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. 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MStar shall retain any and all right, ownership and interest to MStar 17*53ee8cc1Swenshuai.xi // Software and any modification/derivatives thereof. 18*53ee8cc1Swenshuai.xi // No right, ownership, or interest to MStar Software and any 19*53ee8cc1Swenshuai.xi // modification/derivatives thereof is transferred to you under Terms. 20*53ee8cc1Swenshuai.xi // 21*53ee8cc1Swenshuai.xi // 2. You understand that MStar Software might include, incorporate or be 22*53ee8cc1Swenshuai.xi // supplied together with third party`s software and the use of MStar 23*53ee8cc1Swenshuai.xi // Software may require additional licenses from third parties. 24*53ee8cc1Swenshuai.xi // Therefore, you hereby agree it is your sole responsibility to separately 25*53ee8cc1Swenshuai.xi // obtain any and all third party right and license necessary for your use of 26*53ee8cc1Swenshuai.xi // such third party`s software. 27*53ee8cc1Swenshuai.xi // 28*53ee8cc1Swenshuai.xi // 3. 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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. 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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 halPNL.h 98*53ee8cc1Swenshuai.xi /// @brief Panel Driver Interface 99*53ee8cc1Swenshuai.xi /// @author MStar Semiconductor Inc. 100*53ee8cc1Swenshuai.xi /////////////////////////////////////////////////////////////////////////////////////////////////// 101*53ee8cc1Swenshuai.xi 102*53ee8cc1Swenshuai.xi #ifndef _HAL_PNL_H_ 103*53ee8cc1Swenshuai.xi #define _HAL_PNL_H_ 104*53ee8cc1Swenshuai.xi 105*53ee8cc1Swenshuai.xi #ifdef __cplusplus 106*53ee8cc1Swenshuai.xi extern "C" { 107*53ee8cc1Swenshuai.xi #endif 108*53ee8cc1Swenshuai.xi 109*53ee8cc1Swenshuai.xi #ifdef _HAL_PNL_C_ 110*53ee8cc1Swenshuai.xi #define HAL_PNL_INTERFACE 111*53ee8cc1Swenshuai.xi #else 112*53ee8cc1Swenshuai.xi #define HAL_PNL_INTERFACE extern 113*53ee8cc1Swenshuai.xi #endif 114*53ee8cc1Swenshuai.xi 115*53ee8cc1Swenshuai.xi // Current platform is DAC out or not 116*53ee8cc1Swenshuai.xi #define IS_DAC_OUT FALSE 117*53ee8cc1Swenshuai.xi 118*53ee8cc1Swenshuai.xi // version0: Not support TV chip as HDMITx 119*53ee8cc1Swenshuai.xi // version1: Maserati + Raptor 120*53ee8cc1Swenshuai.xi // version2: Maxim + inside HDMITx 121*53ee8cc1Swenshuai.xi #define HW_DESIGN_HDMITX_VER (2) 122*53ee8cc1Swenshuai.xi 123*53ee8cc1Swenshuai.xi // XC register serpead define 124*53ee8cc1Swenshuai.xi #define XC_REGISTER_SPREAD 1 125*53ee8cc1Swenshuai.xi #define SUPPORT_FRC 0 126*53ee8cc1Swenshuai.xi #define REG_CHIP_REVISION 0x1ECEUL //0x1ECFUL is high byte 127*53ee8cc1Swenshuai.xi #define XC_SUPPORT_AUTO_VSYNC 1 128*53ee8cc1Swenshuai.xi #define PNL_SUPPORT_DEVICE_NUM 2 129*53ee8cc1Swenshuai.xi #define MONACO_SC2 130*53ee8cc1Swenshuai.xi #define PNL_SUPPORT_2P_MODE TRUE 131*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 132*53ee8cc1Swenshuai.xi // Driver Capability 133*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 134*53ee8cc1Swenshuai.xi #define GAMMA_10BIT BIT(0) ///< gamma value range up to 10 BIt 135*53ee8cc1Swenshuai.xi #define GAMMA_12BIT BIT(1) ///< gamma value range up to 12 BIT 136*53ee8cc1Swenshuai.xi 137*53ee8cc1Swenshuai.xi #define GAMMA_8BIT_MAPPING BIT(0) ///< mapping GAMMA value to 256 sampline entries 138*53ee8cc1Swenshuai.xi #define GAMMA_10BIT_MAPPING BIT(1) ///< mapping GAMMA value to 1024 sampling entries 139*53ee8cc1Swenshuai.xi 140*53ee8cc1Swenshuai.xi typedef struct 141*53ee8cc1Swenshuai.xi { 142*53ee8cc1Swenshuai.xi MS_U8 eSupportGammaType; ///< refer to HAL_PNL_GAMMA_TYPE 143*53ee8cc1Swenshuai.xi MS_U8 eSupportGammaMapMode; ///< refero to HAL_PNL_GAMMA_MAPPEING_MODE 144*53ee8cc1Swenshuai.xi } PNL_HalInfo; 145*53ee8cc1Swenshuai.xi 146*53ee8cc1Swenshuai.xi #define SUPPORT_OVERDRIVE 1 147*53ee8cc1Swenshuai.xi #define GAMMA_TYPE (GAMMA_10BIT | GAMMA_12BIT) 148*53ee8cc1Swenshuai.xi #define GAMMA_MAPPING (GAMMA_8BIT_MAPPING | GAMMA_10BIT_MAPPING) 149*53ee8cc1Swenshuai.xi #define SUPPORT_SYNC_FOR_DUAL_MODE TRUE //New feature after T7 150*53ee8cc1Swenshuai.xi #define ENABLE_Auto_ModCurrentCalibration 1 151*53ee8cc1Swenshuai.xi 152*53ee8cc1Swenshuai.xi // MIU Word (Bytes) 153*53ee8cc1Swenshuai.xi #define BYTE_PER_WORD (32) 154*53ee8cc1Swenshuai.xi 155*53ee8cc1Swenshuai.xi #define SUPPORT_TCON TRUE 156*53ee8cc1Swenshuai.xi 157*53ee8cc1Swenshuai.xi //#define MOD_TVFRC //for sub bank register change 158*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 159*53ee8cc1Swenshuai.xi // Macro and Define 160*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 161*53ee8cc1Swenshuai.xi 162*53ee8cc1Swenshuai.xi 163*53ee8cc1Swenshuai.xi #define BK_REG_L( x, y ) ((x) | (((y) << 1))) 164*53ee8cc1Swenshuai.xi #define BK_REG_H( x, y ) (((x) | (((y) << 1))) + 1) 165*53ee8cc1Swenshuai.xi 166*53ee8cc1Swenshuai.xi // NONPM 167*53ee8cc1Swenshuai.xi #define REG_RVD_BASE 0x100A00UL 168*53ee8cc1Swenshuai.xi #define REG_CHIPTOP_BASE 0x100B00UL // 0x1E00 - 0x1EFF 169*53ee8cc1Swenshuai.xi #if XC_REGISTER_SPREAD 170*53ee8cc1Swenshuai.xi #define REG_SCALER_BASE 0x130000UL 171*53ee8cc1Swenshuai.xi #else 172*53ee8cc1Swenshuai.xi #define REG_SCALER_BASE 0x102F00UL 173*53ee8cc1Swenshuai.xi #endif 174*53ee8cc1Swenshuai.xi #define REG_HDGEN_BASE 0x103000UL 175*53ee8cc1Swenshuai.xi #define REG_LPLL_BASE 0x103100UL 176*53ee8cc1Swenshuai.xi #define REG_MOD_BASE 0x103200UL 177*53ee8cc1Swenshuai.xi #define REG_MOD_A_BASE 0x111E00UL 178*53ee8cc1Swenshuai.xi #define REG_CLKGEN1_BASE 0x103300UL 179*53ee8cc1Swenshuai.xi #define REG_UTMI1_BASE 0x103A00UL 180*53ee8cc1Swenshuai.xi 