/* Copyright (c) 2008-2015, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #ifndef MDSS_PANEL_H #define MDSS_PANEL_H #include #include #include #include #include /* panel id type */ struct panel_id { u16 id; u16 type; }; #define DEFAULT_FRAME_RATE 60 #define DEFAULT_ROTATOR_FRAME_RATE 120 #define ROTATOR_LOW_FRAME_RATE 30 #define MDSS_DSI_RST_SEQ_LEN 10 /* worst case prefill lines for all chipsets including all vertical blank */ #define MDSS_MDP_MAX_PREFILL_FETCH 25 #define OVERRIDE_CFG "override" #define SIM_PANEL "sim" #define SIM_SW_TE_PANEL "sim-swte" #define SIM_HW_TE_PANEL "sim-hwte" /* panel type list */ #define NO_PANEL 0xffff /* No Panel */ #define MDDI_PANEL 1 /* MDDI */ #define EBI2_PANEL 2 /* EBI2 */ #define LCDC_PANEL 3 /* internal LCDC type */ #define EXT_MDDI_PANEL 4 /* Ext.MDDI */ #define TV_PANEL 5 /* TV */ #define HDMI_PANEL 6 /* HDMI TV */ #define DTV_PANEL 7 /* DTV */ #define MIPI_VIDEO_PANEL 8 /* MIPI */ #define MIPI_CMD_PANEL 9 /* MIPI */ #define WRITEBACK_PANEL 10 /* Wifi display */ #define LVDS_PANEL 11 /* LVDS */ #define EDP_PANEL 12 /* LVDS */ static inline const char *mdss_panel2str(u32 panel) { static const char const *names[] = { #define PANEL_NAME(n) [n ## _PANEL] = __stringify(n) PANEL_NAME(MIPI_VIDEO), PANEL_NAME(MIPI_CMD), PANEL_NAME(EDP), PANEL_NAME(HDMI), PANEL_NAME(DTV), PANEL_NAME(WRITEBACK), #undef PANEL_NAME }; if (panel >= ARRAY_SIZE(names) || !names[panel]) return "UNKNOWN"; return names[panel]; } /* panel class */ enum { DISPLAY_LCD = 0, /* lcd = ebi2/mddi */ DISPLAY_LCDC, /* lcdc */ DISPLAY_TV, /* TV Out */ DISPLAY_EXT_MDDI, /* External MDDI */ DISPLAY_WRITEBACK, }; /* panel device locaiton */ enum { DISPLAY_1 = 0, /* attached as first device */ DISPLAY_2, /* attached on second device */ DISPLAY_3, /* attached on third writeback device */ MAX_PHYS_TARGET_NUM, }; enum { MDSS_PANEL_INTF_INVALID = -1, MDSS_PANEL_INTF_DSI, MDSS_PANEL_INTF_EDP, MDSS_PANEL_INTF_HDMI, }; enum { MDSS_PANEL_POWER_OFF = 0, MDSS_PANEL_POWER_ON, MDSS_PANEL_POWER_LP1, MDSS_PANEL_POWER_LP2, }; enum { MDSS_PANEL_BLANK_BLANK = 0, MDSS_PANEL_BLANK_UNBLANK, MDSS_PANEL_BLANK_LOW_POWER, #if defined(CONFIG_FB_MSM_MDSS_SAMSUNG) MDSS_PANEL_BLANK_READY_TO_UNBLANK, #endif }; enum { MODE_GPIO_NOT_VALID = 0, MODE_GPIO_HIGH, MODE_GPIO_LOW, }; /* * enum sim_panel_modes - Different panel modes for simulator panels * * @SIM_MODE: Disables all host reads for video mode simulator panels. * @SIM_SW_TE_MODE: Disables all host reads and genereates the SW TE. Used * for cmd mode simulator panels. * @SIM_HW_TE_MODE: Disables all host reads and expects TE from hardware * (terminator card). Used for cmd mode simulator panels. */ enum { SIM_MODE = 1, SIM_SW_TE_MODE, SIM_HW_TE_MODE, }; struct mdss_rect { u16 x; u16 y; u16 w; u16 h; }; #define MDSS_MAX_PANEL_LEN 256 #define MDSS_INTF_MAX_NAME_LEN 5 struct mdss_panel_intf { char name[MDSS_INTF_MAX_NAME_LEN]; int type; }; struct mdss_panel_cfg { char arg_cfg[MDSS_MAX_PANEL_LEN + 1]; int pan_intf; bool lk_cfg; bool init_done; }; #define MDP_INTF_DSI_CMD_FIFO_UNDERFLOW 0x0001 #define MDP_INTF_DSI_VIDEO_FIFO_OVERFLOW 0x0002 struct mdss_intf_recovery { void (*fxn)(void *ctx, int event); void *data; }; /** * enum mdss_intf_events - Different events generated by MDP core * * @MDSS_EVENT_RESET: MDP control path is being (re)initialized. * @MDSS_EVENT_LINK_READY Interface data path inited to ready state. * @MDSS_EVENT_UNBLANK: Sent before first frame update from MDP is * sent to panel. * @MDSS_EVENT_PANEL_ON: After first frame update from MDP. * @MDSS_EVENT_POST_PANEL_ON send 2nd phase panel on commands to panel * @MDSS_EVENT_BLANK: MDP has no contents to display only blank screen * is shown in panel. Sent before panel off. * @MDSS_EVENT_PANEL_OFF: MDP has suspended frame updates, panel should be * completely shutdown after this call. * @MDSS_EVENT_CLOSE: MDP has tore down entire session. * @MDSS_EVENT_SUSPEND: Propagation of power suspend event. * @MDSS_EVENT_RESUME: Propagation of power resume event. * @MDSS_EVENT_CHECK_PARAMS: Event generated when a panel reconfiguration is * requested including when resolution changes. * The event handler receives pointer to * struct mdss_panel_info and should return one of: * - negative if the configuration is invalid * - 0 if there is no panel reconfig needed * - 1 if reconfig is needed to take effect * @MDSS_EVENT_CONT_SPLASH_BEGIN: Special event used to handle transition of * display state from boot loader to panel driver. * The event handler will disable the panel. * @MDSS_EVENT_CONT_SPLASH_FINISH: Special event used to handle transition of * display state from boot loader to panel driver. * The event handler will enable the panel and * vote for the display clocks. * @MDSS_EVENT_PANEL_UPDATE_FPS: Event to update the frame rate of the panel. * @MDSS_EVENT_FB_REGISTERED: Called after fb dev driver has been registered, * panel driver gets ptr to struct fb_info which * holds fb dev information. * @MDSS_EVENT_PANEL_CLK_CTRL: panel clock control * - 0 clock disable * - 1 clock enable * @MDSS_EVENT_DSI_CMDLIST_KOFF: acquire dsi_mdp_busy lock before kickoff. * @MDSS_EVENT_ENABLE_PARTIAL_ROI: Event to update ROI of the panel. * @MDSS_EVENT_DSC_PPS_SEND: Event to send DSC PPS command to panel. * @MDSS_EVENT_DSI_STREAM_SIZE: Event to update DSI controller's stream size * @MDSS_EVENT_DSI_UPDATE_PANEL_DATA: Event to update the dsi driver structures * based on the dsi mode passed as argument. * - 0: update to video mode * - 1: update to command mode * @MDSS_EVENT_REGISTER_RECOVERY_HANDLER: Event to recover the interface in * case there was any errors detected. * @MDSS_EVENT_DSI_PANEL_STATUS: Event to check the panel status * <= 0: panel check fail * > 0: panel check success * @MDSS_EVENT_DSI_DYNAMIC_SWITCH: Send DCS command to panel to initiate * switching panel to new mode * - MIPI_VIDEO_PANEL: switch to video mode * - MIPI_CMD_PANEL: switch to command mode * @MDSS_EVENT_DSI_RECONFIG_CMD: Setup DSI controller in new mode * - MIPI_VIDEO_PANEL: switch to video mode * - MIPI_CMD_PANEL: switch to command mode * @MDSS_EVENT_DSI_RESET_WRITE_PTR: Reset the write pointer coordinates on * the panel. * @MDSS_EVENT_PANEL_TIMING_SWITCH: Panel timing switch is requested. * Argument provided is new panel timing. */ enum mdss_intf_events { MDSS_EVENT_RESET = 