// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2021-2023, Qualcomm Innovation Center, Inc. All rights reserved. * Copyright (c) 2012-2021, The Linux Foundation. All rights reserved. */ #include #include #include "dp_parser.h" #include "dp_debug.h" #if defined(CONFIG_SECDP) #include "secdp.h" #endif static void dp_parser_unmap_io_resources(struct dp_parser *parser) { int i = 0; struct dp_io *io = &parser->io; for (i = 0; i < io->len; i++) msm_dss_iounmap(&io->data[i].io); } static int dp_parser_reg(struct dp_parser *parser) { int rc = 0, i = 0; u32 reg_count; struct platform_device *pdev = parser->pdev; struct dp_io *io = &parser->io; struct device *dev = &pdev->dev; reg_count = of_property_count_strings(dev->of_node, "reg-names"); if (reg_count <= 0) { DP_ERR("no reg defined\n"); return -EINVAL; } io->len = reg_count; io->data = devm_kzalloc(dev, sizeof(struct dp_io_data) * reg_count, GFP_KERNEL); if (!io->data) return -ENOMEM; for (i = 0; i < reg_count; i++) { of_property_read_string_index(dev->of_node, "reg-names", i, &io->data[i].name); rc = msm_dss_ioremap_byname(pdev, &io->data[i].io, io->data[i].name); if (rc) { DP_ERR("unable to remap %s resources\n", io->data[i].name); goto err; } } return 0; err: dp_parser_unmap_io_resources(parser); return rc; } static const char *dp_get_phy_aux_config_property(u32 cfg_type) { switch (cfg_type) { case PHY_AUX_CFG0: return "qcom,aux-cfg0-settings"; case PHY_AUX_CFG1: return "qcom,aux-cfg1-settings"; case PHY_AUX_CFG2: return "qcom,aux-cfg2-settings"; case PHY_AUX_CFG3: return "qcom,aux-cfg3-settings"; case PHY_AUX_CFG4: return "qcom,aux-cfg4-settings"; case PHY_AUX_CFG5: return "qcom,aux-cfg5-settings"; case PHY_AUX_CFG6: return "qcom,aux-cfg6-settings"; case PHY_AUX_CFG7: return "qcom,aux-cfg7-settings"; case PHY_AUX_CFG8: return "qcom,aux-cfg8-settings"; case PHY_AUX_CFG9: return "qcom,aux-cfg9-settings"; default: return "unknown"; } } static void dp_parser_phy_aux_cfg_reset(struct dp_parser *parser) { int i = 0; for (i = 0; i < PHY_AUX_CFG_MAX; i++) parser->aux_cfg[i] = (const struct dp_aux_cfg){ 0 }; } static int dp_parser_aux(struct dp_parser *parser) { struct device_node *of_node = parser->pdev->dev.of_node; int len = 0, i = 0, j = 0, config_count = 0; const char *data; int const minimum_config_count = 1; for (i = 0; i < PHY_AUX_CFG_MAX; i++) { const char *property = dp_get_phy_aux_config_property(i); data = of_get_property(of_node, property, &len); if (!data) { DP_ERR("Unable to read %s\n", property); goto error; } config_count = len - 1; if ((config_count < minimum_config_count) || (config_count > DP_AUX_CFG_MAX_VALUE_CNT)) { DP_ERR("Invalid config count (%d) configs for %s\n", config_count, property); goto error; } parser->aux_cfg[i].offset = data[0]; parser->aux_cfg[i].cfg_cnt = config_count; DP_DEBUG("%s offset=0x%x, cfg_cnt=%d\n", property, parser->aux_cfg[i].offset, parser->aux_cfg[i].cfg_cnt); for (j = 1; j < len; j++) { parser->aux_cfg[i].lut[j - 1] = data[j]; DP_DEBUG("%s lut[%d]=0x%x\n", property, i, parser->aux_cfg[i].lut[j - 1]); } } return 0; error: dp_parser_phy_aux_cfg_reset(parser); return -EINVAL; } #if defined(CONFIG_SECDP_DBG) int secdp_aux_cfg_show(struct dp_parser *parser, char *buf) { struct dp_aux_cfg *cfg = parser->aux_cfg; int i, rc = 0; for (i = 0; i < PHY_AUX_CFG_MAX; i++) { rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s: offset=0x%x, value=0x%02x\n", dp_phy_aux_config_type_to_string(i), cfg[i].offset, cfg[i].lut[cfg[i].current_index]); } return rc; } int secdp_aux_cfg_store(struct dp_parser *parser, char *buf) { struct dp_aux_cfg *cfg = parser->aux_cfg; char *tok; u32 value; int i, rc = 0; for (i = 0; i < PHY_AUX_CFG_MAX; i++) { tok = strsep(&buf, ","); if (!tok) continue; rc = kstrtouint(tok, 16, &value); if (rc) { DP_ERR("error: %s rc:%d\n", tok, rc); break; } cfg[i].lut[cfg[i].current_index] = value; DP_DEBUG("offset=0x%x, value=0x%02x\n", cfg[i].offset, cfg[i].lut[cfg[i].current_index]); } return rc; } #endif static int dp_parser_misc(struct dp_parser *parser) { int rc = 0, len = 0, i = 0; const char *data = NULL; struct device_node *of_node = parser->pdev->dev.of_node; data = of_get_property(of_node, "qcom,logical2physical-lane-map", &len); if (data && (len == DP_MAX_PHY_LN)) { for (i = 0; i < len; i++) parser->l_map[i] = data[i]; } data = of_get_property(of_node, "qcom,pn-swap-lane-map", &len); if (data && (len == DP_MAX_PHY_LN)) { for (i = 0; i < len; i++) parser->l_pnswap |= (data[i] & 0x01) << i; } rc = of_property_read_u32(of_node, "qcom,max-pclk-frequency-khz", &parser->max_pclk_khz); if (rc) parser->max_pclk_khz = DP_MAX_PIXEL_CLK_KHZ; rc = of_property_read_u32(of_node, "qcom,max-lclk-frequency-khz", &parser->max_lclk_khz); if (rc) parser->max_lclk_khz = DP_MAX_LINK_CLK_KHZ; return 0; } static int dp_parser_msm_hdcp_dev(struct dp_parser *parser) { struct device_node *node; struct platform_device *pdev; node = of_find_compatible_node(NULL, NULL, "qcom,msm-hdcp"); if (!node) { // This is a non-fatal error, module initialization can proceed DP_WARN("couldn't find msm-hdcp node\n"); return 0; } pdev = of_find_device_by_node(node); if (!pdev) { // This is a non-fatal error, module initialization can proceed DP_WARN("couldn't find msm-hdcp pdev\n"); return 0; } parser->msm_hdcp_dev = &pdev->dev; return 0; } static int dp_parser_pinctrl(struct dp_parser *parser) { int rc = 0; struct dp_pinctrl *pinctrl = &parser->pinctrl; #if IS_ENABLED(CONFIG_SBU_SWITCH_CONTROL) DP_INFO("max77775: no need to parse dp_aux gpios\n"); return 0; #endif pinctrl->pin = devm_pinctrl_get(&parser->pdev->dev); if (IS_ERR_OR_NULL(pinctrl->pin)) { DP_DEBUG("failed to get pinctrl, rc=%d\n", rc); goto error; } pinctrl->state_active = pinctrl_lookup_state(pinctrl->pin, "mdss_dp_active"); if (IS_ERR_OR_NULL(pinctrl->state_active)) { rc = PTR_ERR(pinctrl->state_active); DP_ERR("failed to get pinctrl active state, rc=%d\n", rc); goto error; } pinctrl->state_suspend = pinctrl_lookup_state(pinctrl->pin, "mdss_dp_sleep"); if (IS_ERR_OR_NULL(pinctrl->state_suspend)) { rc = PTR_ERR(pinctrl->state_suspend); DP_ERR("failed to get pinctrl suspend state, rc=%d\n", rc); goto error; } error: return rc; } static int dp_parser_gpio(struct dp_parser *parser) { int i = 0; struct device *dev = &parser->pdev->dev; struct device_node *of_node = dev->of_node; struct dss_module_power *mp = &parser->mp[DP_CORE_PM]; static const char * const dp_gpios[] = { "qcom,aux-en-gpio", "qcom,aux-sel-gpio", "qcom,usbplug-cc-gpio", }; if (of_find_property(of_node, "qcom,dp-gpio-aux-switch", NULL)) parser->gpio_aux_switch = true; mp->gpio_config = devm_kzalloc(dev, sizeof(struct dss_gpio) * ARRAY_SIZE(dp_gpios), GFP_KERNEL); if (!mp->gpio_config) return -ENOMEM; mp->num_gpio = ARRAY_SIZE(dp_gpios); for (i = 0; i < ARRAY_SIZE(dp_gpios); i++) { mp->gpio_config[i].gpio = of_get_named_gpio(of_node, dp_gpios[i], 0); if (!gpio_is_valid(mp->gpio_config[i].gpio)) { DP_DEBUG("%s gpio not specified\n", dp_gpios[i]); /* In case any gpio was not specified, we think gpio * aux switch also was not specified. */ parser->gpio_aux_switch = false; continue; } strlcpy(mp->gpio_config[i].gpio_name, dp_gpios[i], sizeof(mp->gpio_config[i].gpio_name)); mp->gpio_config[i].value = 0; } #if defined(CONFIG_SECDP) for (i = 0; i < ARRAY_SIZE(dp_gpios); i++) { DP_INFO("name:%s gpio:%u value:%u\n", mp->gpio_config[i].gpio_name, mp->gpio_config[i].gpio, mp->gpio_config[i].value); } #endif return 0; } static const char *dp_parser_supply_node_name(enum dp_pm_type module) { switch (module) { case DP_CORE_PM: return "qcom,core-supply-entries"; case DP_CTRL_PM: return "qcom,ctrl-supply-entries"; case DP_PHY_PM: return "qcom,phy-supply-entries"; case DP_PLL_PM: return "qcom,pll-supply-entries"; default: return "???"; } } static int dp_parser_get_vreg(struct dp_parser *parser, enum dp_pm_type module) { int i = 0, rc = 0; u32 tmp = 0; const char *pm_supply_name = NULL; struct device_node *supply_node = NULL; struct device_node *of_node = parser->pdev->dev.of_node; struct device_node *supply_root_node = NULL; struct dss_module_power *mp = &parser->mp[module]; mp->num_vreg = 0; pm_supply_name = dp_parser_supply_node_name(module); #if defined(CONFIG_SECDP) DP_DEBUG("pm_supply_name: %s\n", pm_supply_name); #endif supply_root_node = of_get_child_by_name(of_node, pm_supply_name); if (!supply_root_node) { DP_DEBUG("no supply entry present: %s\n", pm_supply_name); goto novreg; } mp->num_vreg = of_get_available_child_count(supply_root_node); if (mp->num_vreg == 0) { DP_DEBUG("no vreg\n"); goto novreg; } else { DP_DEBUG("vreg found. count=%d\n", mp->num_vreg); } mp->vreg_config = devm_kzalloc(&parser->pdev->dev, sizeof(struct dss_vreg) * mp->num_vreg, GFP_KERNEL); if (!mp->vreg_config) { rc = -ENOMEM; goto error; } for_each_child_of_node(supply_root_node, supply_node) { const char *st = NULL; /* vreg-name */ rc = of_property_read_string(supply_node, "qcom,supply-name", &st); if (rc) { DP_ERR("error reading name. rc=%d\n", rc); goto error; } snprintf(mp->vreg_config[i].vreg_name, ARRAY_SIZE((mp->vreg_config[i].vreg_name)), "%s", st); /* vreg-min-voltage */ rc = of_property_read_u32(supply_node, "qcom,supply-min-voltage", &tmp); if (rc) { DP_ERR("error reading min volt. rc=%d\n", rc); goto error; } mp->vreg_config[i].min_voltage = tmp; /* vreg-max-voltage */ rc = of_property_read_u32(supply_node, "qcom,supply-max-voltage", &tmp); if (rc) { DP_ERR("error reading max volt. rc=%d\n", rc); goto error; } mp->vreg_config[i].max_voltage = tmp; /* enable-load */ rc = of_property_read_u32(supply_node, "qcom,supply-enable-load", &tmp); if (rc) { DP_ERR("error reading enable load. rc=%d\n", rc); goto error; } mp->vreg_config[i].enable_load = tmp; /* disable-load */ rc = of_property_read_u32(supply_node, "qcom,supply-disable-load", &tmp); if (rc) { DP_ERR("error reading disable load. rc=%d\n", rc); goto error; } mp->vreg_config[i].disable_load = tmp; DP_DEBUG("%s min=%d, max=%d, enable=%d, disable=%d\n", mp->vreg_config[i].vreg_name, mp->vreg_config[i].min_voltage, mp->vreg_config[i].max_voltage, mp->vreg_config[i].enable_load, mp->vreg_config[i].disable_load ); ++i; } return rc; error: if (mp->vreg_config) { devm_kfree(&parser->pdev->dev, mp->vreg_config); mp->vreg_config = NULL; } novreg: mp->num_vreg = 0; return rc; } static void dp_parser_put_vreg_data(struct device *dev, struct dss_module_power *mp) { if (!mp) { DEV_ERR("invalid input\n"); return; } if (mp->vreg_config) { devm_kfree(dev, mp->vreg_config); mp->vreg_config = NULL; } mp->num_vreg = 0; } #if defined(CONFIG_SECDP) static struct regulator *secdp_get_aux_pullup_vreg(struct device *dev) { struct regulator *vreg = NULL; vreg = devm_regulator_get(dev, "aux-pullup"); if (IS_ERR(vreg)) { DP_ERR("unable to get aux-pullup vdd supply\n"); return NULL; } DP_INFO("get aux-pullup vdd