/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include #include "chip.h" __weak void mb_pre_fspm(void) { } static void fill_dxio_descriptors(FSP_M_CONFIG *mcfg, const fsp_dxio_descriptor *descs, size_t num) { size_t i; ASSERT_MSG(num <= FSPM_UPD_DXIO_DESCRIPTOR_COUNT, "Too many DXIO descriptors provided."); for (i = 0; i < num; i++) { memcpy(mcfg->dxio_descriptor[i], &descs[i], sizeof(mcfg->dxio_descriptor[0])); } } static void fill_ddi_descriptors(FSP_M_CONFIG *mcfg, const fsp_ddi_descriptor *descs, size_t num) { size_t i; ASSERT_MSG(num <= FSPM_UPD_DDI_DESCRIPTOR_COUNT, "Too many DDI descriptors provided."); for (i = 0; i < num; i++) { memcpy(&mcfg->ddi_descriptor[i], &descs[i], sizeof(mcfg->ddi_descriptor[0])); } } static void fsp_fill_pcie_ddi_descriptors(FSP_M_CONFIG *mcfg) { const fsp_dxio_descriptor *fsp_dxio; const fsp_ddi_descriptor *fsp_ddi; size_t num_dxio; size_t num_ddi; mainboard_get_dxio_ddi_descriptors(&fsp_dxio, &num_dxio, &fsp_ddi, &num_ddi); fill_dxio_descriptors(mcfg, fsp_dxio, num_dxio); fill_ddi_descriptors(mcfg, fsp_ddi, num_ddi); } static void fsp_assign_ioapic_upds(FSP_M_CONFIG *mcfg) { mcfg->gnb_ioapic_base = GNB_IO_APIC_ADDR; mcfg->gnb_ioapic_id = GNB_IOAPIC_ID; mcfg->fch_ioapic_id = FCH_IOAPIC_ID; } void platform_fsp_memory_init_params_cb(FSPM_UPD *mupd, uint32_t version) { FSP_M_CONFIG *mcfg = &mupd->FspmConfig; const struct soc_amd_cezanne_config *config = config_of_soc(); mupd->FspmArchUpd.NvsBufferPtr = (uintptr_t)soc_fill_apob_cache(); mcfg->pci_express_base_addr = CONFIG_ECAM_MMCONF_BASE_ADDRESS; mcfg->tseg_size = CONFIG_SMM_TSEG_SIZE; mcfg->serial_port_base = uart_platform_base(CONFIG_UART_FOR_CONSOLE); mcfg->serial_port_use_mmio = CONFIG(DRIVERS_UART_8250MEM); mcfg->serial_port_baudrate = get_uart_baudrate(); mcfg->serial_port_refclk = uart_platform_refclk(); /* 0 is default */ mcfg->ccx_down_core_mode = config->downcore_mode; mcfg->ccx_disable_smt = config->disable_smt; /* when stt_control isn't 1, FSP will ignore the other stt values */ mcfg->stt_control = config->stt_control; mcfg->stt_pcb_sensor_count = config->stt_pcb_sensor_count; mcfg->stt_min_limit = config->stt_min_limit; mcfg->stt_m1 = config->stt_m1; mcfg->stt_m2 = config->stt_m2; mcfg->stt_m3 = config->stt_m3; mcfg->stt_m4 = config->stt_m4; mcfg->stt_m5 = config->stt_m5; mcfg->stt_m6 = config->stt_m6; mcfg->stt_c_apu = config->stt_c_apu; mcfg->stt_c_gpu = config->stt_c_gpu; mcfg->stt_c_hs2 = config->stt_c_hs2; mcfg->stt_alpha_apu = config->stt_alpha_apu; mcfg->stt_alpha_gpu = config->stt_alpha_gpu; mcfg->stt_alpha_hs2 = config->stt_alpha_hs2; mcfg->stt_skin_temp_apu = config->stt_skin_temp_apu; mcfg->stt_skin_temp_gpu = config->stt_skin_temp_gpu; mcfg->stt_skin_temp_hs2 = config->stt_skin_temp_hs2; mcfg->stt_error_coeff = config->stt_error_coeff; mcfg->stt_error_rate_coefficient = config->stt_error_rate_coefficient; /* all following fields being 0 is a valid config */ mcfg->stapm_boost = config->stapm_boost; mcfg->stapm_time_constant = config->stapm_time_constant_s; mcfg->apu_only_sppt_limit = config->apu_only_sppt_limit; mcfg->sustained_power_limit = config->sustained_power_limit_mW; mcfg->fast_ppt_limit = config->fast_ppt_limit_mW; mcfg->slow_ppt_limit = config->slow_ppt_limit_mW; mcfg->slow_ppt_time_constant = config->slow_ppt_time_constant_s; mcfg->thermctl_limit = config->thermctl_limit_degreeC; /* 0 is default */ mcfg->smartshift_enable = config->smartshift_enable; /* 0 is default */ mcfg->system_configuration = config->system_configuration; /* when cppc_ctrl is 0 the other values won't be used */ mcfg->cppc_ctrl = config->cppc_ctrl; mcfg->cppc_perf_limit_max_range = config->cppc_perf_limit_max_range; mcfg->cppc_perf_limit_min_range = config->cppc_perf_limit_min_range; mcfg->cppc_epp_max_range = config->cppc_epp_max_range; mcfg->cppc_epp_min_range = config->cppc_epp_min_range; mcfg->cppc_preferred_cores = config->cppc_preferred_cores; /* S0i3 enable */ mcfg->s0i3_enable = config->s0ix_enable; mcfg->iommu_support = is_devfn_enabled(IOMMU_DEVFN); /* voltage regulator telemetry settings */ mcfg->telemetry_vddcrvddfull_scale_current = config->telemetry_vddcrvddfull_scale_current_mA; mcfg->telemetry_vddcrvddoffset = config->telemetry_vddcrvddoffset; mcfg->telemetry_vddcrsocfull_scale_current = config->telemetry_vddcrsocfull_scale_current_mA; mcfg->telemetry_vddcrsocOffset = config->telemetry_vddcrsocoffset; /* PCIe power vs. speed */ mcfg->pspp_policy = config->pspp_policy; mcfg->enable_nb_azalia = is_dev_enabled(DEV_PTR(gfx_hda)); mcfg->hda_enable = is_dev_enabled(DEV_PTR(hda)); mcfg->sata_enable = is_dev_enabled(DEV_PTR(sata_0)) || is_dev_enabled(DEV_PTR(sata_1)); if (config->usb_phy_custom) { mcfg->usb_phy = (struct usb_phy_config *)&config->usb_phy; mcfg->usb_phy->Version_Major = 0xd; mcfg->usb_phy->Version_Minor = 0x6; mcfg->usb_phy->TableLength = 100; } else { mcfg->usb_phy = NULL; } if (config->edp_phy_override) { mcfg->edp_phy_override = config->edp_phy_override; mcfg->edp_physel = config->edp_physel; mcfg->dp_vs_pemph_level = config->edp_tuningset.dp_vs_pemph_level; mcfg->tx_eq_main = config->edp_tuningset.tx_eq_main; mcfg->tx_eq_pre = config->edp_tuningset.tx_eq_pre; mcfg->tx_eq_post = config->edp_tuningset.tx_eq_post; mcfg->tx_vboost_lvl = config->edp_tuningset.tx_vboost_lvl; } fsp_fill_pcie_ddi_descriptors(mcfg); fsp_assign_ioapic_upds(mcfg); mb_pre_fspm(); }