1, MDSS_EVENT_LINK_READY, MDSS_EVENT_UNBLANK, MDSS_EVENT_PANEL_ON, MDSS_EVENT_POST_PANEL_ON, MDSS_EVENT_BLANK, MDSS_EVENT_PANEL_OFF, MDSS_EVENT_CLOSE, MDSS_EVENT_SUSPEND, MDSS_EVENT_RESUME, MDSS_EVENT_CHECK_PARAMS, MDSS_EVENT_CONT_SPLASH_BEGIN, MDSS_EVENT_CONT_SPLASH_FINISH, MDSS_EVENT_PANEL_UPDATE_FPS, MDSS_EVENT_FB_REGISTERED, MDSS_EVENT_PANEL_CLK_CTRL, MDSS_EVENT_DSI_CMDLIST_KOFF, MDSS_EVENT_ENABLE_PARTIAL_ROI, MDSS_EVENT_DSC_PPS_SEND, MDSS_EVENT_DSI_STREAM_SIZE, MDSS_EVENT_DSI_UPDATE_PANEL_DATA, MDSS_EVENT_REGISTER_RECOVERY_HANDLER, MDSS_EVENT_DSI_PANEL_STATUS, MDSS_EVENT_DSI_DYNAMIC_SWITCH, MDSS_EVENT_DSI_RECONFIG_CMD, MDSS_EVENT_DSI_RESET_WRITE_PTR, MDSS_EVENT_PANEL_TIMING_SWITCH, #if defined(CONFIG_FB_MSM_MDSS_SAMSUNG) MDSS_SAMSUNG_EVENT_START, MDSS_SAMSUNG_EVENT_FRAME_UPDATE, MDSS_SAMSUNG_EVENT_FB_EVENT_CALLBACK, MDSS_SAMSUNG_EVENT_PANEL_2C_CMD, MDSS_SAMSUNG_EVENT_MAX, #endif }; struct lcd_panel_info { u32 h_back_porch; u32 h_front_porch; u32 h_pulse_width; u32 v_back_porch; u32 v_front_porch; u32 v_pulse_width; u32 border_clr; u32 underflow_clr; u32 hsync_skew; u32 border_top; u32 border_bottom; u32 border_left; u32 border_right; /* Pad width */ u32 xres_pad; /* Pad height */ u32 yres_pad; }; /* DSI PHY configuration */ struct mdss_dsi_phy_ctrl { char regulator[7]; /* 8996, 1 * 5 */ char timing[12]; char ctrl[4]; char strength[10]; /* 8996, 2 * 5 */ char bistctrl[6]; uint32_t pll[21]; char lanecfg[45]; /* 8996, 4 * 5 */ bool reg_ldo_mode; char timing_8996[40];/* 8996, 8 * 5 */ char regulator_len; char strength_len; char lanecfg_len; }; /** * enum dynamic_mode_switch - Dynamic mode switch methods * @DYNAMIC_MODE_SWITCH_DISABLED: Dynamic mode switch is not supported * @DYNAMIC_MODE_SWITCH_SUSPEND_RESUME: Switch requires panel suspend/resume * @DYNAMIC_MODE_SWITCH_IMMEDIATE: Supports video/cmd mode switch immediately * @DYNAMIC_MODE_RESOLUTION_SWITCH_IMMEDIATE: Panel supports display resolution * switch immediately. **/ enum dynamic_mode_switch { DYNAMIC_MODE_SWITCH_DISABLED = 0, DYNAMIC_MODE_SWITCH_SUSPEND_RESUME, DYNAMIC_MODE_SWITCH_IMMEDIATE, DYNAMIC_MODE_RESOLUTION_SWITCH_IMMEDIATE, }; /** * enum dynamic_switch_modes - Type of dynamic mode switch to be given as * argument to MDSS_EVENT_DSI_DYNAMIC_SWITCH event * @SWITCH_TO_CMD_MODE: Switch from DSI video mode to command mode * @SWITCH_TO_VIDEO_MODE: Switch from DSI command mode to video mode * @SWITCH_RESOLUTION: Switch only display resolution **/ enum dynamic_switch_modes { SWITCH_MODE_UNKNOWN = 0, SWITCH_TO_CMD_MODE, SWITCH_TO_VIDEO_MODE, SWITCH_RESOLUTION, }; /** * struct mdss_panel_timing - structure for panel timing information * @list: List head ptr to track within panel data timings list * @name: A unique name of this timing that can be used to identify it * @xres: Panel width * @yres: Panel height * @h_back_porch: Horizontal back porch * @h_front_porch: Horizontal front porch * @h_pulse_width: Horizontal pulse width * @hsync_skew: Horizontal sync skew * @v_back_porch: Vertical back porch * @v_front_porch: Vertical front porch * @v_pulse_width: Vertical pulse width * @border_top: Border color on top * @border_bottom: Border color on bottom * @border_left: Border color on left * @border_right: Border color on right * @clk_rate: Pixel clock rate of this panel timing * @frame_rate: Display refresh rate * @fbc: Framebuffer compression parameters for this display timing * @te: Tearcheck parameters for this display timing **/ struct mipi_panel_info { char boot_mode; /* identify if mode switched from starting mode */ char mode; /* video/cmd */ char interleave_mode; char crc_check; char ecc_check; char dst_format; /* shared by video and command */ char data_lane0; char data_lane1; char data_lane2; char data_lane3; char rgb_swap; char b_sel; char g_sel; char r_sel; char rx_eot_ignore; char tx_eot_append; char t_clk_post; /* 0xc0, DSI_CLKOUT_TIMING_CTRL */ char t_clk_pre; /* 0xc0, DSI_CLKOUT_TIMING_CTRL */ char vc; /* virtual channel */ struct mdss_dsi_phy_ctrl dsi_phy_db; /* video mode */ char pulse_mode_hsa_he; char hfp_power_stop; char hbp_power_stop; char hsa_power_stop; char eof_bllp_power_stop; char last_line_interleave_en; char bllp_power_stop; char traffic_mode; char frame_rate; /* command mode */ char interleave_max; char insert_dcs_cmd; char wr_mem_continue; char wr_mem_start; char te_sel; char stream; /* 0 or 1 */ char mdp_trigger; char dma_trigger; /* Dynamic Switch Support */ enum dynamic_mode_switch dms_mode; u32 pixel_packing; u32 dsi_pclk_rate; /* The packet-size should not bet changed */ char no_max_pkt_size; /* Clock required during LP commands */ bool force_clk_lane_hs; char vsync_enable; char hw_vsync_mode; char lp11_init; u32 init_delay; }; struct edp_panel_info { char frame_rate; /* fps */ }; enum dynamic_fps_update { DFPS_SUSPEND_RESUME_MODE, DFPS_IMMEDIATE_CLK_UPDATE_MODE, DFPS_IMMEDIATE_PORCH_UPDATE_MODE_VFP, DFPS_IMMEDIATE_PORCH_UPDATE_MODE_HFP, DFPS_MODE_MAX }; enum lvds_mode { LVDS_SINGLE_CHANNEL_MODE, LVDS_DUAL_CHANNEL_MODE, }; struct lvds_panel_info { enum lvds_mode channel_mode; /* Channel swap in dual mode */ char channel_swap; }; enum { COMPRESSION_NONE, COMPRESSION_DSC, COMPRESSION_FBC }; struct dsc_desc { int initial_lines; int slice_last_group_size; int bpp; /* target bit per pixel */ int bpc; /* bit per component */ int line_buf_depth; bool config_by_manufacture_cmd; bool block_pred_enable; int vbr_enable; int enable_422; int convert_rgb; int input_10_bits; int slice_per_pkt; int pic_height; int pic_width; int slice_height; int slice_width; int chunk_size; int full_frame_slices; /* denotes number of slice in full frame */ int pkt_per_line; int bytes_in_slice; int bytes_per_pkt; int eol_byte_num; int pclk_per_line; /* width */ int initial_dec_delay; int initial_xmit_delay; int initial_scale_value; int scale_decrement_interval; int scale_increment_interval; int first_line_bpg_offset; int nfl_bpg_offset; int slice_bpg_offset; int initial_offset; int final_offset; int rc_model_size; /* rate_buffer_size */ int det_thresh_flatness; int max_qp_flatness; int min_qp_flatness; int edge_factor; int quant_incr_limit0; int quant_incr_limit1; int tgt_offset_hi; int tgt_offset_lo; u32 *buf_thresh; char *range_min_qp; char *range_max_qp; char *range_bpg_offset; }; struct fbc_panel_info { u32 enabled; u32 target_bpp; u32 comp_mode; u32 