// //****************************************************************************** // 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. MStar shall retain any and all right, ownership and interest to MStar // Software and any modification/derivatives thereof. // No right, ownership, or interest to MStar Software and any // modification/derivatives thereof is transferred to you under Terms. // // 2. You understand that MStar Software might include, incorporate or be // supplied together with third party`s software and the use of MStar // Software may require additional licenses from third parties. // Therefore, you hereby agree it is your sole responsibility to separately // obtain any and all third party right and license necessary for your use of // such third party`s software. // // 3. MStar Software and any modification/derivatives thereof shall be deemed as // MStar`s confidential information and you agree to keep MStar`s // confidential information in strictest confidence and not disclose to any // third party. // // 4. MStar Software is provided on an "AS IS" basis without warranties of any // kind. Any warranties are hereby expressly disclaimed by MStar, including // without limitation, any warranties of merchantability, non-infringement of // intellectual property rights, fitness for a particular purpose, error free // and in conformity with any international standard. You agree to waive any // claim against MStar for any loss, damage, cost or expense that you may // incur related to your use of MStar Software. // In no event shall MStar be liable for any direct, indirect, incidental or // consequential damages, including without limitation, lost of profit or // revenues, lost or damage of data, and unauthorized system use. // You agree that this Section 4 shall still apply without being affected // even if MStar Software has been modified by MStar in accordance with your // request or instruction for your use, except otherwise agreed by both // parties in writing. // // 5. If requested, MStar may from time to time provide technical supports or // services in relation with MStar Software to you for your use of // MStar Software in conjunction with your or your customer`s product // ("Services"). // You understand and agree that, except otherwise agreed by both parties in // writing, Services are provided on an "AS IS" basis and the warranty // disclaimer set forth in Section 4 above shall apply. // // 6. Nothing contained herein shall be construed as by implication, estoppels // or otherwise: // (a) conferring any license or right to use MStar name, trademark, service // mark, symbol or any other identification; // (b) obligating MStar or any of its affiliates to furnish any person, // including without limitation, you and your customers, any assistance // of any kind whatsoever, or any