1*53ee8cc1Swenshuai.xi //<MStar Software> 2*53ee8cc1Swenshuai.xi //****************************************************************************** 3*53ee8cc1Swenshuai.xi // MStar Software 4*53ee8cc1Swenshuai.xi // Copyright (c) 2010 - 2012 MStar Semiconductor, Inc. All rights reserved. 5*53ee8cc1Swenshuai.xi // All software, firmware and related documentation herein ("MStar Software") are 6*53ee8cc1Swenshuai.xi // intellectual property of MStar Semiconductor, Inc. ("MStar") and protected by 7*53ee8cc1Swenshuai.xi // law, including, but not limited to, copyright law and international treaties. 8*53ee8cc1Swenshuai.xi // Any use, modification, reproduction, retransmission, or republication of all 9*53ee8cc1Swenshuai.xi // or part of MStar Software is expressly prohibited, unless prior written 10*53ee8cc1Swenshuai.xi // permission has been granted by MStar. 11*53ee8cc1Swenshuai.xi // 12*53ee8cc1Swenshuai.xi // By accessing, browsing and/or using MStar Software, you acknowledge that you 13*53ee8cc1Swenshuai.xi // have read, understood, and agree, to be bound by below terms ("Terms") and to 14*53ee8cc1Swenshuai.xi // comply with all applicable laws and regulations: 15*53ee8cc1Swenshuai.xi // 16*53ee8cc1Swenshuai.xi // 1. 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You agree to waive any 38*53ee8cc1Swenshuai.xi // claim against MStar for any loss, damage, cost or expense that you may 39*53ee8cc1Swenshuai.xi // incur related to your use of MStar Software. 40*53ee8cc1Swenshuai.xi // In no event shall MStar be liable for any direct, indirect, incidental or 41*53ee8cc1Swenshuai.xi // consequential damages, including without limitation, lost of profit or 42*53ee8cc1Swenshuai.xi // revenues, lost or damage of data, and unauthorized system use. 43*53ee8cc1Swenshuai.xi // You agree that this Section 4 shall still apply without being affected 44*53ee8cc1Swenshuai.xi // even if MStar Software has been modified by MStar in accordance with your 45*53ee8cc1Swenshuai.xi // request or instruction for your use, except otherwise agreed by both 46*53ee8cc1Swenshuai.xi // parties in writing. 47*53ee8cc1Swenshuai.xi // 48*53ee8cc1Swenshuai.xi // 5. If requested, MStar may from time to time provide technical supports or 49*53ee8cc1Swenshuai.xi // services in relation with MStar Software to you for your use of 50*53ee8cc1Swenshuai.xi // MStar Software in conjunction with your or your customer`s product 51*53ee8cc1Swenshuai.xi // ("Services"). 52*53ee8cc1Swenshuai.xi // You understand and agree that, except otherwise agreed by both parties in 53*53ee8cc1Swenshuai.xi // writing, Services are provided on an "AS IS" basis and the warranty 54*53ee8cc1Swenshuai.xi // disclaimer set forth in Section 4 above shall apply. 55*53ee8cc1Swenshuai.xi // 56*53ee8cc1Swenshuai.xi // 6. Nothing contained herein shall be construed as by implication, estoppels 57*53ee8cc1Swenshuai.xi // or otherwise: 58*53ee8cc1Swenshuai.xi // (a) conferring any license or right to use MStar name, trademark, service 59*53ee8cc1Swenshuai.xi // mark, symbol or any other identification; 60*53ee8cc1Swenshuai.xi // (b) obligating MStar or any of its affiliates to furnish any person, 61*53ee8cc1Swenshuai.xi // including without limitation, you and your customers, any assistance 62*53ee8cc1Swenshuai.xi // of any kind whatsoever, or any information; or 63*53ee8cc1Swenshuai.xi // (c) conferring any license or right under any intellectual property right. 64*53ee8cc1Swenshuai.xi // 65*53ee8cc1Swenshuai.xi // 7. These terms shall be governed by and construed in accordance with the laws 66*53ee8cc1Swenshuai.xi // of Taiwan, R.O.C., excluding its conflict of law rules. 67*53ee8cc1Swenshuai.xi // Any and all dispute arising out hereof or related hereto shall be finally 68*53ee8cc1Swenshuai.xi // settled by arbitration referred to the Chinese Arbitration Association, 69*53ee8cc1Swenshuai.xi // Taipei in accordance with the ROC Arbitration Law and the Arbitration 70*53ee8cc1Swenshuai.xi // Rules of the Association by three (3) arbitrators appointed in accordance 71*53ee8cc1Swenshuai.xi // with the said Rules. 72*53ee8cc1Swenshuai.xi // The place of arbitration shall be in Taipei, Taiwan and the language shall 73*53ee8cc1Swenshuai.xi // be English. 74*53ee8cc1Swenshuai.xi // The arbitration award shall be final and binding to both parties. 75*53ee8cc1Swenshuai.xi // 76*53ee8cc1Swenshuai.xi //****************************************************************************** 77*53ee8cc1Swenshuai.xi //<MStar Software> 78*53ee8cc1Swenshuai.xi //////////////////////////////////////////////////////////////////////////////// 79*53ee8cc1Swenshuai.xi // 80*53ee8cc1Swenshuai.xi // Copyright (c) 2008-2009 MStar Semiconductor, Inc. 81*53ee8cc1Swenshuai.xi // All rights reserved. 