181*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_BASE 0x100B00UL 182*53ee8cc1Swenshuai.xi #define REG_CLKGEN1_BASE 0x103300UL 183*53ee8cc1Swenshuai.xi 184*53ee8cc1Swenshuai.xi #define REG_MFT_BASE 0x123100UL 185*53ee8cc1Swenshuai.xi 186*53ee8cc1Swenshuai.xi #define REG_CHIP_BASE 0x101E00UL 187*53ee8cc1Swenshuai.xi 188*53ee8cc1Swenshuai.xi #define REG_SC2_BASE 0x103000UL 189*53ee8cc1Swenshuai.xi 190*53ee8cc1Swenshuai.xi /* TCON */ 191*53ee8cc1Swenshuai.xi #define L_BK_TCON(x) BK_REG_L(REG_HDGEN_BASE, x) 192*53ee8cc1Swenshuai.xi #define H_BK_TCON(x) BK_REG_H(REG_HDGEN_BASE, x) 193*53ee8cc1Swenshuai.xi 194*53ee8cc1Swenshuai.xi /* LPLL */ 195*53ee8cc1Swenshuai.xi #define L_BK_LPLL(x) BK_REG_L(REG_LPLL_BASE, x) 196*53ee8cc1Swenshuai.xi #define H_BK_LPLL(x) BK_REG_H(REG_LPLL_BASE, x) 197*53ee8cc1Swenshuai.xi 198*53ee8cc1Swenshuai.xi /* UTMI1 */ 199*53ee8cc1Swenshuai.xi #define L_BK_UTMI1(x) BK_REG_L(REG_UTMI1_BASE, x) 200*53ee8cc1Swenshuai.xi #define H_BK_UTMI1(x) BK_REG_H(REG_UTMI1_BASE, x) 201*53ee8cc1Swenshuai.xi 202*53ee8cc1Swenshuai.xi 203*53ee8cc1Swenshuai.xi #define L_CLKGEN0(x) BK_REG_L(REG_CLKGEN0_BASE, x) 204*53ee8cc1Swenshuai.xi #define H_CLKGEN0(x) BK_REG_H(REG_CLKGEN0_BASE, x) 205*53ee8cc1Swenshuai.xi #define L_CLKGEN1(x) BK_REG_L(REG_CLKGEN1_BASE, x) 206*53ee8cc1Swenshuai.xi #define H_CLKGEN1(x) BK_REG_H(REG_CLKGEN1_BASE, x) 207*53ee8cc1Swenshuai.xi #define L_CLKGEN2(x) BK_REG_L(REG_RVD_BASE, x) 208*53ee8cc1Swenshuai.xi #define H_CLKGEN2(x) BK_REG_H(REG_RVD_BASE, x) 209*53ee8cc1Swenshuai.xi 210*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_52_L (REG_CHIPTOP_BASE + 0xA4) 211*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_53_L (REG_CHIPTOP_BASE + 0xA6) 212*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_57_L (REG_CHIPTOP_BASE + 0xAE) 213*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_58_L (REG_CHIPTOP_BASE + 0xB0) 214*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_5E_L (REG_CHIPTOP_BASE + 0xBC) 215*53ee8cc1Swenshuai.xi #define REG_CLKGEN0_63_L (REG_CHIPTOP_BASE + 0xC6) 216*53ee8cc1Swenshuai.xi 217*53ee8cc1Swenshuai.xi #define REG_CLKGEN1_31_L (REG_CLKGEN1_BASE + 0x62) 218*53ee8cc1Swenshuai.xi #define REG_RVD_09_L (REG_RVD_BASE + 0x12) 219*53ee8cc1Swenshuai.xi #define REG_RVD_43_L (REG_RVD_BASE + 0x86) 220*53ee8cc1Swenshuai.xi #define REG_RVD_44_L (REG_RVD_BASE + 0x88) 221*53ee8cc1Swenshuai.xi #define REG_RVD_46_L (REG_RVD_BASE + 0x8C) 222*53ee8cc1Swenshuai.xi 223*53ee8cc1Swenshuai.xi #define REG_MFT_00_L (REG_MFT_BASE + 0x00) 224*53ee8cc1Swenshuai.xi #define REG_MFT_01_L (REG_MFT_BASE + 0x02) 225*53ee8cc1Swenshuai.xi #define REG_MFT_02_L (REG_MFT_BASE + 0x04) 226*53ee8cc1Swenshuai.xi #define REG_MFT_03_L (REG_MFT_BASE + 0x06) 227*53ee8cc1Swenshuai.xi #define REG_MFT_79_L (REG_MFT_BASE + 0xF2) 228*53ee8cc1Swenshuai.xi #define