/* Copyright (c) 2013-2015, The Linux Foundation. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * Neither the name of The Linux Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "include/display_resource.h" #include "include/panel.h" #include "panel_display.h" #include "gcdb_display.h" #include "target/display.h" #include "gcdb_autopll.h" /*---------------------------------------------------------------------------*/ /* static */ /*---------------------------------------------------------------------------*/ static struct msm_fb_panel_data panel; struct panel_struct panelstruct; static uint8_t display_enable; static struct mdss_dsi_phy_ctrl dsi_video_mode_phy_db; /*---------------------------------------------------------------------------*/ /* Extern */ /*---------------------------------------------------------------------------*/ extern int msm_display_init(struct msm_fb_panel_data *pdata); extern int msm_display_off(); static uint32_t panel_backlight_ctrl(uint8_t enable) { uint32_t ret = NO_ERROR; if (panelstruct.backlightinfo) ret = target_backlight_ctrl(panelstruct.backlightinfo, enable); return ret; } static uint32_t mdss_dsi_panel_reset(uint8_t enable) { uint32_t ret = NO_ERROR; if (panelstruct.panelresetseq) ret = target_panel_reset(enable, panelstruct.panelresetseq, &panel.panel_info); return ret; } static uint32_t mdss_dsi_panel_clock(uint8_t enable, struct msm_panel_info *pinfo) { uint32_t ret = NO_ERROR; ret = calculate_clock_config(pinfo); if (ret) dprintf(CRITICAL, "Clock calculation failed\n"); else ret = target_panel_clock(enable, pinfo); return ret; } static int mdss_dsi_panel_power(uint8_t enable, struct msm_panel_info *pinfo) { int ret = NO_ERROR; if (enable) { ret = target_ldo_ctrl(enable, pinfo); if (ret) { dprintf(CRITICAL, "LDO control enable failed\n"); return ret; } /* Panel Reset */ if (!panelstruct.paneldata->panel_lp11_init) { ret = mdss_dsi_panel_reset(enable); if (ret) { dprintf(CRITICAL, "panel reset failed\n"); return ret; } } dprintf(SPEW, "Panel power on done\n"); } else { /* Disable panel and ldo */ ret = mdss_dsi_panel_reset(enable); if (ret) { dprintf(CRITICAL, "panel reset disable failed\n"); return ret; } ret = target_ldo_ctrl(enable, pinfo); if (ret) { dprintf(CRITICAL, "ldo control disable failed\n"); return ret; } dprintf(SPEW, "Panel power off done\n"); } return ret; } static int mdss_dsi_panel_pre_init(void) { int ret = NO_ERROR; if (panelstruct.paneldata->panel_lp11_init) { ret = mdss_dsi_panel_reset(1); if (ret) { dprintf(CRITICAL, "panel reset failed\n"); return ret; } } if(panelstruct.paneldata->panel_init_delay) udelay(panelstruct.paneldata->panel_init_delay); dprintf(SPEW, "Panel pre init done\n"); return ret; } static int mdss_dsi_dfps_get_pll_codes_cal(struct msm_panel_info *pinfo) { int ret = NO_ERROR; uint32_t fps_bak; uint32_t i; fps_bak = pinfo->mipi.frame_rate; for (i = 0; i < pinfo->dfps.panel_dfps.frame_rate_cnt; i++) { int err; pinfo->mipi.frame_rate = pinfo->dfps.panel_dfps.frame_rate[i]; err = mdss_dsi_panel_clock(1, pinfo); if (!err) { pinfo->dfps.codes_dfps[i].is_valid = 1; pinfo->dfps.codes_dfps[i].frame_rate = pinfo->mipi.frame_rate; pinfo->dfps.codes_dfps[i].frame_rate = pinfo->mipi.frame_rate; pinfo->dfps.codes_dfps[i].clk_rate = pinfo->mipi.dsi_pll_config->vco_clock; pinfo->dfps.codes_dfps[i].pll_codes = pinfo->mipi.pll_codes; mdss_dsi_panel_clock(0, pinfo); } else { ret = err; pinfo->dfps.codes_dfps[i].is_valid = 0; dprintf(CRITICAL, "frame_rate=%d failed!\n", pinfo->mipi.frame_rate); } } pinfo->mipi.frame_rate = fps_bak; return ret; } static int mdss_dsi_dfps_get_stored_pll_codes(struct msm_panel_info *pinfo) { int ret = NO_ERROR; int index; unsigned long long ptn; uint32_t blocksize; struct dfps_info *dfps; index = partition_get_index("splash"); if (index == INVALID_PTN) { dprintf(INFO, "%s: splash partition table not found\n", __func__); ret = NO_ERROR; goto splash_err; } ptn = partition_get_offset(index); if (ptn == 0) { dprintf(CRITICAL, "ERROR: splash Partition invalid offset\n"); ret = ERROR; goto splash_err; } mmc_set_lun(partition_get_lun(index)); blocksize = mmc_get_device_blocksize(); if (blocksize == 0) { dprintf(CRITICAL, "ERROR:splash Partition invalid blocksize\n"); ret = ERROR; goto splash_err; } dfps = (struct dfps_info *)memalign(CACHE_LINE, ROUNDUP(PAGE_SIZE, CACHE_LINE)); if (!dfps) { dprintf(CRITICAL, "ERROR:splash Partition invalid memory\n"); ret = ERROR; goto splash_err; } if (mmc_read(ptn, (uint32_t *) dfps, blocksize)) { dprintf(CRITICAL, "mmc read splash failure%d\n", PAGE_SIZE); ret = ERROR; free(dfps); goto splash_err; } dprintf(SPEW, "enable=%d cnt=%d\n", dfps->panel_dfps.enabled, dfps->panel_dfps.frame_rate_cnt); if (!dfps->panel_dfps.enabled || dfps->panel_dfps.frame_rate_cnt > DFPS_MAX_FRAME_RATE) { ret = ERROR; free(dfps); goto splash_err; } pinfo->dfps = *dfps; free(dfps); splash_err: return ret; } static int mdss_dsi_dfps_store_pll_codes(struct msm_panel_info *pinfo) { int ret = NO_ERROR; int index; unsigned long long ptn; index = partition_get_index("splash"); if (index == INVALID_PTN) { dprintf(INFO, "%s: splash partition table not found\n", __func__); ret = NO_ERROR; goto store_err; } ptn = partition_get_offset(index); if (ptn == 0) { dprintf(CRITICAL, "ERROR: splash Partition invalid offset\n"); ret = ERROR; goto store_err; } mmc_set_lun(partition_get_lun(index)); ret = mmc_write(ptn, sizeof(uint32_t), &pinfo->dfps); if (ret) dprintf(CRITICAL, "mmc write failed!\n"); store_err: return ret; } static int mdss_dsi_mipi_dfps_config(struct msm_panel_info *pinfo) { int ret = NO_ERROR; if (!pinfo) return ERROR; if (!pinfo->dfps.panel_dfps.enabled) goto dfps_done; if (!mdss_dsi_dfps_get_stored_pll_codes(pinfo)) { dprintf(SPEW, "Found stored PLL codes!\n"); goto dfps_cal_done; } ret = mdss_dsi_dfps_get_pll_codes_cal(pinfo); if (ret) { dprintf(CRITICAL, "Cannot cal pll codes!\n"); goto dfps_done; } else { dprintf(SPEW, "Calibrate all pll codes!