82*53ee8cc1Swenshuai.xi // 83*53ee8cc1Swenshuai.xi // Unless otherwise stipulated in writing, any and all information contained 84*53ee8cc1Swenshuai.xi // herein regardless in any format shall remain the sole proprietary of 85*53ee8cc1Swenshuai.xi // MStar Semiconductor Inc. and be kept in strict confidence 86*53ee8cc1Swenshuai.xi // ("MStar Confidential Information") by the recipient. 87*53ee8cc1Swenshuai.xi // Any unauthorized act including without limitation unauthorized disclosure, 88*53ee8cc1Swenshuai.xi // copying, use, reproduction, sale, distribution, modification, disassembling, 89*53ee8cc1Swenshuai.xi // reverse engineering and compiling of the contents of MStar Confidential 90*53ee8cc1Swenshuai.xi // Information is unlawful and strictly prohibited. MStar hereby reserves the 91*53ee8cc1Swenshuai.xi // rights to any and all damages, losses, costs and expenses resulting therefrom. 92*53ee8cc1Swenshuai.xi // 93*53ee8cc1Swenshuai.xi //////////////////////////////////////////////////////////////////////////////// 94*53ee8cc1Swenshuai.xi 95*53ee8cc1Swenshuai.xi /////////////////////////////////////////////////////////////////////////////////////////////////// 96*53ee8cc1Swenshuai.xi /// 97*53ee8cc1Swenshuai.xi /// file regHVD.h 98*53ee8cc1Swenshuai.xi /// @brief HVD Module Register Definition 99*53ee8cc1Swenshuai.xi /// @author MStar Semiconductor Inc. 100*53ee8cc1Swenshuai.xi /////////////////////////////////////////////////////////////////////////////////////////////////// 101*53ee8cc1Swenshuai.xi 102*53ee8cc1Swenshuai.xi #ifndef _REG_HVD_H_ 103*53ee8cc1Swenshuai.xi #define _REG_HVD_H_ 104*53ee8cc1Swenshuai.xi 105*53ee8cc1Swenshuai.xi 106*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 107*53ee8cc1Swenshuai.xi // Hardware Capability 108*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 109*53ee8cc1Swenshuai.xi 110*53ee8cc1Swenshuai.xi 111*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 112*53ee8cc1Swenshuai.xi // Macro and Define 113*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 114*53ee8cc1Swenshuai.xi 115*53ee8cc1Swenshuai.xi //***************************************************************************** 116*53ee8cc1Swenshuai.xi // RIU macro 117*53ee8cc1Swenshuai.xi #define HVD_MACRO_START do { 118*53ee8cc1Swenshuai.xi #define HVD_MACRO_END } while (0) 119*53ee8cc1Swenshuai.xi #define HVD_RIU_BASE (u32HVDRegOSBase) 120*53ee8cc1Swenshuai.xi 121*53ee8cc1Swenshuai.xi #define HVD_HIGHBYTE(u16) ((MS_U8)((u16) >> 8)) 122*53ee8cc1Swenshuai.xi #define HVD_LOWBYTE(u16) ((MS_U8)(u16)) 123*53ee8cc1Swenshuai.xi #define HVD_RIU_READ_BYTE(addr) ( READ_BYTE( HVD_RIU_BASE + (addr) ) ) 124*53ee8cc1Swenshuai.xi #define HVD_RIU_READ_WORD(addr) ( READ_WORD( HVD_RIU_BASE + (addr) ) ) 125*53ee8cc1Swenshuai.xi #define HVD_RIU_WRITE_BYTE(addr, val) { WRITE_BYTE( HVD_RIU_BASE+(addr), val); } 126*53ee8cc1Swenshuai.xi #define HVD_RIU_WRITE_WORD(addr, val) { WRITE_WORD( HVD_RIU_BASE+(addr), val); } 127*53ee8cc1Swenshuai.xi 128*53ee8cc1Swenshuai.xi 129*53ee8cc1Swenshuai.xi #define _HVD_ReadByte( u32Reg ) HVD_RIU_READ_BYTE(((u32Reg) << 1) - ((u32Reg) & 1)) 130*53ee8cc1Swenshuai.xi 131*53ee8cc1Swenshuai.xi #define _HVD_Read2Byte( u32Reg ) (HVD_RIU_READ_WORD((u32Reg)<<1)) 132*53ee8cc1Swenshuai.xi 133*53ee8cc1Swenshuai.xi #define _HVD_Read4Byte( u32Reg ) ( (MS_U32)HVD_RIU_READ_WORD((u32Reg)<<1) | ((MS_U32)HVD_RIU_READ_WORD(((u32Reg)+2)<<1)<<16 ) ) 134*53ee8cc1Swenshuai.xi 135*53ee8cc1Swenshuai.xi #define _HVD_ReadRegBit( u32Reg, u8Mask ) (HVD_RIU_READ_BYTE(((u32Reg)<<1) - ((u32Reg) & 1)) & (u8Mask)) 136*53ee8cc1Swenshuai.xi 137*53ee8cc1Swenshuai.xi #define _HVD_ReadWordBit( u32Reg, u16Mask ) (_HVD_Read2Byte( u32Reg ) & (u16Mask)) 138*53ee8cc1Swenshuai.xi 139*53ee8cc1Swenshuai.xi #define _HVD_WriteRegBit( u32Reg, bEnable, u8Mask ) \ 140*53ee8cc1Swenshuai.xi HVD_MACRO_START \ 141*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE( (((u32Reg) <<1) - ((u32Reg) & 1)) , (bEnable) ? (HVD_RIU_READ_BYTE( (((u32Reg) <<1) - ((u32Reg) & 1)) ) | (u8Mask)) : \ 142*53ee8cc1Swenshuai.xi (HVD_RIU_READ_BYTE( (((u32Reg) <<1) - ((u32Reg) & 1)) ) & ~(u8Mask))); \ 143*53ee8cc1Swenshuai.xi HVD_MACRO_END 144*53ee8cc1Swenshuai.xi 145*53ee8cc1Swenshuai.xi #define _HVD_WriteByte( u32Reg, u8Val ) \ 146*53ee8cc1Swenshuai.xi HVD_MACRO_START \ 147*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE(((u32Reg) << 1) - ((u32Reg) & 1), u8Val); \ 148*53ee8cc1Swenshuai.xi HVD_MACRO_END 149*53ee8cc1Swenshuai.xi 150*53ee8cc1Swenshuai.xi #define _HVD_Write2Byte( u32Reg, u16Val ) \ 151*53ee8cc1Swenshuai.xi HVD_MACRO_START \ 152*53ee8cc1Swenshuai.xi if ( ((u32Reg) & 0x01) ) \ 153*53ee8cc1Swenshuai.xi { \ 154*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE(((u32Reg) << 