REG_MFT_7E_L (REG_MFT_BASE + 0xFC) 229*53ee8cc1Swenshuai.xi 230*53ee8cc1Swenshuai.xi #define REG_CHIP_25_L (REG_CHIP_BASE + 0x4A) 231*53ee8cc1Swenshuai.xi #define REG_CHIP_50_L (REG_CHIP_BASE + 0xA0) 232*53ee8cc1Swenshuai.xi 233*53ee8cc1Swenshuai.xi #define REG_SC2_00_L (REG_SC2_BASE + 0x00) 234*53ee8cc1Swenshuai.xi #define REG_SC2_03_L (REG_SC2_BASE + 0x06) 235*53ee8cc1Swenshuai.xi 236*53ee8cc1Swenshuai.xi #define XC_PAFRC_DITH_NOISEDITH_EN (0x00) 237*53ee8cc1Swenshuai.xi #define XC_PAFRC_DITH_TAILCUT_DISABLE (0x00) 238*53ee8cc1Swenshuai.xi 239*53ee8cc1Swenshuai.xi #define LVDS_DUAL_OUTPUT 0 240*53ee8cc1Swenshuai.xi #define LVDS_DUAL_OUTPUT_SPECIAL 1// only for use with T8 board 241*53ee8cc1Swenshuai.xi #define LVDS_SINGLE_OUTPUT_A 2 242*53ee8cc1Swenshuai.xi #define LVDS_SINGLE_OUTPUT_B 3 243*53ee8cc1Swenshuai.xi #define LVDS_OUTPUT_User 4 244*53ee8cc1Swenshuai.xi 245*53ee8cc1Swenshuai.xi // SCALER CLK select 246*53ee8cc1Swenshuai.xi #define REG_CKG_ODCLK REG_CLKGEN0_53_L 247*53ee8cc1Swenshuai.xi #define CKG_ODCLK_GATED BIT(0) 248*53ee8cc1Swenshuai.xi #define CKG_ODCLK_INVERT BIT(1) 249*53ee8cc1Swenshuai.xi #define CKG_ODCLK_SEL_SOURCE BIT(2) 250*53ee8cc1Swenshuai.xi #define CKG_ODCLK_SEL_SYNTHETIC (0 << 2) 251*53ee8cc1Swenshuai.xi #define CKG_ODCLK_SEL_LPLL (1 << 2) 252*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MASK (BIT(3) | BIT(4)) 253*53ee8cc1Swenshuai.xi #define CKG_ODCLK_CLK_DIV_2 (0 << 3) 254*53ee8cc1Swenshuai.xi #define CKG_ODCLK_XTAL (1 << 3) 255*53ee8cc1Swenshuai.xi #define CKG_ODCLK_CLK_DIV_4 (2 << 3) 256*53ee8cc1Swenshuai.xi #define CKG_ODCLK_CLK_LPLL (3 << 3) 257*53ee8cc1Swenshuai.xi 258*53ee8cc1Swenshuai.xi 259*53ee8cc1Swenshuai.xi #define REG_CKG_ODCLK_MFT REG_CLKGEN0_53_L 260*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_GATED BIT(8) 261*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_INVERT BIT(9) 262*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_SEL_SOURCE BIT(10) 263*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_SEL_SYNTHETIC (0 << 10) 264*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_SEL_LPLL (1 << 10) 265*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_MASK (BIT(11) | BIT(12)) 266*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_CLK_DIV_2 (0 << 11) 267*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_XTAL (1 << 11) 268*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_CLK_DIV_4 (2 << 11) 269*53ee8cc1Swenshuai.xi #define CKG_ODCLK_MFT_CLK_LPLL (3 << 11) 270*53ee8cc1Swenshuai.xi 271*53ee8cc1Swenshuai.xi 272*53ee8cc1Swenshuai.xi #define REG_CKG_TX_MOD REG_CLKGEN0_58_L 273*53ee8cc1Swenshuai.xi #define CKG_TX_MOD_GATED BIT(0) 274*53ee8cc1Swenshuai.xi #define CKG_TX_MOD_INVERT BIT(1) 275*53ee8cc1Swenshuai.xi #define CKG_TX_MOD_MASK (BIT(3) | BIT(2)) 276*53ee8cc1Swenshuai.xi #define CKG_TX_1X_4XDIGITAL (0 << 2) 277*53ee8cc1Swenshuai.xi 278*53ee8cc1Swenshuai.xi #define PANEL_LPLL_INPUT_DIV_1st 0x00 279*53ee8cc1Swenshuai.xi #define PANEL_LPLL_INPUT_DIV_2nd 0x00 // 0:/1, 1:/2, 2:/4, 3:/8 280*53ee8cc1Swenshuai.xi #define PANEL_LPLL_LOOP_DIV_1st 0x03 // 0:/1, 1:/2, 2:/4, 3:/8 281*53ee8cc1Swenshuai.xi #define PANEL_LPLL_LOOP_DIV_2nd 0x01 // 282*53ee8cc1Swenshuai.xi #define PANEL_LPLL_OUTPUT_DIV_1st 0x00 // 0:/1, 1:/2, 2:/4, 3:/8 283*53ee8cc1Swenshuai.xi #define PANEL_LPLL_OUTPUT_DIV_2nd 0x00 284*53ee8cc1Swenshuai.xi 285*53ee8cc1Swenshuai.xi #define LVDS_MPLL_CLOCK_MHZ 432 // For crystal 24Mhz 286*53ee8cc1Swenshuai.xi #define LVDS_SPAN_FACTOR 131072 287*53ee8cc1Swenshuai.xi 288*53ee8cc1Swenshuai.xi #define VOP_DE_HSTART_MASK (0x3FFF) //BK_10_04 289*53ee8cc1Swenshuai.xi #define VOP_DE_HEND_MASK (0x3FFF) //BK_10_05 290*53ee8cc1Swenshuai.xi #define VOP_DE_VSTART_MASK (0x1FFF) //BK_10_06 291*53ee8cc1Swenshuai.xi #define VOP_DE_VEND_MASK (0x1FFF) //BK_10_07 292*53ee8cc1Swenshuai.xi 293*53ee8cc1Swenshuai.xi #define VOP_VTT_MASK (0x1FFF) //BK_10_0D 294*53ee8cc1Swenshuai.xi #define VOP_HTT_MASK (0x3FFF) //BK_10_0C 295*53ee8cc1Swenshuai.xi 296*53ee8cc1Swenshuai.xi #define VOP_VSYNC_END_MASK (0x1FFF) //BK_10_03 297*53ee8cc1Swenshuai.xi #define VOP_DISPLAY_HSTART_MASK (0x3FFF) //BK_10_08 298*53ee8cc1Swenshuai.xi #define VOP_DISPLAY_HEND_MASK (0x3FFF) //BK_10_09 299*53ee8cc1Swenshuai.xi #define VOP_DISPLAY_VSTART_MASK (0x1FFF) //BK_10_0A 300*53ee8cc1Swenshuai.xi #define VOP_DISPLAY_VEND_MASK (0x1FFF) //BK_10_0B 301*53ee8cc1Swenshuai.xi 302*53ee8cc1Swenshuai.xi #define SUPPORT_MOD_ADBANK_SEPARATE 303*53ee8cc1Swenshuai.xi 304*53ee8cc1Swenshuai.xi #define SUPPORT_VBY1_HWTRAINING_MODE 305*53ee8cc1Swenshuai.xi 306*53ee8cc1Swenshuai.xi 307*53ee8cc1Swenshuai.xi //for auto set output config and clk according to pin mapping 308*53ee8cc1Swenshuai.xi #define CONFIG_FOR_VBY1_DATA 0x01 309*53ee8cc1Swenshuai.xi #define CONFIG_FOR_VBY1_DATA_BIT_NUM 2 310*53ee8cc1Swenshuai.xi 311*53ee8cc1Swenshuai.xi #define VBY1_CLK_TBL_ROW 4 312*53ee8cc1Swenshuai.xi 313*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 314*53ee8cc1Swenshuai.xi // Type and Structure 315*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 316*53ee8cc1Swenshuai.xi typedef enum 317*53ee8cc1Swenshuai.xi { 318*53ee8cc1Swenshuai.xi E_HALPNL_DEVICE0_XC_BANK_OFFSET = 0, 319*53ee8cc1Swenshuai.xi E_HALPNL_DEVICE1_XC_BANK_OFFSET = 0x80 320*53ee8cc1Swenshuai.xi }PNL_HAL_DEVICE_XC_BANK_OFFSET; 321*53ee8cc1Swenshuai.xi 322*53ee8cc1Swenshuai.xi typedef enum 323*53ee8cc1Swenshuai.xi { 324*53ee8cc1Swenshuai.xi E_DRVPNL_ALLIN_MODE = 1, 325*53ee8cc1Swenshuai.xi E_DRVPNL_2X_MODE = 2, 326*53ee8cc1Swenshuai.xi E_DRVPNL_SEPARATE_MODE = 3, 327*53ee8cc1Swenshuai.xi E_DRVPNL_TYPE_NUM 328*53ee8cc1Swenshuai.xi }DRVPNL_OUT_SWING_TYPE; 329*53ee8cc1Swenshuai.xi 