/*++ Copyright (c) 2015 Minoca Corp. All Rights Reserved Module Name: rk32xx.h Abstract: This header contains definitions for the Rockchip 32xx SoC. Author: Chris Stevens 30-Jul-2015 --*/ // // ------------------------------------------------------------------- Includes // // // --------------------------------------------------------------------- Macros // // // This macro computes a PLL clock frequency based on an input frequency of // 24MHz and the formula given in section 3.9.1. PLL Usage of the RK3288 TRM. // #define RK32_CRU_PLL_COMPUTE_CLOCK_FREQUENCY(_Nf, _Nr, _No) \ ((24 * (_Nf)) / ((_Nr) * (_No))) * 1000000 // // ---------------------------------------------------------------- Definitions // // // Define the number of timers in the SoC. // #define RK32_TIMER_COUNT 8 // // Define the RK3288 register base map. // #define RK32_SD_BASE 0xFF0C0000 #define RK32_EMMC_BASE 0xFF0F0000 #define RK32_I2C_PMU_BASE 0xFF650000 #define RK32_TIMER0_5_BASE 0xFF6B0000 #define RK32_UART_DEBUG_BASE 0xFF690000 #define RK32_SRAM_BASE 0xFF700000 #define RK32_PMU_BASE 0xFF730000 #define RK32_GPIO0_BASE 0xFF750000 #define RK32_CRU_BASE 0xFF760000 #define RK32_GRF_BASE 0xFF770000 #define RK32_GPIO7_BASE 0xFF7E0000 #define RK32_WATCHDOG_BASE 0xFF800000 #define RK32_TIMER6_7_BASE 0xFF810000 #define RK32_VOP_BIG_BASE 0xFF930000 #define RK32_VOP_LITTLE_BASE 0xFF940000 #define RK32_GIC_DISTRIBUTOR_BASE 0xFFC01000 #define RK32_GIC_CPU_INTERFACE_BASE 0xFFC02000 #define RK32_I2C_PMU_SIZE 0x1000 #define RK32_GPIO0_SIZE 0x1000 // // Define the RK3288 interrupt map. // #define RK32_INTERRUPT_USBOTG 55 #define RK32_INTERRUPT_EHCI 56 #define RK32_INTERRUPT_SDMMC 64 #define RK32_INTERRUPT_EMMC 67 #define RK32_INTERRUPT_OHCI 73 #define RK32_INTERRUPT_TIMER0 98 #define RK32_INTERRUPT_TIMER1 99 #define RK32_INTERRUPT_TIMER2 100 #define RK32_INTERRUPT_TIMER3 101 #define RK32_INTERRUPT_TIMER4 102 #define RK32_INTERRUPT_TIMER5 103 #define RK32_INTERRUPT_TIMER6 104 #define RK32_INTERRUPT_TIMER7 105 // // Define the RK32 watchdog range. // #define RK32_WATCHDOG_MIN 0x0000FFFF #define RK32_WATCHDOG_MAX 0x7FFFFFFF // // Define timer parameters. // #define RK32_TIMER_FREQUENCY 24000000 #define RK32_TIMER_REGISTER_STRIDE 0x00000020 // // Define generic PLL register bits, organized by configuration register. // #define RK32_PLL_CONFIGURATION0_NR_MASK (0x3F << 8) #define RK32_PLL_CONFIGURATION0_NR_SHIFT 8 #define RK32_PLL_CONFIGURATION0_OD_MASK (0xF << 0) #define RK32_PLL_CONFIGURATION0_OD_SHIFT 0 #define RK32_PLL_CONFIGURATION1_NF_MASK (0x1FFF << 0) #define RK32_PLL_CONFIGURATION1_NF_SHIFT 0 #define RK32_PLL_CONFIGURATION2_BWADJ_MASK (0xFFF << 0) #define RK32_PLL_CONFIGURATION2_BWADJ_SHIFT 0 #define RK32_PLL_CONFIGURATION3_RESET (1 << 