1) - 1, (MS_U8)((u16Val))); \ 155*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE(((u32Reg) + 1) << 1, (MS_U8)((u16Val) >> 8)); \ 156*53ee8cc1Swenshuai.xi } \ 157*53ee8cc1Swenshuai.xi else \ 158*53ee8cc1Swenshuai.xi { \ 159*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( ((u32Reg)<<1) , u16Val); \ 160*53ee8cc1Swenshuai.xi } \ 161*53ee8cc1Swenshuai.xi HVD_MACRO_END 162*53ee8cc1Swenshuai.xi 163*53ee8cc1Swenshuai.xi #define _HVD_Write3Byte( u32Reg, u32Val ) \ 164*53ee8cc1Swenshuai.xi if ((u32Reg) & 0x01) \ 165*53ee8cc1Swenshuai.xi { \ 166*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE((u32Reg << 1) - 1, u32Val); \ 167*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( (u32Reg + 1)<<1 , ((u32Val) >> 8)); \ 168*53ee8cc1Swenshuai.xi } \ 169*53ee8cc1Swenshuai.xi else \ 170*53ee8cc1Swenshuai.xi { \ 171*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( (u32Reg) << 1, u32Val); \ 172*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE( (u32Reg + 2) << 1 , ((u32Val) >> 16)); \ 173*53ee8cc1Swenshuai.xi } 174*53ee8cc1Swenshuai.xi 175*53ee8cc1Swenshuai.xi #define _HVD_Write4Byte( u32Reg, u32Val ) \ 176*53ee8cc1Swenshuai.xi HVD_MACRO_START \ 177*53ee8cc1Swenshuai.xi if ((u32Reg) & 0x01) \ 178*53ee8cc1Swenshuai.xi { \ 179*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE( ((u32Reg) << 1) - 1 , u32Val); \ 180*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( ((u32Reg) + 1)<<1 , ( (u32Val) >> 8)); \ 181*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE( (((u32Reg) + 3) << 1) , ((u32Val) >> 24)); \ 182*53ee8cc1Swenshuai.xi } \ 183*53ee8cc1Swenshuai.xi else \ 184*53ee8cc1Swenshuai.xi { \ 185*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( (u32Reg) <<1 , u32Val); \ 186*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( ((u32Reg) + 2)<<1 , ((u32Val) >> 16)); \ 187*53ee8cc1Swenshuai.xi } \ 188*53ee8cc1Swenshuai.xi HVD_MACRO_END 189*53ee8cc1Swenshuai.xi 190*53ee8cc1Swenshuai.xi #define _HVD_WriteByteMask( u32Reg, u8Val, u8Msk ) \ 191*53ee8cc1Swenshuai.xi HVD_MACRO_START \ 192*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_BYTE( (((u32Reg) <<1) - ((u32Reg) & 1)), (HVD_RIU_READ_BYTE((((u32Reg) <<1) - ((u32Reg) & 1))) & ~(u8Msk)) | ((u8Val) & (u8Msk))); \ 193*53ee8cc1Swenshuai.xi HVD_MACRO_END 194*53ee8cc1Swenshuai.xi 195*53ee8cc1Swenshuai.xi #define _HVD_WriteWordMask( u32Reg, u16Val , u16Msk) \ 196*53ee8cc1Swenshuai.xi HVD_MACRO_START \ 197*53ee8cc1Swenshuai.xi if ( ((u32Reg) & 0x01) ) \ 198*53ee8cc1Swenshuai.xi { \ 199*53ee8cc1Swenshuai.xi _HVD_WriteByteMask( ((u32Reg)+1) , (((u16Val) & 0xff00)>>8) , (((u16Msk)&0xff00)>>8) ); \ 200*53ee8cc1Swenshuai.xi _HVD_WriteByteMask( (u32Reg) , ((u16Val) & 0x00ff) , ((u16Msk)&0x00ff) ); \ 201*53ee8cc1Swenshuai.xi } \ 202*53ee8cc1Swenshuai.xi else \ 203*53ee8cc1Swenshuai.xi { \ 204*53ee8cc1Swenshuai.xi HVD_RIU_WRITE_WORD( ((u32Reg)<<1) , (((u16Val) & (u16Msk)) | (_HVD_Read2Byte( u32Reg ) & (~( u16Msk )))) ); \ 205*53ee8cc1Swenshuai.xi } \ 206*53ee8cc1Swenshuai.xi HVD_MACRO_END 207*53ee8cc1Swenshuai.xi 208*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 209*53ee8cc1Swenshuai.xi // MVD Reg 210*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 211*53ee8cc1Swenshuai.xi #define REG_MVD_BASE (0x1100) 212*53ee8cc1Swenshuai.xi 213*53ee8cc1Swenshuai.xi #define MVD_REG_STAT_CTRL (REG_MVD_BASE) 214*53ee8cc1Swenshuai.xi #define MVD_REG_CTRL_RST BIT(0) 215*53ee8cc1Swenshuai.xi #define MVD_REG_CTRL_INIT BIT(2) 216*53ee8cc1Swenshuai.xi #define MVD_REG_DISCONNECT_MIU BIT(6) 217*53ee8cc1Swenshuai.xi 218*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 219*53ee8cc1Swenshuai.xi // HVD Reg 220*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 221*53ee8cc1Swenshuai.xi #define REG_HVD_BASE (0x1B00) 222*53ee8cc1Swenshuai.xi #define REG_EVD_BASE (0x60B00) 223*53ee8cc1Swenshuai.xi 224*53ee8cc1Swenshuai.xi #define HVD_REG_REV_ID (REG_HVD_BASE + ((0x0000) << 1)) 225*53ee8cc1Swenshuai.xi #define HVD_REG_RESET (REG_HVD_BASE + ((0x0001) << 1)) 226*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_SWRST BIT(0) 227*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_SWRST_FIN BIT(2) 228*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_STOP_BBU BIT(3) 229*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_MIU_RDY BIT(4) 230*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_HK_AVS_MODE BIT(8) 231*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_HK_RM_MODE BIT(9) 232*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_HK_RV9_DEC_MODE BIT(10) 233*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_MIU_128 BIT(11) 234*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_CPUIF_SEL BIT(12) 235*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_ALL_SRAM_SD_EN