Clock from SYSTEM PLL2 divided by 5.*/ kCLOCK_EnetAxiRootmuxAudioPll1 = 5U, /*!< ENET AXI Clock from AUDIO PLL1.*/ kCLOCK_EnetAxiRootmuxVideoPll1 = 6U, /*!< ENET AXI Clock from VIDEO PLL1.*/ kCLOCK_EnetAxiRootmuxSysPll3 = 7U, /*!< ENET AXI Clock from SYSTEM PLL3.*/ } clock_rootmux_enet_axi_clk_sel_t; /*! @brief Root clock select enumeration for ENET REF Clcok. */ typedef enum _clock_rootmux_enet_ref_clk_sel { kCLOCK_EnetRefRootmuxOsc24M = 0U, /*!< ENET REF Clock from OSC 24M.*/ kCLOCK_EnetRefRootmuxSysPll2Div8 = 1U, /*!< ENET REF Clock from SYSTEM PLL2 divided by 8.*/ kCLOCK_EnetRefRootmuxSysPll2Div20 = 2U, /*!< ENET REF Clock from SYSTEM PLL2 divided by 20.*/ kCLOCK_EnetRefRootmuxSysPll2Div10 = 3U, /*!< ENET REF Clock from SYSTEM PLL2 divided by 10.*/ kCLOCK_EnetRefRootmuxSysPll1Div5 = 4U, /*!< ENET REF Clock from SYSTEM PLL1 divided by 5.*/ kCLOCK_EnetRefRootmuxAudioPll1 = 5U, /*!< ENET REF Clock from AUDIO PLL1.*/ kCLOCK_EnetRefRootmuxVideoPll1 = 6U, /*!< ENET REF Clock from VIDEO PLL1.*/ kCLOCK_EnetRefRootmuxExtClk4 = 7U, /*!< ENET REF Clock from External Clock 4.*/ } clock_rootmux_enet_ref_clk_sel_t; /*! @brief Root clock select enumeration for ENET TIMER Clcok. */ typedef enum _clock_rootmux_enet_timer_clk_sel { kCLOCK_EnetTimerRootmuxOsc24M = 0U, /*!< ENET TIMER Clock from OSC 24M.*/ kCLOCK_EnetTimerRootmuxSysPll2Div10 = 1U, /*!< ENET TIMER Clock from SYSTEM PLL2 divided by 10.*/ kCLOCK_EnetTimerRootmuxAudioPll1 = 2U, /*!< ENET TIMER Clock from AUDIO PLL1.*/ kCLOCK_EnetTimerRootmuxExtClk1 = 3U, /*!< ENET TIMER Clock from External Clock 1.*/ kCLOCK_EnetTimerRootmuxExtClk2 = 4U, /*!< ENET TIMER Clock External Clock 2.*/ kCLOCK_EnetTimerRootmuxExtClk3 = 5U, /*!< ENET TIMER Clock from External Clock 3.*/ kCLOCK_EnetTimerRootmuxExtClk4 = 6U, /*!< ENET TIMER Clock from External Clock 4.*/ kCLOCK_EnetTimerRootmuxVideoPll1 = 7U, /*!< ENET TIMER Clock from VIDEO PLL1.*/ } clock_rootmux_enet_timer_clk_sel_t; /*! @brief Root clock select enumeration for ENET PHY Clcok. */ typedef enum _clock_rootmux_enet_phy_clk_sel { kCLOCK_EnetPhyRootmuxOsc24M = 0U, /*!< ENET PHY Clock from OSC 24M.*/ kCLOCK_EnetPhyRootmuxSysPll2Div20 = 1U, /*!< ENET PHY Clock from SYSTEM PLL2 divided by 20.*/ kCLOCK_EnetPhyRootmuxSysPll2Div8 = 2U, /*!< ENET PHY Clock from SYSTEM PLL2 divided by 8.*/ kCLOCK_EnetPhyRootmuxSysPll2Div5 = 3U, /*!< ENET PHY Clock from SYSTEM PLL2 divided by 5.*/ kCLOCK_EnetPhyRootmuxSysPll2Div2 = 4U, /*!< ENET PHY Clock from SYSTEM PLL2 divided by 2.*/ kCLOCK_EnetPhyRootmuxAudioPll1 = 5U, /*!< ENET PHY Clock from AUDIO PLL1.*/ kCLOCK_EnetPhyRootmuxVideoPll1 = 6U, /*!< ENET PHY Clock from VIDEO PLL1.*/ kCLOCK_EnetPhyRootmuxAudioPll2 = 7U, /*!< ENET PHY Clock from AUDIO PLL2.*/ } clock_rootmux_enet_phy_clk_sel_t; /*! @brief Root clock select enumeration for I2C peripheral. */ typedef enum _clock_rootmux_i2c_clk_sel { kCLOCK_I2cRootmuxOsc24M = 0U, /*!< I2C Clock from OSC 24M.*/ kCLOCK_I2cRootmuxSysPll1Div5 = 1U, /*!< I2C Clock from SYSTEM PLL1 divided by 5.*/ kCLOCK_I2cRootmuxSysPll2Div20 = 2U, /*!< I2C Clock from SYSTEM PLL2 divided by 20.*/ kCLOCK_I2cRootmuxSysPll3 = 3U, /*!< I2C Clock from SYSTEM PLL3 .*/ kCLOCK_I2cRootmuxAudioPll1 = 4U, /*!< I2C Clock from AUDIO PLL1.*/ kCLOCK_I2cRootmuxVideoPll1 = 5U, /*!< I2C Clock from VIDEO PLL1.*/ kCLOCK_I2cRootmuxAudioPll2 = 6U, /*!< I2C Clock from AUDIO PLL2.*/ kCLOCK_I2cRootmuxSysPll1Div6 = 7U, /*!< I2C Clock from SYSTEM PLL1 divided by 6.*/ } clock_rootmux_i2c_clk_sel_t; /*! @brief Root clock select enumeration for UART peripheral. */ typedef enum _clock_rootmux_uart_clk_sel { kCLOCK_UartRootmuxOsc24M = 0U, /*!< UART Clock from OSC 24M.*/ kCLOCK_UartRootmuxSysPll1Div10 = 1U, /*!< UART Clock from SYSTEM PLL1 divided by 10.*/ kCLOCK_UartRootmuxSysPll2Div5 = 2U, /*!< UART Clock from SYSTEM PLL2 divided by 5.*/ kCLOCK_UartRootmuxSysPll2Div10 = 3U, /*!< UART Clock from SYSTEM PLL2 divided by 10.*/ kCLOCK_UartRootmuxSysPll3 = 4U, /*!< UART Clock from SYSTEM PLL3.*/ kCLOCK_UartRootmuxExtClk2 = 5U, /*!< UART Clock from External Clock 2.*/ kCLOCK_UartRootmuxExtClk34 = 6U, /*!< UART Clock from External Clock 3, External Clock 4.*/ kCLOCK_UartRootmuxAudioPll2 = 7U, /*!< UART Clock from Audio PLL2.*/ } clock_rootmux_uart_clk_sel_t; /*! @brief Root clock select enumeration for GPT peripheral. */ typedef enum _clock_rootmux_gpt { kCLOCK_GptRootmuxOsc24M = 0U, /*!