330*53ee8cc1Swenshuai.xi typedef enum 331*53ee8cc1Swenshuai.xi { 332*53ee8cc1Swenshuai.xi HAL_TI_10BIT_MODE = 0, 333*53ee8cc1Swenshuai.xi HAL_TI_8BIT_MODE = 2, 334*53ee8cc1Swenshuai.xi HAL_TI_6BIT_MODE = 3, 335*53ee8cc1Swenshuai.xi } PNL_HAL_TIMODES; 336*53ee8cc1Swenshuai.xi 337*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 338*53ee8cc1Swenshuai.xi // Function and Variable 339*53ee8cc1Swenshuai.xi //------------------------------------------------------------------------------------------------- 340*53ee8cc1Swenshuai.xi HAL_PNL_INTERFACE MS_VIRT g_ptr_PnlRiuBaseAddr; 341*53ee8cc1Swenshuai.xi HAL_PNL_INTERFACE MS_VIRT g_ptr_PMRiuBaseAddr; 342*53ee8cc1Swenshuai.xi 343*53ee8cc1Swenshuai.xi MS_U8 MHal_MOD_PowerOn(void *pInstance, MS_BOOL bEn, MS_U8 u8LPLL_Type,MS_U8 DualModeType, MS_U16 u16OutputCFG0_7, MS_U16 u16OutputCFG8_15, MS_U16 u16OutputCFG16_21); 344*53ee8cc1Swenshuai.xi void MHal_PNL_TCON_Init(void *pInstance); 345*53ee8cc1Swenshuai.xi 346*53ee8cc1Swenshuai.xi void MHal_VOP_SetGammaMappingMode(void *pInstance, MS_U8 u8Mapping); 347*53ee8cc1Swenshuai.xi 348*53ee8cc1Swenshuai.xi void MHal_Shift_LVDS_Pair(void *pInstance, MS_U8 Type); 349*53ee8cc1Swenshuai.xi void MHal_Output_LVDS_Pair_Setting(void *pInstance, MS_U8 Type, MS_U16 u16OutputCFG0_7, MS_U16 u16OutputCFG8_15, MS_U16 u16OutputCFG16_21); 350*53ee8cc1Swenshuai.xi void MHal_Output_Channel_Order(void *pInstance, MS_U8 Type, MS_U16 u16OutputOrder0_3, MS_U16 u16OutputOrder4_7, MS_U16 u16OutputOrder8_11, MS_U16 u16OutputOrder12_13); 351*53ee8cc1Swenshuai.xi void MHal_PQ_Clock_Gen_For_Gamma(void *pInstance); 352*53ee8cc1Swenshuai.xi 353*53ee8cc1Swenshuai.xi void MHal_VOP_SetGammaMappingMode(void *pInstance, MS_U8 u8Mapping); 354*53ee8cc1Swenshuai.xi MS_BOOL Hal_VOP_Is_GammaMappingMode_enable(void *pInstance); 355*53ee8cc1Swenshuai.xi MS_BOOL Hal_VOP_Is_GammaSupportSignalWrite(void *pInstance, DRVPNL_GAMMA_MAPPEING_MODE u8Mapping); 356*53ee8cc1Swenshuai.xi void hal_PNL_WriteGamma12Bit(void *pInstance, MS_U8 u8Channel, MS_BOOL bBurstWrite, MS_U16 u16Addr, MS_U16 u16GammaValue); 357*53ee8cc1Swenshuai.xi void hal_PNL_SetMaxGammaValue(void *pInstance, MS_U8 u8Channel, MS_U16 u16MaxGammaValue); 358*53ee8cc1Swenshuai.xi void Hal_PNL_Set12BitGammaPerChannel(void *pInstance, MS_U8 u8Channel, MS_U8 * u8Tab, DRVPNL_GAMMA_MAPPEING_MODE GammaMapMode); 359*53ee8cc1Swenshuai.xi #ifdef MONACO_SC2 360*53ee8cc1Swenshuai.xi void Hal_PNL_Set12BitGammaPerChannel_SC2(void *pInstance, MS_U8 u8Channel, MS_U8 * u8Tab, DRVPNL_GAMMA_MAPPEING_MODE GammaMapMode ); 361*53ee8cc1Swenshuai.xi #endif 362*53ee8cc1Swenshuai.xi #define Hal_PNL_Get12BitGammaPerChannel(args...) 363*53ee8cc1Swenshuai.xi //void _MDrv_PNL_Set_12BIT_Gamma(void *pInstance, MS_U8 u8Channel, MS_U8 * u8Tab); 364*53ee8cc1Swenshuai.xi MS_U8 MHal_PNL_FRC_lpll_src_sel(void *pInstance, MS_U8 