qerr_enable; u32 cd_bias; u32 pat_enable; u32 vlc_enable; u32 bflc_enable; u32 line_x_budget; u32 block_x_budget; u32 block_budget; u32 lossless_mode_thd; u32 lossy_mode_thd; u32 lossy_rgb_thd; u32 lossy_mode_idx; u32 slice_height; bool pred_mode; bool enc_mode; u32 max_pred_err; }; struct mdss_mdp_pp_tear_check { u32 tear_check_en; u32 sync_cfg_height; u32 vsync_init_val; u32 sync_threshold_start; u32 sync_threshold_continue; u32 start_pos; u32 rd_ptr_irq; u32 refx100; }; struct mdss_panel_info { u32 xres; u32 yres; u32 physical_width; u32 physical_height; u32 bpp; u32 type; u32 wait_cycle; u32 pdest; u32 brightness_max; u32 bl_max; u32 bl_min; u32 fb_num; u64 clk_rate; u32 clk_min; u64 clk_max; u32 mdp_transfer_time_us; u32 frame_count; u32 is_3d_panel; u32 out_format; u32 rst_seq[MDSS_DSI_RST_SEQ_LEN]; u32 rst_seq_len; u32 vic; /* video identification code */ struct mdss_rect roi; int pwm_pmic_gpio; int pwm_lpg_chan; int pwm_period; bool dynamic_fps; bool ulps_feature_enabled; bool ulps_suspend_enabled; bool panel_ack_disabled; bool esd_check_enabled; char dfps_update; /* new requested fps before it is updated in hw */ int new_fps; /* stores initial fps after boot */ u32 default_fps; /* stores initial vtotal (vfp-method) or htotal (hfp-method) */ u32 saved_total; /* stores initial vfp (vfp-method) or hfp (hfp-method) */ u32 saved_fporch; /* current fps, once is programmed in hw */ int current_fps; int panel_max_fps; int panel_max_vtotal; u32 mode_gpio_state; u32 xstart_pix_align; u32 width_pix_align; u32 ystart_pix_align; u32 height_pix_align; u32 min_width; u32 min_height; u32 min_fps; u32 max_fps; u32 prg_fet; u32 cont_splash_enabled; bool esd_rdy; bool partial_update_supported; /* value from dts if pu is supported */ bool partial_update_enabled; /* is pu currently allowed */ u32 dcs_cmd_by_left; u32 partial_update_roi_merge; struct ion_handle *splash_ihdl; int panel_power_state; int blank_state; int compression_mode; uint32_t panel_dead; u32 panel_force_dead; u32 panel_orientation; bool dynamic_switch_pending; bool is_lpm_mode; bool is_split_display; /* two DSIs in one display, pp split or not */ bool use_pingpong_split; /* * index[0] = left layer mixer, value of 0 not valid * index[1] = right layer mixer, 0 is possible * * Ex(1): 1080x1920 display using single DSI and single lm, [1080 0] * Ex(2): 1440x2560 display using two DSIs and two lms, * each with 720x2560, [720 0] * Ex(3): 1440x2560 display using single DSI w/ compression and * single lm, [1440 0] * Ex(4): 1440x2560 display using single DSI w/ compression and * two lms, [720 720] * Ex(5): 1080x1920 display using single DSI and two lm, [540 540] * Ex(6): 1080x1920 display using single DSI and two lm, * [880 400] - not practical but possible */ u32 lm_widths[2]; bool is_prim_panel; /* refer sim_panel_modes enum for different modes */ u8 sim_panel_mode; void *edid_data; char panel_name[MDSS_MAX_PANEL_LEN]; struct mdss_mdp_pp_tear_check te; /* * Value of 2 only when single DSI is configured with 2 DSC * encoders. When 2 encoders are used, currently both use * same configuration. */ u8 dsc_enc_total; /* max 2 */ struct dsc_desc dsc; struct lcd_panel_info