BIT(13) 236*53ee8cc1Swenshuai.xi #define HVD_REG_RESET_BOND_HD BIT(15) 237*53ee8cc1Swenshuai.xi 238*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_ST_ADDR_L(reg_base) (reg_base + ((0x0002) << 1)) 239*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_ST_ADDR_H(reg_base) (reg_base + ((0x0003) << 1)) 240*53ee8cc1Swenshuai.xi 241*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_LENGTH_L(reg_base) (reg_base + ((0x0004) << 1)) 242*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_LENGTH_H(reg_base) (reg_base + ((0x0005) << 1)) 243*53ee8cc1Swenshuai.xi 244*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_RPTR(reg_base) (reg_base + ((0x0006) << 1)) 245*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_RPTR_POLL BIT(0) 246*53ee8cc1Swenshuai.xi 247*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_RPTR_H(reg_base) (reg_base + ((0x0007) << 1)) 248*53ee8cc1Swenshuai.xi 249*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_BBU(reg_base) (reg_base + ((0x0008) << 1)) 250*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_OFFSET_L_BITS 7 251*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_OFFSET_H BIT(12) 252*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_TSP_INPUT BIT(8) 253*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_MASK (BIT(10) | BIT(9)) 254*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_DISABLE 0 255*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_ENABLE_ALL BIT(9) 256*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_ENABLE_03 (BIT(9) | BIT(10)) 257*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_AUTO_NAL_TAB BIT(11) 258*53ee8cc1Swenshuai.xi 259*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TBL_ST_ADDR_L(reg_base) (reg_base + ((0x0009) << 1)) 260*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TBL_ST_ADDR_H(reg_base) (reg_base + ((0x000A) << 1)) 261*53ee8cc1Swenshuai.xi 262*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX0_L(reg_base) (reg_base + ((0x000B) << 1)) 263*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX0_H(reg_base) (reg_base + ((0x000C) << 1)) 264*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX1_L(reg_base) (reg_base + ((0x000D) << 1)) 265*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX1_H(reg_base) (reg_base + ((0x000E) << 1)) 266*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX_SET(reg_base) (reg_base + ((0x000F) << 1)) 267*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX0_SET BIT(0) 268*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX1_SET BIT(8) 269*53ee8cc1Swenshuai.xi 270*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX_CLR(reg_base) (reg_base + ((0x0010) << 1)) 271*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX0_CLR BIT(0) 272*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX1_CLR BIT(1) 273*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_ISR_CLR BIT(2) 274*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_WPTR_SYNC BIT(3) 275*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_ISR_MSK BIT(6) 276*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_ISR_FORCE BIT(10) 277*53ee8cc1Swenshuai.xi 278*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX_RDY(reg_base) (reg_base + ((0x0011) << 1)) 279*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX0_RDY BIT(0) 280*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX1_RDY BIT(4) 281*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_ISR_VALID BIT(8) 282*53ee8cc1Swenshuai.xi 283*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX_RDY(reg_base) (reg_base + ((0x0012) << 1)) 284*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX0_RDY BIT(0) 285*53ee8cc1Swenshuai.xi #define HVD_REG_HI_MBOX1_RDY BIT(8) 286*53ee8cc1Swenshuai.xi 287*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX0_L(reg_base) (reg_base + ((0x0013) << 1)) 288*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX0_H(reg_base) (reg_base + ((0x0014) << 1)) 289*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX1_L(reg_base) (reg_base + ((0x0015) << 1)) 290*53ee8cc1Swenshuai.xi #define HVD_REG_RISC_MBOX1_H(reg_base) (reg_base + ((0x0016) << 1)) 291*53ee8cc1Swenshuai.xi 292*53ee8cc1Swenshuai.xi #define HVD_REG_POLL_NAL_RPTR(reg_base) (reg_base + ((0x0017) << 1)) 293*53ee8cc1Swenshuai.xi #define HVD_REG_POLL_NAL_RPTR_BIT BIT(0) 294*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_RPTR_HI(reg_base) (reg_base + ((0x0018) << 1)) 295*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_WPTR_HI(reg_base) (reg_base + ((0x0019) << 1)) 296*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_LEN(reg_base) (reg_base + ((0x0020) << 1)) 297*53ee8cc1Swenshuai.xi 298*53ee8cc1Swenshuai.xi #define HVD_REG_DEBUG_DAT_L (REG_HVD_BASE + ((0x0023) << 1)) 299*53ee8cc1Swenshuai.xi #define HVD_REG_DEBUG_DAT_H (REG_HVD_BASE + ((0x0024) << 1)) 300*53ee8cc1Swenshuai.xi #define HVD_REG_DEBUG_SEL (REG_HVD_BASE + ((0x0025) << 1)) 301*53ee8cc1Swenshuai.xi 302*53ee8cc1Swenshuai.xi /* Second bitstream registers definition */ 303*53ee8cc1Swenshuai.xi #define HVD_REG_MODE_BS2 (REG_HVD_BASE + ((0x0030) << 1)) 304*53ee8cc1Swenshuai.xi #define HVD_REG_MODE_HK_AVS_MODE_BS2 BIT(8) 305*53ee8cc1Swenshuai.xi #define HVD_REG_MODE_HK_RM_MODE_BS2 BIT(9) 306*53ee8cc1Swenshuai.xi #define HVD_REG_MODE_HK_RV9_DEC_MODE_BS2 BIT(10) 307*53ee8cc1Swenshuai.xi 308*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_ST_ADDR_L_BS2 (REG_HVD_BASE + ((0x0032) << 1)) 309*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_ST_ADDR_H_BS2 (REG_HVD_BASE + ((0x0033) << 1)) 310*53ee8cc1Swenshuai.xi 311*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_LENGTH_L_BS2 (REG_HVD_BASE + ((0x0034) << 1)) 312*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_LENGTH_H_BS2 (REG_HVD_BASE + ((0x0035) << 1)) 313*53ee8cc1Swenshuai.xi 314*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_RPTR_L_BS2 (REG_HVD_BASE + ((0x0036) << 1)) 315*53ee8cc1Swenshuai.xi 316*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_RPTR_H_BS2 (REG_HVD_BASE + ((0x0037) << 1)) 317*53ee8cc1Swenshuai.xi 318*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_BBU_BS2 (REG_HVD_BASE + ((0x0038) << 1)) 319*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_OFFSET_L_BITS_BS2 7 320*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_OFFSET_H_BS2 BIT(12) 321*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_TSP_INPUT_BS2 BIT(8) 322*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_ENABLE_ALL_BS2 BIT(9) 323*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_ENABLE_03_BS2 (BIT(9) | BIT(10)) 324*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_AUTO_NAL_TAB_BS2 BIT(11) 325*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_DISABLE_BS2 0 326*53ee8cc1Swenshuai.xi #define HVD_REG_BBU_PASER_MASK_BS2 (BIT(10) | BIT(9)) 327*53ee8cc1Swenshuai.xi 328*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TBL_ST_ADDR_L_BS2 (REG_HVD_BASE + ((0x0039) << 1)) 329*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TBL_ST_ADDR_H_BS2 (REG_HVD_BASE + ((0x003A) << 1)) 330*53ee8cc1Swenshuai.xi 331*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_RPTR_HI_BS2 (REG_HVD_BASE + ((0x003B) << 1)) 332*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_WPTR_HI_BS2 (REG_HVD_BASE + ((0x003C) << 1)) 333*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_LEN_BS2 (REG_HVD_BASE + ((0x003D) << 1)) 334*53ee8cc1Swenshuai.xi 335*53ee8cc1Swenshuai.xi /* VP8 Registers */ 336*53ee8cc1Swenshuai.xi #define HVD_REG_HK_VP8 (REG_HVD_BASE + ((0x0040) << 1)) 337*53ee8cc1Swenshuai.xi #define HVD_REG_HK_VP8_DEC_MODE BIT(0) 338*53ee8cc1Swenshuai.xi #define HVD_REG_HK_PLAYER_FM BIT(1) 339*53ee8cc1Swenshuai.xi 340*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_ST_ADR_L_BS34 (REG_HVD_BASE + ((0x0042) << 1)) 341*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_ST_ADR_H_BS34 (REG_HVD_BASE + ((0x0043) << 1)) 342*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_LENGTH_L_BS34 (REG_HVD_BASE + ((0x0044) << 1)) 343*53ee8cc1Swenshuai.xi #define HVD_REG_ESB_LENGTH_H_BS34 (REG_HVD_BASE + ((0x0045) << 1)) 344*53ee8cc1Swenshuai.xi 345*53ee8cc1Swenshuai.xi #define HVD_REG_MIF_BS34 (REG_HVD_BASE + ((0x0048) << 1)) 346*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_MIF_OFFSET_L_BITS 7 347*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_MIF_OFFSET_H BIT(12) 348*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_TSP_INPUT BIT(8) 349*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_PASER_MASK (BIT(10) | BIT(9)) 350*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_PASER_DISABLE 0 351*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_PASER_ENABLE_ALL BIT(9) 352*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_PASER_ENABLE_03 (BIT(9) | BIT(10)) 353*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_AUTO_NAL_TAB BIT(11) 354*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_NAL_BUF_SKIP BIT(13) 355*53ee8cc1Swenshuai.xi #define HVD_REG_BS34_NAL_BUF_SKIP_RDY BIT(14) 356*53ee8cc1Swenshuai.xi 357*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_ST_L_BS3 (REG_HVD_BASE + ((0x0049) << 1)) 358*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_ST_H_BS3 (REG_HVD_BASE + ((0x004A) << 1)) 359*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_RPTR_HI_BS3 (REG_HVD_BASE + ((0x004B) << 1)) 360*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_WPTR_HI_BS3 (REG_HVD_BASE + ((0x004C) << 1)) 361*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_LEN_BS3 (REG_HVD_BASE + ((0x004D) << 1)) 362*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_ST_L_BS4 (REG_HVD_BASE + ((0x0059) << 1)) 363*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_ST_H_BS4 (REG_HVD_BASE + ((0x005A) << 1)) 364*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_RPTR_HI_BS4 (REG_HVD_BASE + ((0x005B) << 1)) 365*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_WPTR_HI_BS4 (REG_HVD_BASE + ((0x005C) << 1)) 366*53ee8cc1Swenshuai.xi #define HVD_REG_NAL_TAB_LEN_BS4 (REG_HVD_BASE + ((0x005D) << 1)) 367*53ee8cc1Swenshuai.xi 368*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 369*53ee8cc1Swenshuai.xi // EVD Reg 370*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 371*53ee8cc1Swenshuai.xi #define EVD_REG_RESET (REG_EVD_BASE + ((0x0001) << 1)) 372*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_SWRST BIT(0) 373*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_SWRST_FIN BIT(2) 374*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_STOP_BBU BIT(3) 375*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_MIU_RDY BIT(4) 376*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_HK_HEVC_MODE BIT(8) 377*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_HK_TSP2EVD_EN BIT(9) 378*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_MIU_256 BIT(10) 379*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_MIU_128 BIT(11) 380*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_CPUIF_SEL BIT(12) 381*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_ALL_SRAM_SD_EN BIT(13) 382*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_BOND_UHD BIT(14) 383*53ee8cc1Swenshuai.xi #define EVD_REG_RESET_BOND_HD BIT(15) 384*53ee8cc1Swenshuai.xi 385*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 386*53ee8cc1Swenshuai.xi // ChipTop Reg 387*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 388*53ee8cc1Swenshuai.xi 389*53ee8cc1Swenshuai.xi #define CHIPTOP_REG_BASE (0x1E00 ) 390*53ee8cc1Swenshuai.xi #define CLKGEN0_REG_BASE (0x0B00 ) 391*53ee8cc1Swenshuai.xi 392*53ee8cc1Swenshuai.xi #define REG_TOP_PSRAM0_1_MIUMUX (CHIPTOP_REG_BASE+(0x002D<<1)) //TODO 393*53ee8cc1Swenshuai.xi #define TOP_CKG_PSRAM0_MASK BMASK(1:0) 394*53ee8cc1Swenshuai.xi #define TOP_CKG_PSRAM0_DIS BIT(0) 395*53ee8cc1Swenshuai.xi #define TOP_CKG_PSRAM0_INV BIT(1) 396*53ee8cc1Swenshuai.xi #define TOP_CKG_PSRAM1_MASK BMASK(3:2) 397*53ee8cc1Swenshuai.xi #define TOP_CKG_PSRAM1_DIS BIT(0) 398*53ee8cc1Swenshuai.xi #define TOP_CKG_PSRAM1_INV BIT(1) 399*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G07_MASK BMASK(7:6) 400*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G07_OD_LSB_R BITS(7:6,0) 401*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G07_GOP2_R BITS(7:6,1) 402*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G08_MASK BMASK(9:8) 403*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G08_OD_LSB_W BITS(9:8,0) 404*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G08_VE_W BITS(9:8,1) 405*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G15_MASK BMASK(11:10) 406*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G15_GOP2_R BITS(11:10,0) 407*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G15_OD_LSB_R BITS(11:10,1) 408*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G1A_MASK BMASK(13:12) 409*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G1A_VE_W BITS(13:12,0) 410*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G1A_OD_LSB_W BITS(13:12,1) 411*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G26_MASK BMASK(15:14) 412*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G26_RVD_RW BITS(15:14,0) 413*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G26_SVD_INTP_R BITS(15:14,1) 414*53ee8cc1Swenshuai.xi #define TOP_MIU_MUX_G26_MVD_R BITS(15:14,2) 415*53ee8cc1Swenshuai.xi 416*53ee8cc1Swenshuai.xi #define REG_TOP_VPU (CLKGEN0_REG_BASE+(0x0030<<1)) 417*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_MASK BMASK(4:0) 418*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_DIS BIT(0) 419*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_INV BIT(1) 420*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_CLK_MASK BMASK(4:2) 421*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_216MHZ BITS(4:2, 0) 422*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_192MHZ BITS(4:2, 1) 423*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_160MHZ BITS(4:2, 2) 424*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_144MHZ BITS(4:2, 3) 425*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_320MHZ BITS(4:2, 4) 426*53ee8cc1Swenshuai.xi #define TOP_CKG_VPU_288MHZ BITS(4:2, 5) 427*53ee8cc1Swenshuai.xi 428*53ee8cc1Swenshuai.xi #define REG_TOP_HVD_IDB (CLKGEN0_REG_BASE+(0x0030<<1)) 