< GPT Clock from OSC 24M.*/ kCLOCK_GptRootmuxSystemPll2Div10 = 1U, /*!< GPT Clock from SYSTEM PLL2 divided by 10.*/ kCLOCK_GptRootmuxSysPll1Div2 = 2U, /*!< GPT Clock from SYSTEM PLL1 divided by 2.*/ kCLOCK_GptRootmuxSysPll1Div20 = 3U, /*!< GPT Clock from SYSTEM PLL1 divided by 20.*/ kCLOCK_GptRootmuxVideoPll1 = 4U, /*!< GPT Clock from VIDEO PLL1.*/ kCLOCK_GptRootmuxSystemPll1Div10 = 5U, /*!< GPT Clock from SYSTEM PLL1 divided by 10.*/ kCLOCK_GptRootmuxAudioPll1 = 6U, /*!< GPT Clock from AUDIO PLL1.*/ kCLOCK_GptRootmuxExtClk123 = 7U, /*!< GPT Clock from External Clock1, External Clock2, External Clock3.*/ } clock_rootmux_gpt_t; /*! @brief Root clock select enumeration for WDOG peripheral. */ typedef enum _clock_rootmux_wdog_clk_sel { kCLOCK_WdogRootmuxOsc24M = 0U, /*!< WDOG Clock from OSC 24M.*/ kCLOCK_WdogRootmuxSysPll1Div6 = 1U, /*!< WDOG Clock from SYSTEM PLL1 divided by 6.*/ kCLOCK_WdogRootmuxSysPll1Div5 = 2U, /*!< WDOG Clock from SYSTEM PLL1 divided by 5.*/ kCLOCK_WdogRootmuxVpuPll = 3U, /*!< WDOG Clock from VPU DLL.*/ kCLOCK_WdogRootmuxSystemPll2Div8 = 4U, /*!< WDOG Clock from SYSTEM PLL2 divided by 8.*/ kCLOCK_WdogRootmuxSystemPll3 = 5U, /*!< WDOG Clock from SYSTEM PLL3.*/ kCLOCK_WdogRootmuxSystemPll1Div10 = 6U, /*!< WDOG Clock from SYSTEM PLL1 divided by 10.*/ kCLOCK_WdogRootmuxSystemPll2Div6 = 7U, /*!< WDOG Clock from SYSTEM PLL2 divided by 6.*/ } clock_rootmux_wdog_clk_sel_t; /*! @brief Root clock select enumeration for PWM peripheral. */ typedef enum _clock_rootmux_pwm_clk_sel { kCLOCK_PwmRootmuxOsc24M = 0U, /*!< PWM Clock from OSC 24M.*/ kCLOCK_PwmRootmuxSysPll2Div10 = 1U, /*!< PWM Clock from SYSTEM PLL2 divided by 10.*/ kCLOCK_PwmRootmuxSysPll1Div5 = 2U, /*!< PWM Clock from SYSTEM PLL1 divided by 5.*/ kCLOCK_PwmRootmuxSysPll1Div20 = 3U, /*!< PWM Clock from SYSTEM PLL1 divided by 20.*/ kCLOCK_PwmRootmuxSystemPll3 = 4U, /*!< PWM Clock from SYSTEM PLL3.*/ kCLOCK_PwmRootmuxExtClk12 = 5U, /*!< PWM Clock from External Clock1, External Clock2.*/ kCLOCK_PwmRootmuxSystemPll1Div10 = 6U, /*!< PWM Clock from SYSTEM PLL1 divided by 10.*/ kCLOCK_PwmRootmuxVideoPll1 = 7U, /*!< PWM Clock from VIDEO PLL1.*/ } clock_rootmux_Pwm_clk_sel_t; /*! @brief Root clock select enumeration for SAI peripheral. */ typedef enum _clock_rootmux_sai_clk_sel { kCLOCK_SaiRootmuxOsc24M = 0U, /*!< SAI Clock from OSC 24M.*/ kCLOCK_SaiRootmuxAudioPll1 = 1U, /*!< SAI Clock from AUDIO PLL1.*/ kCLOCK_SaiRootmuxAudioPll2 = 2U, /*!< SAI Clock from AUDIO PLL2.*/ kCLOCK_SaiRootmuxVideoPll1 = 3U, /*!< SAI Clock from VIDEO PLL1.*/ kCLOCK_SaiRootmuxSysPll1Div6 = 4U, /*!< SAI Clock from SYSTEM PLL1 divided by 6.*/ kCLOCK_SaiRootmuxOsc26m = 5U, /*!< SAI Clock from OSC HDMI 26M.*/ kCLOCK_SaiRootmuxExtClk1 = 6U, /*!< SAI Clock from External Clock1, External Clock2, External Clock3.*/ kCLOCK_SaiRootmuxExtClk2 = 7U, /*!< SAI Clock from External Clock2, External Clock3, External Clock4.*/ } clock_rootmux_sai_clk_sel_t; /*! @brief Root clock select enumeration for PDM peripheral. */ typedef enum _clock_rootmux_pdm_clk_sel { kCLOCK_PdmRootmuxOsc24M = 0U, /*!< GPT Clock from OSC 24M.*/ kCLOCK_PdmRootmuxSystemPll2 = 1U, /*!< GPT Clock from SYSTEM PLL2 divided by 10.*/ kCLOCK_PdmRootmuxAudioPll1 = 2U, /*!< GPT Clock from SYSTEM PLL1 divided by 2.*/ kCLOCK_PdmRootmuxSysPll1 = 3U, /*!< GPT Clock from SYSTEM PLL1 divided by 20.*/ kCLOCK_PdmRootmuxSysPll2 = 4U, /*!< GPT Clock from VIDEO PLL1.*/ kCLOCK_PdmRootmuxSysPll3 = 5U, /*!< GPT Clock from SYSTEM PLL1 divided by 10.*/ kCLOCK_PdmRootmuxExtClk3 = 6U, /*!< GPT Clock from AUDIO PLL1.*/ kCLOCK_PdmRootmuxAudioPll2 = 7U, /*!< GPT Clock from External Clock1, External Clock2, External Clock3.*/ } clock_rootmux_pdm_clk_sel_t; /*! @brief Root clock select enumeration for NOC CLK. */ typedef enum _clock_rootmux_noc_clk_sel { kCLOCK_NocRootmuxOsc24M = 0U, /*!< NOC Clock from OSC 24M.*/ kCLOCK_NocRootmuxSysPll1 = 1U, /*!< NOC Clock from SYSTEM PLL1.*/ kCLOCK_NocRootmuxSysPll3 = 2U, /*!< NOC Clock from SYSTEM PLL3.*/ kCLOCK_NocRootmuxSysPll2 = 3U, /*!< NOC Clock from SYSTEM PLL2.*/ kCLOCK_NocRootmuxSysPll2Div2 = 4U, /*!< NOC Clock from SYSTEM PLL2 divided by 2.*/ kCLOCK_NocRootmuxAudioPll1 = 5U, /*!< NOC Clock from AUDIO PLL1.*/ kCLOCK_NocRootmuxVideoPll1 = 6U, /*!< NOC Clock from VIDEO PLL1.*/ kCLOCK_NocRootmuxAudioPll2 = 7U, /*!< NOC Clock from AUDIO PLL2.