u8src); 365*53ee8cc1Swenshuai.xi void MHal_PNL_Init_LPLL(void *pInstance, PNL_TYPE eLPLL_Type,PNL_MODE eLPLL_Mode,MS_U64 ldHz); 366*53ee8cc1Swenshuai.xi MS_U16 MHal_PNL_Get_LPLL_LoopGain(void *pInstance, MS_U8 eLPLL_Mode, MS_U8 eLPLL_Type, MS_U64 ldHz); 367*53ee8cc1Swenshuai.xi MS_U8 MHal_PNL_Get_Loop_DIV(void *pInstance, MS_U8 u8LPLL_Mode, MS_U8 eLPLL_Type, MS_U64 ldHz); 368*53ee8cc1Swenshuai.xi 369*53ee8cc1Swenshuai.xi MS_BOOL Hal_PNL_SkipTimingChange_GetCaps(void *pInstance); 370*53ee8cc1Swenshuai.xi void MHal_PNL_PreSetModeOn(void *pInstance, MS_BOOL bSetMode); 371*53ee8cc1Swenshuai.xi void MHal_PNL_HWLVDSReservedtoLRFlag(void *pInstance, PNL_DrvHW_LVDSResInfo lvdsresinfo); 372*53ee8cc1Swenshuai.xi void MHal_PNL_OverDriver_Init(void *pInstance, MS_PHY u32OD_MSB_Addr, MS_PHY u32OD_MSB_limit, MS_PHY u32OD_LSB_Addr, MS_PHY u32OD_LSB_limit, MS_U8 u8MIUSel); 373*53ee8cc1Swenshuai.xi void MHal_PNL_OverDriver_Enable(void *pInstance, MS_BOOL bEnable); 374*53ee8cc1Swenshuai.xi void MHal_PNL_OverDriver_TBL(void *pInstance, MS_U8 u8ODTbl[1056]); 375*53ee8cc1Swenshuai.xi 376*53ee8cc1Swenshuai.xi void MHal_PNL_PreInit(void *pInstance, PNL_OUTPUT_MODE eParam); 377*53ee8cc1Swenshuai.xi PNL_OUTPUT_MODE MHal_PNL_Get_Output_MODE(void *pInstance); 378*53ee8cc1Swenshuai.xi void MHal_PNL_SetOutputType(void *pInstance, PNL_OUTPUT_MODE eOutputMode, PNL_TYPE eLPLL_Type); 379*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_MOD_Control_Out_Swing(void *pInstance, MS_U16 u16Swing_Level); 380*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_MOD_Control_Out_PE_Current (void *pInstance, MS_U16 u16Current_Level); 381*53ee8cc1Swenshuai.xi void MHal_PNL_MOD_PECurrent_Setting(void *pInstance, MS_U16 u16Current_Level, MS_U16 u16Channel_Select); 382*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_MOD_Control_Out_TTL_Resistor_OP (void *pInstance, MS_BOOL u16TTL_OP_Level); 383*53ee8cc1Swenshuai.xi 384*53ee8cc1Swenshuai.xi void MHal_PNL_Init_MOD(void *pInstance, PNL_InitData *pstPanelInitData); 385*53ee8cc1Swenshuai.xi void MHal_PNL_Init_XC_Clk(void *pInstance, PNL_InitData *pstPanelInitData); 386*53ee8cc1Swenshuai.xi void MHal_PNL_DumpMODReg(void *pInstance, MS_U32 u32Addr, MS_U16 u16Value, MS_BOOL bHiByte, MS_U16 u16Mask); 387*53ee8cc1Swenshuai.xi void MHal_MOD_Calibration_Init(void *pInstance, PNL_ModCali_InitData *pstModCaliInitData); 388*53ee8cc1Swenshuai.xi void MHal_BD_LVDS_Output_Type(void *pInstance, MS_U16 Type); 389*53ee8cc1Swenshuai.xi PNL_Result MHal_PNL_MOD_Calibration(void *pInstance); 390*53ee8cc1Swenshuai.xi PNL_Result MHal_PNL_En(void *pInstance, MS_BOOL bPanelOn, MS_BOOL bCalEn); 391*53ee8cc1Swenshuai.xi void MHal_PNL_SetOutputPattern(void *pInstance, MS_BOOL bEnable, MS_U16 u16Red , MS_U16 u16Green, MS_U16 u16Blue); 392*53ee8cc1Swenshuai.xi 393*53ee8cc1Swenshuai.xi void