429*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_IDB_MASK BMASK(10:8) 430*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_IDB_DIS BIT(8) 431*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_IDB_INV BIT(9) 432*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_IDB_CLK_HVD_MIU BIT(10) //0:HVD, 1:MIU 433*53ee8cc1Swenshuai.xi 434*53ee8cc1Swenshuai.xi 435*53ee8cc1Swenshuai.xi 436*53ee8cc1Swenshuai.xi #define REG_TOP_HVD (CLKGEN0_REG_BASE+(0x0031<<1)) 437*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_MASK BMASK(4:0) 438*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_DIS BIT(0) 439*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_INV BIT(1) 440*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_CLK_MASK BMASK(4:2) 441*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_345MHZ BITS(4:2,0) 442*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_320MHZ BITS(4:2,1) 443*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_288MHZ BITS(4:2,2) 444*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_240MHZ BITS(4:2,3) 445*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_216MHZ BITS(4:2,4) 446*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_172MHZ BITS(4:2,5) 447*53ee8cc1Swenshuai.xi #define TOP_CKG_HVD_144MHZ BITS(4:2,6) 448*53ee8cc1Swenshuai.xi 449*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_MASK BMASK(11:8) 450*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_DIS BIT(8) 451*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_INV BIT(9) 452*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_216MHZ BITS(11:10, 0) 453*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_172MHZ BITS(11:10, 1) 454*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_144MHZ BITS(11:10, 2) 455*53ee8cc1Swenshuai.xi #define TOP_CKG_VP8_240MHZ BITS(11:10, 3) 456*53ee8cc1Swenshuai.xi 457*53ee8cc1Swenshuai.xi 458*53ee8cc1Swenshuai.xi #define REG_TOP_VP6 (CLKGEN0_REG_BASE+(0x0032<<1)) 459*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_MASK BMASK(3:0) 460*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_DIS BIT(0) 461*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_INV BIT(1) 462*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_CLK_MASK BMASK(3:2) 463*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_192MHZ BITS(3:2,0) 464*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_172MHZ BITS(3:2,1) 465*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_160MHZ BITS(3:2,2) 466*53ee8cc1Swenshuai.xi #define TOP_CKG_VP6_144MHZ BITS(3:2,3) 467*53ee8cc1Swenshuai.xi 468*53ee8cc1Swenshuai.xi 469*53ee8cc1Swenshuai.xi 470*53ee8cc1Swenshuai.xi 471*53ee8cc1Swenshuai.xi 472*53ee8cc1Swenshuai.xi 473*53ee8cc1Swenshuai.xi 474*53ee8cc1Swenshuai.xi 475*53ee8cc1Swenshuai.xi #define REG_TOP_MVD (CLKGEN0_REG_BASE+(0x0039<<1)) 476*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_MASK BMASK(3:0) 477*53ee8cc1Swenshuai.xi #define TOP_CKG_MHVD_DIS BIT(0) 478*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_INV BIT(1) 479*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_CLK_MASK BMASK(3:2) 480*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_144MHZ BITS(3:2, 0) 481*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_123MHZ BITS(3:2, 1) 482*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_MIU BITS(3:2, 2) 483*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD_XTAL BITS(3:2, 3) 484*53ee8cc1Swenshuai.xi 485*53ee8cc1Swenshuai.xi #define REG_TOP_MVD2 (CLKGEN0_REG_BASE+(0x0039<<1)) 486*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_MASK BMASK(11:8) 487*53ee8cc1Swenshuai.xi #define TOP_CKG_MHVD2_DIS BIT(8) 488*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_INV BIT(9) 489*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_CLK_MASK BMASK(11:10) 490*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_170MHZ BITS(11:10, 0) 491*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_144MHZ BITS(11:10, 1) 492*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_160MHZ BITS(11:10, 1) 493*53ee8cc1Swenshuai.xi #define TOP_CKG_MVD2_CLK_MIU_P BITS(11:10, 1) 494*53ee8cc1Swenshuai.xi 495*53ee8cc1Swenshuai.xi #define REG_TOP_HVD_CLK (CLKGEN0_REG_BASE+(0x003F<<1)) 496*53ee8cc1Swenshuai.xi #define TOP_CLK_HVD_VP8_MASK BMASK(1:0) 497*53ee8cc1Swenshuai.xi #define TOP_CLK_HVD_VP8_DIS BIT(0) 498*53ee8cc1Swenshuai.xi #define TOP_CLK_HVD_VP8_INV BIT(1) 499*53ee8cc1Swenshuai.xi #define TOP_CLK_MIU_HVD_MASK BMASK(5:4) 500*53ee8cc1Swenshuai.xi #define TOP_CLK_MIU_HVD_DIS BIT(0) 501*53ee8cc1Swenshuai.xi #define TOP_CLK_MIU_HVD_INV BIT(1) 502*53ee8cc1Swenshuai.xi #define TOP_CLK_RM_MIU_HVD_MASK BMASK(9:8) 503*53ee8cc1Swenshuai.xi #define TOP_CLK_RM_MIU_HVD_DIS BIT(0) 504*53ee8cc1Swenshuai.xi #define