lcdc; struct fbc_panel_info fbc; struct mipi_panel_info mipi; struct lvds_panel_info lvds; struct edp_panel_info edp; /* * Delay(in ms) to accommodate s/w delay while * configuring the event timer wakeup logic. */ u32 adjust_timer_delay_ms; /* debugfs structure for the panel */ struct mdss_panel_debugfs_info *debugfs_info; #if defined(CONFIG_FB_MSM_MDSS_SAMSUNG) int panel_state; #endif }; struct mdss_panel_timing { struct list_head list; const char *name; u32 xres; u32 yres; u32 h_back_porch; u32 h_front_porch; u32 h_pulse_width; u32 hsync_skew; u32 v_back_porch; u32 v_front_porch; u32 v_pulse_width; u32 border_top; u32 border_bottom; u32 border_left; u32 border_right; u32 lm_widths[2]; u64 clk_rate; char frame_rate; u8 dsc_enc_total; struct dsc_desc dsc; struct fbc_panel_info fbc; u32 compression_mode; struct mdss_mdp_pp_tear_check te; }; struct mdss_panel_data { struct mdss_panel_info panel_info; void (*set_backlight) (struct mdss_panel_data *pdata, u32 bl_level); unsigned char *mmss_cc_base; /** * event_handler() - callback handler for MDP core events * @pdata: Pointer refering to the panel struct associated to this * event. Can be used to retrieve panel info. * @e: Event being generated, see enum mdss_intf_events * @arg: Optional argument to pass some info from some events. * * Used to register handler to be used to propagate different events * happening in MDP core driver. Panel driver can listen for any of * these events to perform appropriate actions for panel initialization * and teardown. */ int (*event_handler) (struct mdss_panel_data *pdata, int e, void *arg); struct list_head timings_list; struct mdss_panel_timing *current_timing; bool active; struct device_node *cfg_np; /* NULL if config node is not present */ struct mdss_panel_data *next; #if defined(CONFIG_FB_MSM_MDSS_SAMSUNG) void *panel_private; #endif }; struct mdss_panel_debugfs_info { struct dentry *root; struct mdss_panel_info panel_info; u32 override_flag; struct mdss_panel_debugfs_info *next; }; /** * mdss_get_panel_framerate() - get panel frame rate based on panel information * @panel_info: Pointer to panel info containing all panel information */ static inline u32 mdss_panel_get_framerate(struct mdss_panel_info *panel_info) { u32 frame_rate, pixel_total; u64 rate; if (panel_info == NULL) return DEFAULT_FRAME_RATE; switch (panel_info->type) { case MIPI_VIDEO_PANEL: case MIPI_CMD_PANEL: frame_rate = panel_info->mipi.frame_rate; break; case EDP_PANEL: frame_rate = panel_info->edp.frame_rate; break; case WRITEBACK_PANEL: frame_rate = DEFAULT_FRAME_RATE; break; default: pixel_total = (panel_info->lcdc.h_back_porch + panel_info->lcdc.h_front_porch + panel_info->lcdc.h_pulse_width + panel_info->xres) * (panel_info->lcdc.v_back_porch + panel_info->lcdc.v_front_porch + panel_info->lcdc.v_pulse_width + panel_info->yres); if (pixel_total) { rate = panel_info->clk_rate; do_div(rate, pixel_total); frame_rate = (u32)rate; } else { frame_rate = DEFAULT_FRAME_RATE; } break; } return frame_rate; } /* * mdss_panel_get_vtotal() - return panel vertical height * @pinfo: Pointer to panel info containing all panel information * * Returns the total