drivers/gpu/drm/kmb/kmb_dsi.h - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only
  *
  * Copyright © 2019-2020 Intel Corporation
  */

 #ifndef __KMB_DSI_H__
 #define __KMB_DSI_H__

 #include <drm/drm_encoder.h>
 #include <drm/drm_mipi_dsi.h>

 /* MIPI TX CFG */
 #define MIPI_TX_LANE_DATA_RATE_MBPS 891
 #define MIPI_TX_REF_CLK_KHZ         24000
 #define MIPI_TX_CFG_CLK_KHZ         24000
 #define MIPI_TX_BPP		    24

 /* DPHY Tx test codes*/
 #define TEST_CODE_FSM_CONTROL				0x03
 #define TEST_CODE_MULTIPLE_PHY_CTRL			0x0C
 #define TEST_CODE_PLL_PROPORTIONAL_CHARGE_PUMP_CTRL	0x0E
 #define TEST_CODE_PLL_INTEGRAL_CHARGE_PUMP_CTRL		0x0F
 #define TEST_CODE_PLL_VCO_CTRL				0x12
 #define TEST_CODE_PLL_GMP_CTRL				0x13
 #define TEST_CODE_PLL_PHASE_ERR_CTRL			0x14
 #define TEST_CODE_PLL_LOCK_FILTER			0x15
 #define TEST_CODE_PLL_UNLOCK_FILTER			0x16
 #define TEST_CODE_PLL_INPUT_DIVIDER			0x17
 #define TEST_CODE_PLL_FEEDBACK_DIVIDER			0x18
 #define   PLL_FEEDBACK_DIVIDER_HIGH			BIT(7)
 #define TEST_CODE_PLL_OUTPUT_CLK_SEL			0x19
 #define   PLL_N_OVR_EN					BIT(4)
 #define   PLL_M_OVR_EN					BIT(5)
 #define TEST_CODE_VOD_LEVEL				0x24
 #define TEST_CODE_PLL_CHARGE_PUMP_BIAS			0x1C
 #define TEST_CODE_PLL_LOCK_DETECTOR			0x1D
 #define TEST_CODE_HS_FREQ_RANGE_CFG			0x44
 #define TEST_CODE_PLL_ANALOG_PROG			0x1F
 #define TEST_CODE_SLEW_RATE_OVERRIDE_CTRL		0xA0
 #define TEST_CODE_SLEW_RATE_DDL_LOOP_CTRL		0xA3
 #define TEST_CODE_SLEW_RATE_DDL_CYCLES			0xA4

 /* DPHY params */
 #define PLL_N_MIN	0
 #define PLL_N_MAX	15
 #define PLL_M_MIN	62
 #define PLL_M_MAX	623
 #define PLL_FVCO_MAX	1250

 #define TIMEOUT		600

 #define MIPI_TX_FRAME_GEN				4
 #define MIPI_TX_FRAME_GEN_SECTIONS			4
 #define MIPI_CTRL_VIRTUAL_CHANNELS			4
 #define MIPI_D_LANES_PER_DPHY				2
 #define MIPI_CTRL_2LANE_MAX_MC_FIFO_LOC			255
 #define MIPI_CTRL_4LANE_MAX_MC_FIFO_LOC			511
 /* 2 Data Lanes per D-PHY */
 #define MIPI_DPHY_D_LANES				2
 #define MIPI_DPHY_DEFAULT_BIT_RATES			63

 #define KMB_MIPI_DEFAULT_CLK				24000000
 #define KMB_MIPI_DEFAULT_CFG_CLK			24000000

 #define to_kmb_dsi(x) container_of(x, struct kmb_dsi, base)

 struct kmb_dsi {
 	struct drm_encoder base;
 	struct device *dev;
 	struct platform_device *pdev;
 	struct mipi_dsi_host *host;
 	struct mipi_dsi_device *device;
 	struct drm_bridge *adv_bridge;
 	void __iomem *mipi_mmio;
 	struct clk *clk_mipi;
 	struct clk *clk_mipi_ecfg;
 	struct clk *clk_mipi_cfg;
 	int sys_clk_mhz;
 };

