// //****************************************************************************** // MStar Software // Copyright (c) 2010 - 2012 MStar Semiconductor, Inc. All rights reserved. // All software, firmware and related documentation herein ("MStar Software") are // intellectual property of MStar Semiconductor, Inc. ("MStar") and protected by // law, including, but not limited to, copyright law and international treaties. // Any use, modification, reproduction, retransmission, or republication of all // or part of MStar Software is expressly prohibited, unless prior written // permission has been granted by MStar. // // By accessing, browsing and/or using MStar Software, you acknowledge that you // have read, understood, and agree, to be bound by below terms ("Terms") and to // comply with all applicable laws and regulations: // // 1. 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MStar hereby reserves the // rights to any and all damages, losses, costs and expenses resulting therefrom. // //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////// // file halMMFilein.c // @brief Multimedia File In (MMFILEIN) HAL // @author MStar Semiconductor,Inc. //////////////////////////////////////////////////////////////////////////////////////////////////// #include "halMMFilein.h" #include "halCHIP.h" //-------------------------------------------------------------------------------------------------- // Driver Compiler Option //-------------------------------------------------------------------------------------------------- #define TSP_HAL_REG_SAFE_MODE 1 // Register protection access between 1 task and 1+ ISR #define MIU_BUS 4 //-------------------------------------------------------------------------------------------------- // TSP Hardware Abstraction Layer //-------------------------------------------------------------------------------------------------- static REG_Ctrl_MMFI* _MFCtrl_AU = NULL; static REG_Ctrl_MMFI* _MFCtrl_V3D = NULL; static MS_VIRT _virtMMFIRegBase = 0; static MS_PHY _phyMMFIMiuOffset[2] = {0, 0}; //[NOTE] Jerry // Some register has write order, for example, writing PCR_L will disable PCR counter // writing PCR_M trigger nothing, writing PCR_H will enable PCR counter #define _HAL_REG32_W(reg, value) do { (reg)->L = ((value) & 0x0000FFFF); \ (reg)->H = ((value) >> 16); } while(0) #define TSP_TSP3_REG(addr) (*((volatile MS_U32*)(_virtMMFIRegBase + 0xC1400UL + ((addr)<<2UL)))) #define REG_TSP3_INIT_TIMESTAMP 0x25UL #define REG_TSP3_INIT_MMFI0_TIMESTAMP 2UL #define REG_TSP3_INIT_MMFI1_TIMESTAMP 4UL #define REG_TSP3_TIMESTAMP_MMFI0 0x28UL #define REG_TSP3_TIMESTAMP_MMFI1 0x2AUL //-------------------------------------------------------------------------------------------------- // Macro of bit operations //-------------------------------------------------------------------------------------------------- //-------------------------------------------------------------------------------------------------- // Implementation //-------------------------------------------------------------------------------------------------- static MS_U32 _HAL_REG32_R(REG32_M *reg) { MS_U32 value = 0; value = (reg)->H << 16; value |= (reg)->L; return value; } static MS_PHY _HAL_MMFI_MIU_OFFSET(MS_PHY Phyaddr) { #ifdef HAL_MIU2_BASE if(Phyaddr >= (MS_PHY)HAL_MIU2_BASE) return (MS_PHY)HAL_MIU2_BASE; else #endif //HAL_MIU2_BASE #ifdef HAL_MIU1_BASE if(Phyaddr >= (MS_PHY)HAL_MIU1_BASE) return (MS_PHY)HAL_MIU1_BASE; else #endif //HAL_MIU1_BASE return (MS_PHY)HAL_MIU0_BASE; } void HAL_MMFI_SetBank(MS_VIRT virtBankAddr) { _virtMMFIRegBase = virtBankAddr; _MFCtrl_AU = (REG_Ctrl_MMFI*)(_virtMMFIRegBase+ REG_CTRL_BASE_MMFI); _MFCtrl_V3D= (REG_Ctrl_MMFI*)(_virtMMFIRegBase+ REG_CTRL_BASE_MMFI_V3D); } // ------------------------------------------------------ // Audio APIs //------------------------------------------------------- void HAL_MMFI_AudPidFlt_Set(MS_U8 u8Idx, MS_U16 u16PID, MS_U16 u16entype) { MS_U32 u32shift = ((u8Idx == 0) ? MMFI_PIDFLT_A_SHIFT : MMFI_PIDFLT_B_SHIFT); MS_U32 u32mask = ((u8Idx == 0) ? MMFI_PIDFLT_A_MASK : MMFI_PIDFLT_B_MASK); MS_U32 u32data; u32data = ((MS_U32)(u16PID|u16entype)) << u32shift; u32data |=(_HAL_REG32_R(&_MFCtrl_AU->PidFlt) & ~u32mask); _HAL_REG32_W(&(_MFCtrl_AU->PidFlt), u32data); } void HAL_MMFI_AudPidFlt_SetPid(MS_U8 u8Idx, MS_U16 u16PID) { MS_U32 u32shift = ((u8Idx == 0) ? MMFI_PIDFLT_A_SHIFT : MMFI_PIDFLT_B_SHIFT); MS_U32 u32mask = MMFI_PIDFLT_PID_MASK << u32shift; MS_U32 u32data; u32data = ((MS_U32)u16PID) << u32shift; u32data |= (_HAL_REG32_R(&_MFCtrl_AU->PidFlt) & ~u32mask); _HAL_REG32_W(&(_MFCtrl_AU->PidFlt), u32data); } void HAL_MMFI_AudPidFlt_Enable(MS_U8 u8Idx, MS_U16 u16entype, MS_BOOL benable) { MS_U32 u32shift = ((u8Idx == 0) ? MMFI_PIDFLT_A_SHIFT : MMFI_PIDFLT_B_SHIFT); MS_U32 u32mask = MMFI_PIDFLT_EN_MASK << u32shift; MS_U32 u32data; u32data = _HAL_REG32_R(&(_MFCtrl_AU->PidFlt)) & ~u32mask; if(benable) u32data |= ((MS_U32)u16entype << u32shift); _HAL_REG32_W(&(_MFCtrl_AU->PidFlt), u32data); } void HAL_MMFI_AudPidFlt_Reset(MS_U8 u8Idx) { MS_U32 u32shift = ((u8Idx == 0) ? MMFI_PIDFLT_A_SHIFT : MMFI_PIDFLT_B_SHIFT); MS_U32 u32mask = ((u8Idx == 0) ? MMFI_PIDFLT_A_MASK : MMFI_PIDFLT_B_MASK); MS_U32 u32data; u32data = (_HAL_REG32_R(&(_MFCtrl_AU->PidFlt)) & ~u32mask) | (((MS_U32)MMFI_PID_NULL) << u32shift); _HAL_REG32_W(&(_MFCtrl_AU->PidFlt), u32data); } void HAL_MMFI_AU_Set_Filein_ReadAddr(MS_PHY phyAddr) { _phyMMFIMiuOffset[0] = _HAL_MMFI_MIU_OFFSET(phyAddr); _HAL_REG32_W(&_MFCtrl_AU->FileIn_RAddr, (MS_U32)(phyAddr-_phyMMFIMiuOffset[0])); } void