TOP_CLK_RM_MIU_HVD_INV BIT(1) 505*53ee8cc1Swenshuai.xi #define TOP_CLK_MIU_HVD_VP8_MASK BMASK(13:12) 506*53ee8cc1Swenshuai.xi #define TOP_CLK_MIU_HVD_VP8_DIS BIT(0) 507*53ee8cc1Swenshuai.xi #define TOP_CLK_MIU_HVD_VP8_INV BIT(1) 508*53ee8cc1Swenshuai.xi 509*53ee8cc1Swenshuai.xi #define REG_TOP_CKG_EVD_PPU (CLKGEN0_REG_BASE+(0x0033<<1)) 510*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_MASK BMASK(12:10) 511*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_DIS BIT(8) 512*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_INV BIT(9) 513*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_345MHZ BITS(12:10, 0) 514*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_320MHZ BITS(12:10, 1) 515*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_288MHZ BITS(12:10, 2) 516*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_240MHZ BITS(12:10, 3) 517*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_216MHZ BITS(12:10, 4) 518*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_192MHZ BITS(12:10, 5) 519*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_PPU_160MHZ BITS(12:10, 6) 520*53ee8cc1Swenshuai.xi 521*53ee8cc1Swenshuai.xi #define REG_TOP_CKG_EVD (CLKGEN0_REG_BASE+(0x0034<<1)) 522*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_MASK BMASK(12:10) 523*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_DIS BIT(8) 524*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_INV BIT(9) 525*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_345MHZ BITS(12:10, 0) 526*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_320MHZ BITS(12:10, 1) 527*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_288MHZ BITS(12:10, 2) 528*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_240MHZ BITS(12:10, 3) 529*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_216MHZ BITS(12:10, 4) 530*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_192MHZ BITS(12:10, 5) 531*53ee8cc1Swenshuai.xi #define TOP_CKG_EVD_160MHZ BITS(12:10, 6) 532*53ee8cc1Swenshuai.xi 533*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL0 (CHIPTOP_REG_BASE+(0x0053<<1)) 534*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_0_MASK BMASK(3:0) 535*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_MHEG5 BITS(3:0, 1) 536*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_VD_MHEG5 BITS(3:0, 2) 537*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_TSP BITS(3:0, 3) 538*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_PIU_0 BITS(3:0, 4) 539*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_PIU_1 BITS(3:0, 5) 540*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_PIU_FAST BITS(3:0, 7) 541*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_VD_MCU_51_TXD0 BITS(3:0, 10) 542*53ee8cc1Swenshuai.xi #define REG_TOP_UART_SEL_VD_MCU_51_TXD1 BITS(3:0, 11) 543*53ee8cc1Swenshuai.xi 544*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 545*53ee8cc1Swenshuai.xi // MIU Reg 546*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------ 547*53ee8cc1Swenshuai.xi #define MIU0_REG_HVD_BASE (0x1200) 548*53ee8cc1Swenshuai.xi #define MIU1_REG_HVD_BASE (0x0600) 549*53ee8cc1Swenshuai.xi 550*53ee8cc1Swenshuai.xi #define MIU0_REG_RQ0_MASK (MIU0_REG_HVD_BASE+(( 0x0023)<<1)) 551*53ee8cc1Swenshuai.xi #define MIU0_REG_RQ1_MASK (MIU0_REG_HVD_BASE+(( 0x0033)<<1)) 552*53ee8cc1Swenshuai.xi #define MIU0_REG_RQ2_MASK (MIU0_REG_HVD_BASE+(( 0x0043)<<1)) 553*53ee8cc1Swenshuai.xi #define MIU0_REG_RQ3_MASK (MIU0_REG_HVD_BASE+(( 0x0053)<<1)) 554*53ee8cc1Swenshuai.xi #define MIU1_REG_RQ0_MASK (MIU1_REG_HVD_BASE+(( 0x0023)<<1)) 555*53ee8cc1Swenshuai.xi #define MIU1_REG_RQ1_MASK (MIU1_REG_HVD_BASE+(( 0x0033)<<1)) 556*53ee8cc1Swenshuai.xi #define MIU1_REG_RQ2_MASK (MIU1_REG_HVD_BASE+(( 0x0043)<<1)) 557*53ee8cc1Swenshuai.xi #define MIU1_REG_RQ3_MASK (MIU1_REG_HVD_BASE+(( 0x0053)<<1)) 558*53ee8cc1Swenshuai.xi 559*53ee8cc1Swenshuai.xi #define MIU0_REG_SEL0 (MIU0_REG_HVD_BASE+(( 0x0078)<<1)) 560*53ee8cc1Swenshuai.xi #define MIU0_REG_SEL1 (MIU0_REG_HVD_BASE+(( 0x0079)<<1)) 561*53ee8cc1Swenshuai.xi #define MIU0_REG_SEL2 (MIU0_REG_HVD_BASE+(( 0x007A)<<1)) 562*53ee8cc1Swenshuai.xi #define MIU0_REG_SEL3 (MIU0_REG_HVD_BASE+(( 0x007B)<<1)) 563*53ee8cc1Swenshuai.xi #define MIU1_REG_SEL0 (MIU1_REG_HVD_BASE+(( 0x0078)<<1)) 564*53ee8cc1Swenshuai.xi 565*53ee8cc1Swenshuai.xi 566*53ee8cc1Swenshuai.xi #define MIU_HVD_RW (BIT(10)|BIT(11)) 567*53ee8cc1Swenshuai.xi #define MIU_MVD_RW (BIT(5)|BIT(6)) 568*53ee8cc1Swenshuai.xi 569*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 570*53ee8cc1Swenshuai.xi // Type and Structure 571*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 572*53ee8cc1Swenshuai.xi 573*53ee8cc1Swenshuai.xi 574*53ee8cc1Swenshuai.xi #endif // _REG_HVD_H_ 575*53ee8cc1Swenshuai.xi 576