height of the panel including any blanking regions * which are not visible to user but used to calculate panel pixel clock. */ static inline int mdss_panel_get_vtotal(struct mdss_panel_info *pinfo) { return pinfo->yres + pinfo->lcdc.v_back_porch + pinfo->lcdc.v_front_porch + pinfo->lcdc.v_pulse_width+ pinfo->lcdc.border_top + pinfo->lcdc.border_bottom; } /* * mdss_panel_get_htotal() - return panel horizontal width * @pinfo: Pointer to panel info containing all panel information * @compression: true to factor fbc settings, false to ignore. * * Returns the total width of the panel including any blanking regions * which are not visible to user but used for calculations. For certain * usescases where the fbc parameters need to be ignored like bandwidth * calculation, the appropriate flag can be passed. */ static inline int mdss_panel_get_htotal(struct mdss_panel_info *pinfo, bool compression) { struct dsc_desc *dsc = NULL; int adj_xres = pinfo->xres + pinfo->lcdc.border_left + pinfo->lcdc.border_right; if (compression) { if (pinfo->compression_mode == COMPRESSION_DSC) { dsc = &pinfo->dsc; adj_xres = dsc->pclk_per_line; } else if (pinfo->fbc.enabled) { adj_xres = mult_frac(adj_xres, pinfo->fbc.target_bpp, pinfo->bpp); } } return adj_xres + pinfo->lcdc.h_back_porch + pinfo->lcdc.h_front_porch + pinfo->lcdc.h_pulse_width; } static inline bool is_dsc_compression(struct mdss_panel_info *pinfo) { if (pinfo) return (pinfo->compression_mode == COMPRESSION_DSC); return false; } int mdss_register_panel(struct platform_device *pdev, struct mdss_panel_data *pdata); /* * mdss_panel_is_power_off: - checks if a panel is off * @panel_power_state: enum identifying the power state to be checked */ static inline bool mdss_panel_is_power_off(int panel_power_state) { return (panel_power_state == MDSS_PANEL_POWER_OFF); } /** * mdss_panel_is_power_on_interactive: - checks if a panel is on and interactive * @panel_power_state: enum identifying the power state to be checked * * This function returns true only is the panel is fully interactive and * opertaing in normal mode. */ static inline bool mdss_panel_is_power_on_interactive(int panel_power_state) { return (panel_power_state == MDSS_PANEL_POWER_ON); } /** * mdss_panel_is_panel_power_on: - checks if a panel is on * @panel_power_state: enum identifying the power state to be checked * * A panel is considered to be on as long as it can accept any commands * or data. Sometimes it is posible to program the panel to be in a low * power non-interactive state. This function returns false only if panel * has explicitly been turned off. */ static inline bool mdss_panel_is_power_on(int panel_power_state) { return !mdss_panel_is_power_off(panel_power_state); } /** * mdss_panel_is_panel_power_on_lp: - checks if a panel is in a low power mode * @pdata: pointer to the panel struct associated to the panel * @panel_power_state: enum identifying the power state to be checked * * This function returns true if the panel is in an intermediate low power * state where it is still on but not fully interactive. It may or may not * accept any commands and display updates. */ static inline bool