*/ } clock_rootmux_noc_clk_sel_t; /*! @brief CCM PLL gate control. */ typedef enum _clock_pll_gate { kCLOCK_ArmPllGate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[12].PLL_CTRL), /*!< ARM PLL Gate.*/ kCLOCK_GpuPllGate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[13].PLL_CTRL), /*!< GPU PLL Gate.*/ kCLOCK_VpuPllGate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[14].PLL_CTRL), /*!< VPU PLL Gate.*/ kCLOCK_DramPllGate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[15].PLL_CTRL), /*!< DRAM PLL1 Gate.*/ kCLOCK_SysPll1Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[16].PLL_CTRL), /*!< SYSTEM PLL1 Gate.*/ kCLOCK_SysPll1Div2Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[17].PLL_CTRL), /*!< SYSTEM PLL1 Div2 Gate.*/ kCLOCK_SysPll1Div3Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[18].PLL_CTRL), /*!< SYSTEM PLL1 Div3 Gate.*/ kCLOCK_SysPll1Div4Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[19].PLL_CTRL), /*!< SYSTEM PLL1 Div4 Gate.*/ kCLOCK_SysPll1Div5Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[20].PLL_CTRL), /*!< SYSTEM PLL1 Div5 Gate.*/ kCLOCK_SysPll1Div6Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[21].PLL_CTRL), /*!< SYSTEM PLL1 Div6 Gate.*/ kCLOCK_SysPll1Div8Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[22].PLL_CTRL), /*!< SYSTEM PLL1 Div8 Gate.*/ kCLOCK_SysPll1Div10Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[23].PLL_CTRL), /*!< SYSTEM PLL1 Div10 Gate.*/ kCLOCK_SysPll1Div20Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[24].PLL_CTRL), /*!< SYSTEM PLL1 Div20 Gate.*/ kCLOCK_SysPll2Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[25].PLL_CTRL), /*!< SYSTEM PLL2 Gate.*/ kCLOCK_SysPll2Div2Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[26].PLL_CTRL), /*!< SYSTEM PLL2 Div2 Gate.*/ kCLOCK_SysPll2Div3Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[27].PLL_CTRL), /*!< SYSTEM PLL2 Div3 Gate.*/ kCLOCK_SysPll2Div4Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[28].PLL_CTRL), /*!< SYSTEM PLL2 Div4 Gate.*/ kCLOCK_SysPll2Div5Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[29].PLL_CTRL), /*!< SYSTEM PLL2 Div5 Gate.*/ kCLOCK_SysPll2Div6Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[30].PLL_CTRL), /*!< SYSTEM PLL2 Div6 Gate.*/ kCLOCK_SysPll2Div8Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[31].PLL_CTRL), /*!< SYSTEM PLL2 Div8 Gate.*/ kCLOCK_SysPll2Div10Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[32].PLL_CTRL), /*!< SYSTEM PLL2 Div10 Gate.*/ kCLOCK_SysPll2Div20Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[33].PLL_CTRL), /*!< SYSTEM PLL2 Div20 Gate.*/ kCLOCK_SysPll3Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[34].PLL_CTRL), /*!< SYSTEM PLL3 Gate.*/ kCLOCK_AudioPll1Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[35].PLL_CTRL), /*!< AUDIO PLL1 Gate.*/ kCLOCK_AudioPll2Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[36].PLL_CTRL), /*!< AUDIO PLL2 Gate.*/ kCLOCK_VideoPll1Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[37].PLL_CTRL), /*!< VIDEO PLL1 Gate.*/ kCLOCK_VideoPll2Gate = (uintptr_t)CCM_BASE + offsetof(CCM_Type, PLL_CTRL[38].PLL_CTRL), /*!< VIDEO PLL2 Gate.*/ } clock_pll_gate_t; /*! @brief CCM gate control value. */ typedef enum _clock_gate_value { kCLOCK_ClockNotNeeded = 0x0U, /*!< Clock always disabled.*/ kCLOCK_ClockNeededRun = 0x1111U, /*!< Clock enabled when CPU is running.*/ kCLOCK_ClockNeededRunWait = 0x2222U, /*!< Clock enabled when CPU is running or in WAIT mode.*/ kCLOCK_ClockNeededAll = 0x3333U, /*!< Clock always enabled.*/ } clock_gate_value_t; /*! * @brief PLL control names for PLL bypass. * * These constants define the PLL control names for PLL bypass.\n * - 0:15: REG offset to CCM_ANALOG_BASE in bytes. * - 16:20: bypass bit shift. */ typedef enum _clock_pll_bypass_ctrl { kCLOCK_AudioPll1BypassCtrl = CCM_ANALOG_TUPLE(AUDIO_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_AUDIO_PLL1_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM Audio PLL1 bypass Control.*/ kCLOCK_AudioPll2BypassCtrl = CCM_ANALOG_TUPLE(AUDIO_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_AUDIO_PLL2_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM Audio PLL2 bypass Control.*/ kCLOCK_VideoPll1BypassCtrl = CCM_ANALOG_TUPLE(VIDEO_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_VIDEO_PLL1_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM Video Pll1 bypass Control.