/* SPDX-License-Identifier: GPL-2.0-only */ /* * coreboot ACPI support - headers and defines. */ #ifndef __ACPI_ACPI_H__ #define __ACPI_ACPI_H__ /* * The type and enable fields are common in ACPI, but the * values themselves are hardware implementation defined. */ #if CONFIG(ACPI_INTEL_HARDWARE_SLEEP_VALUES) #define SLP_EN (1 << 13) #define SLP_TYP_SHIFT 10 #define SLP_TYP (7 << SLP_TYP_SHIFT) #define SLP_TYP_S0 0 #define SLP_TYP_S1 1 #define SLP_TYP_S3 5 #define SLP_TYP_S4 6 #define SLP_TYP_S5 7 #elif CONFIG(ACPI_AMD_HARDWARE_SLEEP_VALUES) #define SLP_EN (1 << 13) #define SLP_TYP_SHIFT 10 #define SLP_TYP (7 << SLP_TYP_SHIFT) #define SLP_TYP_S0 0 #define SLP_TYP_S1 1 #define SLP_TYP_S3 3 #define SLP_TYP_S4 4 #define SLP_TYP_S5 5 #endif #define ACPI_TABLE_CREATOR "COREBOOT" /* Must be exactly 8 bytes long! */ #define OEM_ID "COREv4" /* Must be exactly 6 bytes long! */ #define ACPI_DSDT_REV_1 0x01 /* DSDT revision: ACPI v1 */ #define ACPI_DSDT_REV_2 0x02 /* DSDT revision: ACPI v2.0 and greater */ #if !defined(__ASSEMBLER__) && !defined(__ACPI__) #include #include #include #include #include #include enum acpi_device_sleep_states { ACPI_DEVICE_SLEEP_D0 = 0, ACPI_DEVICE_SLEEP_D1 = 1, ACPI_DEVICE_SLEEP_D2 = 2, ACPI_DEVICE_SLEEP_D3 = 3, ACPI_DEVICE_SLEEP_D3_HOT = ACPI_DEVICE_SLEEP_D3, ACPI_DEVICE_SLEEP_D3_COLD = 4, }; #define RSDP_SIG "RSD PTR " /* RSDT pointer signature */ #define ASLC "CORE" /* Must be exactly 4 bytes long! */ #define ACPI_NAME_BUFFER_SIZE 5 /* 4 chars + 1 NUL */ /* * The assigned ACPI ID for the coreboot project is 'BOOT' * http://www.uefi.org/acpi_id_list */ #define COREBOOT_ACPI_ID "BOOT" /* ACPI ID for coreboot HIDs */ /* List of ACPI HID that use the coreboot ACPI ID */ enum coreboot_acpi_ids { COREBOOT_ACPI_ID_CBTABLE = 0x0000, /* BOOT0000 */ COREBOOT_ACPI_ID_MAX = 0xFFFF, /* BOOTFFFF */ }; enum acpi_tables { /* Tables defined by ACPI and used by coreboot */ BERT, DBG2, DMAR, DSDT, EINJ, FACS, FADT, HEST, HMAT, HPET, IVRS, MADT, MCFG, RSDP, RSDT, SLIT, SRAT, SSDT, TCPA, TPM2, XSDT, ECDT, LPIT, /* Additional proprietary tables used by coreboot */ VFCT, NHLT, SPMI, CRAT }; /* RSDP (Root System Description Pointer) */ typedef struct acpi_rsdp { char signature[8]; /* RSDP signature */ u8 checksum; /* Checksum of the first 20 bytes */ char oem_id[6]; /* OEM ID */ u8 revision; /* RSDP revision */ u32 rsdt_address; /* Physical address of RSDT (32 bits) */ u32 length; /* Total RSDP length (incl. extended part) */ u64 xsdt_address; /* Physical address of XSDT (64 bits) */ u8 ext_checksum; /* Checksum of the whole table */ u8 reserved[3]; } __packed acpi_rsdp_t; /* GAS (Generic Address Structure) */ typedef struct acpi_gen_regaddr { u8 space_id; /* Address space ID */ u8 bit_width; /* Register size in bits */ u8 bit_offset; /* Register bit offset */ u8 access_size; /* Access size since ACPI 2.0c */ u32 addrl; /* Register address, low 32 bits */ u32 addrh; /* Register address, high 32 bits */ } __packed acpi_addr_t; #define ACPI_ADDRESS_SPACE_MEMORY 0 /* System memory */ #define ACPI_ADDRESS_SPACE_IO 1 /* System I/O */ #define ACPI_ADDRESS_SPACE_PCI 2 /* PCI config space */ #define ACPI_ADDRESS_SPACE_EC 3 /* Embedded controller */ #define ACPI_ADDRESS_SPACE_SMBUS 4 /* SMBus */ #define ACPI_ADDRESS_SPACE_CMOS 5 /* SystemCMOS */ #define ACPI_ADDRESS_SPACE_PCI_BAR_TARGET 6 /* PciBarTarget */ #define ACPI_ADDRESS_SPACE_IPMI 7 /* IPMI */ #define ACPI_ADDRESS_SPACE_GENERAL_PURPOSE_IO 8 /* GeneralPurposeIO */ #define ACPI_ADDRESS_SPACE_GENERIC_SERIAL_BUS 9 /* GenericSerialBus */ #define ACPI_ADDRESS_SPACE_PCC 0x0A /* Platform Comm. Channel */ #define ACPI_ADDRESS_SPACE_FIXED 0x7f /* Functional fixed hardware */ #define ACPI_FFIXEDHW_VENDOR_INTEL 1 /* Intel */ #define ACPI_FFIXEDHW_CLASS_HLT 0 /* C1 Halt */ #define ACPI_FFIXEDHW_CLASS_IO_HLT 1 /* C1 I/O then Halt */ #define ACPI_FFIXEDHW_CLASS_MWAIT 2 /* MWAIT Native C-state */ #define