/* SPDX-License-Identifier: GPL-2.0-only */ /* TODO: Check if this is still correct */ #include #include #include #include #include #include #include #include #include #include #include #include "chip.h" #define TDP_15W 15 #define DPTC_TOTAL_UPDATE_PARAMS 13 struct dptc_input { uint16_t size; struct alib_dptc_param params[DPTC_TOTAL_UPDATE_PARAMS]; } __packed; #define DPTC_INPUTS(_thermctllmit, _spptTimeConst, _fast, _slow, \ _vrmCurrentLimit, _vrmMaxCurrentLimit, _vrmSocCurrentLimit, \ _sttMinLimit, _sttM1, _sttM2, _sttCApu, _sttAlphaApu, _sttSkinTempLimitApu) \ { \ .size = sizeof(struct dptc_input), \ .params = { \ { \ .id = ALIB_DPTC_THERMAL_CONTROL_LIMIT_ID, \ .value = _thermctllmit, \ }, \ { \ .id = ALIB_DPTC_SLOW_PPT_TIME_CONSTANT_ID, \ .value = _spptTimeConst, \ }, \ { \ .id = ALIB_DPTC_FAST_PPT_LIMIT_ID, \ .value = _fast, \ }, \ { \ .id = ALIB_DPTC_SLOW_PPT_LIMIT_ID, \ .value = _slow, \ }, \ { \ .id = ALIB_DPTC_VRM_CURRENT_LIMIT_ID, \ .value = _vrmCurrentLimit, \ }, \ { \ .id = ALIB_DPTC_VRM_MAXIMUM_CURRENT_LIMIT, \ .value = _vrmMaxCurrentLimit, \ }, \ { \ .id = ALIB_DPTC_VRM_SOC_CURRENT_LIMIT_ID, \ .value = _vrmSocCurrentLimit, \ }, \ { \ .id = ALIB_DPTC_STT_MIN_LIMIT_ID, \ .value = _sttMinLimit, \ }, \ { \ .id = ALIB_DPTC_STT_M1_ID, \ .value = _sttM1, \ }, \ { \ .id = ALIB_DPTC_STT_M2_ID, \ .value = _sttM2, \ }, \ { \ .id = ALIB_DPTC_STT_C_APU_ID, \ .value = _sttCApu, \ }, \ { \ .id = ALIB_DPTC_STT_ALPHA_APU, \ .value = _sttAlphaApu, \ }, \ { \ .id = ALIB_DPTC_STT_SKIN_TEMPERATURE_LIMIT_APU_ID, \ .value = _sttSkinTempLimitApu, \ }, \ }, \ } static void acipgen_dptci(void) { const struct soc_amd_mendocino_config *config = config_of_soc(); /* Normal mode DPTC values. */ struct dptc_input default_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s, config->fast_ppt_limit_mW, config->slow_ppt_limit_mW, config->vrm_current_limit_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit, config->stt_m1, config->stt_m2, config->stt_c_apu, config->stt_alpha_apu, config->stt_skin_temp_apu); acpigen_write_alib_dptc_default((uint8_t *)&default_input, sizeof(default_input)); /* Low/No Battery */ struct dptc_input no_battery_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s, config->fast_ppt_limit_mW, config->slow_ppt_limit_mW, config->vrm_current_limit_throttle_mA, config->vrm_maximum_current_limit_throttle_mA, config->vrm_soc_current_limit_throttle_mA, config->stt_min_limit, config->stt_m1, config->stt_m2, config->stt_c_apu, config->stt_alpha_apu, config->stt_skin_temp_apu); acpigen_write_alib_dptc_no_battery((uint8_t *)&no_battery_input, sizeof(no_battery_input)); #if (CONFIG(FEATURE_TABLET_MODE_DPTC)) struct dptc_input tablet_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s, config->fast_ppt_limit_mW, config->slow_ppt_limit_mW, config->vrm_current_limit_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit, config->stt_m1_tablet, config->stt_m2_tablet, config->stt_c_apu_tablet, config->stt_alpha_apu_tablet, config->stt_skin_temp_apu); acpigen_write_alib_dptc_tablet((uint8_t *)&tablet_input, sizeof(tablet_input)); #endif #if (CONFIG(FEATURE_DYNAMIC_DPTC)) /* Profile B */ struct dptc_input thermal_B_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s_B, config->fast_ppt_limit_mW_B, config->slow_ppt_limit_mW_B, config->vrm_current_limit_throttle_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit_B, config->stt_m1_B, config->stt_m2_B, config->stt_c_apu_B, config->stt_alpha_apu, config->stt_skin_temp_apu_B); acpigen_write_alib_dptc_thermal_B((uint8_t *)&thermal_B_input, sizeof(thermal_B_input)); /* Profile C */ struct dptc_input