 /* DPHY Tx test codes */

 enum mipi_ctrl_num {
 	MIPI_CTRL0 = 0,
 	MIPI_CTRL1,
 	MIPI_CTRL2,
 	MIPI_CTRL3,
 	MIPI_CTRL4,
 	MIPI_CTRL5,
 	MIPI_CTRL6,
 	MIPI_CTRL7,
 	MIPI_CTRL8,
 	MIPI_CTRL9,
 	MIPI_CTRL_NA
 };

 enum mipi_dphy_num {
 	MIPI_DPHY0 = 0,
 	MIPI_DPHY1,
 	MIPI_DPHY2,
 	MIPI_DPHY3,
 	MIPI_DPHY4,
 	MIPI_DPHY5,
 	MIPI_DPHY6,
 	MIPI_DPHY7,
 	MIPI_DPHY8,
 	MIPI_DPHY9,
 	MIPI_DPHY_NA
 };

 enum mipi_dir {
 	MIPI_RX,
 	MIPI_TX
 };

 enum mipi_ctrl_type {
 	MIPI_DSI,
 	MIPI_CSI
 };

 enum mipi_data_if {
 	MIPI_IF_DMA,
 	MIPI_IF_PARALLEL
 };

 enum mipi_data_mode {
 	MIPI_DATA_MODE0,
 	MIPI_DATA_MODE1,
 	MIPI_DATA_MODE2,
 	MIPI_DATA_MODE3
 };

 enum mipi_dsi_video_mode {
 	DSI_VIDEO_MODE_NO_BURST_PULSE,
 	DSI_VIDEO_MODE_NO_BURST_EVENT,
 	DSI_VIDEO_MODE_BURST
 };

 enum mipi_dsi_blanking_mode {
 	TRANSITION_TO_LOW_POWER,
 	SEND_BLANK_PACKET
 };

 enum mipi_dsi_eotp {
 	DSI_EOTP_DISABLED,
 	DSI_EOTP_ENABLES
 };

 enum mipi_dsi_data_type {
 	DSI_SP_DT_RESERVED_00 = 0x00,
 	DSI_SP_DT_VSYNC_START = 0x01,
 	DSI_SP_DT_COLOR_MODE_OFF = 0x02,
 	DSI_SP_DT_GENERIC_SHORT_WR = 0x03,
 	DSI_SP_DT_GENERIC_RD = 0x04,
 	DSI_SP_DT_DCS_SHORT_WR = 0x05,
 	DSI_SP_DT_DCS_RD = 0x06,
 	DSI_SP_DT_EOTP = 0x08,
 	DSI_LP_DT_NULL = 0x09,
 	DSI_LP_DT_RESERVED_0A = 0x0a,
 	DSI_LP_DT_RESERVED_0B = 0x0b,
 	DSI_LP_DT_LPPS_YCBCR422_20B = 0x0c,
 	DSI_LP_DT_PPS_RGB101010_30B = 0x0d,
 	DSI_LP_DT_PPS_RGB565_16B = 0x0e,
 	DSI_LP_DT_RESERVED_0F = 0x0f,

 	DSI_SP_DT_RESERVED_10 = 0x10,
 	DSI_SP_DT_VSYNC_END = 0x11,
 	DSI_SP_DT_COLOR_MODE_ON = 0x12,
 	DSI_SP_DT_GENERIC_SHORT_WR_1PAR = 0x13,
 	DSI_SP_DT_GENERIC_RD_1PAR = 0x14,
 	DSI_SP_DT_DCS_SHORT_WR_1PAR = 0x15,
 	DSI_SP_DT_RESERVED_16 = 0x16,
 	DSI_SP_DT_RESERVED_17 = 0x17,
 	DSI_SP_DT_RESERVED_18 = 0x18,
 	DSI_LP_DT_BLANK = 0x19,
 	DSI_LP_DT_RESERVED_1A = 0x1a,
 	DSI_LP_DT_RESERVED_1B = 0x1b,
 	DSI_LP_DT_PPS_YCBCR422_24B = 0x1c,
 	DSI_LP_DT_PPS_RGB121212_36B = 0x1d,
 	DSI_LP_DT_PPS_RGB666_18B = 0x1e,
 	DSI_LP_DT_RESERVED_1F = 0x1f,