5) // // Define the CRU codec PLL control 0 register bits. // #define RK32_CRU_CODEC_PLL_CONTROL0_PROTECT_SHIFT 16 #define RK32_CRU_CODEC_PLL_CONTROL0_CLKR_MASK (0x3F << 8) #define RK32_CRU_CODEC_PLL_CONTROL0_CLKR_SHIFT 8 #define RK32_CRU_CODEC_PLL_CONTROL0_CLKOD_MASK (0xF << 0) #define RK32_CRU_CODEC_PLL_CONTROL0_CLKOD_SHIFT 0 // // Define the CRU codec PLL control 1 register bits. // #define RK32_CRU_CODEC_PLL_CONTROL1_LOCK (1 << 31) #define RK32_CRU_CODEC_PLL_CONTROL1_CLKF_MASK (0x1FFF << 0) #define RK32_CRU_CODEC_PLL_CONTROL1_CLKF_SHIFT 0 // // Define the CRU general PLL control 0 register bits. // #define RK32_CRU_GENERAL_PLL_CONTROL0_PROTECT_SHIFT 16 #define RK32_CRU_GENERAL_PLL_CONTROL0_CLKR_MASK (0x3F << 8) #define RK32_CRU_GENERAL_PLL_CONTROL0_CLKR_SHIFT 8 #define RK32_CRU_GENERAL_PLL_CONTROL0_CLKOD_MASK (0xF << 0) #define RK32_CRU_GENERAL_PLL_CONTROL0_CLKOD_SHIFT 0 // // Define the CRU general PLL control 1 register bits. // #define RK32_CRU_GENERAL_PLL_CONTROL1_LOCK (1 << 31) #define RK32_CRU_GENERAL_PLL_CONTROL1_CLKF_MASK (0x1FFF << 0) #define RK32_CRU_GENERAL_PLL_CONTROL1_CLKF_SHIFT 0 // // Define the PLL clock mode frequencies. // #define RK32_CRU_PLL_SLOW_MODE_FREQUENCY 24000000 #define RK32_CRU_PLL_DEEP_SLOW_MODE_FREQUENCY 32768 // // Define the three mode values for the CRU mode control register. // #define RK32_CRU_MODE_CONTROL_SLOW_MODE 0 #define RK32_CRU_MODE_CONTROL_NORMAL_MODE 1 #define RK32_CRU_MODE_CONTROL_DEEP_SLOW_MODE 2 // // Define the CRU mode control register bits. // #define RK32_CRU_MODE_CONTROL_PROTECT_SHIFT 16 #define RK32_CRU_MODE_CONTROL_NEW_PLL_MODE_MASK (0x3 << 14) #define RK32_CRU_MODE_CONTROL_NEW_PLL_MODE_SHIFT 14 #define RK32_CRU_MODE_CONTROL_GENERAL_PLL_MODE_MASK (0x3 << 12) #define RK32_CRU_MODE_CONTROL_GENERAL_PLL_MODE_SHIFT 12 #define RK32_CRU_MODE_CONTROL_CODEC_PLL_MODE_MASK (0x3 << 8) #define RK32_CRU_MODE_CONTROL_CODEC_PLL_MODE_SHIFT 8 #define RK32_CRU_MODE_CONTROL_DDR_PLL_MODE_MASK (0x3 << 4) #define RK32_CRU_MODE_CONTROL_DDR_PLL_MODE_SHIFT 4 #define RK32_CRU_MODE_CONTROL_ARM_PLL_MODE_SLOW (0x0 << 0) #define RK32_CRU_MODE_CONTROL_ARM_PLL_MODE_NORMAL (0x1 << 0) #define RK32_CRU_MODE_CONTROL_ARM_PLL_MODE_DEEP_SLOW (0x2 << 0) #define RK32_CRU_MODE_CONTROL_ARM_PLL_MODE_MASK (0x3 << 0) #define RK32_CRU_MODE_CONTROL_ARM_PLL_MODE_SHIFT 0 // // Define the CRU clock select 1 register bits. // #define RK32_CRU_CLOCK_SELECT1_PROTECT_SHIFT 16 #define RK32_CRU_CLOCK_SELECT1_GENERAL_PLL (1 << 15) #define RK32_CRU_CLOCK_SELECT1_PCLK_DIVIDER_MASK (0x7 << 12) #define RK32_CRU_CLOCK_SELECT1_PCLK_DIVIDER_SHIFT 12 #define RK32_CRU_CLOCK_SELECT1_HCLK_DIVIDER_MASK (0x3 << 8) #define RK32_CRU_CLOCK_SELECT1_HCLK_DIVIDER_SHIFT 8 #define RK32_CRU_CLOCK_SELECT1_ACLK_DIVIDER_MASK (0x1F << 3) #define RK32_CRU_CLOCK_SELECT1_ACLK_DIVIDER_SHIFT 3 #define RK32_CRU_CLOCK_SELECT1_ACLK_DIVIDER1_MASK (0x7 << 0) #define RK32_CRU_CLOCK_SELECT1_ACLK_DIVIDER1_SHIFT 0 // // Define the CRU clock select 11 register bits. // #define RK32_CRU_CLOCK_SELECT11_PROTECT_SHIFT 16 #define RK32_CRU_CLOCK_SELECT11_HSIC_PHY_DIVIDER_MASK (0x3F << 8) #define RK32_CRU_CLOCK_SELECT11_HSIC_PHY_DIVIDER_SHIFT 8 #define RK32_CRU_CLOCK_SELECT11_MMC0_CODEC_PLL 0 #define RK32_CRU_CLOCK_SELECT11_MMC0_GENERAL_PLL 1 #define RK32_CRU_CLOCK_SELECT11_MMC0_24MHZ 2 #define RK32_CRU_CLOCK_SELECT11_MMC0_CLOCK_MASK (0x3 << 6) #define RK32_CRU_CLOCK_SELECT11_MMC0_CLOCK_SHIFT 6 #define RK32_CRU_CLOCK_SELECT11_MMC0_DIVIDER_MASK (0x3F << 0) #define RK32_CRU_CLOCK_SELECT11_MMC0_DIVIDER_SHIFT 0 // // Define CRU clock select 12 register bits. // #define RK32_CRU_CLOCK_SELECT12_EMMC_CODEC_PLL 0 #define RK32_CRU_CLOCK_SELECT12_EMMC_GENERAL_PLL 1 #define RK32_CRU_CLOCK_SELECT12_EMMC_24MHZ 2 #define RK32_CRU_CLOCK_SELECT12_EMMC_CLOCK_SHIFT 14 #define RK32_CRU_CLOCK_SELECT12_EMMC_DIVIDER_SHIFT 8 #define RK32_CRU_CLOCK_SELECT12_EMMC_CLOCK_MASK (0x3 << 14) #define RK32_CRU_CLOCK_SELECT12_EMMC_DIVIDER_MASK (0x3F << 8) #define RK32_CRU_CLOCK_SELECT12_PROTECT_SHIFT 16 // // Define the CRU clock select 33 register bits. // #define RK32_CRU_CLOCK_SELECT33_PROTECT_SHIFT 16 #define RK32_CRU_CLOCK_SELECT33_ALIVE_PCLK_DIVIDER_MASK (0x1F << 8) #define RK32_CRU_CLOCK_SELECT33_ALIVE_PCLK_DIVIDER_SHIFT 8 #define RK32_CRU_CLOCK_SELECT33_PMU_PCLK_DIVIDER_MASK (0x1F << 0) #define RK32_CRU_CLOCK_SELECT33_PMU_PCLK_DIVIDER_SHIFT 0 // // Define generic CRU clock select value for SD/eMMC. // #define RK32_CRU_MAX_MMC_DIVISOR 0x3F #define RK32_CRU_CLOCK_SELECT_PROTECT_SHIFT 16 #define RK32_CRU_CLOCK_SELECT_CODEC_PLL 0 #define RK32_CRU_CLOCK_SELECT_GENERAL_PLL 1 #define RK32_CRU_CLOCK_SELECT_24MHZ 2 #define RK32_CRU_CLOCK_SELECT_CLOCK_MASK (0x3 << 6) #define RK32_CRU_CLOCK_SELECT_CLOCK_SHIFT 6 #define RK32_CRU_CLOCK_SELECT_DIVIDER_MASK (0x3F << 0) #define RK32_CRU_CLOCK_SELECT_DIVIDER_SHIFT 0 // // Define CRU global reset values. // #define RK32_GLOBAL_RESET1_VALUE 0x0000FDB9 #define RK32_GLOBAL_RESET2_VALUE 0x0000ECA8 // // Define CRU soft reset 0 register bits. // #define RK32_CRU_SOFT_RESET0_PROTECT_SHIFT 16 #define RK32_CRU_SOFT_RESET0_CORE0 0x00000001 #define RK32_CRU_SOFT_RESET0_CORE1 0x00000002 #define RK32_CRU_SOFT_RESET0_CORE2 0x00000004 #define RK32_CRU_SOFT_RESET0_CORE3 0x00000008 // // Define CRU soft reset 8 register bits. // #define RK32_CRU_SOFT_RESET8_PROTECT_SHIFT 16 #define RK32_CRU_SOFT_RESET8_MMC0 0x00000001 // // Define PMU power down control register bits. // #define RK32_PMU_POWER_DOWN_CONTROL_A17_0 0x00000001 #define RK32_PMU_POWER_DOWN_CONTROL_A17_1 