*/ kCLOCK_DramPllInternalPll1BypassCtrl = CCM_ANALOG_TUPLE( DRAM_PLL_GEN_CTRL_OFFSET, CCM_ANALOG_DRAM_PLL_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM DRAM PLL bypass Control.*/ kCLOCK_ArmPllPwrBypassCtrl = CCM_ANALOG_TUPLE( ARM_PLL_GEN_CTRL_OFFSET, CCM_ANALOG_ARM_PLL_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM Arm PLL bypass Control.*/ kCLOCK_SysPll1InternalPll1BypassCtrl = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM System PLL1 bypass Control.*/ kCLOCK_SysPll2InternalPll1BypassCtrl = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM System PLL2 bypass Control.*/ kCLOCK_SysPll3InternalPll1BypassCtrl = CCM_ANALOG_TUPLE( SYS_PLL3_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL3_GEN_CTRL_PLL_BYPASS_SHIFT), /*!< CCM System PLL3 bypass Control.*/ } clock_pll_bypass_ctrl_t; /*! * @brief PLL clock names for clock enable/disable settings. * * These constants define the PLL clock names for PLL clock enable/disable operations.\n * - 0:15: REG offset to CCM_ANALOG_BASE in bytes. * - 16:20: Clock enable bit shift. */ typedef enum _ccm_analog_pll_clke { kCLOCK_AudioPll1Clke = CCM_ANALOG_TUPLE(AUDIO_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_AUDIO_PLL1_GEN_CTRL_PLL_CLKE_SHIFT), /*!< Audio pll1 clke */ kCLOCK_AudioPll2Clke = CCM_ANALOG_TUPLE(AUDIO_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_AUDIO_PLL2_GEN_CTRL_PLL_CLKE_SHIFT), /*!< Audio pll2 clke */ kCLOCK_VideoPll1Clke = CCM_ANALOG_TUPLE(VIDEO_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_VIDEO_PLL1_GEN_CTRL_PLL_CLKE_SHIFT), /*!< Video pll1 clke */ kCLOCK_DramPllClke = CCM_ANALOG_TUPLE(DRAM_PLL_GEN_CTRL_OFFSET, CCM_ANALOG_DRAM_PLL_GEN_CTRL_PLL_CLKE_SHIFT), /*!< Dram pll clke */ kCLOCK_ArmPllClke = CCM_ANALOG_TUPLE(ARM_PLL_GEN_CTRL_OFFSET, CCM_ANALOG_ARM_PLL_GEN_CTRL_PLL_CLKE_SHIFT), /*!< Arm pll clke */ kCLOCK_SystemPll1Clke = CCM_ANALOG_TUPLE(SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_CLKE_SHIFT), /*!< System pll1 clke */ kCLOCK_SystemPll1Div2Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV2_CLKE_SHIFT), /*!< System pll1 Div2 clke */ kCLOCK_SystemPll1Div3Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV3_CLKE_SHIFT), /*!< System pll1 Div3 clke */ kCLOCK_SystemPll1Div4Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV4_CLKE_SHIFT), /*!< System pll1 Div4 clke */ kCLOCK_SystemPll1Div5Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV5_CLKE_SHIFT), /*!< System pll1 Div5 clke */ kCLOCK_SystemPll1Div6Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV6_CLKE_SHIFT), /*!< System pll1 Div6 clke */ kCLOCK_SystemPll1Div8Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV8_CLKE_SHIFT), /*!< System pll1 Div8 clke */ kCLOCK_SystemPll1Div10Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV10_CLKE_SHIFT), /*!< System pll1 Div10 clke */ kCLOCK_SystemPll1Div20Clke = CCM_ANALOG_TUPLE( SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_DIV20_CLKE_SHIFT), /*!< System pll1 Div20 clke */ kCLOCK_SystemPll2Clke = CCM_ANALOG_TUPLE(SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_CLKE_SHIFT), /*!< System pll2 clke */ kCLOCK_SystemPll2Div2Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV2_CLKE_SHIFT), /*!< System pll2 Div2 clke */ kCLOCK_SystemPll2Div3Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV3_CLKE_SHIFT), /*!< System pll2 Div3 clke */ kCLOCK_SystemPll2Div4Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV4_CLKE_SHIFT), /*!< System pll2 Div4 clke */ kCLOCK_SystemPll2Div5Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV5_CLKE_SHIFT), /*!< System pll2 Div5 clke */ kCLOCK_SystemPll2Div6Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV6_CLKE_SHIFT), /*!< System pll2 Div6 clke */ kCLOCK_SystemPll2Div8Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV8_CLKE_SHIFT), /*!< System pll2 Div8 clke */ kCLOCK_SystemPll2Div10Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV10_CLKE_SHIFT), /*!< System pll2 Div10 clke */ kCLOCK_SystemPll2Div20Clke = CCM_ANALOG_TUPLE( SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_DIV20_CLKE_SHIFT), /*!< System pll2 Div20 clke */ kCLOCK_SystemPll3Clke = CCM_ANALOG_TUPLE(SYS_PLL3_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL3_GEN_CTRL_PLL_CLKE_SHIFT), /*!