 	DSI_SP_DT_RESERVED_20 = 0x20,
 	DSI_SP_DT_HSYNC_START = 0x21,
 	DSI_SP_DT_SHUT_DOWN_PERIPH_CMD = 0x22,
 	DSI_SP_DT_GENERIC_SHORT_WR_2PAR = 0x23,
 	DSI_SP_DT_GENERIC_RD_2PAR = 0x24,
 	DSI_SP_DT_RESERVED_25 = 0x25,
 	DSI_SP_DT_RESERVED_26 = 0x26,
 	DSI_SP_DT_RESERVED_27 = 0x27,
 	DSI_SP_DT_RESERVED_28 = 0x28,
 	DSI_LP_DT_GENERIC_LONG_WR = 0x29,
 	DSI_LP_DT_RESERVED_2A = 0x2a,
 	DSI_LP_DT_RESERVED_2B = 0x2b,
 	DSI_LP_DT_PPS_YCBCR422_16B = 0x2c,
 	DSI_LP_DT_RESERVED_2D = 0x2d,
 	DSI_LP_DT_LPPS_RGB666_18B = 0x2e,
 	DSI_LP_DT_RESERVED_2F = 0x2f,

 	DSI_SP_DT_RESERVED_30 = 0x30,
 	DSI_SP_DT_HSYNC_END = 0x31,
 	DSI_SP_DT_TURN_ON_PERIPH_CMD = 0x32,
 	DSI_SP_DT_RESERVED_33 = 0x33,
 	DSI_SP_DT_RESERVED_34 = 0x34,
 	DSI_SP_DT_RESERVED_35 = 0x35,
 	DSI_SP_DT_RESERVED_36 = 0x36,
 	DSI_SP_DT_SET_MAX_RETURN_PKT_SIZE = 0x37,
 	DSI_SP_DT_RESERVED_38 = 0x38,
 	DSI_LP_DT_DSC_LONG_WR = 0x39,
 	DSI_LP_DT_RESERVED_3A = 0x3a,
 	DSI_LP_DT_RESERVED_3B = 0x3b,
 	DSI_LP_DT_RESERVED_3C = 0x3c,
 	DSI_LP_DT_PPS_YCBCR420_12B = 0x3d,
 	DSI_LP_DT_PPS_RGB888_24B = 0x3e,
 	DSI_LP_DT_RESERVED_3F = 0x3f
 };

 enum mipi_tx_hs_tp_sel {
 	MIPI_TX_HS_TP_WHOLE_FRAME_COLOR0 = 0,
 	MIPI_TX_HS_TP_WHOLE_FRAME_COLOR1,
 	MIPI_TX_HS_TP_V_STRIPES,
 	MIPI_TX_HS_TP_H_STRIPES,
 };

 enum dphy_mode {
 	MIPI_DPHY_SLAVE = 0,
 	MIPI_DPHY_MASTER
 };

 enum dphy_tx_fsm {
 	DPHY_TX_POWERDWN = 0,
 	DPHY_TX_BGPON,
 	DPHY_TX_TERMCAL,
 	DPHY_TX_TERMCALUP,
 	DPHY_TX_OFFSETCAL,
 	DPHY_TX_LOCK,
 	DPHY_TX_SRCAL,
 	DPHY_TX_IDLE,
 	DPHY_TX_ULP,
 	DPHY_TX_LANESTART,
 	DPHY_TX_CLKALIGN,
 	DPHY_TX_DDLTUNNING,
 	DPHY_TX_ULP_FORCE_PLL,
 	DPHY_TX_LOCK_LOSS
 };

 struct mipi_data_type_params {
 	u8 size_constraint_pixels;
 	u8 size_constraint_bytes;
 	u8 pixels_per_pclk;
 	u8 bits_per_pclk;
 };

 struct mipi_tx_dsi_cfg {
 	u8 hfp_blank_en;	/* Horizontal front porch blanking enable */
 	u8 eotp_en;		/* End of transmission packet enable */
 	/* Last vertical front porch blanking mode */
 	u8 lpm_last_vfp_line;
 	/* First vertical sync active blanking mode */
 	u8 lpm_first_vsa_line;
 	u8 sync_pulse_eventn;	/* Sync type */
 	u8 hfp_blanking;	/* Horizontal front porch blanking mode */
 	u8 hbp_blanking;	/* Horizontal back porch blanking mode */
 	u8 hsa_blanking;	/* Horizontal sync active blanking mode */
 	u8 v_blanking;		/* Vertical timing blanking mode */
 };

 struct mipi_tx_frame_section_cfg {
 	u32 dma_v_stride;
 	u16 dma_v_scale_cfg;
 	u16 width_pixels;
 	u16 height_lines;
 	u8 dma_packed;
 	u8 bpp;
 	u8 bpp_unpacked;
 	u8 dma_h_stride;
 	u8 data_type;
 	u8 data_mode;
 	u8 dma_flip_rotate_sel;
 };