0x00000002 #define RK32_PMU_POWER_DOWN_CONTROL_A17_2 0x00000004 #define RK32_PMU_POWER_DOWN_CONTROL_A17_3 0x00000008 // // Define PMU power down status register bits. // #define RK32_PMU_POWER_DOWN_STATUS_A17_0 0x00000001 #define RK32_PMU_POWER_DOWN_STATUS_A17_1 0x00000002 #define RK32_PMU_POWER_DOWN_STATUS_A17_2 0x00000004 #define RK32_PMU_POWER_DOWN_STATUS_A17_3 0x00000008 // // Define the default values for the I2C PMU iomux. // #define RK32_PMU_IOMUX_I2C0_SDA_DEFAULT (1 << 14) #define RK32_PMU_IOMUX_I2C0_SCL_DEFAULT (1 << 0) // // Define GRF I/O Vsel register bits. // #define RK32_GRF_IO_VSEL_LCD_V18 0x00000001 #define RK32_GRF_IO_VSEL_PROTECT_SHIFT 16 // // Define GPIO SoC status 1 register bits. // #define RK32_GRF_SOC_STATUS1_ARM_PLL_LOCK (1 << 6) // // Define the GRF GPIO6C IOMUX value for SD/MMC. // #define RK32_GRF_GPIO6C_IOMUX_VALUE 0x2AAA1555 // // Define the GRF GPIO7CH IOMUX initialization values. // #define RK32_GRF_GPIO7CH_IOMUX_VALUE 0x33001100 // // Define LCD system control register bits. // #define RK32_LCD_SYSTEM_CONTROL_AUTO_GATING (1 << 23) #define RK32_LCD_SYSTEM_CONTROL_STANDBY (1 << 22) #define RK32_LCD_SYSTEM_CONTROL_DMA_STOP (1 << 21) #define RK32_LCD_SYSTEM_CONTROL_MMU_ENABLE (1 << 20) #define RK32_LCD_SYSTEM_CONTROL_MIPI_OUT (1 << 15) #define RK32_LCD_SYSTEM_CONTROL_EDP_OUT (1 << 14) #define RK32_LCD_SYSTEM_CONTROL_HDMI_OUT (1 << 13) #define RK32_LCD_SYSTEM_CONTROL_RGB_OUT (1 << 12) // // Define LCD DSP Control 0 register bits. // #define RK32_LCD_DSP_CONTROL0_BLACK (1 << 19) #define RK32_LCD_DSP_CONTROL0_BLANK (1 << 18) #define RK32_LCD_DSP_CONTROL0_OUT_ZERO (1 << 17) #define RK32_LCD_DSP_CONTROL0_DCLOCK_POLARITY (1 << 7) #define RK32_LCD_DSP_CONTROL0_DENABLE_POLARITY (1 << 6) #define RK32_LCD_DSP_CONTROL0_VSYNC_POLARITY (1 << 5) #define RK32_LCD_DSP_CONTROL0_HSYNC_POLARITY (1 << 4) // // Define LCD DSP control 1 register bits. // #define RK32_LCD_DSP_CONTROL1_LAYER3_SEL_SHIFT 14 #define RK32_LCD_DSP_CONTROL1_LAYER2_SEL_SHIFT 12 #define RK32_LCD_DSP_CONTROL1_LAYER1_SEL_SHIFT 10 #define RK32_LCD_DSP_CONTROL1_LAYER0_SEL_SHIFT 8 #define RK32_LCD_DSP_CONTROL1_DITHER_UP (1 << 6) #define RK32_LCD_DSP_CONTROL1_DITHER_DOWN_SELECT (1 << 4) #define RK32_LCD_DSP_CONTROL1_DITHER_DOWN_MODE (1 << 3) #define RK32_LCD_DSP_CONTROL1_DITHER_DOWN (1 << 2) #define RK32_LCD_DSP_CONTROL1_PRE_DITHER_DOWN (1 << 1) // // Define the LCD display information register bits. // #define RK32_LCD_DSP_INFORMATION_HEIGHT_MASK (0xFFF << 16) #define RK32_LCD_DSP_INFORMATION_HEIGHT_SHIFT 16 #define RK32_LCD_DSP_INFORMATION_WIDTH_MASK (0xFFF << 0) #define RK32_LCD_DSP_INFORMATION_WIDTH_SHIFT 0 // // Define the bits for the GPIO 7 data register. // #define RK32_GPIO7_BACKLIGHT_ENABLE 