Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jeykumar Sankaran | 1470 | 99.86% | 1 | 50.00% |
Thomas Gleixner | 2 | 0.14% | 1 | 50.00% |
Total | 1472 | 2 |
// SPDX-License-Identifier: GPL-2.0-only /* Copyright (c) 2015-2018, The Linux Foundation. All rights reserved. */ #include "dpu_hwio.h" #include "dpu_hw_catalog.h" #include "dpu_hw_intf.h" #include "dpu_kms.h" #define INTF_TIMING_ENGINE_EN 0x000 #define INTF_CONFIG 0x004 #define INTF_HSYNC_CTL 0x008 #define INTF_VSYNC_PERIOD_F0 0x00C #define INTF_VSYNC_PERIOD_F1 0x010 #define INTF_VSYNC_PULSE_WIDTH_F0 0x014 #define INTF_VSYNC_PULSE_WIDTH_F1 0x018 #define INTF_DISPLAY_V_START_F0 0x01C #define INTF_DISPLAY_V_START_F1 0x020 #define INTF_DISPLAY_V_END_F0 0x024 #define INTF_DISPLAY_V_END_F1 0x028 #define INTF_ACTIVE_V_START_F0 0x02C #define INTF_ACTIVE_V_START_F1 0x030 #define INTF_ACTIVE_V_END_F0 0x034 #define INTF_ACTIVE_V_END_F1 0x038 #define INTF_DISPLAY_HCTL 0x03C #define INTF_ACTIVE_HCTL 0x040 #define INTF_BORDER_COLOR 0x044 #define INTF_UNDERFLOW_COLOR 0x048 #define INTF_HSYNC_SKEW 0x04C #define INTF_POLARITY_CTL 0x050 #define INTF_TEST_CTL 0x054 #define INTF_TP_COLOR0 0x058 #define INTF_TP_COLOR1 0x05C #define INTF_FRAME_LINE_COUNT_EN 0x0A8 #define INTF_FRAME_COUNT 0x0AC #define INTF_LINE_COUNT 0x0B0 #define INTF_DEFLICKER_CONFIG 0x0F0 #define INTF_DEFLICKER_STRNG_COEFF 0x0F4 #define INTF_DEFLICKER_WEAK_COEFF 0x0F8 #define INTF_DSI_CMD_MODE_TRIGGER_EN 0x084 #define INTF_PANEL_FORMAT 0x090 #define INTF_TPG_ENABLE 0x100 #define INTF_TPG_MAIN_CONTROL 0x104 #define INTF_TPG_VIDEO_CONFIG 0x108 #define INTF_TPG_COMPONENT_LIMITS 0x10C #define INTF_TPG_RECTANGLE 0x110 #define INTF_TPG_INITIAL_VALUE 0x114 #define INTF_TPG_BLK_WHITE_PATTERN_FRAMES 0x118 #define INTF_TPG_RGB_MAPPING 0x11C #define INTF_PROG_FETCH_START 0x170 #define INTF_PROG_ROT_START 0x174 #define INTF_FRAME_LINE_COUNT_EN 0x0A8 #define INTF_FRAME_COUNT 0x0AC #define INTF_LINE_COUNT 0x0B0 static struct dpu_intf_cfg *_intf_offset(enum dpu_intf intf, struct dpu_mdss_cfg *m, void __iomem *addr, struct dpu_hw_blk_reg_map *b) { int i; for (i = 0; i < m->intf_count; i++) { if ((intf == m->intf[i].id) && (m->intf[i].type != INTF_NONE)) { b->base_off = addr; b->blk_off = m->intf[i].base; b->length = m->intf[i].len; b->hwversion = m->hwversion; b->log_mask = DPU_DBG_MASK_INTF; return &m->intf[i]; } } return ERR_PTR(-EINVAL); } static void dpu_hw_intf_setup_timing_engine(struct dpu_hw_intf *ctx, const struct intf_timing_params *p, const struct dpu_format *fmt) { struct dpu_hw_blk_reg_map *c = &ctx->hw; u32 hsync_period, vsync_period; u32 display_v_start, display_v_end; u32 hsync_start_x, hsync_end_x; u32 active_h_start, active_h_end; u32 