 struct mipi_tx_frame_timing_cfg {
 	u32 bpp;
 	u32 lane_rate_mbps;
 	u32 hsync_width;
 	u32 h_backporch;
 	u32 h_frontporch;
 	u32 h_active;
 	u16 vsync_width;
 	u16 v_backporch;
 	u16 v_frontporch;
 	u16 v_active;
 	u8 active_lanes;
 };

 struct mipi_tx_frame_sect_phcfg {
 	u32 wc;
 	enum mipi_data_mode data_mode;
 	enum mipi_dsi_data_type data_type;
 	u8 vchannel;
 	u8 dma_packed;
 };

 struct mipi_tx_frame_cfg {
 	struct mipi_tx_frame_section_cfg *sections[MIPI_TX_FRAME_GEN_SECTIONS];
 	u32 hsync_width;	/* in pixels */
 	u32 h_backporch;	/* in pixels */
 	u32 h_frontporch;	/* in pixels */
 	u16 vsync_width;	/* in lines */
 	u16 v_backporch;	/* in lines */
 	u16 v_frontporch;	/* in lines */
 };

 struct mipi_tx_ctrl_cfg {
 	struct mipi_tx_frame_cfg *frames[MIPI_TX_FRAME_GEN];
 	const struct mipi_tx_dsi_cfg *tx_dsi_cfg;
 	u8 line_sync_pkt_en;
 	u8 line_counter_active;
 	u8 frame_counter_active;
 	u8 tx_hsclkkidle_cnt;
 	u8 tx_hsexit_cnt;
 	u8 tx_crc_en;
 	u8 tx_hact_wait_stop;
 	u8 tx_always_use_hact;
 	u8 tx_wait_trig;
 	u8 tx_wait_all_sect;
 };

 /* configuration structure for MIPI control */
 struct mipi_ctrl_cfg {
 	u8 active_lanes;	/* # active lanes per controller 2/4 */
 	u32 lane_rate_mbps;	/* MBPS */
 	u32 ref_clk_khz;
 	u32 cfg_clk_khz;
 	struct mipi_tx_ctrl_cfg tx_ctrl_cfg;
 };

 static inline void kmb_write_mipi(struct kmb_dsi *kmb_dsi,
 				  unsigned int reg, u32 value)
 {
 	writel(value, (kmb_dsi->mipi_mmio + reg));
 }

 static inline u32 kmb_read_mipi(struct kmb_dsi *kmb_dsi, unsigned int reg)
 {
 	return readl(kmb_dsi->mipi_mmio + reg);
 }

 static inline void kmb_write_bits_mipi(struct kmb_dsi *kmb_dsi,
 				       unsigned int reg, u32 offset,
 				       u32 num_bits, u32 value)
 {
 	u32 reg_val = kmb_read_mipi(kmb_dsi, reg);
 	u32 mask = (1 << num_bits) - 1;

 	value &= mask;
 	mask <<= offset;
 	reg_val &= (~mask);
 	reg_val |= (value << offset);
 	kmb_write_mipi(kmb_dsi, reg, reg_val);
 }

 static inline void kmb_set_bit_mipi(struct kmb_dsi *kmb_dsi,
 				    unsigned int reg, u32 offset)
 {
 	u32 reg_val = kmb_read_mipi(kmb_dsi, reg);

 	kmb_write_mipi(kmb_dsi, reg, reg_val | (1 << offset));
 }

 static inline void kmb_clr_bit_mipi(struct kmb_dsi *kmb_dsi,
 				    unsigned int reg, u32 offset)
 {
 	u32 reg_val = kmb_read_mipi(kmb_dsi, reg);

 	kmb_write_mipi(kmb_dsi, reg, reg_val & (~(1 << offset)));
 }

 int kmb_dsi_host_bridge_init(struct device *dev);
 struct kmb_dsi *kmb_dsi_init(struct platform_device *pdev);
 void kmb_dsi_host_unregister(struct kmb_dsi *kmb_dsi);
 int kmb_dsi_mode_set(struct kmb_dsi *kmb_dsi, struct drm_display_mode *mode,
 		     int sys_clk_mhz, struct drm_atomic_state *old_state);
 int kmb_dsi_map_mmio(struct kmb_dsi *kmb_dsi);
 int kmb_dsi_clk_init(struct kmb_dsi *kmb_dsi);
 int kmb_dsi_encoder_init(struct drm_device *dev, struct kmb_dsi *kmb_dsi);
 #endif /* __KMB_DSI_H__ */
	/* SPDX-License-Identifier: GPL-2.0-only
	*
	* Copyright © 2019-2020 Intel Corporation
	*/

