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MStar hereby reserves the // rights to any and all damages, losses, costs and expenses resulting therefrom. // /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////////////////////// /// /// file halMMIO.c /// @brief memory map io (MMIO) HAL /// @author MStar Semiconductor Inc. /////////////////////////////////////////////////////////////////////////////////////////////////// //------------------------------------------------------------------------------------------------- // Include Files //------------------------------------------------------------------------------------------------- #include "MsCommon.h" #include "halMMIO.h" #include "drvMMIO.h" // for getting mapped IO base from DRV extern MS_VIRT _virtPM_Bank ; extern MS_U32 _u32PM_Bank_SIZE ; extern MS_VIRT _virtNonPM_Bank ; extern MS_U32 _u32NonPM_Bank_SIZE ; extern MS_VIRT _virtFRC_Bank ; //frcr2_integration### extern MS_U32 _u32FRC_Bank_SIZE ; //frcr2_integration### //------------------------------------------------------------------------------------------------- // Driver Compiler Options //------------------------------------------------------------------------------------------------- //-------------------------------------------------------------------------------------------------- // Global Variables //-------------------------------------------------------------------------------------------------- MS_VIRT virt_ge0_mmio_base; //------------------------------------------------------------------------------------------------- // Local Defines //------------------------------------------------------------------------------------------------- #ifdef MSOS_TYPE_LINUX // assume linux always running on mips #define HAL_MMIO_PM_BASE 0x1f000000UL #define HAL_MMIO_PM_SIZE 0x00A00000UL #define HAL_MMIO_NONPM_BASE 0x1f200000UL #define HAL_MMIO_NONPM_SIZE 0x01000000UL #define HAL_MMIO_FLASH_BASE0 0x14000000UL #define HAL_MMIO_FLASH_SIZE0 0x01000000UL #define HAL_MMIO_FRC_BASE 0x1f800000UL //frcr2_integration### #define HAL_MMIO_FRC_SIZE 0x00013600UL //frcr2_integration### #elif defined(MSOS_TYPE_LINUX_KERNEL) #ifdef CONFIG_UTOPIA_FRAMEWORK_KERNEL_DRIVER_64BIT extern ptrdiff_t mstar_pm_base; #define RIU_BASE mstar_pm_base #else #define RIU_BASE 0xfd000000UL #endif #define HAL_MMIO_PM_BASE RIU_BASE #define HAL_MMIO_PM_SIZE 0x00A00000UL #define HAL_MMIO_NONPM_BASE RIU_BASE+0x200000UL #define HAL_MMIO_NONPM_SIZE 0x01000000UL #define HAL_MMIO_FLASH_BASE0 0x14000000UL #define HAL_MMIO_FLASH_SIZE0 0x01000000UL #define HAL_MMIO_FRC_BASE RIU_BASE+0x800000UL //0x1f800000UL //frcr2_integration### #define HAL_MMIO_FRC_SIZE 0x00013600UL //frcr2_integration### #else #if defined (MCU_AEON) #define HAL_MMIO_PM_BASE 0xFA000000UL #define HAL_MMIO_PM_SIZE 0x00007B80UL #define HAL_MMIO_NONPM_BASE 0xFA200000UL #define HAL_MMIO_NONPM_SIZE 0x00025600UL #define HAL_MMIO_FLASH_BASE0 0xA1000000UL // non-cache // 0xA1000000 for cache #define HAL_MMIO_FLASH_SIZE0 0x1000000UL #define HAL_MMIO_FRC_BASE 0xFA800000UL //frcr2_integration### #define HAL_MMIO_FRC_SIZE 0x00013600UL //frcr2_integration### #elif defined (MCU_ARM_CA7) #define HAL_MMIO_PM_BASE 0x1f000000UL #define HAL_MMIO_PM_SIZE 0x00007B80UL #define HAL_MMIO_NONPM_BASE 0x1f200000UL #define HAL_MMIO_NONPM_SIZE 0x00025600UL #define HAL_MMIO_FLASH_BASE0 0x14000000UL #define HAL_MMIO_FLASH_SIZE0 0x1000000UL #define HAL_MMIO_FRC_BASE 0x1f800000UL //frcr2_integration### #define HAL_MMIO_FRC_SIZE 0x00013600UL //frcr2_integration### #elif defined (MCU_ARM_CA53) #define HAL_MMIO_PM_BASE 0x1f000000UL #define HAL_MMIO_PM_SIZE 0x00007B80UL #define HAL_MMIO_NONPM_BASE 0x1f200000UL #define HAL_MMIO_NONPM_SIZE 0x00025600UL #define HAL_MMIO_FLASH_BASE0 0x14000000UL #define HAL_MMIO_FLASH_SIZE0 0x1000000UL #define HAL_MMIO_FRC_BASE 0x1f800000UL //frcr2_integration### #define HAL_MMIO_FRC_SIZE 0x00013600UL //frcr2_integration### #else #error "Please choose MCU"; #endif #endif //------------------------------------------------------------------------------------------------- // Local Structurs //------------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------------- // Global Variables //------------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------------- // Local Variables //------------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------------- // Debug Functions //------------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------------- // Local Functions //------------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------------- // Global Functions //------------------------------------------------------------------------------------------------- MS_U16 HAL_MMIO_GetType(MS_U32 u32Module) { switch (u32Module) { //HAL_MMIO_PM_BANK case MS_MODULE_PM : case MS_MODULE_IR : case MS_MODULE_ISP : case MS_MODULE_PWS : return DRV_MMIO_PM_BANK; //HAL_MMIO_NONPM_BANK case MS_MODULE_HW : case MS_MODULE_CHIPTOP : case MS_MODULE_MIU : case MS_MODULE_ACE : case MS_MODULE_AUDIO : case MS_MODULE_AVD : case MS_MODULE_BDMA : case MS_MODULE_DLC : case MS_MODULE_DMD : case MS_MODULE_GE : case MS_MODULE_GOP : case MS_MODULE_GPIO : case MS_MODULE_HVD : case MS_MODULE_HWI2C : case MS_MODULE_IRQ : case MS_MODULE_JPD : case MS_MODULE_MBX : case MS_MODULE_MFE : case MS_MODULE_MHEG5 : case MS_MODULE_MVD : case MS_MODULE_MVOP : case MS_MODULE_RVD : case MS_MODULE_TSP : case MS_MODULE_UART : case MS_MODULE_VPU : case MS_MODULE_XC : case MS_MODULE_PCMCIA : case MS_MODULE_PFSH : case MS_MODULE_PNL : case MS_MODULE_PWM : case MS_MODULE_SEM : case MS_MODULE_VBI : case MS_MODULE_VIF : case MS_MODULE_DIP : case MS_MODULE_MPIF : case MS_MODULE_MMFILEIN : case MS_MODULE_GPD : case MS_MODULE_TSO : case MS_MODULE_CMDQ : return DRV_MMIO_NONPM_BANK; case MS_MODULE_SC : return DRV_MMIO_SC_BANK; //HAL_MMIO_FLASH_BANK0 case MS_MODULE_FLASH : return DRV_MMIO_FLASH_BANK0; case MS_MODULE_FRC : //frcr2_integration### return DRV_MMIO_FRC_BANK; //frcr2_integration### default: return 0xFFFF; //undefine type } return 0xFFFF; //undefine type } MS_BOOL HAL_MMIO_GetBase(MS_PHY* virtBaseAddr, MS_PHY* pu32BaseSize, MS_U32 u32BankType) { MS_BOOL bRet = TRUE; *virtBaseAddr = 0; *pu32BaseSize = 0; switch (u32BankType) { case DRV_MMIO_PM_BANK: *virtBaseAddr = (MS_PHY)HAL_MMIO_PM_BASE; *pu32BaseSize = (MS_PHY)HAL_MMIO_PM_SIZE; break; case DRV_MMIO_NONPM_BANK: *virtBaseAddr = (MS_PHY)HAL_MMIO_NONPM_BASE; *pu32BaseSize = (MS_PHY)HAL_MMIO_NONPM_SIZE; break; case DRV_MMIO_FLASH_BANK0: *virtBaseAddr = (MS_PHY)HAL_MMIO_FLASH_BASE0; *pu32BaseSize = (MS_PHY)HAL_MMIO_FLASH_SIZE0; break; case DRV_MMIO_FRC_BANK: *virtBaseAddr = (MS_PHY)HAL_MMIO_FRC_BASE; *pu32BaseSize = (MS_PHY)HAL_MMIO_FRC_SIZE; break; default: // MS_ASSERT(0); bRet = FALSE; break; } return bRet; } // @NOTE: Only run after MMIO_Init MS_BOOL HAL_MMIO_GetIPBase(MS_VIRT *virtBaseAddr, MS_U16 u16BankType) { *virtBaseAddr = 0; // if MMIO_Init is not yet initialized. if ( (_u32PM_Bank_SIZE == 0x0) || (_u32NonPM_Bank_SIZE == 0x0) || (_u32FRC_Bank_SIZE == 0x0) ) //frcr2_integration### { return FALSE; } switch (u16BankType) { case DRV_MMIO_SC_BANK: *virtBaseAddr =_virtNonPM_Bank + 0x00005200; // 0xBF220C00, 0xBF220C80 break; default: return FALSE; } return TRUE; } #if defined(__aarch64__) || defined(__arm__) #ifndef MSOS_TYPE_LINUX static void _chip_flush_miu_pipe(void) { unsigned int dwReadData = 0; //toggle the flush miu pipe fire bit *(volatile unsigned int *)(HAL_MMIO_PM_BASE + (0x10188A << 1)) &= ~(0x0001); *(volatile unsigned int *)(HAL_MMIO_PM_BASE + (0x10188A << 1)) |= 0x0001; do { dwReadData = *(volatile unsigned int *)(HAL_MMIO_PM_BASE+ (0x1018A0 << 1)); dwReadData &= BIT(12); //Check Status of Flush Pipe Finish } while(dwReadData == 0); } #endif #endif void HAL_MMIO_FlushMemory(void) { #if defined(__aarch64__) || defined(__arm__) #ifndef MSOS_TYPE_LINUX _chip_flush_miu_pipe(); #endif #endif } void HAL_MMIO_ReadMemory(void) { #if defined(__aarch64__) || defined(__arm__) #ifndef MSOS_TYPE_LINUX _chip_flush_miu_pipe(); #endif #endif }