HAL_MMFI_AU_Set_Filein_ReadLen(MS_U32 u32len) { _HAL_REG32_W(&_MFCtrl_AU->FileIn_RNum, u32len); } void HAL_MMFI_AU_Set_Filein_Ctrl(MS_U32 u32ctrl) { MS_U32 u32data; u32data = (_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & ~MMFI_FILEIN_CTRL_MASK) | u32ctrl; _HAL_REG32_W(&_MFCtrl_AU->Ctrl_CmdQSts, u32data); } MS_U32 HAL_MMFI_AU_Get_Filein_Ctrl(void) { return (_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & MMFI_FILEIN_CTRL_MASK); } void HAL_MMFI_AU_Set_FileinTimer(MS_U8 u8timer) { MS_U32 u32data; u32data = (_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & ~MMFI_TIMER_MASK) | ((MS_U32)(u8timer & 0xFF) << MMFI_TIMER_SHIFT); _HAL_REG32_W(&_MFCtrl_AU->Ctrl_CmdQSts, u32data); } MS_U32 HAL_MMFI_AU_CmdQ_FIFO_Get_WRCnt(void) { MS_U32 u32data = (_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & MMFI_CMQ_WR_CNT_MASK) >> MMFI_CMQ_STATUS_SHIFT; return u32data; } MS_BOOL HAL_MMFI_AU_CmdQ_FIFO_IsFull(void) { return (MS_BOOL)(_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & MMFI_CMQ_STATUS_FIFO_FULL); } MS_BOOL HAL_MMFI_AU_CmdQ_FIFO_IsEmpty(void) { return (MS_BOOL)(_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & MMFI_CMQ_STATUS_FIFO_EMPTY); } MS_U8 HAL_MMFI_AU_CmdQ_FIFO_Get_WRLevel(void) { MS_U32 u32data = (_HAL_REG32_R(&_MFCtrl_AU->Ctrl_CmdQSts) & MMFI_CMQ_STATU_WR_LEVEL_MASK) >> MMFI_CMQ_STATU_WR_LEVEL_SHIFT; return ((MS_U8)u32data); } void HAL_MMFI_AU_Cfg_Enable(MS_U32 u32CfgItem, MS_BOOL benable) { if(benable) { _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&(_MFCtrl_AU->Cfg)) | u32CfgItem)); } else { _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&(_MFCtrl_AU->Cfg)) & ~u32CfgItem)); } } void HAL_MMFI_AU_Cfg_Set(MS_U32 u32CfglItem) { _HAL_REG32_W(&_MFCtrl_AU->Cfg, u32CfglItem); } MS_U32 HAL_MMFI_AU_Cfg_Get(void) { return (_HAL_REG32_R(&_MFCtrl_AU->Cfg)); } void HAL_MMFI_AU_Get_TsHeaderInfo(MS_U32 *pu32header) { *pu32header = _HAL_REG32_R(&_MFCtrl_AU->TsHeader); } void HAL_MMFI_AU_Get_APid_Status(MS_U8 u8idx, MS_U16 *pu16pid, MS_BOOL *pbchanged) { MS_U16 u16temp; if(u8idx == 0) { u16temp = (MS_U16)_HAL_REG32_R(&_MFCtrl_AU->Pid_Status); } else { u16temp = (MS_U16)(_HAL_REG32_R(&_MFCtrl_AU->Pid_Status) >> MMFI_PIFSTS_B_SHIFT); } *pu16pid = u16temp & MMFI_PID_MATCHED_MASK; *pbchanged = (MS_BOOL)(u16temp & MMFI_PID_CHANGE); } void HAL_MMFI_AU_LPcr2_Set(MS_U32 u32lpcr2) { _HAL_REG32_W(&_MFCtrl_AU->LPcr2_Buf, u32lpcr2); _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) | MMFI_LPCR2_WLD)); _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) & ~MMFI_LPCR2_WLD)); } MS_U32 HAL_MMFI_AU_LPcr2_Get(void) { MS_U32 u32temp; _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) | MMFI_LPCR2_LOAD)); u32temp = _HAL_REG32_R(&_MFCtrl_AU->LPcr2_Buf); _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) & ~MMFI_LPCR2_LOAD)); return u32temp; } MS_U32 HAL_MMFI_AU_TimeStamp_Get(void) { return _HAL_REG32_R(&_MFCtrl_AU->TimeStamp_FIn); } void HAL_MMFI_AU_PktChkSize_Set(MS_U8 u8size) { MS_U32 u32temp; _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) | MMFI_ALT_TS_SIZE)); u32temp = ((_HAL_REG32_R(&_MFCtrl_AU->PktChkSize) & ~MMFI_PKTCHK_SIZE_MASK) | ((MS_U32)(u8size & 0xFF))); _HAL_REG32_W(&_MFCtrl_AU->PktChkSize, u32temp); } void HAL_MMFI_AU_RemoveDupPkt(MS_BOOL bEnable) { _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) | MMFI_DUP_PKT_SKIP)); } MS_BOOL HAL_MMFI_AU_MOBF_Set_FileinKey(MS_U32 u32Key) { MS_U32 u32temp; u32temp = (_HAL_REG32_R(&_MFCtrl_AU->PktChkSize) & ~MMFI_MOBFKEY_MASK) | ((u32Key << MMFI_MOBFKEY_SHIFT) & MMFI_MOBFKEY_MASK); _HAL_REG32_W(&_MFCtrl_AU->PktChkSize, u32temp); return TRUE; } MS_BOOL HAL_MMFI_AU_MOBF_Enable(MS_BOOL bEnable) { return FALSE; } MS_BOOL HAL_MMFI_AU_MOBF_SetLevel(MS_U8 u8level) { return FALSE; } // ------------------------------------------------------ // Video 3D APIs //------------------------------------------------------- void HAL_MMFI_VD3DPidFlt_Set(MS_U8 u8Idx, MS_U16 u16PID, MS_U16 u16entype) { MS_U32 u32data; u32data = (MS_U32)(u16PID|u16entype); u32data |=(_HAL_REG32_R(&_MFCtrl_V3D->PidFlt) & ~MMFI_PIDFLT_A_MASK); _HAL_REG32_W(&(_MFCtrl_V3D->PidFlt), u32data); } void HAL_MMFI_VD3DPidFlt_SetPid(MS_U8 u8Idx, MS_U16 u16PID) { MS_U32 u32data; u32data = (MS_U32)u16PID; u32data |= (_HAL_REG32_R(&_MFCtrl_V3D->PidFlt) & ~MMFI_PIDFLT_PID_MASK); _HAL_REG32_W(&(_MFCtrl_V3D->PidFlt), u32data); } void HAL_MMFI_VD3DPidFlt_Enable(MS_U8 u8Idx, MS_U16 u16entype, MS_BOOL benable) { MS_U32 u32data; u32data = _HAL_REG32_R(&(_MFCtrl_V3D->PidFlt)) & ~MMFI_PIDFLT_EN_MASK; if(benable) u32data |= ((MS_U32)u16entype); _HAL_REG32_W(&(_MFCtrl_V3D->PidFlt), u32data); } void HAL_MMFI_VD3DPidFlt_Reset(MS_U8 u8Idx) { MS_U32 u32data; u32data = (_HAL_REG32_R(&(_MFCtrl_V3D->PidFlt)) & ~MMFI_PIDFLT_A_MASK) | ((MS_U32)MMFI_PID_NULL); _HAL_REG32_W(&(_MFCtrl_V3D->PidFlt), u32data); } void HAL_MMFI_V3D_Set_Filein_ReadAddr(MS_PHY phyAddr) { _phyMMFIMiuOffset[1] = _HAL_MMFI_MIU_OFFSET(phyAddr); _HAL_REG32_W(&_MFCtrl_V3D->FileIn_RAddr, (MS_U32)(phyAddr-_phyMMFIMiuOffset[1])); } void HAL_MMFI_V3D_Set_Filein_ReadLen(MS_U32 u32len) { _HAL_REG32_W(&_MFCtrl_V3D->FileIn_RNum, u32len); } void HAL_MMFI_V3D_Set_Filein_Ctrl(MS_U32 u32ctrl) { MS_U32 u32data; u32data = (_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & ~MMFI_FILEIN_CTRL_MASK) | u32ctrl; _HAL_REG32_W(&_MFCtrl_V3D->Ctrl_CmdQSts, u32data); } MS_U32 HAL_MMFI_V3D_Get_Filein_Ctrl(void) { return (_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & MMFI_FILEIN_CTRL_MASK); } void HAL_MMFI_V3D_Set_FileinTimer(MS_U8 u8timer) { MS_U32 