	#ifndef __KMB_DSI_H__
	#define __KMB_DSI_H__

	#include <drm/drm_encoder.h>
	#include <drm/drm_mipi_dsi.h>

	/* MIPI TX CFG */
	#define MIPI_TX_LANE_DATA_RATE_MBPS 891
	#define MIPI_TX_REF_CLK_KHZ 24000
	#define MIPI_TX_CFG_CLK_KHZ 24000
	#define MIPI_TX_BPP 24

	/* DPHY Tx test codes*/
	#define TEST_CODE_FSM_CONTROL 0x03
	#define TEST_CODE_MULTIPLE_PHY_CTRL 0x0C
	#define TEST_CODE_PLL_PROPORTIONAL_CHARGE_PUMP_CTRL 0x0E
	#define TEST_CODE_PLL_INTEGRAL_CHARGE_PUMP_CTRL 0x0F
	#define TEST_CODE_PLL_VCO_CTRL 0x12
	#define TEST_CODE_PLL_GMP_CTRL 0x13
	#define TEST_CODE_PLL_PHASE_ERR_CTRL 0x14
	#define TEST_CODE_PLL_LOCK_FILTER 0x15
	#define TEST_CODE_PLL_UNLOCK_FILTER 0x16
	#define TEST_CODE_PLL_INPUT_DIVIDER 0x17
	#define TEST_CODE_PLL_FEEDBACK_DIVIDER 0x18
	#define PLL_FEEDBACK_DIVIDER_HIGH BIT(7)
	#define TEST_CODE_PLL_OUTPUT_CLK_SEL 0x19
	#define PLL_N_OVR_EN BIT(4)
	#define PLL_M_OVR_EN BIT(5)
	#define TEST_CODE_VOD_LEVEL 0x24
	#define TEST_CODE_PLL_CHARGE_PUMP_BIAS 0x1C
	#define TEST_CODE_PLL_LOCK_DETECTOR 0x1D
	#define TEST_CODE_HS_FREQ_RANGE_CFG 0x44
	#define TEST_CODE_PLL_ANALOG_PROG 0x1F
	#define TEST_CODE_SLEW_RATE_OVERRIDE_CTRL 0xA0
	#define TEST_CODE_SLEW_RATE_DDL_LOOP_CTRL 0xA3
	#define TEST_CODE_SLEW_RATE_DDL_CYCLES 0xA4

	/* DPHY params */
	#define PLL_N_MIN 0
	#define PLL_N_MAX 15
	#define PLL_M_MIN 62
	#define PLL_M_MAX 623
	#define PLL_FVCO_MAX 1250

	#define TIMEOUT 600

	#define MIPI_TX_FRAME_GEN 4
	#define MIPI_TX_FRAME_GEN_SECTIONS 4
	#define MIPI_CTRL_VIRTUAL_CHANNELS 4
	#define MIPI_D_LANES_PER_DPHY 2
	#define MIPI_CTRL_2LANE_MAX_MC_FIFO_LOC 255
	#define MIPI_CTRL_4LANE_MAX_MC_FIFO_LOC 511
	/* 2 Data Lanes per D-PHY */
	#define MIPI_DPHY_D_LANES 2
	#define MIPI_DPHY_DEFAULT_BIT_RATES 63

	#define KMB_MIPI_DEFAULT_CLK 24000000
	#define KMB_MIPI_DEFAULT_CFG_CLK 24000000

	#define to_kmb_dsi(x) container_of(x, struct kmb_dsi, base)

	struct kmb_dsi {
	struct drm_encoder base;
	struct device *dev;
	struct platform_device *pdev;
	struct mipi_dsi_host *host;
	struct mipi_dsi_device *device;
	struct drm_bridge *adv_bridge;
	void __iomem *mipi_mmio;
	struct clk *clk_mipi;
	struct clk *clk_mipi_ecfg;
	struct clk *clk_mipi_cfg;
	int sys_clk_mhz;
	};