mdss_panel_is_power_on_lp(int panel_power_state) { return !mdss_panel_is_power_off(panel_power_state) && !mdss_panel_is_power_on_interactive(panel_power_state); } /** * mdss_panel_is_panel_power_on_ulp: - checks if panel is in ultra low power mode * @pdata: pointer to the panel struct associated to the panel * @panel_power_state: enum identifying the power state to be checked * * This function returns true if the panel is in a ultra low power * state where it is still on but cannot recieve any display updates. */ static inline bool mdss_panel_is_power_on_ulp(int panel_power_state) { return panel_power_state == MDSS_PANEL_POWER_LP2; } /** * mdss_panel_intf_type: - checks if a given intf type is primary * @intf_val: panel interface type of the individual controller * * Individual controller queries with MDP to check if it is * configured as the primary interface. * * returns a pointer to the configured structure mdss_panel_cfg * to the controller that's configured as the primary panel interface. * returns NULL on error or if @intf_val is not the configured * controller. */ struct mdss_panel_cfg *mdss_panel_intf_type(int intf_val); /** * mdss_is_ready() - checks if mdss is probed and ready * * Checks if mdss resources have been initialized * * returns true if mdss is ready, else returns false. */ bool mdss_is_ready(void); int mdss_rect_cmp(struct mdss_rect *rect1, struct mdss_rect *rect2); /** * mdss_panel_override_te_params() - overrides TE params to enable SW TE * @pinfo: panel info */ void mdss_panel_override_te_params(struct mdss_panel_info *pinfo); #ifdef CONFIG_FB_MSM_MDSS int mdss_panel_debugfs_init(struct mdss_panel_info *panel_info, char const *panel_name); void mdss_panel_debugfs_cleanup(struct mdss_panel_info *panel_info); void mdss_panel_debugfsinfo_to_panelinfo(struct mdss_panel_info *panel_info); /* * mdss_panel_info_from_timing() - populate panel info from panel timing * @pt: pointer to source panel timing * @pinfo: pointer to destination panel info * * Populates relevant data from panel timing into panel info */ void mdss_panel_info_from_timing(struct mdss_panel_timing *pt, struct mdss_panel_info *pinfo); /** * mdss_panel_get_timing_by_name() - return panel timing with matching name * @pdata: pointer to panel data struct containing list of panel timings * @name: name of the panel timing to be returned * * Looks through list of timings provided in panel data and returns pointer * to panel timing matching it. If none is found, NULL is returned. */ struct mdss_panel_timing *mdss_panel_get_timing_by_name( struct mdss_panel_data *pdata, const char *name); #else static inline int mdss_panel_debugfs_init( struct mdss_panel_info *panel_info) { return 0; }; static inline void mdss_panel_debugfs_cleanup( struct mdss_panel_info *panel_info) { }; static inline void mdss_panel_debugfsinfo_to_panelinfo( struct mdss_panel_info *panel_info) { }; static inline void mdss_panel_info_from_timing(struct mdss_panel_timing *pt, struct mdss_panel_info *pinfo) { }; static inline struct mdss_panel_timing *mdss_panel_get_timing_by_name( struct mdss_panel_data *pdata, const char *name) { return NULL; }; #endif #endif /* MDSS_PANEL_H */