u32data; u32data = (_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & ~MMFI_TIMER_MASK) | ((MS_U32)(u8timer & 0xFF) << MMFI_TIMER_SHIFT); _HAL_REG32_W(&_MFCtrl_V3D->Ctrl_CmdQSts, u32data); } MS_U8 HAL_MMFI_V3D_CmdQ_FIFO_Get_WRCnt(void) { MS_U32 u32data = (_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & MMFI_CMQ_WR_CNT_MASK) >> MMFI_CMQ_STATUS_SHIFT; return u32data; } MS_BOOL HAL_MMFI_V3D_CmdQ_FIFO_IsFull(void) { return (MS_BOOL)(_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & MMFI_CMQ_STATUS_FIFO_FULL); } MS_BOOL HAL_MMFI_V3D_CmdQ_FIFO_IsEmpty(void) { return (MS_BOOL)(_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & MMFI_CMQ_STATUS_FIFO_EMPTY); } MS_U8 HAL_MMFI_V3D_CmdQ_FIFO_Get_WRLevel(void) { MS_U32 u32data = (_HAL_REG32_R(&_MFCtrl_V3D->Ctrl_CmdQSts) & MMFI_CMQ_STATU_WR_LEVEL_MASK) >> MMFI_CMQ_STATU_WR_LEVEL_SHIFT; return ((MS_U8)u32data); } void HAL_MMFI_V3D_Cfg_Enable(MS_U32 u32CfgItem, MS_BOOL benable) { if(benable) { _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&(_MFCtrl_V3D->Cfg)) | u32CfgItem)); } else { _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&(_MFCtrl_V3D->Cfg)) & ~u32CfgItem)); } } void HAL_MMFI_V3D_Cfg_Set(MS_U32 u32CfglItem) { _HAL_REG32_W(&_MFCtrl_V3D->Cfg, u32CfglItem); } MS_U32 HAL_MMFI_V3D_Cfg_Get(void) { return (_HAL_REG32_R(&_MFCtrl_V3D->Cfg)); } void HAL_MMFI_V3D_Get_TsHeaderInfo(MS_U32 *pu32header) { *pu32header = _HAL_REG32_R(&_MFCtrl_V3D->TsHeader); } void HAL_MMFI_V3D_Get_VPid_Status(MS_U8 u8idx, MS_U16 *pu16pid, MS_BOOL *pbchanged) { MS_U16 u16temp; u16temp = (MS_U16)_HAL_REG32_R(&_MFCtrl_V3D->Pid_Status); *pu16pid = u16temp & MMFI_PID_MATCHED_MASK; *pbchanged = (MS_BOOL)(u16temp & MMFI_PID_CHANGE); } void HAL_MMFI_V3D_LPcr2_Set(MS_U32 u32lpcr2) { _HAL_REG32_W(&_MFCtrl_V3D->LPcr2_Buf, u32lpcr2); _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) | MMFI_LPCR2_WLD)); _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) & ~MMFI_LPCR2_WLD)); } MS_U32 HAL_MMFI_V3D_LPcr2_Get(void) { MS_U32 u32temp; _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) | MMFI_LPCR2_LOAD)); u32temp = _HAL_REG32_R(&_MFCtrl_V3D->LPcr2_Buf); _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) & ~MMFI_LPCR2_LOAD)); return u32temp; } MS_U32 HAL_MMFI_V3D_TimeStamp_Get(void) { return _HAL_REG32_R(&_MFCtrl_V3D->TimeStamp_FIn); } void HAL_MMFI_V3D_PktChkSize_Set(MS_U8 u8size) { MS_U32 u32temp; _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) | MMFI_ALT_TS_SIZE)); u32temp = ((_HAL_REG32_R(&_MFCtrl_V3D->PktChkSize) & ~MMFI_PKTCHK_SIZE_MASK) | ((MS_U32)(u8size & 0xFF))); _HAL_REG32_W(&_MFCtrl_V3D->PktChkSize, u32temp); } void HAL_MMFI_V3D_RemoveDupPkt(MS_BOOL bEnable) { _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) | MMFI_DUP_PKT_SKIP)); } MS_BOOL