	/* DPHY Tx test codes */

	enum mipi_ctrl_num {
	MIPI_CTRL0 = 0,
	MIPI_CTRL1,
	MIPI_CTRL2,
	MIPI_CTRL3,
	MIPI_CTRL4,
	MIPI_CTRL5,
	MIPI_CTRL6,
	MIPI_CTRL7,
	MIPI_CTRL8,
	MIPI_CTRL9,
	MIPI_CTRL_NA
	};

	enum mipi_dphy_num {
	MIPI_DPHY0 = 0,
	MIPI_DPHY1,
	MIPI_DPHY2,
	MIPI_DPHY3,
	MIPI_DPHY4,
	MIPI_DPHY5,
	MIPI_DPHY6,
	MIPI_DPHY7,
	MIPI_DPHY8,
	MIPI_DPHY9,
	MIPI_DPHY_NA
	};

	enum mipi_dir {
	MIPI_RX,
	MIPI_TX
	};

	enum mipi_ctrl_type {
	MIPI_DSI,
	MIPI_CSI
	};

	enum mipi_data_if {
	MIPI_IF_DMA,
	MIPI_IF_PARALLEL
	};

	enum mipi_data_mode {
	MIPI_DATA_MODE0,
	MIPI_DATA_MODE1,
	MIPI_DATA_MODE2,
	MIPI_DATA_MODE3
	};

	enum mipi_dsi_video_mode {
	DSI_VIDEO_MODE_NO_BURST_PULSE,
	DSI_VIDEO_MODE_NO_BURST_EVENT,
	DSI_VIDEO_MODE_BURST
	};

	enum mipi_dsi_blanking_mode {
	TRANSITION_TO_LOW_POWER,
	SEND_BLANK_PACKET
	};

	enum mipi_dsi_eotp {
	DSI_EOTP_DISABLED,
	DSI_EOTP_ENABLES
	};

	enum mipi_dsi_data_type {
	DSI_SP_DT_RESERVED_00 = 0x00,
	DSI_SP_DT_VSYNC_START = 0x01,
	DSI_SP_DT_COLOR_MODE_OFF = 0x02,
	DSI_SP_DT_GENERIC_SHORT_WR = 0x03,
	DSI_SP_DT_GENERIC_RD = 0x04,
	DSI_SP_DT_DCS_SHORT_WR = 0x05,
	DSI_SP_DT_DCS_RD = 0x06,
	DSI_SP_DT_EOTP = 0x08,
	DSI_LP_DT_NULL = 0x09,
	DSI_LP_DT_RESERVED_0A = 0x0a,
	DSI_LP_DT_RESERVED_0B = 0x0b,
	DSI_LP_DT_LPPS_YCBCR422_20B = 0x0c,
	DSI_LP_DT_PPS_RGB101010_30B = 0x0d,
	DSI_LP_DT_PPS_RGB565_16B = 0x0e,
	DSI_LP_DT_RESERVED_0F = 0x0f,

	DSI_SP_DT_RESERVED_10 = 0x10,
	DSI_SP_DT_VSYNC_END = 0x11,
	DSI_SP_DT_COLOR_MODE_ON = 0x12,
	DSI_SP_DT_GENERIC_SHORT_WR_1PAR = 0x13,
	DSI_SP_DT_GENERIC_RD_1PAR = 0x14,
	DSI_SP_DT_DCS_SHORT_WR_1PAR = 0x15,
	DSI_SP_DT_RESERVED_16 = 0x16,
	DSI_SP_DT_RESERVED_17 = 0x17,
	DSI_SP_DT_RESERVED_18 = 0x18,
	DSI_LP_DT_BLANK = 0x19,
	DSI_LP_DT_RESERVED_1A = 0x1a,
	DSI_LP_DT_RESERVED_1B = 0x1b,
	DSI_LP_DT_PPS_YCBCR422_24B = 0x1c,
	DSI_LP_DT_PPS_RGB121212_36B = 0x1d,
	DSI_LP_DT_PPS_RGB666_18B = 0x1e,
	DSI_LP_DT_RESERVED_1F = 0x1f,

