/* SPDX-License-Identifier: GPL-2.0+ * * Copyright (C) 2016 Nexell Co., Ltd. * * Author: junghyun, kim */ #ifndef _NX__DISPLAY_H_ #define _NX__DISPLAY_H_ #define DP_PLANS_NUM 3 /* the display output format. */ #define DPC_FORMAT_RGB555 0 /* RGB555 Format */ #define DPC_FORMAT_RGB565 1 /* RGB565 Format */ #define DPC_FORMAT_RGB666 2 /* RGB666 Format */ #define DPC_FORMAT_RGB888 3 /* RGB888 Format */ #define DPC_FORMAT_MRGB555A 4 /* MRGB555A Format */ #define DPC_FORMAT_MRGB555B 5 /* MRGB555B Format */ #define DPC_FORMAT_MRGB565 6 /* MRGB565 Format */ #define DPC_FORMAT_MRGB666 7 /* MRGB666 Format */ #define DPC_FORMAT_MRGB888A 8 /* MRGB888A Format */ #define DPC_FORMAT_MRGB888B 9 /* MRGB888B Format */ #define DPC_FORMAT_CCIR656 10 /* ITU-R BT.656 / 601(8-bit) */ #define DPC_FORMAT_CCIR601A 12 /* ITU-R BT.601A */ #define DPC_FORMAT_CCIR601B 13 /* ITU-R BT.601B */ #define DPC_FORMAT_4096COLOR 1 /* 4096 Color Format */ #define DPC_FORMAT_16GRAY 3 /* 16 Level Gray Format */ /* layer pixel format. */ #define MLC_RGBFMT_R5G6B5 0x44320000 /* {R5,G6,B5 }. */ #define MLC_RGBFMT_B5G6R5 0xC4320000 /* {B5,G6,R5 }. */ #define MLC_RGBFMT_X1R5G5B5 0x43420000 /* {X1,R5,G5,B5}. */ #define MLC_RGBFMT_X1B5G5R5 0xC3420000 /* {X1,B5,G5,R5}. */ #define MLC_RGBFMT_X4R4G4B4 0x42110000 /* {X4,R4,G4,B4}. */ #define MLC_RGBFMT_X4B4G4R4 0xC2110000 /* {X4,B4,G4,R4}. */ #define MLC_RGBFMT_X8R3G3B2 0x41200000 /* {X8,R3,G3,B2}. */ #define MLC_RGBFMT_X8B3G3R2 0xC1200000 /* {X8,B3,G3,R2}. */ #define MLC_RGBFMT_A1R5G5B5 0x33420000 /* {A1,R5,G5,B5}. */ #define MLC_RGBFMT_A1B5G5R5 0xB3420000 /* {A1,B5,G5,R5}. */ #define MLC_RGBFMT_A4R4G4B4 0x22110000 /* {A4,R4,G4,B4}. */ #define MLC_RGBFMT_A4B4G4R4 0xA2110000 /* {A4,B4,G4,R4}. */ #define MLC_RGBFMT_A8R3G3B2 0x11200000 /* {A8,R3,G3,B2}. */ #define MLC_RGBFMT_A8B3G3R2 0x91200000 /* {A8,B3,G3,R2}. */ #define MLC_RGBFMT_R8G8B8 0x46530000 /* {R8,G8,B8 }. */ #define MLC_RGBFMT_B8G8R8 0xC6530000 /* {B8,G8,R8 }. */ #define MLC_RGBFMT_X8R8G8B8 0x46530000 /* {X8,R8,G8,B8}. */ #define MLC_RGBFMT_X8B8G8R8 0xC6530000 /* {X8,B8,G8,R8}. */ #define MLC_RGBFMT_A8R8G8B8 0x06530000 /* {A8,R8,G8,B8}. */ #define MLC_RGBFMT_A8B8G8R8 0x86530000 /* {A8,B8,G8,R8}. */ /* the data output order in case of ITU-R BT.656 / 601. */ #define DPC_YCORDER_CBYCRY 0 #define DPC_YCORDER_CRYCBY 1 #define DPC_YCORDER_YCBYCR 2 #define DPC_YCORDER_YCRYCB 3 /* the PAD output clock. */ #define DPC_PADCLKSEL_VCLK 0 /* VCLK */ #define DPC_PADCLKSEL_VCLK2 1 /* VCLK2 */ /* display sync info for DPC */ struct dp_sync_info { int interlace; int h_active_len; int h_sync_width; int h_back_porch; int h_front_porch; int h_sync_invert; /* default active low */ int v_active_len; int v_sync_width; int v_back_porch; int v_front_porch; int v_sync_invert; /* default active low */ int pixel_clock_hz; /* HZ */ }; /* syncgen control (DPC) */ #define DP_SYNC_DELAY_RGB_PVD (1 << 0) #define DP_SYNC_DELAY_HSYNC_CP1 (1 << 1) #define DP_SYNC_DELAY_VSYNC_FRAM (1 << 2) #define DP_SYNC_DELAY_DE_CP (1 << 3) struct dp_ctrl_info { /* clock gen */ int clk_src_lv0; int clk_div_lv0; int clk_src_lv1; int clk_div_lv1; /* scan format */ int interlace; /* syncgen format */ unsigned int out_format; int invert_field; /* 0:normal(Low odd), 1:invert (low even) */ int swap_RB; unsigned int yc_order; /* for CCIR output */ /* extern sync delay */ int delay_mask; /* if 0, set defalut delays */ int d_rgb_pvd; /* delay for RGB/PVD, 0~16, default 0 */ int d_hsync_cp1; /* delay for HSYNC/CP1, 0~63, default 12 */ int d_vsync_fram; /* delay for VSYNC/FRAM, 0~63, default 12 */ int d_de_cp2; /* delay for DE/CP2, 0~63, default 12 */ /* sync offset */ int vs_start_offset; /* start vsync offset, defatult 0 */ int vs_end_offset; /* end vsync offset, default 0 */ int ev_start_offset; /* start even vsync offset, default 0 */ int ev_end_offset; /* end even vsync offset , default 0 */ /* pad clock seletor */ int vck_select; /* 0=vclk0, 1=vclk2 */ int clk_inv_lv0; /* OUTCLKINVn */ int