success\n"); return vreg; } #endif static int dp_parser_regulator(struct dp_parser *parser) { int i, rc = 0; struct platform_device *pdev = parser->pdev; /* Parse the regulator information */ for (i = DP_CORE_PM; i < DP_MAX_PM; i++) { rc = dp_parser_get_vreg(parser, i); if (rc) { DP_ERR("get_dt_vreg_data failed for %s. rc=%d\n", dp_parser_pm_name(i), rc); i--; for (; i >= DP_CORE_PM; i--) dp_parser_put_vreg_data(&pdev->dev, &parser->mp[i]); break; } } #if defined(CONFIG_SECDP) parser->aux_pullup_vreg = secdp_get_aux_pullup_vreg(&pdev->dev); #endif return rc; } static bool dp_parser_check_prefix(const char *clk_prefix, const char *clk_name) { return !!strnstr(clk_name, clk_prefix, strlen(clk_name)); } static void dp_parser_put_clk_data(struct device *dev, struct dss_module_power *mp) { if (!mp) { DEV_ERR("%s: invalid input\n", __func__); return; } if (mp->clk_config) { devm_kfree(dev, mp->clk_config); mp->clk_config = NULL; } mp->num_clk = 0; } static void dp_parser_put_gpio_data(struct device *dev, struct dss_module_power *mp) { if (!mp) { DEV_ERR("%s: invalid input\n", __func__); return; } if (mp->gpio_config) { devm_kfree(dev, mp->gpio_config); mp->gpio_config = NULL; } mp->num_gpio = 0; } static int dp_parser_init_clk_data(struct dp_parser *parser) { int num_clk = 0, i = 0, rc = 0; int core_clk_count = 0, link_clk_count = 0; int strm0_clk_count = 0, strm1_clk_count = 0; const char *core_clk = "core"; const char *strm0_clk = "strm0"; const char *strm1_clk = "strm1"; const char *link_clk = "link"; const char *clk_name; struct device *dev = &parser->pdev->dev; struct dss_module_power *core_power = &parser->mp[DP_CORE_PM]; struct dss_module_power *strm0_power = &parser->mp[DP_STREAM0_PM]; struct dss_module_power *strm1_power = &parser->mp[DP_STREAM1_PM]; struct dss_module_power *link_power = &parser->mp[DP_LINK_PM]; num_clk = of_property_count_strings(dev->of_node, "clock-names"); if (num_clk <= 0) { DP_ERR("no clocks are defined\n"); rc = -EINVAL; goto exit; } for (i = 0; i < num_clk; i++) { of_property_read_string_index(dev->of_node, "clock-names", i, &clk_name); if (dp_parser_check_prefix(core_clk, clk_name)) core_clk_count++; if (dp_parser_check_prefix(strm0_clk, clk_name)) strm0_clk_count++; if (dp_parser_check_prefix(strm1_clk, clk_name)) strm1_clk_count++; if (dp_parser_check_prefix(link_clk, clk_name)) link_clk_count++; } /* Initialize the CORE power module */ if (core_clk_count <= 0) { DP_ERR("no core clocks are defined\n"); rc = -EINVAL; goto exit; } core_power->num_clk = core_clk_count; core_power->clk_config = devm_kzalloc(dev, sizeof(struct dss_clk) * core_power->num_clk, GFP_KERNEL); if (!core_power->clk_config) { rc = -EINVAL; goto exit; } /* Initialize the STREAM0 power module */ if (strm0_clk_count <= 0) { DP_DEBUG("no strm0 clocks are defined\n"); } else { strm0_power->num_clk = strm0_clk_count; strm0_power->clk_config = devm_kzalloc(dev, sizeof(struct dss_clk) * strm0_power->num_clk, GFP_KERNEL); if (!strm0_power->clk_config) { strm0_power->num_clk = 0; rc = -EINVAL; goto strm0_clock_error; } } /* Initialize the STREAM1 power module */ if (strm1_clk_count <= 0) { DP_DEBUG("no strm1 clocks are defined\n"); } else { strm1_power->num_clk = strm1_clk_count; strm1_power->clk_config = devm_kzalloc(dev, sizeof(struct dss_clk) * strm1_power->num_clk, GFP_KERNEL); if (!strm1_power->clk_config) { strm1_power->num_clk = 0; rc = -EINVAL; goto strm1_clock_error; } } /* Initialize the link power module */ if (link_clk_count <= 0) { DP_ERR("no link clocks are defined\n"); rc = -EINVAL; goto link_clock_error; } link_power->num_clk = link_clk_count; link_power->clk_config = devm_kzalloc(dev, sizeof(struct dss_clk) * link_power->num_clk, GFP_KERNEL); if (!link_power->clk_config) { link_power->num_clk = 0; rc = -EINVAL; goto link_clock_error; } return rc; link_clock_error: dp_parser_put_clk_data(dev, strm1_power); strm1_clock_error: dp_parser_put_clk_data(dev, strm0_power); strm0_clock_error: dp_parser_put_clk_data(dev, core_power); exit: return rc; } static int dp_parser_clock(struct dp_parser *parser) { int rc = 0, i = 0; int num_clk = 0; int core_clk_index = 0, link_clk_index = 0; int core_clk_count = 0, link_clk_count = 0; int strm0_clk_index = 0, strm1_clk_index = 0; int strm0_clk_count = 0, strm1_clk_count = 0; int clock_mmrm = 0; const char *clk_name; const char *core_clk = "core"; const char *strm0_clk = "strm0"; const char *strm1_clk = "strm1"; const char *link_clk = "link"; struct device *dev = &parser->pdev->dev; struct dss_module_power *core_power; struct dss_module_power *strm0_power; struct dss_module_power *strm1_power; struct dss_module_power *link_power; core_power = &parser->mp[DP_CORE_PM]; strm0_power = &parser->mp[DP_STREAM0_PM]; strm1_power = &parser->mp[DP_STREAM1_PM]; link_power = &parser->mp[DP_LINK_PM]; rc = dp_parser_init_clk_data(parser); if (rc) { DP_ERR("failed to initialize power data\n"); rc = -EINVAL; goto exit; } core_clk_count = core_power->num_clk; link_clk_count = link_power->num_clk; strm0_clk_count = strm0_power->num_clk; strm1_clk_count = strm1_power->num_clk; num_clk = of_property_count_strings(dev->of_node, "clock-names"); for (i = 0; i < num_clk; i++) { of_property_read_string_index(dev->of_node, "clock-names", i, &clk_name); if (dp_parser_check_prefix(core_clk, clk_name) && core_clk_index < core_clk_count) { struct dss_clk *clk = &core_power->clk_config[core_clk_index]; strlcpy(clk->clk_name, clk_name, sizeof(clk->clk_name)); clk->type = DSS_CLK_AHB; core_clk_index++; } else if (dp_parser_check_prefix(link_clk, clk_name) && link_clk_index < link_clk_count) { struct dss_clk *clk = &link_power->clk_config[link_clk_index]; strlcpy(clk->clk_name, clk_name, sizeof(clk->clk_name)); link_clk_index++; clock_mmrm = 0; of_property_read_u32_index(dev->of_node, "clock-mmrm", i, &clock_mmrm); if (clock_mmrm) { clk->type = DSS_CLK_MMRM; clk->mmrm.clk_id = clock_mmrm; } else if (!strcmp(clk_name, "link_clk_src")) { clk->type = DSS_CLK_PCLK; } else { clk->type = DSS_CLK_AHB; } } else if (dp_parser_check_prefix(strm0_clk, clk_name) && strm0_clk_index < strm0_clk_count) { struct dss_clk *clk = &strm0_power->clk_config[strm0_clk_index]; strlcpy(clk->clk_name, clk_name, sizeof(clk->clk_name)); strm0_clk_index++; clk->type = DSS_CLK_PCLK; } else if (dp_parser_check_prefix(strm1_clk, clk_name) && strm1_clk_index < strm1_clk_count) { struct dss_clk *clk = &strm1_power->clk_config[strm1_clk_index]; strlcpy(clk->clk_name, clk_name, sizeof(clk->clk_name)); strm1_clk_index++; clk->type = DSS_CLK_PCLK; } } DP_DEBUG("clock parsing successful\n"); exit: return rc; } static int dp_parser_catalog(struct dp_parser *parser) { int rc; u32 version; struct device *dev = &parser->pdev->dev; rc = of_property_read_u32(dev->of_node, "qcom,phy-version", &version); if (!rc) parser->hw_cfg.phy_version = version; return 0; } static int dp_parser_mst(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; int i; parser->has_mst = of_property_read_bool(dev->of_node, "qcom,mst-enable"); #if defined(CONFIG_SECDP) parser->mst_support = of_property_read_bool(dev->of_node, "secdp,mst-support"); if (!parser->mst_support) { parser->has_mst = false; DP_INFO("[secdp] mst disable!\n"); } #endif parser->has_mst_sideband = parser->has_mst; DP_DEBUG("mst parsing successful. mst:%d\n", parser->has_mst); for (i = 0; i < MAX_DP_MST_STREAMS; i++) { of_property_read_u32_index(dev->of_node, "qcom,mst-fixed-topology-ports", i, &parser->mst_fixed_port[i]); } return 0; } static void dp_parser_dsc(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; parser->dsc_feature_enable = of_property_read_bool(dev->of_node, "qcom,dsc-feature-enable"); #if defined(SECDP_MAX_HBR2) parser->dsc_feature_enable = false; DP_INFO("[secdp] dsc disable!\n"); #endif parser->dsc_continuous_pps = of_property_read_bool(dev->of_node, "qcom,dsc-continuous-pps"); DP_DEBUG("dsc parsing successful. dsc:%d\n", parser->dsc_feature_enable); DP_DEBUG("cont_pps:%d\n", parser->dsc_continuous_pps); } static void dp_parser_qos(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; u32 mask, latency; int rc; rc = of_property_read_u32(dev->of_node, "qcom,qos-cpu-latency-us", &latency); if (rc) return; rc = of_property_read_u32(dev->of_node, "qcom,qos-cpu-mask", &mask); if (rc) return; parser->qos_cpu_mask = mask; parser->qos_cpu_latency = latency; DP_DEBUG("qos parsing successful. mask:%x latency:%ld\n", mask, latency); } static void dp_parser_fec(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; parser->fec_feature_enable = of_property_read_bool(dev->of_node, "qcom,fec-feature-enable"); #if defined(SECDP_MAX_HBR2) parser->fec_feature_enable = false; DP_INFO("[secdp] fec disable!\n"); #endif DP_DEBUG("fec parsing successful. fec:%d\n", parser->fec_feature_enable); } static void dp_parser_widebus(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; parser->has_widebus = of_property_read_bool(dev->of_node, "qcom,widebus-enable"); DP_DEBUG("widebus parsing successful. widebus:%d\n", parser->has_widebus); } static int parse_lt_param(struct device *dev, u8 **ptr, char *property) { int ret = 0, i = 0, j = 0, index = 0; u32 out_val = 0; u32 expected_elems = MAX_SWING_LEVELS * MAX_PRE_EMP_LEVELS; u8 parsed_val = 0; ret = of_property_count_u32_elems(dev->of_node, property); if (ret != expected_elems) { return ret; } *ptr = devm_kzalloc(dev, sizeof(u8) * expected_elems, GFP_KERNEL); if (!*ptr) return -ENOMEM; for (i = 0; i < MAX_SWING_LEVELS; i++) { for (j = 0; j < MAX_PRE_EMP_LEVELS; j++) { index = i * MAX_SWING_LEVELS + j; ret = of_property_read_u32_index(dev->of_node, property, index, &out_val); if (ret) return ret; parsed_val = out_val & 0xFF; ((u8 *)*ptr)[index] = parsed_val; } } return ret; } static void dp_parser_clear_link_training_params(struct dp_parser *dp_parser) { devm_kfree(&dp_parser->pdev->dev, dp_parser->swing_hbr2_3); devm_kfree(&dp_parser->pdev->dev, dp_parser->pre_emp_hbr2_3); devm_kfree(&dp_parser->pdev->dev, dp_parser->swing_hbr_rbr); devm_kfree(&dp_parser->pdev->dev, dp_parser->pre_emp_hbr_rbr); dp_parser->swing_hbr2_3 = NULL; dp_parser->pre_emp_hbr2_3 = NULL; dp_parser->swing_hbr_rbr = NULL; dp_parser->pre_emp_hbr_rbr = NULL; dp_parser->valid_lt_params = false; } #if !defined(CONFIG_SECDP) #define HBR2_3_VOLTAGE_SWING "qcom,hbr2-3-voltage-swing" #define HBR2_3_PRE_EMPHASIS "qcom,hbr2-3-pre-emphasis" #define HBR_RBR_VOLTAGE_SWING "qcom,hbr-rbr-voltage-swing" #define HBR_RBR_PRE_EMPHASIS "qcom,hbr-rbr-pre-emphasis" #else #define HBR2_3_VOLTAGE_SWING "secdp,hbr2-3-voltage-swing" #define HBR2_3_PRE_EMPHASIS "secdp,hbr2-3-pre-emphasis" #define HBR_RBR_VOLTAGE_SWING "secdp,hbr-rbr-voltage-swing" #define HBR_RBR_PRE_EMPHASIS "secdp,hbr-rbr-pre-emphasis" #endif static void dp_parser_link_training_params(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; int ret = 0; ret = parse_lt_param(dev, &parser->swing_hbr2_3, "qcom,hbr2-3-voltage-swing"); if (ret) goto early_exit; ret = parse_lt_param(dev, &parser->pre_emp_hbr2_3, "qcom,hbr2-3-pre-emphasis"); if (ret) goto early_exit; ret = parse_lt_param(dev, &parser->swing_hbr_rbr, "qcom,hbr-rbr-voltage-swing"); if (ret) goto early_exit; ret = parse_lt_param(dev, &parser->pre_emp_hbr_rbr, "qcom,hbr-rbr-pre-emphasis"); if (ret) goto early_exit; parser->valid_lt_params = true; DP_DEBUG("link training parameters parsing success\n"); goto end; early_exit: if(ret == -EINVAL) DP_WARN("link training parameters not found - using default values\n"); else DP_ERR("link training parameters parsing failure ret: %d\n", ret); dp_parser_clear_link_training_params(parser); end: return; } #if defined(CONFIG_SECDP) #if IS_ENABLED(CONFIG_COMBO_REDRIVER_PS5169) static void secdp_parse_ps5169_param(struct dp_parser *parser); #endif static void secdp_parse_misc(struct dp_parser *parser) { struct device *dev = &parser->pdev->dev; struct device_node *of_node = dev->of_node; const char *data; int len = 0; #if IS_ENABLED(CONFIG_COMBO_REDRIVER_PS5169) secdp_parse_ps5169_param(parser); #endif parser->cc_dir_inv = of_property_read_bool(dev->of_node, "secdp,cc-dir-inv"); DP_DEBUG("secdp,cc-dir-inv: %d\n", parser->cc_dir_inv); parser->aux_sel_inv = of_property_read_bool(dev->of_node, "secdp,aux-sel-inv"); DP_DEBUG("secdp,aux-sel-inv: %d\n", parser->aux_sel_inv); data = of_get_property(of_node, "secdp,redrv", &len); if (data) { if (!strncmp(data, "ptn36502", len)) parser->use_redrv = SECDP_REDRV_PTN36502; else if (!strncmp(data, "ps5169", len)) parser->use_redrv = SECDP_REDRV_PS5169; else parser->use_redrv = SECDP_REDRV_NONE; } DP_DEBUG("secdp,redrv: %s, %s\n", data, secdp_redrv_to_string(parser->use_redrv)); data = of_get_property(of_node, "secdp,dex-dft-res", &len); if (data) { if (!strncmp(data, "3440x1440", len)) parser->dex_dft_res = DEX_RES_3440X1440; } DP_DEBUG("secdp,dex-dft-res: %s, %s\n", data, secdp_dex_res_to_string(parser->dex_dft_res)); parser->prefer_support = of_property_read_bool(dev->of_node, "secdp,prefer-res"); DP_DEBUG("secdp,prefer-res: %d\n", parser->prefer_support); parser->mrr_fps_nolimit = of_property_read_bool(dev->of_node, "secdp,mrr-fps-nolimit"); DP_DEBUG("secdp,mrr-fps-nolimit: %d\n", parser->mrr_fps_nolimit); parser->rf_tx_backoff = of_property_read_bool(dev->of_node, "secdp,rf-tx-backoff"); DP_DEBUG("secdp,rf-tx-backoff: %d\n", parser->rf_tx_backoff); } #endif #if defined(CONFIG_SECDP_DBG) /********************************************* *** default DP PHY params *** *** see pineapple-sde.dtsi *** *********************************************/ static u8 const hbr_rbr_voltage_swing[MAX_VOLTAGE_LEVELS * MAX_PRE_EMP_LEVELS] = { 0x07, 0x0f, 0x16, 0x1f, /* sw0, 0.4v */ 0x11, 0x1e, 0x1f, 0xff, /* sw1, 0.6v */ 0x16, 0x1f, 0xff, 0xff, /* sw1, 0.8v */ 0x1f, 0xff, 0xff, 0xff, /* sw1, 1.2v */ }; static u8 const hbr_rbr_pre_emphasis[MAX_VOLTAGE_LEVELS * MAX_PRE_EMP_LEVELS] = { 0x00, 0x0d, 0x14, 0x1a, /* pe0, 0 db */ 0x00, 0x0e, 0x15, 0xff, /* pe1, 3.5 db */ 0x00, 0x0e, 0xff, 0xff, /* pe2, 6.0 db */ 0x02, 0xff, 0xff, 0xff, /* pe3, 9.5 db */ }; static u8 const hbr2_3_voltage_swing[MAX_VOLTAGE_LEVELS * MAX_PRE_EMP_LEVELS] = { 0x02, 0x12, 0x16, 0x1a, /* sw0, 0.4v */ 0x09, 0x19, 0x1f, 0xff, /* sw1, 0.6v */ 0x10, 0x1f, 0xff, 0xff, /* sw1, 0.8v */ 0x1f, 0xff, 0xff, 0xff, /* sw1, 1.2v */ }; static u8 const hbr2_3_pre_emphasis[MAX_VOLTAGE_LEVELS * MAX_PRE_EMP_LEVELS] = { 0x00, 0x0c, 0x15, 0x1b, /* pe0, 0 db */ 0x02, 0x0e, 0x16, 0xff, /* pe1, 3.5 db */ 0x02, 0x11, 0xff, 0xff, /* pe2, 6.0 db */ 0x04, 0xff, 0xff, 0xff, /* pe3, 9.5 db */ }; static void secdp_set_default_phy_param(struct dp_parser *parser, u8 lr, u8 vxpx) { int i, j, index; for (i = 0; i < MAX_VOLTAGE_LEVELS; i++) { for (j = 0; j < MAX_PRE_EMP_LEVELS; j++) { index = i * MAX_VOLTAGE_LEVELS + j; if (lr & DP_LR_HBR_RBR) { if (vxpx & DP_PARAM_VX) parser->swing_hbr_rbr[index] = hbr_rbr_voltage_swing[index]; if (vxpx & DP_PARAM_PX) parser->pre_emp_hbr_rbr[index] = hbr_rbr_pre_emphasis[index]; } if (lr & DP_LR_HBR2_3) { if (vxpx & DP_PARAM_VX) parser->swing_hbr2_3[index] = hbr2_3_voltage_swing[index]; if (vxpx & DP_PARAM_PX) parser->pre_emp_hbr2_3[index] = hbr2_3_pre_emphasis[index]; } } } } static u8 *_secdp_get_lr_target(struct dp_parser *parser, enum secdp_link_rate_t lr, enum secdp_phy_param_t vxpx, char *buf, int *len) { u8 *target = NULL; int rc = 0; if (buf && len) rc = *len; if (lr == DP_LR_HBR_RBR) { if (vxpx == DP_PARAM_VX) { target = parser->swing_hbr_rbr; if (buf) { rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", HBR_RBR_VOLTAGE_SWING); } } else if (vxpx == DP_PARAM_PX) { target = parser->pre_emp_hbr_rbr; if (buf) { rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", HBR_RBR_PRE_EMPHASIS); } } else { DP_ERR("%s: invalid vxpx %d\n", secdp_link_rate_to_string(lr), vxpx); } } else if (lr == DP_LR_HBR2_3) { if (vxpx == DP_PARAM_VX) { target = parser->swing_hbr2_3; if (buf) { rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", HBR2_3_VOLTAGE_SWING); } } else if (vxpx == DP_PARAM_PX) { target = parser->pre_emp_hbr2_3; if (buf) { rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", HBR2_3_PRE_EMPHASIS); } } else { DP_ERR("%s: invalid vxpx %d\n", secdp_link_rate_to_string(lr), vxpx); } } else { DP_ERR("invalid link rate %d\n", lr); } if (buf && len && (rc != *len)) *len = rc; return target; } int secdp_parse_vxpx_show(struct dp_parser *parser, enum secdp_link_rate_t lr, enum secdp_phy_param_t vxpx, char *buf) { int i = 0, j = 0, index = 0; int rc = 0; u8 *target = NULL; target = _secdp_get_lr_target(parser, lr, vxpx, buf, &rc); rc += scnprintf(buf + rc, PAGE_SIZE - rc, "=====\n"); for (i = 0; i < MAX_SWING_LEVELS; i++) { for (j = 0; j < MAX_PRE_EMP_LEVELS; j++) { index = i * MAX_SWING_LEVELS + j; rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%02x,", target[index]); } rc += scnprintf(buf + rc, PAGE_SIZE - rc, "\n"); } return rc; } int secdp_parse_vxpx_store(struct dp_parser *parser, enum secdp_link_rate_t lr, enum secdp_phy_param_t vxpx, char *buf) { u8 *tok, *target = NULL; u32 value; int i, j, index = 0, rc = 0; if (!strncmp(buf, "reset_all", strlen("reset_all"))) { DP_DEBUG("[all] reset!\n"); secdp_set_default_phy_param(parser, DP_LR_HBR_RBR | DP_LR_HBR2_3, DP_PARAM_VX | DP_PARAM_PX); goto end; } if (!strncmp(buf, "reset", strlen("reset"))) { DP_DEBUG("[%s,%s] reset!\n", secdp_link_rate_to_string(lr), secdp_phy_type_to_string(vxpx)); secdp_set_default_phy_param(parser, lr, vxpx); goto end; } DP_DEBUG("[%s,%s] set new params!\n", secdp_link_rate_to_string(lr), secdp_phy_type_to_string(vxpx)); target = _secdp_get_lr_target(parser, lr, vxpx, NULL, NULL); for (i = 0; i < MAX_SWING_LEVELS; i++) { for (j = 0; j < MAX_PRE_EMP_LEVELS; j++) { index = i * MAX_SWING_LEVELS + j; tok = strsep(&buf, ","); if (!tok) continue; rc = kstrtouint(tok, 16, &value); if (rc) { DP_ERR("error: %s rc:%d\n", tok, rc); goto end; } target[index] = value; } } end: return rc; } int secdp_show_phy_param(struct dp_parser *parser, char *buf) { char tmp[SZ_1K] = {0,}; int rc = 0; secdp_parse_vxpx_show(parser, DP_LR_HBR_RBR, DP_PARAM_VX, tmp); rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", tmp); memset(tmp, 0, SZ_1K); secdp_parse_vxpx_show(parser, DP_LR_HBR_RBR, DP_PARAM_PX, tmp); rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", tmp); memset(tmp, 0, SZ_1K); secdp_parse_vxpx_show(parser, DP_LR_HBR2_3, DP_PARAM_VX, tmp); rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", tmp); memset(tmp, 0, SZ_1K); secdp_parse_vxpx_show(parser, DP_LR_HBR2_3, DP_PARAM_PX, tmp); rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%s\n", tmp); return rc; } #endif #if defined(CONFIG_SECDP) && IS_ENABLED(CONFIG_COMBO_REDRIVER_PS5169) static const char *secdp_get_ps5169_rbr_eq0(u32 lvl) { switch (lvl) { case PHY_PS5169_EMP0: return "secdp,redrv-rbr-eq0-0"; case PHY_PS5169_EMP1: return "secdp,redrv-rbr-eq0-1"; case PHY_PS5169_EMP2: return "secdp,redrv-rbr-eq0-2"; case PHY_PS5169_EMP3: return "secdp,redrv-rbr-eq0-3"; default: return "secdp,redrv-rbr-eq0-unknown"; } } static const char *secdp_get_ps5169_rbr_eq1(u32 lvl) { switch (lvl) { case PHY_PS5169_SWING0: return "secdp,redrv-rbr-eq1-0"; case PHY_PS5169_SWING1: return "secdp,redrv-rbr-eq1-1"; case PHY_PS5169_SWING2: return "secdp,redrv-rbr-eq1-2"; case PHY_PS5169_SWING3: return "secdp,redrv-rbr-eq1-3"; default: return "secdp,redrv-rbr-eq1-unknown"; } } static int _secdp_parse_ps5169_rbr(struct dp_parser *parser) { struct device_node *of_node = parser->pdev->dev.of_node; int len = 0, i = 0, j = 0; const char *data; DP_ENTER("\n"); for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_rbr_eq0(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_rbr_eq0[i][j] = data[j]; } for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_rbr_eq1(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_rbr_eq1[i][j] = data[j]; } return 0; error: return -EINVAL; } static const char *secdp_get_ps5169_hbr_eq0(u32 lvl) { switch (lvl) { case PHY_PS5169_EMP0: return "secdp,redrv-hbr-eq0-0"; case PHY_PS5169_EMP1: return "secdp,redrv-hbr-eq0-1"; case PHY_PS5169_EMP2: return "secdp,redrv-hbr-eq0-2"; case PHY_PS5169_EMP3: return "secdp,redrv-hbr-eq0-3"; default: return "secdp,redrv-hbr-eq0-unknown"; } } static const char *secdp_get_ps5169_hbr_eq1(u32 lvl) { switch (lvl) { case PHY_PS5169_SWING0: return "secdp,redrv-hbr-eq1-0"; case PHY_PS5169_SWING1: return "secdp,redrv-hbr-eq1-1"; case PHY_PS5169_SWING2: return "secdp,redrv-hbr-eq1-2"; case PHY_PS5169_SWING3: return "secdp,redrv-hbr-eq1-3"; default: return "secdp,redrv-hbr-eq1-unknown"; } } static int _secdp_parse_ps5169_hbr(struct dp_parser *parser) { struct device_node *of_node = parser->pdev->dev.of_node; int len = 0, i = 0, j = 0; const char *data; DP_ENTER("\n"); for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_hbr_eq0(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_hbr_eq0[i][j] = data[j]; } for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_hbr_eq1(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_hbr_eq1[i][j] = data[j]; } return 0; error: return -EINVAL; } static const char *secdp_get_ps5169_hbr2_eq0(u32 lvl) { switch (lvl) { case PHY_PS5169_EMP0: return "secdp,redrv-hbr2-eq0-0"; case PHY_PS5169_EMP1: return "secdp,redrv-hbr2-eq0-1"; case PHY_PS5169_EMP2: return "secdp,redrv-hbr2-eq0-2"; case PHY_PS5169_EMP3: return "secdp,redrv-hbr2-eq0-3"; default: return "secdp,redrv-hbr2-eq0-unknown"; } } static const char *secdp_get_ps5169_hbr2_eq1(u32 lvl) { switch (lvl) { case PHY_PS5169_SWING0: return "secdp,redrv-hbr2-eq1-0"; case PHY_PS5169_SWING1: return "secdp,redrv-hbr2-eq1-1"; case PHY_PS5169_SWING2: return "secdp,redrv-hbr2-eq1-2"; case PHY_PS5169_SWING3: return "secdp,redrv-hbr2-eq1-3"; default: return "secdp,redrv-hbr2-eq1-unknown"; } } static int _secdp_parse_ps5169_hbr2(struct dp_parser *parser) { struct device_node *of_node = parser->pdev->dev.of_node; int len = 0, i = 0, j = 0; const char *data; DP_ENTER("\n"); for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_hbr2_eq0(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_hbr2_eq0[i][j] = data[j]; } for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_hbr2_eq1(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_hbr2_eq1[i][j] = data[j]; } return 0; error: return -EINVAL; } static const char *secdp_get_ps5169_hbr3_eq0(u32 lvl) { switch (lvl) { case PHY_PS5169_EMP0: return "secdp,redrv-hbr3-eq0-0"; case PHY_PS5169_EMP1: return "secdp,redrv-hbr3-eq0-1"; case PHY_PS5169_EMP2: return "secdp,redrv-hbr3-eq0-2"; case PHY_PS5169_EMP3: return "secdp,redrv-hbr3-eq0-3"; default: return "secdp,redrv-hbr3-eq0-unknown"; } } static const char *secdp_get_ps5169_hbr3_eq1(u32 lvl) { switch (lvl) { case PHY_PS5169_SWING0: return "secdp,redrv-hbr3-eq1-0"; case PHY_PS5169_SWING1: return "secdp,redrv-hbr3-eq1-1"; case PHY_PS5169_SWING2: return "secdp,redrv-hbr3-eq1-2"; case PHY_PS5169_SWING3: return "secdp,redrv-hbr3-eq1-3"; default: return "secdp,redrv-hbr3-eq1-unknown"; } } static int _secdp_parse_ps5169_hbr3(struct dp_parser *parser) { struct device_node *of_node = parser->pdev->dev.of_node; int len = 0, i = 0, j = 0; const char *data; DP_ENTER("\n"); for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_hbr3_eq0(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_hbr3_eq0[i][j] = data[j]; } for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { const char *property = secdp_get_ps5169_hbr3_eq1(i); data = of_get_property(of_node, property, &len); if (!data || len != 4) { DP_ERR("Unable to read %s, len:%d\n", property, len); goto error; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) parser->ps5169_hbr3_eq1[i][j] = data[j]; } return 0; error: return -EINVAL; } static void secdp_parse_ps5169_param(struct dp_parser *parser) { _secdp_parse_ps5169_rbr(parser); _secdp_parse_ps5169_hbr(parser); _secdp_parse_ps5169_hbr2(parser); _secdp_parse_ps5169_hbr3(parser); } /********************************************* *** default PS5169 DP EQ0/EQ1 params *** *********************************************/ #define EQ0 0x20 #define EQ1 0x06 static u8 const ps5169_rbr_eq0[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0} }; /* voltage swing, 0.2v and 1.0v are not support */ static u8 const ps5169_rbr_eq1[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1} }; static u8 const ps5169_hbr_eq0[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0} }; static u8 const ps5169_hbr_eq1[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1} }; static u8 const ps5169_hbr2_eq0[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0} }; static u8 const ps5169_hbr2_eq1[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1} }; static u8 const ps5169_hbr3_eq0[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0}, {EQ0, EQ0, EQ0, EQ0} }; static u8 const ps5169_hbr3_eq1[MAX_PS5169_SWING_LEVELS][MAX_PS5169_EMP_LEVELS] = { {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1}, {EQ1, EQ1, EQ1, EQ1} }; static void secdp_set_default_ps5169_param(struct dp_parser *parser, enum secdp_ps5169_eq_t eq, enum secdp_ps5169_link_rate_t link_rate) { int i, j; for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) { if (eq == DP_PS5169_EQ_MAX || eq == DP_PS5169_EQ0) { if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_RBR) { parser->ps5169_rbr_eq0[i][j] = ps5169_rbr_eq0[i][j]; } if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_HBR) { parser->ps5169_hbr_eq0[i][j] = ps5169_hbr_eq0[i][j]; } if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_HBR2) { parser->ps5169_hbr2_eq0[i][j] = ps5169_hbr2_eq0[i][j]; } if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_HBR3) { parser->ps5169_hbr3_eq0[i][j] = ps5169_hbr3_eq0[i][j]; } } if (eq == DP_PS5169_EQ_MAX || eq == DP_PS5169_EQ1) { if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_RBR) { parser->ps5169_rbr_eq1[i][j] = ps5169_rbr_eq1[i][j]; } if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_HBR) { parser->ps5169_hbr_eq1[i][j] = ps5169_hbr_eq1[i][j]; } if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_HBR2) { parser->ps5169_hbr2_eq1[i][j] = ps5169_hbr2_eq1[i][j]; } if (link_rate == DP_PS5169_RATE_MAX || link_rate == DP_PS5169_RATE_HBR3) { parser->ps5169_hbr3_eq1[i][j] = ps5169_hbr3_eq1[i][j]; } } } } } #if defined(CONFIG_SECDP_DBG) static u8 *_secdp_get_ps5169_param(struct dp_parser *parser, enum secdp_ps5169_eq_t eq, enum secdp_ps5169_link_rate_t link_rate, int idx) { u8 *val = NULL; switch (eq) { case DP_PS5169_EQ0: switch (link_rate) { case DP_PS5169_RATE_RBR: val = parser->ps5169_rbr_eq0[idx]; break; case DP_PS5169_RATE_HBR: val = parser->ps5169_hbr_eq0[idx]; break; case DP_PS5169_RATE_HBR2: val = parser->ps5169_hbr2_eq0[idx]; break; case DP_PS5169_RATE_HBR3: val = parser->ps5169_hbr3_eq0[idx]; break; default: DP_ERR("unknown rate: %d\n", link_rate); break; } break; case DP_PS5169_EQ1: switch (link_rate) { case DP_PS5169_RATE_RBR: val = parser->ps5169_rbr_eq1[idx]; break; case DP_PS5169_RATE_HBR: val = parser->ps5169_hbr_eq1[idx]; break; case DP_PS5169_RATE_HBR2: val = parser->ps5169_hbr2_eq1[idx]; break; case DP_PS5169_RATE_HBR3: val = parser->ps5169_hbr3_eq1[idx]; break; default: DP_ERR("unknown rate: %d\n", link_rate); break; } break; default: DP_ERR("unknown eq:%d\n", eq); break; } return val; } int secdp_parse_ps5169_show(struct dp_parser *parser, enum secdp_ps5169_eq_t eq, enum secdp_ps5169_link_rate_t link_rate, char *buf) { u8 *val[MAX_PS5169_SWING_LEVELS]; int i, rc = 0; rc += scnprintf(buf + rc, PAGE_SIZE - rc, "\n%s | %s\n=====\n", secdp_ps5169_eq_to_string(eq), secdp_ps5169_rate_to_string(link_rate)); for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { val[i] = _secdp_get_ps5169_param(parser, eq, link_rate, i); if (!val[i]) break; rc += scnprintf(buf + rc, PAGE_SIZE - rc, "%02x,%02x,%02x,%02x", val[i][0], val[i][1], val[i][2], val[i][3]); if (i < MAX_PS5169_SWING_LEVELS - 1) rc += scnprintf(buf + rc, PAGE_SIZE - rc, ",\n"); else rc += scnprintf(buf + rc, PAGE_SIZE - rc, "\n"); } return rc; } int secdp_parse_ps5169_store(struct dp_parser *parser, enum secdp_ps5169_eq_t eq, enum secdp_ps5169_link_rate_t link_rate, char *buf) { u8 *val[MAX_PS5169_SWING_LEVELS]; char *tok; u32 value; int i, j, rc = 0; if (!strncmp(buf, "reset_all", strlen("reset_all"))) { DP_DEBUG("[all] reset!\n"); secdp_set_default_ps5169_param(parser, DP_PS5169_EQ_MAX, DP_PS5169_RATE_MAX); goto end; } if (!strncmp(buf, "reset", strlen("reset"))) { DP_DEBUG("[%s,%s] reset!\n", secdp_ps5169_eq_to_string(eq), secdp_ps5169_rate_to_string(link_rate)); secdp_set_default_ps5169_param(parser, eq, link_rate); goto end; } DP_DEBUG("[%s,%s] set new params!\n", secdp_ps5169_eq_to_string(eq), secdp_ps5169_rate_to_string(link_rate)); for (i = 0; i < MAX_PS5169_SWING_LEVELS; i++) { val[i] = _secdp_get_ps5169_param(parser, eq, link_rate, i); if (!val[i]) { rc = -EINVAL; break; } for (j = 0; j < MAX_PS5169_EMP_LEVELS; j++) { tok = strsep(&buf, ","); if (!tok) continue; rc = kstrtouint(tok, 16, &value); if (rc) { DP_ERR("error: %s rc:%d\n", tok, rc); goto end; } val[i][j] = value; } } end: return rc; } int secdp_show_ps5169_param(struct dp_parser *parser, char *buf) { int eq, rc = 0; for (eq = 0; eq < DP_PS5169_EQ_MAX; eq++) { rc += secdp_parse_ps5169_show(parser, eq, DP_PS5169_RATE_RBR, buf + rc); rc += secdp_parse_ps5169_show(parser, eq, DP_PS5169_RATE_HBR, buf + rc); rc += secdp_parse_ps5169_show(parser, eq, DP_PS5169_RATE_HBR2, buf + rc); rc += secdp_parse_ps5169_show(parser, eq, DP_PS5169_RATE_HBR3, buf + rc); } return rc; } #endif/*CONFIG_SECDP_DBG*/ #endif/*CONFIG_COMBO_REDRIVER_PS5169*/ static int dp_parser_parse(struct dp_parser *parser) { int rc = 0; if (!parser) { DP_ERR("invalid input\n"); rc = -EINVAL; goto err; } rc = dp_parser_reg(parser); if (rc) goto err; rc = dp_parser_aux(parser); if (rc) goto err; rc = dp_parser_misc(parser); if (rc) goto err; rc = dp_parser_clock(parser); if (rc) goto err; rc = dp_parser_regulator(parser); if (rc) goto err; rc = dp_parser_gpio(parser); if (rc) goto err; rc = dp_parser_catalog(parser); if (rc) goto err; rc = dp_parser_pinctrl(parser); if (rc) goto err; rc = dp_parser_msm_hdcp_dev(parser); if (rc) goto err; rc = dp_parser_mst(parser); if (rc) goto err; dp_parser_dsc(parser); dp_parser_fec(parser); dp_parser_widebus(parser); dp_parser_qos(parser); dp_parser_link_training_params(parser); #if defined(CONFIG_SECDP) secdp_parse_misc(parser); #endif err: return rc; } static struct dp_io_data *dp_parser_get_io(struct dp_parser *dp_parser, char *name) { int i = 0; struct dp_io *io; if (!dp_parser) { DP_ERR("invalid input\n"); goto err; } io = &dp_parser->io; for (i = 0; i < io->len; i++) { struct dp_io_data *data = &io->data[i]; if (!strcmp(data->name, name)) return data; } err: return NULL; } static void dp_parser_get_io_buf(struct dp_parser *dp_parser, char *name) { int i = 0; struct dp_io *io; if (!dp_parser) { DP_ERR("invalid input\n"); return; } io = &dp_parser->io; for (i = 0; i < io->len; i++) { struct dp_io_data *data = &io->data[i]; if (!strcmp(data->name, name)) { if (!data->buf) data->buf = devm_kzalloc(&dp_parser->pdev->dev, data->io.len, GFP_KERNEL); } } } static void dp_parser_clear_io_buf(struct dp_parser *dp_parser) { int i = 0; struct dp_io *io; if (!dp_parser) { DP_ERR("invalid input\n"); return; } io = &dp_parser->io; for (i = 0; i < io->len; i++) { struct dp_io_data *data = &io->data[i]; if (data->buf) devm_kfree(&dp_parser->pdev->dev, data->buf); data->buf = NULL; } } struct dp_parser *dp_parser_get(struct platform_device *pdev) { struct dp_parser *parser; parser = devm_kzalloc(&pdev->dev, sizeof(*parser), GFP_KERNEL); if (!parser) return ERR_PTR(-ENOMEM); parser->parse = dp_parser_parse; parser->get_io = dp_parser_get_io; parser->get_io_buf = dp_parser_get_io_buf; parser->clear_io_buf = dp_parser_clear_io_buf; parser->pdev = pdev; #if defined(CONFIG_SECDP) #if IS_ENABLED(CONFIG_COMBO_REDRIVER_PS5169) secdp_set_default_ps5169_param(parser, DP_PS5169_EQ_MAX, DP_PS5169_RATE_MAX); #endif #endif return parser; } void dp_parser_put(struct dp_parser *parser) { int i = 0; struct dss_module_power *power = NULL; if (!parser) { DP_ERR("invalid parser module\n"); return; } power = parser->mp; for (i = 0; i < DP_MAX_PM; i++) { dp_parser_put_clk_data(&parser->pdev->dev, &power[i]); dp_parser_put_vreg_data(&parser->pdev->dev, &power[i]); dp_parser_put_gpio_data(&parser->pdev->dev, &power[i]); } dp_parser_clear_link_training_params(parser); dp_parser_clear_io_buf(parser); devm_kfree(&parser->pdev->dev, parser->io.data); devm_kfree(&parser->pdev->dev, parser); }