< System pll3 clke */ } clock_pll_clke_t; /*! * @brief ANALOG Power down override control. */ typedef enum _clock_pll_ctrl { /* Fractional PLL frequency */ kCLOCK_AudioPll1Ctrl = CCM_ANALOG_TUPLE(AUDIO_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_AUDIO_PLL1_GEN_CTRL_PLL_RST_SHIFT), kCLOCK_AudioPll2Ctrl = CCM_ANALOG_TUPLE(AUDIO_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_AUDIO_PLL2_GEN_CTRL_PLL_RST_SHIFT), kCLOCK_VideoPll1Ctrl = CCM_ANALOG_TUPLE(VIDEO_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_VIDEO_PLL1_GEN_CTRL_PLL_RST_SHIFT), kCLOCK_DramPllCtrl = CCM_ANALOG_TUPLE(DRAM_PLL_GEN_CTRL_OFFSET, CCM_ANALOG_DRAM_PLL_GEN_CTRL_PLL_RST_SHIFT), /* Integer PLL frequency */ kCLOCK_ArmPllCtrl = CCM_ANALOG_TUPLE(ARM_PLL_GEN_CTRL_OFFSET, CCM_ANALOG_ARM_PLL_GEN_CTRL_PLL_RST_SHIFT), kCLOCK_SystemPll1Ctrl = CCM_ANALOG_TUPLE(SYS_PLL1_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_RST_SHIFT), kCLOCK_SystemPll2Ctrl = CCM_ANALOG_TUPLE(SYS_PLL2_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL2_GEN_CTRL_PLL_RST_SHIFT), kCLOCK_SystemPll3Ctrl = CCM_ANALOG_TUPLE(SYS_PLL3_GEN_CTRL_OFFSET, CCM_ANALOG_SYS_PLL3_GEN_CTRL_PLL_RST_SHIFT), } clock_pll_ctrl_t; /*! @brief PLL reference clock select. */ enum { kANALOG_PllRefOsc24M = 0U, /*!< reference OSC 24M */ kANALOG_PllPadClk = 1U, /*!< reference PAD CLK */ }; /*! * @brief Fractional-N PLL configuration. * Note: all the dividers in this configuration structure are the actually divider, software will map it to register * value */ typedef struct _ccm_analog_frac_pll_config { uint8_t refSel; /*!< pll reference clock sel */ uint32_t mainDiv; /*!< Value of the 10-bit programmable main-divider, range must be 64~1023 */ uint32_t dsm; /*!< Value of 16-bit DSM */ uint8_t preDiv; /*!< Value of the 6-bit programmable pre-divider, range must be 1~63 */ uint8_t postDiv; /*!< Value of the 3-bit programmable Scaler, range must be 0~6 */ } ccm_analog_frac_pll_config_t; /*! * @brief Integer PLL configuration. * Note: all the dividers in this configuration structure are the actually divider, software will map it to register * value */ typedef struct _ccm_analog_integer_pll_config { uint8_t refSel; /*!< pll reference clock sel */ uint32_t mainDiv; /*!< Value of the 10-bit programmable main-divider, range must be 64~1023 */ uint8_t preDiv; /*!< Value of the 6-bit programmable pre-divider, range must be 1~63 */ uint8_t postDiv; /*!< Value of the 3-bit programmable Scaler, range must be 0~6 */ } ccm_analog_integer_pll_config_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @name CCM Root Clock Setting * @{ */ /*! * @brief Set clock root mux. * User maybe need to set more than one mux ROOT according to the clock tree * description in the reference manual. * * @param rootClk Root clock control (see @ref clock_root_control_t enumeration). * @param mux Root mux value, refer to _ccm_rootmux_xxx enumeration. */ static inline void CLOCK_SetRootMux(clock_root_control_t rootClk, uint32_t mux) { CCM_REG(rootClk) = (CCM_REG(rootClk) & (~CCM_TARGET_ROOT_MUX_MASK)) | CCM_TARGET_ROOT_MUX(mux); } /*! * @brief Get clock root mux. * In order to get the clock source of root, user maybe need to get more than one * ROOT's mux value to obtain the final clock source of root. * * @param rootClk Root clock control (see @ref clock_root_control_t enumeration). * @return Root mux value, refer to _ccm_rootmux_xxx enumeration. */ static inline uint32_t CLOCK_GetRootMux(clock_root_control_t rootClk) { return (CCM_REG(rootClk) & CCM_TARGET_ROOT_MUX_MASK) >> CCM_TARGET_ROOT_MUX_SHIFT; } /*! * @brief Enable clock root * * @param rootClk Root clock control (see @ref clock_root_control_t enumeration) */ static inline void CLOCK_EnableRoot(clock_root_control_t rootClk) { CCM_REG_SET(rootClk) = CCM_TARGET_ROOT_SET_ENABLE_MASK; } /*! * @brief Disable clock root * * @param rootClk Root control (see @ref clock_root_control_t enumeration) */ static inline void CLOCK_DisableRoot(clock_root_control_t rootClk) { CCM_REG_CLR(rootClk) = CCM_TARGET_ROOT_CLR_ENABLE_MASK; } /*! * @brief Check whether clock root is enabled * * @param rootClk Root control (see @ref clock_root_control_t enumeration) * @return CCM root enabled or not. * - true: Clock root is enabled. * - false: Clock root is disabled. */ static inline bool CLOCK_IsRootEnabled(clock_root_control_t rootClk) { return (bool)(CCM_REG(rootClk) & CCM_TARGET_ROOT_ENABLE_MASK); } /*! * @brief