clk_delay_lv0; /* OUTCLKDELAYn */ int clk_inv_lv1; /* OUTCLKINVn */ int clk_delay_lv1; /* OUTCLKDELAYn */ int clk_sel_div1; /* 0=clk1_inv, 1=clk1_div_2_ns */ }; /* multi layer control (MLC) */ struct dp_plane_top { int screen_width; int screen_height; int video_prior; /* 0: video>RGBn, 1: RGB0>video>RGB1, * 2: RGB0 > RGB1 > video .. */ int interlace; int plane_num; unsigned int back_color; }; struct dp_plane_info { int layer; unsigned int fb_base; int left; int top; int width; int height; int pixel_byte; unsigned int format; int alpha_on; int alpha_depth; int tp_on; /* transparency color enable */ unsigned int tp_color; unsigned int mem_lock_size; /* memory burst access (4,8,16) */ int video_layer; int enable; }; /* * LCD device dependency struct * RGB, LVDS, MiPi, HDMI */ enum { DP_DEVICE_RESCONV = 0, DP_DEVICE_RGBLCD = 1, DP_DEVICE_HDMI = 2, DP_DEVICE_MIPI = 3, DP_DEVICE_LVDS = 4, DP_DEVICE_CVBS = 5, DP_DEVICE_DP0 = 6, DP_DEVICE_DP1 = 7, DP_DEVICE_END, }; enum { DP_CLOCK_RESCONV = 0, DP_CLOCK_LCDIF = 1, DP_CLOCK_MIPI = 2, DP_CLOCK_LVDS = 3, DP_CLOCK_HDMI = 4, DP_CLOCK_END, }; enum dp_lvds_format { DP_LVDS_FORMAT_VESA = 0, DP_LVDS_FORMAT_JEIDA = 1, DP_LVDS_FORMAT_LOC = 2, }; #define DEF_VOLTAGE_LEVEL (0x20) struct dp_lvds_dev { enum dp_lvds_format lvds_format; /* 0:VESA, 1:JEIDA, 2: Location */ int pol_inv_hs; /* hsync polarity invert for VESA, JEIDA */ int pol_inv_vs; /* bsync polarity invert for VESA, JEIDA */ int pol_inv_de; /* de polarity invert for VESA, JEIDA */ int pol_inv_ck; /* input clock(pixel clock) polarity invert */ int voltage_level; /* Location setting */ unsigned int loc_map[9]; /* Location Setting */ unsigned int loc_mask[2]; /* Location Setting, 0 ~ 34 */ unsigned int loc_pol[2]; /* Location Setting, 0 ~ 34 */ }; #include "mipi_display.h" struct dp_mipi_dev { int lp_bitrate; /* to lcd setup, low power bitrate (150, 100, 80 Mhz) */ int hs_bitrate; /* to lcd data, high speed bitrate (1000, ... Mhz) */ int lpm_trans; int command_mode; unsigned int hs_pllpms; unsigned int hs_bandctl; unsigned int lp_pllpms; unsigned int lp_bandctl; struct mipi_dsi_device dsi; }; struct dp_rgb_dev { int lcd_mpu_type; }; struct dp_hdmi_dev { int preset; }; /* platform data for the driver model */ struct nx_display_plat { int module; struct dp_sync_info sync; struct dp_ctrl_info ctrl; struct dp_plane_top top; struct dp_plane_info plane[DP_PLANS_NUM]; int dev_type; void *device; }; /* Lcd api */ void nx_lvds_display(int module, struct dp_sync_info *sync, struct dp_ctrl_info *ctrl, struct dp_plane_top *top, struct dp_plane_info *planes, struct dp_lvds_dev *dev); void nx_rgb_display(int module, struct dp_sync_info *sync, struct dp_ctrl_info *ctrl, struct dp_plane_top *top, struct dp_plane_info *planes, struct dp_rgb_dev *dev); void nx_hdmi_display(int module, struct dp_sync_info *sync, struct dp_ctrl_info *ctrl, struct dp_plane_top *top, struct dp_plane_info *planes, struct dp_hdmi_dev *dev); void nx_mipi_display(int module, struct dp_sync_info *sync, struct dp_ctrl_info *ctrl, struct dp_plane_top *top, struct dp_plane_info *planes, struct dp_mipi_dev *dev); int nx_mipi_dsi_lcd_bind(struct mipi_dsi_device *dsi); /* disaply api */ void dp_control_init(int module); int dp_control_setup(int module, struct dp_sync_info *sync, struct dp_ctrl_info *ctrl); void dp_control_enable(int module, int on); void dp_plane_init(int module); int dp_plane_screen_setup(int module, struct dp_plane_top *top); void dp_plane_screen_enable(int module, int on); int dp_plane_layer_setup(int module, struct dp_plane_info *plane); void dp_plane_layer_enable(int module, struct dp_plane_info *plane, int on); int dp_plane_set_enable(int module, int layer, int on); int dp_plane_set_address(int module, int layer, unsigned int address); int dp_plane_wait_vsync(int module, int layer, int fps); #if defined CONFIG_SPL_BUILD || \ (!defined(CONFIG_DM) && !defined(CONFIG_OF_CONTROL)) int nx_display_probe(struct nx_display_plat *plat); #endif #endif