/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include "chip.h" static void fsps_update_emmc_config(FSP_S_CONFIG *scfg, const struct soc_amd_picasso_config *cfg) { int val = SD_DISABLE; switch (cfg->emmc_config.timing) { case SD_EMMC_DISABLE: val = SD_DISABLE; break; case SD_EMMC_SD_LOW_SPEED: val = SD_LOW_SPEED; break; case SD_EMMC_SD_HIGH_SPEED: val = SD_HIGH_SPEED; break; case SD_EMMC_SD_UHS_I_SDR_50: val = SD_UHS_I_SDR_50; break; case SD_EMMC_SD_UHS_I_DDR_50: val = SD_UHS_I_DDR_50; break; case SD_EMMC_SD_UHS_I_SDR_104: val = SD_UHS_I_SDR_104; break; case SD_EMMC_EMMC_SDR_26: val = EMMC_SDR_26; break; case SD_EMMC_EMMC_SDR_52: val = EMMC_SDR_52; break; case SD_EMMC_EMMC_DDR_104: val = EMMC_DDR_104; break; case SD_EMMC_EMMC_HS200: val = EMMC_HS200; break; case SD_EMMC_EMMC_HS400: val = EMMC_HS400; break; case SD_EMMC_EMMC_HS300: val = EMMC_HS300; break; default: break; } /* Make sure that the FSP knows that the EMMC controller should be disabled when the corresponding MMIO device is disabled */ if (!is_dev_enabled(DEV_PTR(emmc))) val = SD_DISABLE; scfg->emmc0_mode = val; scfg->emmc0_sdr104_hs400_driver_strength = cfg->emmc_config.sdr104_hs400_driver_strength; scfg->emmc0_ddr50_driver_strength = cfg->emmc_config.ddr50_driver_strength; scfg->emmc0_sdr50_driver_strength = cfg->emmc_config.sdr50_driver_strength; scfg->emmc0_init_khz_preset = cfg->emmc_config.init_khz_preset; } static void fill_dxio_descriptors(FSP_S_CONFIG *scfg, const fsp_dxio_descriptor *descs, size_t num) { size_t i; ASSERT_MSG(num <= FSPS_UPD_DXIO_DESCRIPTOR_COUNT, "Too many DXIO descriptors provided."); for (i = 0; i < num; i++) { memcpy(scfg->dxio_descriptor[i], &descs[i], sizeof(scfg->dxio_descriptor[0])); } } static void fill_ddi_descriptors(FSP_S_CONFIG *scfg, const fsp_ddi_descriptor *descs, size_t num) { size_t i; ASSERT_MSG(num <= FSPS_UPD_DDI_DESCRIPTOR_COUNT, "Too many DDI descriptors provided."); for (i = 0; i < num; i++) { memcpy(&scfg->ddi_descriptor[i], &descs[i], sizeof(scfg->ddi_descriptor[0])); } } static void fsp_fill_pcie_ddi_descriptors(FSP_S_CONFIG *scfg) { const fsp_dxio_descriptor *fsp_dxio = NULL; const fsp_ddi_descriptor *fsp_ddi = NULL; size_t num_dxio = 0; size_t num_ddi = 0; mainboard_get_dxio_ddi_descriptors(&fsp_dxio, &num_dxio, &fsp_ddi, &num_ddi); fill_dxio_descriptors(scfg, fsp_dxio, num_dxio); fill_ddi_descriptors(scfg, fsp_ddi, num_ddi); } static void fsp_usb_oem_customization(FSP_S_CONFIG *scfg, const struct soc_amd_picasso_config *cfg) { size_t i; ASSERT(FSPS_UPD_USB2_PORT_COUNT == USB_PORT_COUNT); /* each OC mapping in xhci_oc_pin_select is 4 bit per USB port */ ASSERT(2 * sizeof(scfg->xhci_oc_pin_select) >= USB_PORT_COUNT); scfg->fch_usb_3_port_force_gen1 = cfg->usb3_port_force_gen1.usb3_port_force_gen1_en; if (cfg->has_usb2_phy_tune_params) { for (i = 0; i < FSPS_UPD_USB2_PORT_COUNT; i++) { memcpy(scfg->fch_usb_2_port_phy_tune[i], &cfg->usb_2_port_tune_params[i], sizeof(scfg->fch_usb_2_port_phy_tune[0])); } } /* lowest nibble of xhci_oc_pin_select corresponds to OC mapping of first USB port */ for (i = 0; i < USB_PORT_COUNT; i++) { scfg->xhci_oc_pin_select &= ~(0xf << (i * 4)); scfg->xhci_oc_pin_select |= (cfg->usb_port_overcurrent_pin[i] & 0xf) << (i * 4); } if ((get_silicon_type() == SILICON_RV2) && cfg->usb3_phy_override) { scfg->usb_3_phy_enable = cfg->usb3_phy_override; for (i = 0; i < FSPS_UPD_RV2_USB3_PORT_COUNT; i++) { memcpy(scfg->usb_3_port_phy_tune[i], &cfg->usb3_phy_tune_params[i], sizeof(scfg->usb_3_port_phy_tune[0])); } scfg->usb_3_rx_vref_ctrl = cfg->usb3_rx_vref_ctrl; scfg->usb_3_rx_vref_ctrl_en = cfg->usb3_rx_vref_ctrl_en; scfg->usb_3_tx_vboost_lvl = cfg->usb_3_tx_vboost_lvl; scfg->usb_3_tx_vboost_lvl_en = cfg->usb_3_tx_vboost_lvl_en; scfg->usb_3_rx_vref_ctrl_x = cfg->usb_3_rx_vref_ctrl_x; scfg->usb_3_rx_vref_ctrl_en_x = cfg->usb_3_rx_vref_ctrl_en_x; scfg->usb_3_tx_vboost_lvl_x = cfg->usb_3_tx_vboost_lvl_x; scfg->usb_3_tx_vboost_lvl_en_x = cfg->usb_3_tx_vboost_lvl_en_x; } } static void fsp_assign_ioapic_upds(FSP_S_CONFIG *scfg) { scfg->gnb_ioapic_base = GNB_IO_APIC_ADDR; scfg->gnb_ioapic_id = GNB_IOAPIC_ID; scfg->fch_ioapic_id = FCH_IOAPIC_ID; } static void fsp_edp_tuning_upds(FSP_S_CONFIG *scfg, const struct soc_amd_picasso_config *cfg) { if (cfg->edp_phy_override & ENABLE_EDP_TUNINGSET) { scfg->edp_phy_override = cfg->edp_phy_override; scfg->edp_physel = cfg->edp_physel; scfg->edp_dp_vs_pemph_level = cfg->edp_tuningset.dp_vs_pemph_level; scfg->edp_margin_deemph = cfg->edp_tuningset.margin_deemph; scfg->edp_deemph_6db_4 = cfg->edp_tuningset.deemph_6db4; scfg->edp_boost_adj = cfg->edp_tuningset.boostadj; } if (cfg->edp_pwr_adjust_enable) { scfg->pwron_digon_to_de = cfg->pwron_digon_to_de; scfg->pwron_de_to_varybl = cfg->pwron_de_to_varybl; scfg->pwrdown_varybloff_to_de = cfg->pwrdown_varybloff_to_de; scfg->pwrdown_de_to_digoff = cfg->pwrdown_de_to_digoff; scfg->pwroff_delay = cfg->pwroff_delay; scfg->pwron_varybl_to_blon = cfg->pwron_varybl_to_blon; scfg->pwrdown_bloff_to_varybloff = cfg->pwrdown_bloff_to_varybloff; scfg->min_allowed_bl_level = cfg->min_allowed_bl_level; } } static void fsp_assign_vbios_upds(FSP_S_CONFIG *scfg) { scfg->vbios_buffer_addr = CONFIG(RUN_FSP_GOP) ? PCI_VGA_RAM_IMAGE_START : 0; } void platform_fsp_silicon_init_params_cb(FSPS_UPD *supd) { const struct soc_amd_picasso_config *cfg; FSP_S_CONFIG *scfg = &supd->FspsConfig; cfg = config_of_soc(); fsps_update_emmc_config(scfg, cfg); fsp_fill_pcie_ddi_descriptors(scfg); fsp_assign_ioapic_upds(scfg); fsp_usb_oem_customization(scfg, cfg); fsp_edp_tuning_upds(scfg, cfg); fsp_assign_vbios_upds(scfg); }