	DSI_SP_DT_RESERVED_20 = 0x20,
	DSI_SP_DT_HSYNC_START = 0x21,
	DSI_SP_DT_SHUT_DOWN_PERIPH_CMD = 0x22,
	DSI_SP_DT_GENERIC_SHORT_WR_2PAR = 0x23,
	DSI_SP_DT_GENERIC_RD_2PAR = 0x24,
	DSI_SP_DT_RESERVED_25 = 0x25,
	DSI_SP_DT_RESERVED_26 = 0x26,
	DSI_SP_DT_RESERVED_27 = 0x27,
	DSI_SP_DT_RESERVED_28 = 0x28,
	DSI_LP_DT_GENERIC_LONG_WR = 0x29,
	DSI_LP_DT_RESERVED_2A = 0x2a,
	DSI_LP_DT_RESERVED_2B = 0x2b,
	DSI_LP_DT_PPS_YCBCR422_16B = 0x2c,
	DSI_LP_DT_RESERVED_2D = 0x2d,
	DSI_LP_DT_LPPS_RGB666_18B = 0x2e,
	DSI_LP_DT_RESERVED_2F = 0x2f,

	DSI_SP_DT_RESERVED_30 = 0x30,
	DSI_SP_DT_HSYNC_END = 0x31,
	DSI_SP_DT_TURN_ON_PERIPH_CMD = 0x32,
	DSI_SP_DT_RESERVED_33 = 0x33,
	DSI_SP_DT_RESERVED_34 = 0x34,
	DSI_SP_DT_RESERVED_35 = 0x35,
	DSI_SP_DT_RESERVED_36 = 0x36,
	DSI_SP_DT_SET_MAX_RETURN_PKT_SIZE = 0x37,
	DSI_SP_DT_RESERVED_38 = 0x38,
	DSI_LP_DT_DSC_LONG_WR = 0x39,
	DSI_LP_DT_RESERVED_3A = 0x3a,
	DSI_LP_DT_RESERVED_3B = 0x3b,
	DSI_LP_DT_RESERVED_3C = 0x3c,
	DSI_LP_DT_PPS_YCBCR420_12B = 0x3d,
	DSI_LP_DT_PPS_RGB888_24B = 0x3e,
	DSI_LP_DT_RESERVED_3F = 0x3f
	};

	enum mipi_tx_hs_tp_sel {
	MIPI_TX_HS_TP_WHOLE_FRAME_COLOR0 = 0,
	MIPI_TX_HS_TP_WHOLE_FRAME_COLOR1,
	MIPI_TX_HS_TP_V_STRIPES,
	MIPI_TX_HS_TP_H_STRIPES,
	};

	enum dphy_mode {
	MIPI_DPHY_SLAVE = 0,
	MIPI_DPHY_MASTER
	};

	enum dphy_tx_fsm {
	DPHY_TX_POWERDWN = 0,
	DPHY_TX_BGPON,
	DPHY_TX_TERMCAL,
	DPHY_TX_TERMCALUP,
	DPHY_TX_OFFSETCAL,
	DPHY_TX_LOCK,
	DPHY_TX_SRCAL,
	DPHY_TX_IDLE,
	DPHY_TX_ULP,
	DPHY_TX_LANESTART,
	DPHY_TX_CLKALIGN,
	DPHY_TX_DDLTUNNING,
	DPHY_TX_ULP_FORCE_PLL,
	DPHY_TX_LOCK_LOSS
	};

	struct mipi_data_type_params {
	u8 size_constraint_pixels;
	u8 size_constraint_bytes;
	u8 pixels_per_pclk;
	u8 bits_per_pclk;
	};

	struct mipi_tx_dsi_cfg {
	u8 hfp_blank_en; /* Horizontal front porch blanking enable */
	u8 eotp_en; /* End of transmission packet enable */
	/* Last vertical front porch blanking mode */
	u8 lpm_last_vfp_line;
	/* First vertical sync active blanking mode */
	u8 lpm_first_vsa_line;
	u8 sync_pulse_eventn; /* Sync type */
	u8 hfp_blanking; /* Horizontal front porch blanking mode */
	u8 hbp_blanking; /* Horizontal back porch blanking mode */
	u8 hsa_blanking; /* Horizontal sync active blanking mode */
	u8 v_blanking; /* Vertical timing blanking mode */
	};

	struct mipi_tx_frame_section_cfg {
	u32 dma_v_stride;
	u16 dma_v_scale_cfg;
	u16 width_pixels;
	u16 height_lines;
	u8 dma_packed;
	u8 bpp;
	u8 bpp_unpacked;
	u8 dma_h_stride;
	u8 data_type;
	u8 data_mode;
	u8 dma_flip_rotate_sel;
	};