Update clock root in one step, for dynamical clock switching * Note: The PRE and POST dividers in this function are the actually divider, software will map it to register value * * @param ccmRootClk Root control (see @ref clock_root_control_t enumeration) * @param mux Root mux value, refer to _ccm_rootmux_xxx enumeration * @param pre Pre divider value (0-7, divider=n+1) * @param post Post divider value (0-63, divider=n+1) */ void CLOCK_UpdateRoot(clock_root_control_t ccmRootClk, uint32_t mux, uint32_t pre, uint32_t post); /*! * @brief Set root clock divider * Note: The PRE and POST dividers in this function are the actually divider, software will map it to register value * * @param ccmRootClk Root control (see @ref clock_root_control_t enumeration) * @param pre Pre divider value (1-8) * @param post Post divider value (1-64) */ void CLOCK_SetRootDivider(clock_root_control_t ccmRootClk, uint32_t pre, uint32_t post); /*! * @brief Get clock root PRE_PODF. * In order to get the clock source of root, user maybe need to get more than one * ROOT's mux value to obtain the final clock source of root. * * @param rootClk Root clock name (see @ref clock_root_control_t enumeration). * @return Root Pre divider value. */ static inline uint32_t CLOCK_GetRootPreDivider(clock_root_control_t rootClk) { return ((CCM_REG(rootClk) & CCM_TARGET_ROOT_PRE_PODF_MASK) >> CCM_TARGET_ROOT_PRE_PODF_SHIFT) + 1U; } /*! * @brief Get clock root POST_PODF. * In order to get the clock source of root, user maybe need to get more than one * ROOT's mux value to obtain the final clock source of root. * * @param rootClk Root clock name (see @ref clock_root_control_t enumeration). * @return Root Post divider value. */ static inline uint32_t CLOCK_GetRootPostDivider(clock_root_control_t rootClk) { return ((CCM_REG(rootClk) & CCM_TARGET_ROOT_POST_PODF_MASK) >> CCM_TARGET_ROOT_POST_PODF_SHIFT) + 1U; } /*! * @name CCM Gate Control * @{ */ /*! * lockrief Set PLL or CCGR gate control * * @param ccmGate Gate control (see @ref clock_pll_gate_t and @ref clock_ip_name_t enumeration) * @param control Gate control value (see @ref clock_gate_value_t) */ static inline void CLOCK_ControlGate(uintptr_t ccmGate, clock_gate_value_t control) { CCM_REG(ccmGate) = (uint32_t)control; } /*! * @brief Enable CCGR clock gate and root clock gate for each module * User should set specific gate for each module according to the description * of the table of system clocks, gating and override in CCM chapter of * reference manual. Take care of that one module may need to set more than * one clock gate. * * @param ccmGate Gate control for each module (see @ref clock_ip_name_t enumeration). */ void CLOCK_EnableClock(clock_ip_name_t ccmGate); /*! * @brief Disable CCGR clock gate for the each module * User should set specific gate for each module according to the description * of the table of system clocks, gating and override in CCM chapter of * reference manual. Take care of that one module may need to set more than * one clock gate. * * @param ccmGate Gate control for each module (see @ref clock_ip_name_t enumeration). */ void CLOCK_DisableClock(clock_ip_name_t ccmGate); /*! * @name CCM Analog PLL Operatoin Functions * @{ */ /*! * @brief Power up PLL * * @param base CCM_ANALOG base pointer. * @param pllControl PLL control name (see @ref clock_pll_ctrl_t enumeration) */ static inline void CLOCK_PowerUpPll(CCM_ANALOG_Type *base, clock_pll_ctrl_t pllControl) { CCM_ANALOG_TUPLE_REG(base, pllControl) |= (1UL << CCM_ANALOG_TUPLE_SHIFT(pllControl)); } /*! * @brief Power down PLL * * @param base CCM_ANALOG base pointer. * @param pllControl PLL control name (see @ref clock_pll_ctrl_t enumeration) */ static inline void CLOCK_PowerDownPll(CCM_ANALOG_Type *base, clock_pll_ctrl_t pllControl) { CCM_ANALOG_TUPLE_REG(base, pllControl) &= ~(1UL << CCM_ANALOG_TUPLE_SHIFT(pllControl)); } /*! * @brief PLL bypass setting * * @param base CCM_ANALOG base pointer. * @param pllControl PLL control name, refer to ccm_analog_pll_control_t enumeration * @param bypass Bypass the PLL. * - true: Bypass the PLL. * - false: Do not bypass the PLL. */ static inline void CLOCK_SetPllBypass(CCM_ANALOG_Type *base, clock_pll_bypass_ctrl_t pllControl, bool bypass) { if (bypass) { CCM_ANALOG_TUPLE_REG(base, pllControl) |= 1UL << CCM_ANALOG_TUPLE_SHIFT(pllControl); } else { CCM_ANALOG_TUPLE_REG(base, pllControl) &= ~(1UL << CCM_ANALOG_TUPLE_SHIFT(pllControl)); } } /*! * @brief Check if PLL is bypassed * * @param base CCM_ANALOG base pointer. * @param pllControl PLL control name, refer to ccm_analog_pll_control_t enumeration * @return PLL bypass status. * - true: The PLL is bypassed. * - false: The PLL is not bypassed. */ static inline bool CLOCK_IsPllBypassed(CCM_ANALOG_Type *base, clock_pll_bypass_ctrl_t pllControl) { return (bool)(CCM_ANALOG_TUPLE_REG(base, pllControl) & (1UL << CCM_ANALOG_TUPLE_SHIFT(pllControl))); } /*! * @brief Check if PLL clock is locked * * @param base CCM_ANALOG base pointer. * @param pllControl PLL control name (see @ref clock_pll_ctrl_t enumeration) * @return PLL lock status. * - true: The PLL clock is locked. * - false: The PLL clock is not locked. */ static inline bool CLOCK_IsPllLocked(CCM_ANALOG_Type *base, clock_pll_ctrl_t pllControl) { return (bool)(CCM_ANALOG_TUPLE_REG(base, pllControl) & CCM_ANALOG_SYS_PLL1_GEN_CTRL_PLL_LOCK_MASK); } /*! * @brief Enable PLL clock * * @param base CCM_ANALOG base pointer. * @param pllClock PLL clock name, refer to ccm_analog_pll_clock_t enumeration */ static inline void CLOCK_EnableAnalogClock(CCM_ANALOG_Type *base, clock_pll_clke_t pllClock) { CCM_ANALOG_TUPLE_REG(base, pllClock) |= 1UL << CCM_ANALOG_TUPLE_SHIFT(pllClock); } /*! * @brief Disable PLL clock * * @param base CCM_ANALOG base pointer. * @param pllClock PLL clock name, refer to ccm_analog_pll_clock_t enumeration */ static inline void CLOCK_DisableAnalogClock(CCM_ANALOG_Type *base, clock_pll_clke_t pllClock) { CCM_ANALOG_TUPLE_REG(base, pllClock) &= ~(1UL << CCM_ANALOG_TUPLE_SHIFT(pllClock)); } /*! * @brief Override PLL clock output enable * * @param base CCM_ANALOG base pointer. * @param ovClock PLL clock name (see @ref clock_pll_clke_t enumeration) * @param override Override the PLL. * - true: Override the PLL clke, CCM will handle it. * - false: Do not override the PLL clke. */ static inline void CLOCK_OverridePllClke(CCM_ANALOG_Type *base, clock_pll_clke_t ovClock, bool override) { if (override) { CCM_ANALOG_TUPLE_REG(base, ovClock) |= 1UL << (CCM_ANALOG_TUPLE_SHIFT(ovClock) - 1UL); } else { CCM_ANALOG_TUPLE_REG(base, ovClock) &= ~(1UL << (CCM_ANALOG_TUPLE_SHIFT(ovClock) - 1UL)); } } /*! * @brief Override PLL power down * * @param base CCM_ANALOG base pointer. * @param pdClock PLL clock name (see @ref clock_pll_ctrl_t enumeration) * @param override Override the PLL. * - true: Override the PLL clke, CCM will handle it. * - false: Do not override the PLL clke. */ static inline void CLOCK_OverridePllPd(CCM_ANALOG_Type *base, clock_pll_ctrl_t pdClock, bool override) { if (override) { CCM_ANALOG_TUPLE_REG(base, pdClock) |= 1UL << (CCM_ANALOG_TUPLE_SHIFT(pdClock) - 1UL); } else { CCM_ANALOG_TUPLE_REG(base, pdClock) &= ~(1UL << (CCM_ANALOG_TUPLE_SHIFT(pdClock) - 1UL)); } } /*! * @brief Initializes the ANALOG ARM PLL. * * @param config Pointer to the configuration structure(see @ref ccm_analog_integer_pll_config_t enumeration). * * @note This function can't detect whether the Arm PLL has been enabled and * used by some IPs. */ void CLOCK_InitArmPll(const ccm_analog_integer_pll_config_t *config); /*! * @brief De-initialize the ARM PLL. */ void CLOCK_DeinitArmPll(void); /*! * @brief Initializes the ANALOG SYS PLL1. * * @param config Pointer to the configuration structure(see @ref ccm_analog_integer_pll_config_t enumeration). * * @note This function can't detect whether the SYS PLL has been enabled and * used by some IPs. */ void CLOCK_InitSysPll1(const ccm_analog_integer_pll_config_t *config); /*! * @brief De-initialize the System PLL1. */ void CLOCK_DeinitSysPll1(void); /*! * @brief Initializes the ANALOG SYS PLL2. * * @param config Pointer to the configuration structure(see @ref ccm_analog_integer_pll_config_t enumeration). * * @note This function can't detect whether the SYS PLL has been enabled and * used by some IPs. */ void CLOCK_InitSysPll2(const ccm_analog_integer_pll_config_t *config); /*! * @brief De-initialize the System PLL2. */ void CLOCK_DeinitSysPll2(void); /*! * @brief Initializes the ANALOG SYS PLL3. * * @param config Pointer to the configuration structure(see @ref ccm_analog_integer_pll_config_t enumeration). * * @note This function can't detect whether the SYS PLL has been enabled