/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #define MDSS_MDP_MAX_PREFILL_FETCH 24 static void mdss_source_pipe_config(struct edid *edid) { uint32_t img_size, out_size, stride; uint32_t fb_off = 0; uint32_t flip_bits = 0; uint32_t src_xy = 0; uint32_t dst_xy = 0; /* write active region size*/ img_size = (edid->mode.va << 16) | edid->mode.ha; out_size = img_size; stride = (edid->mode.ha * edid->framebuffer_bits_per_pixel/8); if (!fb_off) { /* left */ dst_xy = (edid->mode.vborder << 16) | edid->mode.hborder; src_xy = dst_xy; } else { /* right */ dst_xy = (edid->mode.vborder << 16); src_xy = (edid->mode.vborder << 16) | fb_off; } printk(BIOS_INFO, "%s: src=%x fb_off=%x src_xy=%x dst_xy=%x\n", __func__, out_size, fb_off, src_xy, dst_xy); write32(&mdp_sspp->sspp_src_ystride0, stride); write32(&mdp_sspp->sspp_src_size, out_size); write32(&mdp_sspp->sspp_out_size, out_size); write32(&mdp_sspp->sspp_src_xy, src_xy); write32(&mdp_sspp->sspp_out_xy, dst_xy); /* Tight Packing 4bpp Alpha 8-bit A R B G */ write32(&mdp_sspp->sspp_src_format, 0x000236ff); write32(&mdp_sspp->sspp_src_unpack_pattern, 0x03020001); flip_bits |= BIT(31); write32(&mdp_sspp->sspp_sw_pic_ext_c0_req_pixels, out_size); write32(&mdp_sspp->sspp_sw_pic_ext_c1c2_req_pixels, out_size); write32(&mdp_sspp->sspp_sw_pic_ext_c3_req_pixels, out_size); write32(&mdp_sspp->sspp_src_op_mode, flip_bits); } static void mdss_vbif_setup(void) { write32(&vbif_rt->vbif_out_axi_amemtype_conf0, 0x33333333); write32(&vbif_rt->vbif_out_axi_amemtype_conf1, 0x00333333); } static void mdss_intf_tg_setup(struct edid *edid) { uint32_t hsync_period, vsync_period; uint32_t hsync_start_x, hsync_end_x; uint32_t display_hctl, hsync_ctl, display_vstart, display_vend; hsync_period = edid->mode.ha + edid->mode.hbl; vsync_period = edid->mode.va + edid->mode.vbl; hsync_start_x = edid->mode.hbl - edid->mode.hso; hsync_end_x = hsync_period - edid->mode.hso - 1; display_vstart = (edid->mode.vbl - edid->mode.vso) * hsync_period; display_vend = ((vsync_period - edid->mode.vso) * hsync_period) - 1; hsync_ctl = (hsync_period << 16) | edid->mode.hspw; display_hctl = (hsync_end_x << 16) | hsync_start_x; write32(&mdp_intf->intf_hsync_ctl, hsync_ctl); write32(&mdp_intf->intf_vysnc_period_f0, vsync_period * hsync_period); write32(&mdp_intf->intf_vysnc_pulse_width_f0, edid->mode.vspw * hsync_period); write32(&mdp_intf->intf_disp_hctl, display_hctl); write32(&mdp_intf->intf_disp_v_start_f0, display_vstart); write32(&mdp_intf->intf_disp_v_end_f0, display_vend); write32(&mdp_intf->intf_underflow_color, 0x00); write32(&mdp_intf->intf_panel_format, 0x2100); } static void mdss_intf_fetch_start_config(struct edid *edid) { uint32_t v_total, h_total, fetch_start, vfp_start; uint32_t prefetch_avail, prefetch_needed; uint32_t fetch_enable = BIT(31); /* * MDP programmable fetch is for MDP with rev >= 1.05. * Programmable fetch is not needed if vertical back porch * plus vertical pulse width plus extra line for the extra h_total * added during fetch start is >= 24. */ if ((edid->mode.vbl - edid->mode.vso + 1) >= MDSS_MDP_MAX_PREFILL_FETCH) return; /* * Fetch should always be outside the active lines. If