0x00000001 #define RK32_GPIO7_LCD_BACKLIGHT 0x00000004 // // Define the bits for the I2C control register. // #define RK32_I2C_CONTROL_STOP_ON_NAK (1 << 6) #define RK32_I2C_CONTROL_SEND_NAK (1 << 5) #define RK32_I2C_CONTROL_STOP (1 << 4) #define RK32_I2C_CONTROL_START (1 << 3) #define RK32_I2C_CONTROL_MODE_TRANSMIT (0x0 << 1) #define RK32_I2C_CONTROL_MODE_TRANSMIT_RECEIVE (0x1 << 1) #define RK32_I2C_CONTROL_MODE_RECEIVE (0x2 << 1) #define RK32_I2C_CONTROL_MODE_MASK (0x3 << 1) #define RK32_I2C_CONTROL_MODE_SHIFT 1 #define RK32_I2C_CONTROL_ENABLE (1 << 0) #define RK32_I2C_BUFFER_SIZE 32 // // Define the bits for the I2C clock divisor register. // #define RK32_I2C_CLOCK_DIVISOR_HIGH_MASK (0xFFFF << 16) #define RK32_I2C_CLOCK_DIVISOR_HIGH_SHIFT 16 #define RK32_I2C_CLOCK_DIVISOR_LOW_MASK (0xFFFF << 0) #define RK32_I2C_CLOCK_DIVISOR_LOW_SHIFT 0 // // Define the bits for the I2C master receive slave address register. // #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_HIGH_BYTE_VALID (1 << 26) #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_MIDDLE_BYTE_VALID (1 << 25) #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_LOW_BYTE_VALID (1 << 24) #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_MASK (0x7FFFFF << 1) #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_SHIFT 1 #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_WRITE (0 << 0) #define RK32_I2C_MASTER_RECEIVE_SLAVE_ADDRESS_READ (1 << 0) // // Define the bits for the I2C master receive slave register. // #define RK32_I2C_MASTER_RECEIVE_SLAVE_REGISTER_HIGH_BYTE_VALID (1 << 26) #define RK32_I2C_MASTER_RECEIVE_SLAVE_REGISTER_MIDDLE_BYTE_VALID (1 << 25) #define RK32_I2C_MASTER_RECEIVE_SLAVE_REGISTER_LOW_BYTE_VALID (1 << 24) #define RK32_I2C_MASTER_RECEIVE_SLAVE_REGISTER_MASK (0xFFFFFF << 0) #define RK32_I2C_MASTER_RECEIVE_SLAVE_REGISTER_SHIFT 0 // // Define the bits for the I2C master transmit count register. // #define RK32_I2C_MASTER_TRANSMIT_COUNT_MASK (0x3F << 0) #define RK32_I2C_MASTER_TRANSMIT_COUNT_SHIFT 0 // // Define the bits for the I2C master receive count register. // #define RK32_I2C_MASTER_RECEIVE_COUNT_MASK (0x3F << 0) #define RK32_I2C_MASTER_RECEIVE_COUNT_SHIFT 0 // // Define the bits for the I2C interrupt registers. // #define RK32_I2C_INTERRUPT_NAK (1 << 6) #define RK32_I2C_INTERRUPT_STOP (1 << 5) #define RK32_I2C_INTERRUPT_START (1 << 4) #define RK32_I2C_INTERRUPT_MASTER_RECEIVE_FINISHED (1 << 3) #define RK32_I2C_INTERRUPT_MASTER_TRANSMIT_FINISHED (1 << 2) #define RK32_I2C_INTERRUPT_BYTE_RECEIVE_FINISHED (1 << 1) #define RK32_I2C_INTERRUPT_BYTE_TRANSMIT_FINISHED (1 << 0) #define RK32_I2C_INTERRUPT_MASK \ (RK32_I2C_INTERRUPT_NAK | \ RK32_I2C_INTERRUPT_STOP | \ RK32_I2C_INTERRUPT_START | \ RK32_I2C_INTERRUPT_MASTER_RECEIVE_FINISHED | \ RK32_I2C_INTERRUPT_MASTER_TRANSMIT_FINISHED | \ RK32_I2C_INTERRUPT_BYTE_RECEIVE_FINISHED | \ RK32_I2C_INTERRUPT_BYTE_TRANSMIT_FINISHED) // // Define the bits for the I2C finished count register. // #define RK32_I2C_FINISHED_COUNT_MASK (0x3F << 0) #define RK32_I2C_FINISHED_COUNT_SHIFT 0 // // Define the UART parameters. // #define RK32_UART_BASE_BAUD 1497600 #define RK32_UART_REGISTER_OFFSET 0 #define RK32_UART_REGISTER_SHIFT 2 // // Define the default frequency for the SD/MMC. // #define RK32_SDMMC_FREQUENCY_24MHZ 24000000 // // Define attributes of the timers. // #define RK32_TIMER_BIT_WIDTH 64 #define RK32_TIMER_BLOCK_SIZE 0x1000 // // Define RK32 timer register bits. // // // Control bits // #define RK32_TIMER_CONTROL_ENABLE 0x00000001 #define RK32_TIMER_CONTROL_ONE_SHOT 0x00000002 #define RK32_TIMER_CONTROL_INTERRUPT_ENABLE 0x00000004 #define RK32_WATCHDOG_CONTROL_ENABLE 0x00000001 #define RK32_WATCHDOG_CONTROL_BARK_FIRST 0x00000002 #define RK32_WATCHDOG_RESTART_VALUE 0x00000076 // // ------------------------------------------------------ Data Type Definitions // typedef enum _RK32_CRU_REGISTER { Rk32CruArmPllConfiguration0 = 0x00, Rk32CruArmPllConfiguration1 = 0x04, Rk32CruArmPllConfiguration2 = 0x08, Rk32CruArmPllConfiguration3 = 0x0C, Rk32CruDdrPllConfiguration0 = 0x10, Rk32CruDdrPllConfiguration1 = 0x14, Rk32CruDdrPllConfiguration2 = 0x18, Rk32CruDdrPllConfiguration3 = 0x1C, Rk32CruCodecPllConfiguration0 = 0x20, Rk32CruCodecPllConfiguration1 = 0x24, Rk32CruCodecPllConfiguration2 = 0x28, Rk32CruCodecPllConfiguration3 = 0x2C, Rk32CruGeneralPllConfiguration0 = 0x30, Rk32CruGeneralPllConfiguration1 = 0x34, Rk32CruGeneralPllConfiguration2 = 0x38, Rk32CruGeneralPllConfiguration3 = 0x3C, Rk32CruNewPllConfiguration0 = 0x40, Rk32CruNewPllConfiguration1 = 0x44, Rk32CruNewPllConfiguration2 = 0x48, Rk32CruNewPllConfiguration3 = 0x4C, Rk32CruModeControl = 0x50, Rk32CruClockSelect0 = 0x60, Rk32CruClockSelect1 = 0x64, Rk32CruClockSelect11 = 0x8C, Rk32CruClockSelect12 = 0x90, Rk32CruClockSelect33 = 0xE4, Rk32CruGlobalReset1 = 0x1B0, Rk32CruGlobalReset2 = 0x1B4, Rk32CruSoftReset0 = 0x1B8, Rk32CruSoftReset1 = 0x1BC, Rk32CruSoftReset2 = 0x1C0, Rk32CruSoftReset3 = 0x1C4, Rk32CruSoftReset4 = 0x1C8, Rk32CruSoftReset5 = 0x1CC, Rk32CruSoftReset6 = 0x1D0, Rk32CruSoftReset7 = 0x1D4, Rk32CruSoftReset8 = 0x1D8, Rk32CruSoftReset9 = 0x1DC, Rk32CruSoftReset10 = 0x1E0, Rk32CruSoftReset11 = 0x1E4, } RK32_CRU_REGISTER, *PRK32_CRU_REGISTER; typedef enum _RK32_PLL_TYPE { Rk32PllNew, Rk32PllGeneral, Rk32PllCodec, Rk32PllDdr, Rk32PllArm } RK32_PLL_TYPE, *PRK32_PLL_TYPE; typedef enum _RK32_PMU_REGISTER { Rk32PmuPowerDownControl = 0x08, Rk32PmuPowerDownStatus = 0x0C, Rk32PmuIomuxI2c0Sda = 