	struct mipi_tx_frame_timing_cfg {
	u32 bpp;
	u32 lane_rate_mbps;
	u32 hsync_width;
	u32 h_backporch;
	u32 h_frontporch;
	u32 h_active;
	u16 vsync_width;
	u16 v_backporch;
	u16 v_frontporch;
	u16 v_active;
	u8 active_lanes;
	};

	struct mipi_tx_frame_sect_phcfg {
	u32 wc;
	enum mipi_data_mode data_mode;
	enum mipi_dsi_data_type data_type;
	u8 vchannel;
	u8 dma_packed;
	};

	struct mipi_tx_frame_cfg {
	struct mipi_tx_frame_section_cfg *sections[MIPI_TX_FRAME_GEN_SECTIONS];
	u32 hsync_width; /* in pixels */
	u32 h_backporch; /* in pixels */
	u32 h_frontporch; /* in pixels */
	u16 vsync_width; /* in lines */
	u16 v_backporch; /* in lines */
	u16 v_frontporch; /* in lines */
	};

	struct mipi_tx_ctrl_cfg {
	struct mipi_tx_frame_cfg *frames[MIPI_TX_FRAME_GEN];
	const struct mipi_tx_dsi_cfg *tx_dsi_cfg;
	u8 line_sync_pkt_en;
	u8 line_counter_active;
	u8 frame_counter_active;
	u8 tx_hsclkkidle_cnt;
	u8 tx_hsexit_cnt;
	u8 tx_crc_en;
	u8 tx_hact_wait_stop;
	u8 tx_always_use_hact;
	u8 tx_wait_trig;
	u8 tx_wait_all_sect;
	};

	/* configuration structure for MIPI control */
	struct mipi_ctrl_cfg {
	u8 active_lanes; /* # active lanes per controller 2/4 */
	u32 lane_rate_mbps; /* MBPS */
	u32 ref_clk_khz;
	u32 cfg_clk_khz;
	struct mipi_tx_ctrl_cfg tx_ctrl_cfg;
	};

	static inline void kmb_write_mipi(struct kmb_dsi *kmb_dsi,
	unsigned int reg, u32 value)
	{
	writel(value, (kmb_dsi->mipi_mmio + reg));
	}

	static inline u32 kmb_read_mipi(struct kmb_dsi *kmb_dsi, unsigned int reg)
	{
	return readl(kmb_dsi->mipi_mmio + reg);
	}

	static inline void kmb_write_bits_mipi(struct kmb_dsi *kmb_dsi,
	unsigned int reg, u32 offset,
	u32 num_bits, u32 value)
	{
	u32 reg_val = kmb_read_mipi(kmb_dsi, reg);
	u32 mask = (1 << num_bits) - 1;

	value &= mask;
	mask <<= offset;
	reg_val &= (~mask);
	reg_val \|= (value << offset);
	kmb_write_mipi(kmb_dsi, reg, reg_val);
	}

	static inline void kmb_set_bit_mipi(struct kmb_dsi *kmb_dsi,
	unsigned int reg, u32 offset)
	{
	u32 reg_val = kmb_read_mipi(kmb_dsi, reg);

	kmb_write_mipi(kmb_dsi, reg, reg_val \| (1 << offset));
	}

	static inline void kmb_clr_bit_mipi(struct kmb_dsi *kmb_dsi,
	unsigned int reg, u32 offset)
	{
	u32 reg_val = kmb_read_mipi(kmb_dsi, reg);

	kmb_write_mipi(kmb_dsi, reg, reg_val & (~(1 << offset)));
	}

	int kmb_dsi_host_bridge_init(struct device *dev);
	struct kmb_dsi kmb_dsi_init(struct platform_device pdev);
	void kmb_dsi_host_unregister(struct kmb_dsi *kmb_dsi);
	int kmb_dsi_mode_set(struct kmb_dsi kmb_dsi, struct drm_display_mode mode,
	int sys_clk_mhz, struct drm_atomic_state *old_state);
	int kmb_dsi_map_mmio(struct kmb_dsi *kmb_dsi);
	int kmb_dsi_clk_init(struct kmb_dsi *kmb_dsi);
	int kmb_dsi_encoder_init(struct drm_device dev, struct kmb_dsi kmb_dsi);
	#endif /* __KMB_DSI_H__ */