MHal_PNL_Switch_LPLL_SubBank(void *pInstance, MS_U16 u16Bank); 394*53ee8cc1Swenshuai.xi void Mhal_PNL_Flock_LPLLSet(void *pInstance, MS_U64 ldHz); 395*53ee8cc1Swenshuai.xi 396*53ee8cc1Swenshuai.xi void MHal_PNL_Switch_TCON_SubBank(void *pInstance, MS_U16 u16Bank); 397*53ee8cc1Swenshuai.xi MS_U16 MHal_PNL_Read_TCON_SubBank(void *pInstance); 398*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_IsYUVOutput(void *pInstance); 399*53ee8cc1Swenshuai.xi 400*53ee8cc1Swenshuai.xi 401*53ee8cc1Swenshuai.xi /// Set pair swap for user mode 402*53ee8cc1Swenshuai.xi #define MHal_FRC_MOD_PairSwap_UserMode(args...) 403*53ee8cc1Swenshuai.xi 404*53ee8cc1Swenshuai.xi #define MHal_PNL_Is_Support120Hz(args...) SUPPORT_FRC 405*53ee8cc1Swenshuai.xi 406*53ee8cc1Swenshuai.xi void MHal_PNL_CalExtLPLLSETbyDClk(void *pInstance, MS_U8 u8LPLL_Mode, MS_U8 u8LPLL_Type, MS_U64 ldHz); 407*53ee8cc1Swenshuai.xi 408*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_VBY1_Handshake(void *pInstance); 409*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_VBY1_OC_Handshake(void *pInstance); 410*53ee8cc1Swenshuai.xi 411*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_SetOutputInterlaceTiming(void *pInstance, MS_BOOL bEnable); 412*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_GetOutputInterlaceTiming(void *pInstance); 413*53ee8cc1Swenshuai.xi void MHal_PNL_SetOSDCOutputType(void *pInstance, PNL_TYPE eLPLL_Type, E_PNL_OSDC_OUTPUT_FORMAT eOC_OutputFormat); 414*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_SetOSDSSC(void *pInstance, MS_U16 u16Fmodulation, MS_U16 u16Rdeviation, MS_BOOL bEnable); 415*53ee8cc1Swenshuai.xi void MHal_PNL_SetOSDSSC_En(void *pInstance, MS_BOOL bEnable); 416*53ee8cc1Swenshuai.xi 417*53ee8cc1Swenshuai.xi void MHal_PNL_Set_T3D_Setting(void *pInstance); 418*53ee8cc1Swenshuai.xi 419*53ee8cc1Swenshuai.xi void MHal_PNL_Set_Device_Bank_Offset(void *pInstance); 420*53ee8cc1Swenshuai.xi void MHal_PNL_Init(void *pInstance); 421*53ee8cc1Swenshuai.xi void MHal_PNL_Bringup(void *pInstance); 422*53ee8cc1Swenshuai.xi void MHal_PNL_ChannelFIFOPointerADjust(void *pInstance); 423*53ee8cc1Swenshuai.xi 424*53ee8cc1Swenshuai.xi MS_U16 MHal_PNL_GetPanelVStart(void); 425*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_Check_VBY1_Handshake_Status(void *pInstance); 426*53ee8cc1Swenshuai.xi void MHal_PNL_VBY1_Hardware_TrainingMode_En(void *pInstance, MS_BOOL bIsVideoMode ,MS_BOOL bEnable); 427*53ee8cc1Swenshuai.xi MS_BOOL MHal_PNL_VBY1_IsSupport_Hardware_TrainingMode(void *pInstance); 428*53ee8cc1Swenshuai.xi void MHal_PNL_TCON_Patch(void); 429*53ee8cc1Swenshuai.xi 430*53ee8cc1Swenshuai.xi 431*53ee8cc1Swenshuai.xi #ifdef __cplusplus 432*53ee8cc1Swenshuai.xi } 433*53ee8cc1Swenshuai.xi #endif 434*53ee8cc1Swenshuai.xi 435*53ee8cc1Swenshuai.xi #endif // _HAL_PNL_H_ 436*53ee8cc1Swenshuai.xi 437