thermal_C_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s_C, config->fast_ppt_limit_mW_C, config->slow_ppt_limit_mW_C, config->vrm_current_limit_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit_C, config->stt_m1_C, config->stt_m2_C, config->stt_c_apu_C, config->stt_alpha_apu, config->stt_skin_temp_apu_C); acpigen_write_alib_dptc_thermal_C((uint8_t *)&thermal_C_input, sizeof(thermal_C_input)); /* Profile D */ struct dptc_input thermal_D_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s_D, config->fast_ppt_limit_mW_D, config->slow_ppt_limit_mW_D, config->vrm_current_limit_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit_D, config->stt_m1_D, config->stt_m2_D, config->stt_c_apu_D, config->stt_alpha_apu, config->stt_skin_temp_apu_D); acpigen_write_alib_dptc_thermal_D((uint8_t *)&thermal_D_input, sizeof(thermal_D_input)); /* Profile E */ struct dptc_input thermal_E_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s_E, config->fast_ppt_limit_mW_E, config->slow_ppt_limit_mW_E, config->vrm_current_limit_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit_E, config->stt_m1_E, config->stt_m2_E, config->stt_c_apu_E, config->stt_alpha_apu, config->stt_skin_temp_apu_E); acpigen_write_alib_dptc_thermal_E((uint8_t *)&thermal_E_input, sizeof(thermal_E_input)); /* Profile F */ struct dptc_input thermal_F_input = DPTC_INPUTS( config->thermctl_limit_degreeC, config->slow_ppt_time_constant_s_F, config->fast_ppt_limit_mW_F, config->slow_ppt_limit_mW_F, config->vrm_current_limit_mA, config->vrm_maximum_current_limit_mA, config->vrm_soc_current_limit_mA, config->stt_min_limit_F, config->stt_m1_F, config->stt_m2_F, config->stt_c_apu_F, config->stt_alpha_apu, config->stt_skin_temp_apu_F); acpigen_write_alib_dptc_thermal_F((uint8_t *)&thermal_F_input, sizeof(thermal_F_input)); #endif } static void root_complex_fill_ssdt(const struct device *device) { uint32_t tdp = 0; if (get_amd_smu_reported_tdp(&tdp) != CB_SUCCESS) { /* Unknown TDP, so return rather than setting invalid values. */ return; } /* TODO(b/249359574): Add support for 6W DPTC values. */ if (tdp != TDP_15W) return; if (CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC)) acipgen_dptci(); } static const char *gnb_acpi_name(const struct device *dev) { return "GNB"; } struct device_operations mendocino_root_complex_operations = { /* The root complex has no PCI BARs implemented, so there's no need to call pci_dev_read_resources for it */ .read_resources = noop_read_resources, .set_resources = noop_set_resources, .enable_resources = pci_dev_enable_resources, .acpi_name = gnb_acpi_name, .acpi_fill_ssdt = root_complex_fill_ssdt, }; uint32_t get_iohc_misc_smn_base(struct device *domain) { return SMN_IOHC_MISC_BASE_13B1; } static const struct non_pci_mmio_reg non_pci_mmio[] = { { 0x2d8, 0xfffffff00000ull, 1 * MiB, NON_PCI_RES_IDX_AUTO }, { 0x2e0, 0xfffffff00000ull, 1 * MiB, NON_PCI_RES_IDX_AUTO }, { 0x2e8, 0xfffffff00000ull, 1 * MiB, NON_PCI_RES_IDX_AUTO }, /* The hardware has a 256 byte alignment requirement for the IOAPIC MMIO base, but we tell the FSP to configure a 4k-aligned base address and this is reported as 4 KiB resource. */ { 0x2f0, 0xffffffffff00ull, 4 * KiB, IOMMU_IOAPIC_IDX }, { 0x2f8, 0xfffffff00000ull, 1 * MiB, NON_PCI_RES_IDX_AUTO }, { 0x300, 0xfffffff00000ull, 1 * MiB, NON_PCI_RES_IDX_AUTO }, { 0x308, 0xfffffffff000ull, 4 * KiB, NON_PCI_RES_IDX_AUTO }, { 0x318, 0xfffffff80000ull, 512 * KiB, NON_PCI_RES_IDX_AUTO }, }; const struct non_pci_mmio_reg *get_iohc_non_pci_mmio_regs(size_t *count) { *count = ARRAY_SIZE(non_pci_mmio); return non_pci_mmio; } signed int get_iohc_fabric_id(struct device *domain) { switch (domain->path.domain.domain) { case 0: return IOMS0_FABRIC_ID; default: return -1; } }