active_v_start, active_v_end; u32 active_hctl, display_hctl, hsync_ctl; u32 polarity_ctl, den_polarity, hsync_polarity, vsync_polarity; u32 panel_format; u32 intf_cfg; /* read interface_cfg */ intf_cfg = DPU_REG_READ(c, INTF_CONFIG); hsync_period = p->hsync_pulse_width + p->h_back_porch + p->width + p->h_front_porch; vsync_period = p->vsync_pulse_width + p->v_back_porch + p->height + p->v_front_porch; display_v_start = ((p->vsync_pulse_width + p->v_back_porch) * hsync_period) + p->hsync_skew; display_v_end = ((vsync_period - p->v_front_porch) * hsync_period) + p->hsync_skew - 1; if (ctx->cap->type == INTF_EDP || ctx->cap->type == INTF_DP) { display_v_start += p->hsync_pulse_width + p->h_back_porch; display_v_end -= p->h_front_porch; } hsync_start_x = p->h_back_porch + p->hsync_pulse_width; hsync_end_x = hsync_period - p->h_front_porch - 1; if (p->width != p->xres) { active_h_start = hsync_start_x; active_h_end = active_h_start + p->xres - 1; } else { active_h_start = 0; active_h_end = 0; } if (p->height != p->yres) { active_v_start = display_v_start; active_v_end = active_v_start + (p->yres * hsync_period) - 1; } else { active_v_start = 0; active_v_end = 0; } if (active_h_end) { active_hctl = (active_h_end << 16) | active_h_start; intf_cfg |= BIT(29); /* ACTIVE_H_ENABLE */ } else { active_hctl = 0; } if (active_v_end) intf_cfg |= BIT(30); /* ACTIVE_V_ENABLE */ hsync_ctl = (hsync_period << 16) | p->hsync_pulse_width; display_hctl = (hsync_end_x << 16) | hsync_start_x; den_polarity = 0; if (ctx->cap->type == INTF_HDMI) { hsync_polarity = p->yres >= 720 ? 0 : 1; vsync_polarity = p->yres >= 720 ? 0 : 1; } else { hsync_polarity = 0; vsync_polarity = 0; } polarity_ctl = (den_polarity << 2) | /* DEN Polarity */ (vsync_polarity << 1) | /* VSYNC Polarity */ (hsync_polarity << 0); /* HSYNC Polarity */ if (!DPU_FORMAT_IS_YUV(fmt)) panel_format = (fmt->bits[C0_G_Y] | (fmt->bits[C1_B_Cb] << 2) | (fmt->bits[C2_R_Cr] << 4) | (0x21 << 8)); else /* Interface treats all the pixel data in RGB888 format */ panel_format = (COLOR_8BIT | (COLOR_8BIT << 2) | (COLOR_8BIT << 4) | (0x21 << 8)); DPU_REG_WRITE(c, INTF_HSYNC_CTL, hsync_ctl); DPU_REG_WRITE(c, INTF_VSYNC_PERIOD_F0, vsync_period * hsync_period); DPU_REG_WRITE(c, INTF_VSYNC_PULSE_WIDTH_F0, p->vsync_pulse_width * hsync_period); DPU_REG_WRITE(c, INTF_DISPLAY_HCTL, display_hctl); DPU_REG_WRITE(c, INTF_DISPLAY_V_START_F0, display_v_start); DPU_REG_WRITE(c, INTF_DISPLAY_V_END_F0, display_v_end); DPU_REG_WRITE(c, INTF_ACTIVE_HCTL, active_hctl); DPU_REG_WRITE(c, INTF_ACTIVE_V_START_F0, active_v_start); DPU_REG_WRITE(c, INTF_ACTIVE_V_END_F0, active_v_end); DPU_REG_WRITE(c, INTF_BORDER_COLOR, p->border_clr); DPU_REG_WRITE(c, INTF_UNDERFLOW_COLOR, p->underflow_clr); DPU_REG_WRITE(c, INTF_HSYNC_SKEW, p->hsync_skew); DPU_REG_WRITE(c, INTF_POLARITY_CTL, polarity_ctl); DPU_REG_WRITE(c, INTF_FRAME_LINE_COUNT_EN, 