information; or // (c) conferring any license or right under any intellectual property right. // // 7. These terms shall be governed by and construed in accordance with the laws // of Taiwan, R.O.C., excluding its conflict of law rules. // Any and all dispute arising out hereof or related hereto shall be finally // settled by arbitration referred to the Chinese Arbitration Association, // Taipei in accordance with the ROC Arbitration Law and the Arbitration // Rules of the Association by three (3) arbitrators appointed in accordance // with the said Rules. // The place of arbitration shall be in Taipei, Taiwan and the language shall // be English. // The arbitration award shall be final and binding to both parties. // //****************************************************************************** // #ifndef _REG_SYSTEM_H_ #define _REG_SYSTEM_H_ //------------------------------------------------------------------------------------------------- // Hardware Capability //------------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------------- // Macro and Define //------------------------------------------------------------------------------------------------- #define REG_TOP_BASE (0x1F000000 + (0x101E00 << 1)) //============================================================================= // Register access #define TOP_READ(addr) READ_WORD(REG_TOP_BASE + ((addr) << 2)) #define TOP_WRITE(addr, val) WRITE_WORD((REG_TOP_BASE + ((addr) << 2)), (val)) //============================================================================= // Register access utility #define TOP_OR(addr, val) TOP_WRITE(addr, TOP_READ(addr) | (val)) #define TOP_AND(addr, val) TOP_WRITE(addr, TOP_READ(addr) & (val)) #define TOP_XOR(addr, val) TOP_WRITE(addr, TOP_READ(addr) ^ (val)) //============================================================================= #define REG_TOP_DEVICE_ID 0x0066 #define REG_TOP_CHIP_VERSION 0x0067 #define CHIP_VERSION_SHFT 0 #define CHIP_VERSION_MASK BMASK(7:0) #define CHIP_REVISION_SHFT 8 #define CHIP_REVISION_MASK BMASK(15:8) //============================================================================= #ifdef MCU_AEON #define REG_IRQ_BASE (0xFA000000 + (0x101900 << 1)) #define REG_INT_BASE_ADDR 0x0060 #else #define REG_IRQ_BASE (0x1f000000 + (0x101900 << 1)) #define REG_INT_BASE_ADDR 0x0020 #endif #define REG_FIQ_MASK_L (REG_INT_BASE_ADDR + 0x0004) #define REG_FIQ_MASK_H (REG_INT_BASE_ADDR + 0x0005) #define REG_FIQEXP_MASK_L (REG_INT_BASE_ADDR + 0x0006) #define REG_FIQEXP_MASK_H (REG_INT_BASE_ADDR + 0x0007) #define REG_FIQ_CLEAR_L (REG_INT_BASE_ADDR + 0x000c) #define REG_FIQ_CLEAR_H (REG_INT_BASE_ADDR + 0x000d) #define REG_FIQEXP_CLEAR_L (REG_INT_BASE_ADDR + 0x000e) #define REG_FIQEXP_CLEAR_H (REG_INT_BASE_ADDR + 0x000f) #define REG_FIQ_PENDING_L (REG_INT_BASE_ADDR + 0x000c) #define REG_FIQ_PENDING_H (REG_INT_BASE_ADDR + 0x000d) #define REG_FIQEXP_PENDING_L (REG_INT_BASE_ADDR + 0x000e) #define REG_FIQEXP_PENDING_H (REG_INT_BASE_ADDR + 0x000f) #define REG_IRQ_MASK_L (REG_INT_BASE_ADDR + 0x0014) #define REG_IRQ_MASK_H (REG_INT_BASE_ADDR + 0x0015) #define REG_IRQEXP_MASK_L (REG_INT_BASE_ADDR + 0x0016) #define REG_IRQEXP_MASK_H (REG_INT_BASE_ADDR + 0x0017) #define REG_IRQ_PENDING_L (REG_INT_BASE_ADDR + 0x001c) #define REG_IRQ_PENDING_H (REG_INT_BASE_ADDR + 0x001d) #define REG_IRQEXP_PENDING_L (REG_INT_BASE_ADDR + 0x001e) #define REG_IRQEXP_PENDING_H (REG_INT_BASE_ADDR + 0x001f) //============================================================================= #define IRQ_REG(addr) (*((volatile MS_U16*)(REG_IRQ_BASE + ((addr) << 2)))) // REG_FIQ_MASK_L //FIQ Low 16 bits #define FIQL_MASK 0xFFFF #define FIQ_EXTIMER0 (0x01 << (E_FIQ_00 - E_FIQL_START)) #define FIQ_EXTIMER1 (0x01 << (E_FIQ_01 - E_FIQL_START)) #define FIQ_WDT (0x01 << (E_FIQ_02 - E_FIQL_START)) // #define FIQ_RESERVED (0x01 << (E_FIQ_03 - E_FIQL_START)) #define FIQ_R2TOMCU_INT0 (0x01 << (E_FIQ_04 - E_FIQL_START)) #define FIQ_R2TOMCU_INT1 (0x01 << (E_FIQ_05 - E_FIQL_START)) #define FIQ_DSPTOMCU_INT0 (0x01 << (E_FIQ_06 - E_FIQL_START)) #define FIQ_DSPTOMCU_INT1 (0x01 << (E_FIQ_07 - E_FIQL_START)) #define FIQ_USB (0x01 << (E_FIQ_08 - E_FIQL_START)) #define FIQ_USC (0x01 << (E_FIQ_09 - E_FIQL_START)) // #define FIQ_RESERVED (0x01 << (E_FIQ_10 - E_FIQL_START)) #define FIQ_HDMI_NON_PCM (0x01 << (E_FIQ_11 - E_FIQL_START)) #define FIQ_SPDIF_IN_NON_PCM (0x01 << (E_FIQ_12 - E_FIQL_START)) #define FIQ_EMAC (0x01 << (E_FIQ_13 - E_FIQL_START)) #define FIQ_SE_DSP2UP (0x01 << (E_FIQ_14 - E_FIQL_START)) #define FIQ_TSP2AEON (0x01 << (E_FIQ_15 - E_FIQL_START)) // REG_FIQ_MASK_H //FIQ High 16 bits #define FIQH_MASK 0xFFFF #define FIQ_VIVALDI_STR (0x01 << (E_FIQ_16 - E_FIQH_START)) #define FIQ_VIVALDI_PTS (0x01 << (E_FIQ_17 - E_FIQH_START)) #define FIQ_DSP_MIU_PROT (0x01 << (E_FIQ_18 - E_FIQH_START)) #define FIQ_XIU_TIMEOUT (0x01 << (E_FIQ_19 - E_FIQH_START)) #define FIQ_DMDMCU2HK (0x01 << (E_FIQ_20 - E_FIQH_START)) #define FIQ_VSYNC_VE4VBI (0x01 << (E_FIQ_21 - E_FIQH_START)) #define FIQ_FIELD_VE4VBI (0x01 << (E_FIQ_22 - E_FIQH_START)) #define FIQ_VDMCU2HK (0x01 << (E_FIQ_23 - E_FIQH_START)) #define FIQ_VE_DONE_TT (0x01 << (E_FIQ_24 - E_FIQH_START)) #define FIQ_UHC2 (0x01 << (E_FIQ_25 - E_FIQH_START)) #define FIQ_U3_DPHY (0x01 << (E_FIQ_26 - E_FIQH_START)) #define FIQ_IR (0x01 << (E_FIQ_27 - E_FIQH_START)) #define FIQ_AFEC_VSYNC (0x01 << (E_FIQ_28 - E_FIQH_START)) #define FIQ_DEC_DSP2UP (0x01 << (E_FIQ_29 - E_FIQH_START)) #define FIQ_USB2 (0x01 << (E_FIQ_30 - E_FIQH_START)) #define FIQ_DSP2MIPS (0x01 << (E_FIQ_31 - E_FIQH_START)) #define FIQEXPL_MASK 0xFFFF #define FIQEXPL_IR_INT_RC (0x01 << (E_FIQ_32 - E_FIQEXPL_START)) #define FIQEXPL_AU_DMA_BUF_INT (0x01 << (E_FIQ_33 - E_FIQEXPL_START)) #define FIQEXPL_IR_IN (0x01 << (E_FIQ_34 - E_FIQEXPL_START)) // #define FIQEXPL_RESERVED (0x01 << (E_FIQ_35 - E_FIQH_START)) #define FIQEXPL_8051_TO_MIPS_VPE1 (0x01 << (E_FIQ_36 - E_FIQEXPL_START)) #define FIQEXPL_8051_TO_BEON (0x01 << (E_FIQ_37 - E_FIQEXPL_START)) #define FIQEXPL_8051_TO_AEON (0x01 << (E_FIQ_38 - E_FIQEXPL_START)) #define FIQEXPL_GPIO0 (0x01 << (E_FIQ_39 - E_FIQEXPL_START)) #define FIQEXPL_AEON_TO_MIPS_VPE1 (0x01 << (E_FIQ_40 - E_FIQEXPL_START)) #define FIQEXPL_AEON_TO_BEON (0x01 << (E_FIQ_41 - E_FIQEXPL_START)) #define FIQEXPL_AEON_TO_8051 (0x01 << (E_FIQ_42 - E_FIQEXPL_START)) #define FIQEXPL_GPIO1 (0x01 << (E_FIQ_43 - E_FIQEXPL_START)) #define FIQEXPL_MIPS_VPE0_TO_MIPS_VPE1 (0x01 << (E_FIQ_44 - E_FIQEXPL_START)) #define FIQEXPL_TIMER2 (0x01 << (E_FIQ_45 - E_FIQEXPL_START)) #define FIQEXPL_BEON_TO_8051 (0x01 << (E_FIQ_46 - E_FIQEXPL_START)) #define FIQEXPL_GPIO2 (0x01 << (E_FIQ_47 - E_FIQEXPL_START)) #define FIQEXPH_MASK 0xFFFF // #define FIQEXPH_RESERVED (0x01 << (E_FIQ_48 - E_FIQEXPH_START)) #define FIQEXPH_GPIO8 (0x01 << (E_FIQ_49 - E_FIQEXPH_START)) #define FIQEXPH_GPIO9 (0x01 << (E_FIQ_50 - E_FIQEXPH_START)) #define FIQEXPH_USB1 (0x01 << (E_FIQ_51 - E_FIQEXPH_START)) #define FIQEXPH_UHC1 (0x01 << (E_FIQ_52 - E_FIQEXPH_START)) #define FIQEXPH_LDM_DMA1 (0x01 << (E_FIQ_53 - E_FIQEXPH_START)) #define FIQEXPH_LDM_DMA0 (0x01 << (E_FIQ_54 - E_FIQEXPH_START)) #define FIQEXPH_GPIO3 (0x01 << (E_FIQ_55 - E_FIQEXPH_START)) #define FIQEXPH_GPIO4 (0x01 << (E_FIQ_56 - E_FIQEXPH_START)) #define FIQEXPH_GPIO5 (0x01 << (E_FIQ_57 - E_FIQEXPH_START)) #define FIQEXPH_GPIO6 (0x01 << (E_FIQ_58 - E_FIQEXPH_START)) #define FIQEXPH_PWM_RP_L (0x01 << (E_FIQ_59 - E_FIQEXPH_START)) #define FIQEXPH_PWM_FP_L (0x01 << (E_FIQ_60 - E_FIQEXPH_START)) #define FIQEXPH_PWM_RP_R (0x01 << (E_FIQ_61 - E_FIQEXPH_START)) #define FIQEXPH_PWM_FP_R (0x01 << (E_FIQ_62 - E_FIQEXPH_START)) #define FIQEXPH_GPIO7 (0x01 << (E_FIQ_63 - E_FIQEXPH_START)) // #define REG_IRQ_PENDING_L #define IRQL_MASK 0xFFFF #define IRQ_UART0 (0x01 << (E_IRQ_00 - E_IRQL_START)) #define IRQ_PMSLEEP (0x01 << (E_IRQ_01 - E_IRQL_START)) #define IRQ_USB2 (0x01 << (E_IRQ_02 - E_IRQL_START)) #define IRQ_MVD (0x01 << (E_IRQ_03 - E_IRQL_START)) #define IRQ_PS (0x01 << (E_IRQ_04 - E_IRQL_START)) #define IRQ_NFIE (0x01 << (E_IRQ_05 - E_IRQL_START)) #define IRQ_USB (0x01 << (E_IRQ_06 - E_IRQL_START)) #define IRQ_UHC (0x01 << (E_IRQ_07 - E_IRQL_START)) #define IRQ_SDIO (0x01 << (E_IRQ_08 - E_IRQL_START)) #define IRQ_EMAC (0x01 << (E_IRQ_09 - E_IRQL_START)) #define IRQ_DISP (0x01 << (E_IRQ_10 - E_IRQL_START)) #define IRQ_G3D2MCU (0x01 << (E_IRQ_11 - E_IRQL_START)) #define IRQ_MIIC_INT2 (0x01 << (E_IRQ_12 - E_IRQL_START)) #define IRQ_MIIC_INT1 (0x01 << (E_IRQ_13 - E_IRQL_START)) #define IRQ_COMB (0x01 << (E_IRQ_14 - E_IRQL_START)) #define IRQ_EXT_GPIO0 (0x01 << (E_IRQ_15 - E_IRQL_START)) // #define REG_IRQ_PENDING_H #define IRQH_MASK 0xFFFF #define IRQ_TSP2HK (0x01 << (E_IRQ_16 - E_IRQH_START)) #define IRQ_VE (0x01 << (E_IRQ_17 - E_IRQH_START)) #define IRQ_CIMAX2MCU (0x01 << (E_IRQ_18 - E_IRQH_START)) #define IRQ_DC (0x01 << (E_IRQ_19 - E_IRQH_START)) #define IRQ_GOP (0x01 << (E_IRQ_20 - E_IRQH_START)) #define IRQ_PCM (0x01 << (E_IRQ_21 - E_IRQH_START)) #define IRQ_MIIC_INT0 (0x01 << (E_IRQ_22 - E_IRQH_START)) #define IRQ_MHL_CBUS_PM (0x01 << (E_IRQ_23 - E_IRQH_START)) #define IRQ_GPD (0x01 << (E_IRQ_24 - E_IRQH_START)) #define IRQ_MFE (0x01 << (E_IRQ_25 - E_IRQH_START)) #define IRQ_DDC2BI (0x01 << (E_IRQ_26 - E_IRQH_START)) #define IRQ_SMART (0x01 << (E_IRQ_27 - E_IRQH_START)) #define IRQ_UHC30 (0x01 << (E_IRQ_28 - E_IRQH_START)) #define IRQ_MVD2MIPS (0x01 << (E_IRQ_29 - E_IRQH_START)) #define IRQ_ERROR_RESP (0x01 << (E_IRQ_30 - E_IRQH_START)) #define IRQ_ADCDVI2RIU (0x01 << (E_IRQ_31 - E_IRQH_START)) #define IRQEXPL_MASK 0xFFFF #define IRQEXPL_SVD_HVD (0x01 << (E_IRQ_32 - E_IRQEXPL_START)) #define IRQEXPL_USB1 (0x01 << (E_IRQ_33 - E_IRQEXPL_START)) #define IRQEXPL_UHC1 (0x01 << (E_IRQ_34 - E_IRQEXPL_START)) #define IRQEXPL_MIU (0x01 << (E_IRQ_35 - E_IRQEXPL_START)) #define IRQEXPL_MIU_SECURITY (0x01 << (E_IRQ_36 - E_IRQEXPL_START)) #define IRQEXPL_EXT_GPIO2 (0x01 << (E_IRQ_37 - E_IRQEXPL_START)) #define IRQEXPL_AEON2HI (0x01 << (E_IRQ_38 - E_IRQEXPL_START)) #define IRQEXPL_UART1 (0x01 << (E_IRQ_39 - E_IRQEXPL_START)) #define IRQEXPL_PM (0x01 << (E_IRQ_40 - E_IRQEXPL_START)) #define IRQEXPL_EXT_GPIO3 (0x01 << (E_IRQ_41 - E_IRQEXPL_START)) #define IRQEXPL_DIPW (0x01 << (E_IRQ_42 - E_IRQEXPL_START)) #define IRQEXPL_EXT_GPIO4 (0x01 << (E_IRQ_43 - E_IRQEXPL_START)) #define IRQEXPL_EVD (0x01 << (E_IRQ_44 - E_IRQEXPL_START)) #define IRQEXPL_JPD (0x01 << (E_IRQ_45 - E_IRQEXPL_START)) #define IRQEXPL_MSPI1 (0x01 << (E_IRQ_46 - E_IRQEXPL_START)) #define IRQEXPL_MSPI0 (0x01 << (E_IRQ_47 - E_IRQEXPL_START)) #define IRQEXPH_MASK 0xFFFF #define IRQEXPH_BDMA0 (0x01 << (E_IRQ_48 - E_IRQEXPH_START)) #define IRQEXPH_BDMA1 (0x01 << (E_IRQ_49 - E_IRQEXPH_START)) #define IRQEXPH_UART2MCU (0x01 << (E_IRQ_50 - E_IRQEXPH_START)) #define IRQEXPH_URDMA2MCU (0x01 << (E_IRQ_51 - E_IRQEXPH_START)) #define IRQEXPH_DVI_HDMI_HDCP (0x01 << (E_IRQ_52 - E_IRQEXPH_START)) #define IRQEXPH_EXT_GPIO6 (0x01 << (E_IRQ_53 - E_IRQEXPH_START)) #define IRQEXPH_CEC (0x01 << (E_IRQ_54 - E_IRQEXPH_START)) #define IRQEXPH_HDCP_IIC (0x01 << (E_IRQ_55 - E_IRQEXPH_START)) #define IRQEXPH_HDCP_X74 (0x01 << (E_IRQ_56 - E_IRQEXPH_START)) #define IRQEXPH_WADR_ERR (0x01 << (E_IRQ_57 - E_IRQEXPH_START)) #define IRQEXPH_UHC2 (0x01 << (E_IRQ_58 - E_IRQEXPH_START)) #define IRQEXPH_GE (0x01 << (E_IRQ_59 - E_IRQEXPH_START)) #define IRQEXPH_MIIC_DMA2 (0x01 << (E_IRQ_60 - E_IRQEXPH_START)) #define IRQEXPH_MIIC_DMA1 (0x01 << (E_IRQ_61 - E_IRQEXPH_START)) #define IRQEXPH_MIIC_DMA0 (0x01 << (E_IRQ_62 - E_IRQEXPH_START)) #define IRQEXPH_EXT_GPIO7 (0x01 << (E_IRQ_63 - E_IRQEXPH_START)) //------------------------------------------------------------------------------------------------- // Type and Structure //------------------------------------------------------------------------------------------------- #define INTERFACE extern INTERFACE MS_U32 u32_ge0_mmio_base; //extern MS_U32 u32_bdma_mmio_base; //extern MS_U32 u32_scaler_mmio_base; //------------------------------------------------------------------------------------------------- // Defines //------------------------------------------------------------------------------------------------- #define REG_GE0_BASE u32_ge0_mmio_base //#define REG_BDMA_BASE u32_bdma_mmio_base //#define REG_SCALER_BASE u32_scaler_mmio_base //------------------------------------------------------------------------------------------------- // Macros //------------------------------------------------------------------------------------------------- #define MReg_Write2Byte(u32Base, u32Reg, u16Val) \ do {((volatile MS_U16*)(u32Base))[((u32Reg))] = u16Val;} while(0) #define MReg_Read2Byte(u32Base, u32Reg) \ ((volatile MS_U16*)(u32Base))[((u32Reg))] #define MReg_WriteByte(u32Base, u32Reg, u8Val) \ do{((volatile MS_U8*)(u32Base))[((u32Reg) * 2) - ((u32Reg) & 1)] = u8Val;} while(0) #define MReg_ReadByte(u32Base, u32Reg) \ ((volatile MS_U8*)(u32Base))[((u32Reg) * 2) - ((u32Reg) & 1)] #define MReg_Write3Byte(u32Base, u32Reg, u32Val) \ do { \ if ((u32Reg) & 0x01) \ { \ MReg_WriteByte(u32Base, u32Reg , u32Val); \ MReg_Write2Byte(u32Base, (u32Reg + 1), ((u32Val) >> 8)); \ } \ else \ { \ MReg_Write2Byte(u32Base, (u32Reg), u32Val); \ MReg_WriteByte(u32Base, (u32Reg + 2), ((u32Val) >> 16)); \ } \ } while(0) #define MReg_Write4Byte(u32Base, u32Reg, u32Val) \ do { \ if ((u32Reg) & 0x01) \ { \ MReg_WriteByte(u32Base, u32Reg, u32Val); \ MReg_Write2Byte(u32Base, (u32Reg + 1), ((u32Val) >> 8)); \ MReg_WriteByte(u32Base, (u32Reg + 3), ((u32Val) >> 24)); \ } \ else \ { \ MReg_Write2Byte(u32Base, u32Reg, u32Val); \ MReg_Write2Byte(u32Base, (u32Reg + 2), ((u32Val) >> 16)); \ } \ } while(0) #define MReg_WriteByteMask(u32Base, u32Reg, u8Val, u8Msk) \ do { \ MReg_WriteByte(u32Base, u32Reg, (MReg_ReadByte(u32Base, ((u32Reg))) & ~(u8Msk)) | ((u8Val) & (u8Msk))); \ } while(0) #define MReg_Write2ByteMask(u32Base, u32Reg, u16Val, u16Msk) \ do { \ if (((u32Reg) & 0x01)) \ { \ MReg_WriteByteMask( u32Base, ((u32Reg) + 1) , (((u16Val) & 0xff00) >> 8) , (((u16Msk) & 0xff00) >> 8) ); \ MReg_WriteByteMask( u32Base, (u32Reg) , ((u16Val) & 0x00ff) , ((u16Msk) & 0x00ff)); \ } \ else \ { \ MReg_Write2Byte(u32Base, u32Reg, (((u16Val) & (u16Msk)) | (MReg_Read2Byte(u32Base, u32Reg) & (~(u16Msk))))); \ } \ } while(0) #endif // _REG_SYSTEM_H_