HAL_MMFI_V3D_MOBF_Set_FileinKey(MS_U32 u32Key) { MS_U32 u32temp; u32temp = (_HAL_REG32_R(&_MFCtrl_V3D->PktChkSize) & ~MMFI_MOBFKEY_MASK) | ((u32Key << MMFI_MOBFKEY_SHIFT) & MMFI_MOBFKEY_MASK); _HAL_REG32_W(&_MFCtrl_V3D->PktChkSize, u32temp); return TRUE; } MS_BOOL HAL_MMFI_V3D_MOBF_Enable(MS_BOOL bEnable) { return FALSE; } MS_BOOL HAL_MMFI_V3D_MOBF_SetLevel(MS_U8 u8level) { return FALSE; } // // General API // void HAL_MMFI_Reset(void) { _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, (_HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) &~ MMFI_SW_RSTZ_MMFILEIN_DISABLE)); _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, (_HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) | MMFI_SW_RSTZ_MMFILEIN_DISABLE)); } void HAL_MMFI_Reset_SubItem(MS_U32 u32RstItem) { _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, (_HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) | u32RstItem)); _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, (_HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) & ~u32RstItem)); } void HAL_MMFI_Reset_All(void) { MS_U32 u32data = _HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) & ~MMFI_SWRST_MASK; _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, u32data | MMFI_RST_ALL); _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, u32data | MMFI_SW_RSTZ_MMFILEIN_DISABLE); } void HAL_MMFI_HWInt_Enable(MS_BOOL benable, MS_U32 u32init) { MS_U32 u32data = _HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) & ~u32init; if(benable) { _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, (u32data | u32init)); } else { _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, u32data); } } void HAL_MMFI_HWInt_Clear(MS_U32 u32Int) { _HAL_REG32_W(&_MFCtrl_AU->SWRst_HWInt, (_HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) & ~u32Int)); } MS_U32 HAL_MMFI_HWInt_Status(void) { return (_HAL_REG32_R(&_MFCtrl_AU->SWRst_HWInt) & MMFI_HWINT_STS_MASK); } MS_BOOL HAL_MMFI_Chk_CmdQResetDone(MS_U32 u32Path) { int ii = 0; REG32_M* pReg = NULL; if(u32Path == MMFI_RST_CMDQ_AU) { pReg = &_MFCtrl_AU->Ctrl_CmdQSts; _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) | MMFI_WB_FSM_RESET)); } else if(u32Path == MMFI_RST_CMDQ_VD) { pReg = &_MFCtrl_V3D->Ctrl_CmdQSts; _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) | MMFI_WB_FSM_RESET)); } else { return FALSE; } for(ii = 0; ii < 100; ii++) { if(_HAL_REG32_R(pReg) & MMFI_FILEIN_DONE) break; MsOS_DelayTask(1); } if(u32Path == MMFI_RST_CMDQ_AU) { _HAL_REG32_W(&_MFCtrl_AU->Cfg, (_HAL_REG32_R(&_MFCtrl_AU->Cfg) & ~MMFI_WB_FSM_RESET)); } else { _HAL_REG32_W(&_MFCtrl_V3D->Cfg, (_HAL_REG32_R(&_MFCtrl_V3D->Cfg) & ~MMFI_WB_FSM_RESET)); } if(ii == 100) { printf("%s, wait fine in reset timeout\n", __FUNCTION__); return FALSE; } return TRUE; }