the fetching * is programmed within active region, hardware behavior is unknown. */ v_total = edid->mode.va + edid->mode.vbl; h_total = edid->mode.ha + edid->mode.hbl; vfp_start = edid->mode.va + edid->mode.vbl - edid->mode.vso; prefetch_avail = v_total - vfp_start; prefetch_needed = MDSS_MDP_MAX_PREFILL_FETCH - edid->mode.vbl + edid->mode.vso; /* * In some cases, vertical front porch is too high. In such cases limit * the mdp fetch lines as the last (25 - vbp - vpw) lines of * vertical front porch. */ if (prefetch_avail > prefetch_needed) prefetch_avail = prefetch_needed; fetch_start = (v_total - prefetch_avail) * h_total + h_total + 1; write32(&mdp_intf->intf_prof_fetch_start, fetch_start); write32(&mdp_intf->intf_config, fetch_enable); } static void mdss_layer_mixer_setup(struct edid *edid) { uint32_t mdp_rgb_size; uint32_t left_staging_level; /* write active region size*/ mdp_rgb_size = (edid->mode.va << 16) | edid->mode.ha; write32(&mdp_layer_mixer->layer_out_size, mdp_rgb_size); write32(&mdp_layer_mixer->layer_op_mode, 0x0); for (int i = 0; i < 6; i++) { write32(&mdp_layer_mixer->layer_blend[i].layer_blend_op, 0x100); write32(&mdp_layer_mixer->layer_blend[i].layer_blend_const_alpha, 0x00ff0000); } /* Enable border fill */ left_staging_level = BIT(24); left_staging_level |= BIT(1); /* Base layer for layer mixer 0 */ write32(&mdp_ctl->ctl_layer0, left_staging_level); } static void mdss_vbif_qos_remapper_setup(void) { /* * VBIF remapper registers are used for translating internal display hardware * priority level (from 0 to 7) into system fabric priority level. * These remapper settings are defined for all the clients which corresponds * to the xin clients connected to SSPP on VBIF. */ write32(&vbif_rt->qos_rp_remap[0].vbif_xinl_qos_rp_remap, 0x00000003); write32(&vbif_rt->qos_rp_remap[1].vbif_xinl_qos_rp_remap, 0x11111113); write32(&vbif_rt->qos_rp_remap[2].vbif_xinl_qos_rp_remap, 0x22222224); write32(&vbif_rt->qos_rp_remap[3].vbif_xinl_qos_rp_remap, 0x33333334); write32(&vbif_rt->qos_rp_remap[4].vbif_xinl_qos_rp_remap, 0x44444445); write32(&vbif_rt->qos_rp_remap[7].vbif_xinl_qos_rp_remap, 0x77777776); write32(&vbif_rt->qos_lvl_remap[0].vbif_xinl_qos_lvl_remap, 0x00000003); write32(&vbif_rt->qos_lvl_remap[1].vbif_xinl_qos_lvl_remap, 0x11111113); write32(&vbif_rt->qos_lvl_remap[2].vbif_xinl_qos_lvl_remap, 0x22222224); write32(&vbif_rt->qos_lvl_remap[3].vbif_xinl_qos_lvl_remap, 0x33333334); write32(&vbif_rt->qos_lvl_remap[4].vbif_xinl_qos_lvl_remap, 0x44444445); write32(&vbif_rt->qos_lvl_remap[5].vbif_xinl_qos_lvl_remap, 0x77777776); } void mdp_dsi_video_config(struct edid *edid) { mdss_intf_tg_setup(edid); mdss_intf_fetch_start_config(edid); mdss_vbif_setup(); mdss_vbif_qos_remapper_setup(); mdss_source_pipe_config(edid); mdss_layer_mixer_setup(edid); /* Select Video Mode Interface */ write32(&mdp_ctl->ctl_top, 0x0); /* PPB0 to INTF1 */ write32(&mdp_ctl->ctl_intf_active, BIT(1)); write32(&mdp_intf->intf_mux, 0x0F0000); } void mdp_dsi_video_on(void) { uint32_t ctl0_reg_val; ctl0_reg_val = VIG_0 | LAYER_MIXER_0 | CTL | INTF; write32(&mdp_ctl->ctl_intf_flush, 0x2); write32(&mdp_ctl->ctl_flush, ctl0_reg_val); }