and * used by some IPs. */ void CLOCK_InitSysPll3(const ccm_analog_integer_pll_config_t *config); /*! * @brief De-initialize the System PLL3. */ void CLOCK_DeinitSysPll3(void); /*! * @brief Initializes the ANALOG AUDIO PLL1. * * @param config Pointer to the configuration structure(see @ref ccm_analog_frac_pll_config_t enumeration). * * @note This function can't detect whether the AUDIO PLL has been enabled and * used by some IPs. */ void CLOCK_InitAudioPll1(const ccm_analog_frac_pll_config_t *config); /*! * @brief De-initialize the Audio PLL1. */ void CLOCK_DeinitAudioPll1(void); /*! * @brief Initializes the ANALOG AUDIO PLL2. * * @param config Pointer to the configuration structure(see @ref ccm_analog_frac_pll_config_t enumeration). * * @note This function can't detect whether the AUDIO PLL has been enabled and * used by some IPs. */ void CLOCK_InitAudioPll2(const ccm_analog_frac_pll_config_t *config); /*! * @brief De-initialize the Audio PLL2. */ void CLOCK_DeinitAudioPll2(void); /*! * @brief Initializes the ANALOG VIDEO PLL1. * * @param config Pointer to the configuration structure(see @ref ccm_analog_frac_pll_config_t enumeration). * */ void CLOCK_InitVideoPll1(const ccm_analog_frac_pll_config_t *config); /*! * @brief De-initialize the Video PLL1. */ void CLOCK_DeinitVideoPll1(void); /*! * @brief Initializes the ANALOG Integer PLL. * * @param base CCM ANALOG base address * @param config Pointer to the configuration structure(see @ref ccm_analog_integer_pll_config_t enumeration). * @param type integer pll type * */ void CLOCK_InitIntegerPll(CCM_ANALOG_Type *base, const ccm_analog_integer_pll_config_t *config, clock_pll_ctrl_t type); /*! * @brief Get the ANALOG Integer PLL clock frequency. * * @param base CCM ANALOG base address. * @param type integer pll type * @param refClkFreq pll reference clock frequency * @param pll1Bypass pll1 bypass flag * * @return Clock frequency */ uint32_t CLOCK_GetIntegerPllFreq(CCM_ANALOG_Type *base, clock_pll_ctrl_t type, uint32_t refClkFreq, bool pll1Bypass); /*! * @brief Initializes the ANALOG Fractional PLL. * * @param base CCM ANALOG base address. * @param config Pointer to the configuration structure(see @ref ccm_analog_frac_pll_config_t enumeration). * @param type fractional pll type. * */ void CLOCK_InitFracPll(CCM_ANALOG_Type *base, const ccm_analog_frac_pll_config_t *config, clock_pll_ctrl_t type); /*! * @brief Gets the ANALOG Fractional PLL clock frequency. * * @param base CCM_ANALOG base pointer. * @param type Fractional pll type. * @param refClkFreq Pll reference clock frequency * * @return Clock frequency */ uint32_t CLOCK_GetFracPllFreq(CCM_ANALOG_Type *base, clock_pll_ctrl_t type, uint32_t refClkFreq); /*! * @brief Gets PLL clock frequency. * * @param pll Fractional pll type. * @return Clock frequency */ uint32_t CLOCK_GetPllFreq(clock_pll_ctrl_t pll); /*! * @brief Gets PLL reference clock frequency. * * @param ctrl Fractional pll type. * @return Clock frequency */ uint32_t CLOCK_GetPllRefClkFreq(clock_pll_ctrl_t ctrl); /*! * @name CCM Get frequency * @{ */ /*! * @brief Gets the clock frequency for a specific clock name. * * This function checks the current clock configurations and then calculates * the clock frequency for a specific clock name defined in clock_name_t. * * @param clockName Clock names defined in clock_name_t * @return Clock frequency value in hertz */ uint32_t CLOCK_GetFreq(clock_name_t clockName); /*! * @brief Gets the frequency of selected clock root. * * @param clockRoot The clock root used to get the frequency, please refer to @ref clock_root_t. * @return The frequency of selected clock root. */ uint32_t CLOCK_GetClockRootFreq(clock_root_t clockRoot); /*! * @brief Get the CCM Cortex M7 core frequency. * * @return Clock frequency; If the clock is invalid, returns 0. */ uint32_t CLOCK_GetCoreM7Freq(void); /*! * @brief Get the CCM Axi bus frequency. * * @return Clock frequency; If the clock is invalid, returns 0. */ uint32_t CLOCK_GetAxiFreq(void); /*! * @brief Get the CCM Ahb bus frequency. * * @return Clock frequency; If the clock is invalid, returns 0. */ uint32_t CLOCK_GetAhbFreq(void); /*! * brief Get the CCM Enet AXI bus frequency. * * return Clock frequency; If the clock is invalid, returns 0. */ uint32_t CLOCK_GetEnetAxiFreq(void); /* @} */ #if defined(__cplusplus) } #endif /* @} */ #endif