0x88, Rk32PmuIomuxI2c0Scl = 0x8C } RK32_PMU_REGISTER, *PRK32_PMU_REGISTER; typedef enum _RK32_GRF_REGISTER { Rk32GrfGpio6cIomux = 0x64, Rk32GrfGpio7chIomux = 0x78, Rk32GrfSocStatus0 = 0x280, Rk32GrfSocStatus1 = 0x284, Rk32GrfIoVsel = 0x380, } RK32_GRF_REGISTER, *PRK32_GRF_REGISTER; typedef enum _RK32_LCD_REGISTER { Rk32LcdConfigurationDone = 0x00, Rk32LcdSystemControl = 0x08, Rk32LcdSystemControl1 = 0x0C, Rk32LcdDspControl0 = 0x10, Rk32LcdDspControl1 = 0x14, Rk32LcdBackground = 0x18, Rk32LcdMcuControl = 0x1C, Rk32LcdInterruptControl0 = 0x20, Rk32LcdInterruptControl1 = 0x24, Rk32LcdWin0YrgbFrameBufferBase = 0x40, Rk32LcdWin0ActiveInformation = 0x48, Rk32LcdWin0DisplayInformation = 0x4C, } RK32_LCD_REGISTER, *PRK32_LCD_REGISTER; typedef enum _RK32_GPIO_REGISTER { Rk32GpioPortAData = 0x00, Rk32GpioPortADirection = 0x04, Rk32GpioInterruptEnable = 0x30, Rk32GpioInterruptMask = 0x34, Rk32GpioInterruptLevel = 0x38, Rk32GpioInterruptPolarity = 0x3C, Rk32GpioInterruptStatus = 0x40, Rk32GpioRawInterruptStatus = 0x44, Rk32GpioDebounce = 0x48, Rk32GpioClearInterrupt = 0x4C, Rk32GpioPortAExternal = 0x50, Rk32GpioLevelSensitiveSync = 0x60, } RK32_GPIO_REGISTER, *PRK32_GPIO_REGISTER; typedef enum _RK32_I2C_REGISTER { Rk32I2cControl = 0x00, Rk32I2cClockDivisor = 0x04, Rk32I2cMasterReceiveSlaveAddress = 0x08, Rk32I2cMasterReceiveSlaveRegister = 0x0C, Rk32I2cMasterTransmitCount = 0x10, Rk32I2cMasterReceiveCount = 0x14, Rk32I2cInterruptEnable = 0x18, Rk32I2cInterruptPending = 0x1C, Rk32I2cFinishedCount = 0x20, Rk32I2cTransmitData0 = 0x100, Rk32I2cTransmitData1 = 0x104, Rk32I2cTransmitData2 = 0x108, Rk32I2cTransmitData3 = 0x10C, Rk32I2cTransmitData4 = 0x110, Rk32I2cTransmitData5 = 0x114, Rk32I2cTransmitData6 = 0x118, Rk32I2cTransmitData7 = 0x11C, Rk32I2cReceiveData0 = 0x200, Rk32I2cReceiveData1 = 0x204, Rk32I2cReceiveData2 = 0x208, Rk32I2cReceiveData3 = 0x20C, Rk32I2cReceiveData4 = 0x210, Rk32I2cReceiveData5 = 0x214, Rk32I2cReceiveData6 = 0x218, Rk32I2cReceiveData7 = 0x21C } RK32_I2C_REGISTER, *PRK32_I2C_REGISTER; typedef enum _RK32_TIMER_REGISTER { Rk32TimerLoadCountLow = 0x00, Rk32TimerLoadCountHigh = 0x04, Rk32TimerCurrentValueLow = 0x08, Rk32TimerCurrentValueHigh = 0x0C, Rk32TimerControl = 0x10, Rk32TimerInterruptStatus = 0x18 } RK32_TIMER_REGISTER, *PRK32_TIMER_REGISTER; typedef enum _RK32_WATCHDOG_REGISTER { Rk32WatchdogControl = 0x00, Rk32WatchdogTimeoutRange = 0x04, Rk32WatchdogCurrentCount = 0x08, Rk32WatchdogCounterRestart = 0x0C, Rk32WatchdogInterruptStatus = 0x10, Rk32WatchdogInterruptClear = 0x14 } RK32_WATCHDOG_REGISTER, *PRK32_WATCHDOG_REGISTER; // // -------------------------------------------------------------------- Globals // // // -------------------------------------------------------- Function Prototypes //