0x3); DPU_REG_WRITE(c, INTF_CONFIG, intf_cfg); DPU_REG_WRITE(c, INTF_PANEL_FORMAT, panel_format); } static void dpu_hw_intf_enable_timing_engine( struct dpu_hw_intf *intf, u8 enable) { struct dpu_hw_blk_reg_map *c = &intf->hw; /* Note: Display interface select is handled in top block hw layer */ DPU_REG_WRITE(c, INTF_TIMING_ENGINE_EN, enable != 0); } static void dpu_hw_intf_setup_prg_fetch( struct dpu_hw_intf *intf, const struct intf_prog_fetch *fetch) { struct dpu_hw_blk_reg_map *c = &intf->hw; int fetch_enable; /* * Fetch should always be outside the active lines. If the fetching * is programmed within active region, hardware behavior is unknown. */ fetch_enable = DPU_REG_READ(c, INTF_CONFIG); if (fetch->enable) { fetch_enable |= BIT(31); DPU_REG_WRITE(c, INTF_PROG_FETCH_START, fetch->fetch_start); } else { fetch_enable &= ~BIT(31); } DPU_REG_WRITE(c, INTF_CONFIG, fetch_enable); } static void dpu_hw_intf_get_status( struct dpu_hw_intf *intf, struct intf_status *s) { struct dpu_hw_blk_reg_map *c = &intf->hw; s->is_en = DPU_REG_READ(c, INTF_TIMING_ENGINE_EN); if (s->is_en) { s->frame_count = DPU_REG_READ(c, INTF_FRAME_COUNT); s->line_count = DPU_REG_READ(c, INTF_LINE_COUNT); } else { s->line_count = 0; s->frame_count = 0; } } static u32 dpu_hw_intf_get_line_count(struct dpu_hw_intf *intf) { struct dpu_hw_blk_reg_map *c; if (!intf) return 0; c = &intf->hw; return DPU_REG_READ(c, INTF_LINE_COUNT); } static void _setup_intf_ops(struct dpu_hw_intf_ops *ops, unsigned long cap) { ops->setup_timing_gen = dpu_hw_intf_setup_timing_engine; ops->setup_prg_fetch = dpu_hw_intf_setup_prg_fetch; ops->get_status = dpu_hw_intf_get_status; ops->enable_timing = dpu_hw_intf_enable_timing_engine; ops->get_line_count = dpu_hw_intf_get_line_count; } static struct dpu_hw_blk_ops dpu_hw_ops; struct dpu_hw_intf *dpu_hw_intf_init(enum dpu_intf idx, void __iomem *addr, struct dpu_mdss_cfg *m) { struct dpu_hw_intf *c; struct dpu_intf_cfg *cfg; c = kzalloc(sizeof(*c), GFP_KERNEL); if (!c) return ERR_PTR(-ENOMEM); cfg = _intf_offset(idx, m, addr, &c->hw); if (IS_ERR_OR_NULL(cfg)) { kfree(c); pr_err("failed to create dpu_hw_intf %d\n", idx); return ERR_PTR(-EINVAL); } /* * Assign ops */ c->idx = idx; c->cap = cfg; c->mdss = m; _setup_intf_ops(&c->ops, c->cap->features); dpu_hw_blk_init(&c->base, DPU_HW_BLK_INTF, idx, &dpu_hw_ops); return c; } void dpu_hw_intf_destroy(struct dpu_hw_intf *intf) { if (intf) dpu_hw_blk_destroy(&intf->base); kfree(intf); }
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