\n"); } ret = mdss_dsi_dfps_store_pll_codes(pinfo); if (ret) dprintf(CRITICAL, "Cannot store pll codes!\n"); dfps_cal_done: if (pinfo->dfps.dfps_fb_base) memcpy(pinfo->dfps.dfps_fb_base, &pinfo->dfps, sizeof(struct dfps_info)); dfps_done: return ret; } static int mdss_dsi_bl_enable(uint8_t enable) { int ret = NO_ERROR; ret = panel_backlight_ctrl(enable); if (ret) dprintf(CRITICAL, "Backlight %s failed\n", enable ? "enable" : "disable"); return ret; } static void mdss_edp_panel_init(struct msm_panel_info *pinfo) { return target_edp_panel_init(pinfo); } static uint32_t mdss_edp_panel_clock(uint8_t enable, struct msm_panel_info *pinfo) { return target_edp_panel_clock(enable, pinfo); } static uint32_t mdss_edp_panel_enable(void) { return target_edp_panel_enable(); } static uint32_t mdss_edp_panel_disable(void) { return target_edp_panel_disable(); } static int mdss_edp_panel_power(uint8_t enable, struct msm_panel_info *pinfo) { int ret = NO_ERROR; if (enable) { ret = target_ldo_ctrl(enable, pinfo); if (ret) { dprintf(CRITICAL, "LDO control enable failed\n"); return ret; } ret = mdss_edp_panel_enable(); if (ret) { dprintf(CRITICAL, "%s: panel enable failed\n", __func__); return ret; } dprintf(SPEW, "EDP Panel power on done\n"); } else { /* Disable panel and ldo */ ret = mdss_edp_panel_disable(); if (ret) { dprintf(CRITICAL, "%s: panel disable failed\n", __func__); return ret; } ret = target_ldo_ctrl(enable, pinfo); if (ret) { dprintf(CRITICAL, "%s: ldo control disable failed\n", __func__); return ret; } dprintf(SPEW, "EDP Panel power off done\n"); } return ret; } static int mdss_edp_bl_enable(uint8_t enable) { int ret = NO_ERROR; ret = target_edp_bl_ctrl(enable); if (ret) dprintf(CRITICAL, "Backlight %s failed\n", enable ? "enable" : "disable"); return ret; } static int mdss_dsi2HDMI_config (struct msm_panel_info *pinfo) { return target_display_dsi2hdmi_config(pinfo); } struct panel_struct mdss_dsi_get_panel_data(void) { return panelstruct; } static void mdss_dsi_check_swap_status(void) { char *panel_dest, *dsi_controller; struct oem_panel_data *oem_data = mdss_dsi_get_oem_data_ptr(); if (!oem_data->swap_dsi_ctrl) return; if (panelstruct.paneldata->panel_operating_mode & (SPLIT_DISPLAY_FLAG | DUAL_DSI_FLAG)) { dprintf(CRITICAL, "DSI swap invalid for split DSI panel!\n"); return; } /* Swap the panel destination and use appropriate PLL */ if (!strcmp(panelstruct.paneldata->panel_destination, "DISPLAY_1")) { panel_dest = "DISPLAY_2"; dsi_controller = "dsi:1:"; panelstruct.paneldata->panel_operating_mode |= USE_DSI1_PLL_FLAG; } else { panel_dest = "DISPLAY_1"; dsi_controller = "dsi:0:"; panelstruct.paneldata->panel_operating_mode &= ~USE_DSI1_PLL_FLAG; } panelstruct.paneldata->panel_destination = panel_dest; panelstruct.paneldata->panel_controller = dsi_controller; } static void mdss_dsi_set_pll_src(void) { struct oem_panel_data *oem_data = mdss_dsi_get_oem_data_ptr(); /* Set PLL_SRC to PLL1 for non dual-DSI cases only */ if (!is_dsi_config_dual() && (panelstruct.paneldata->panel_operating_mode & USE_DSI1_PLL_FLAG)) oem_data->dsi_pll_src = DSI_PLL1; if (is_dsi_config_dual()) { if (oem_data->dsi_pll_src != DSI_PLL_DEFAULT) { dprintf(CRITICAL, "Dual DSI config detected!" "Use default PLL\n"); oem_data->dsi_pll_src = DSI_PLL_DEFAULT; } } else if (is_dsi_config_split()) { if((dsi_video_mode_phy_db.pll_type != DSI_PLL_TYPE_THULIUM) && (oem_data->dsi_pll_src == DSI_PLL1)) { dprintf(CRITICAL, "Split DSI on 28nm/20nm!" "Use DSI PLL0\n"); oem_data->dsi_pll_src = DSI_PLL0; } } else { if ((dsi_video_mode_phy_db.pll_type != DSI_PLL_TYPE_THULIUM) && !strcmp(panelstruct.paneldata->panel_destination, "DISPLAY_1") && (oem_data->dsi_pll_src == DSI_PLL1)) { dprintf(CRITICAL, "Single DSI with DSI-0 on 28nm/20nm!" "Use DSI PLL0\n"); oem_data->dsi_pll_src = DSI_PLL0; } } if (oem_data->dsi_pll_src == DSI_PLL1) panelstruct.paneldata->panel_operating_mode |= USE_DSI1_PLL_FLAG; else if (oem_data->dsi_pll_src == DSI_PLL0) panelstruct.paneldata->panel_operating_mode &= ~USE_DSI1_PLL_FLAG; } int gcdb_display_init(const char *panel_name, uint32_t rev, void *base) { int ret = NO_ERROR; int pan_type; dsi_video_mode_phy_db.pll_type = DSI_PLL_TYPE_28NM; pan_type = oem_panel_select(panel_name, &panelstruct, &(panel.panel_info), &dsi_video_mode_phy_db); if (pan_type == PANEL_TYPE_DSI) { target_dsi_phy_config(&dsi_video_mode_phy_db); mdss_dsi_check_swap_status(); mdss_dsi_set_pll_src(); if (dsi_panel_init(&(panel.panel_info), &panelstruct)) { dprintf(CRITICAL, "DSI panel init failed!\n"); ret = ERROR; goto error_gcdb_display_init; } panel.panel_info.mipi.mdss_dsi_phy_db = &dsi_video_mode_phy_db; panel.pll_clk_func = mdss_dsi_panel_clock; panel.dfps_func = mdss_dsi_mipi_dfps_config; panel.power_func = mdss_dsi_panel_power; panel.pre_init_func = mdss_dsi_panel_pre_init; panel.bl_func = mdss_dsi_bl_enable; panel.dsi2HDMI_config = mdss_dsi2HDMI_config; /* * If dfps enabled, reserve fb memory to store pll * codes and pass pll codes values to kernel. */ if (panel.panel_info.dfps.panel_dfps.enabled) { panel.panel_info.dfps.dfps_fb_base = base; base += DFPS_PLL_CODES_SIZE; dprintf(SPEW, "fb_base=0x%p!\n", base); } panel.fb.base = base; panel.fb.width = panel.panel_info.xres; panel.fb.height = panel.panel_info.yres; panel.fb.stride = panel.panel_info.xres; panel.fb.bpp = panel.panel_info.bpp; panel.fb.format = panel.panel_info.mipi.dst_format; } else if (pan_type == PANEL_TYPE_EDP) { mdss_edp_panel_init(&(panel.panel_info)); /* prepare func is set up at edp_panel_init */ panel.clk_func = mdss_edp_panel_clock; panel.power_func = mdss_edp_panel_power; panel.bl_func = mdss_edp_bl_enable; panel.fb.format = FB_FORMAT_RGB888; } else { dprintf(CRITICAL, "Target panel init not found!\n"); ret = ERR_NOT_SUPPORTED; goto error_gcdb_display_init; } panel.fb.base = base; panel.mdp_rev = rev; ret = msm_display_init(&panel); error_gcdb_display_init: display_enable = ret ? 0 : 1; return ret; } void gcdb_display_shutdown(void) { if (display_enable) msm_display_off(); }