ACPI_FFIXEDHW_FLAG_HW_COORD 1 /* Hardware Coordination bit */ #define ACPI_FFIXEDHW_FLAG_BM_STS 2 /* BM_STS avoidance bit */ /* 0x80-0xbf: Reserved */ /* 0xc0-0xff: OEM defined */ /* Access size definitions for Generic address structure */ #define ACPI_ACCESS_SIZE_UNDEFINED 0 /* Undefined (legacy reasons) */ #define ACPI_ACCESS_SIZE_BYTE_ACCESS 1 #define ACPI_ACCESS_SIZE_WORD_ACCESS 2 #define ACPI_ACCESS_SIZE_DWORD_ACCESS 3 #define ACPI_ACCESS_SIZE_QWORD_ACCESS 4 /* Macros for common resource types */ #define ACPI_REG_MSR(address, offset, width) \ (acpi_addr_t){ \ .space_id = ACPI_ADDRESS_SPACE_FIXED, \ .access_size = ACPI_ACCESS_SIZE_QWORD_ACCESS, \ .addrl = address, \ .bit_offset = offset, \ .bit_width = width, \ } #define ACPI_REG_UNSUPPORTED (acpi_addr_t){0} /* Common ACPI HIDs */ #define ACPI_HID_FDC "PNP0700" #define ACPI_HID_KEYBOARD "PNP0303" #define ACPI_HID_MOUSE "PNP0F03" #define ACPI_HID_COM "PNP0501" #define ACPI_HID_LPT "PNP0400" #define ACPI_HID_PNP "PNP0C02" #define ACPI_HID_CONTAINER "PNP0A05" /* Generic ACPI header, provided by (almost) all tables */ typedef struct acpi_table_header { char signature[4]; /* ACPI signature (4 ASCII characters) */ u32 length; /* Table length in bytes (incl. header) */ u8 revision; /* Table version (not ACPI version!) */ u8 checksum; /* To make sum of entire table == 0 */ char oem_id[6]; /* OEM identification */ char oem_table_id[8]; /* OEM table identification */ u32 oem_revision; /* OEM revision number */ char asl_compiler_id[4]; /* ASL compiler vendor ID */ u32 asl_compiler_revision; /* ASL compiler revision number */ } __packed acpi_header_t; /* A maximum number of 32 ACPI tables ought to be enough for now. */ #define MAX_ACPI_TABLES 32 /* RSDT (Root System Description Table) */ typedef struct acpi_rsdt { acpi_header_t header; u32 entry[MAX_ACPI_TABLES]; } __packed acpi_rsdt_t; /* XSDT (Extended System Description Table) */ typedef struct acpi_xsdt { acpi_header_t header; u64 entry[MAX_ACPI_TABLES]; } __packed acpi_xsdt_t; /* HPET timers */ typedef struct acpi_hpet { acpi_header_t header; u32 id; acpi_addr_t addr; u8 number; u16 min_tick; u8 attributes; } __packed acpi_hpet_t; /* MCFG (PCI Express MMIO config space BAR description table) */ typedef struct acpi_mcfg { acpi_header_t header; u8 reserved[8]; } __packed acpi_mcfg_t; typedef struct acpi_tcpa { acpi_header_t header; u16 platform_class; u32 laml; u64 lasa; } __packed acpi_tcpa_t; typedef struct acpi_tpm2 { acpi_header_t header; u16 platform_class; u8 reserved[2]; u64 control_area; u32 start_method; u8 msp[12]; u32 laml; u64 lasa; } __packed acpi_tpm2_t; typedef struct acpi_mcfg_mmconfig { u32 base_address; u32 base_reserved; u16 pci_segment_group_number; u8 start_bus_number; u8 end_bus_number; u8 reserved[4]; } __packed acpi_mcfg_mmconfig_t; /* * HMAT (Heterogeneous Memory Attribute Table) * ACPI spec 6.4 section 5.2.27 */ typedef struct acpi_hmat { acpi_header_t header; u32 resv; /* Followed by HMAT table structure[n] */ } __packed acpi_hmat_t; /* HMAT: Memory Proximity Domain Attributes structure */ typedef struct acpi_hmat_mpda { u16 type; /* Type (0) */ u16 resv; u32 length; /* Length in bytes (40) */ u16 flags; u16 resv1; u32 proximity_domain_initiator; u32 proximity_domain_memory; u32 resv2; u64 resv3; u64 resv4; } __packed acpi_hmat_mpda_t; /* HMAT: System Locality Latency and Bandwidth Information structure */ typedef struct acpi_hmat_sllbi { u16 type; /* Type (1) */ u16 resv; u32 length; /* Length in bytes */ u8 flags; u8 data_type; /* * Transfer size defined as a 5-biased power of 2 exponent, * when the bandwidth/latency value is achieved. */ u8 min_transfer_size; u8 resv1; u32 num_initiator_domains; u32 num_target_domains; u32 resv2; u64 entry_base_unit; /* Followed by initiator proximity domain list */ /* Followed by target proximity domain list */ /* Followed by latency / bandwidth values */ } __packed acpi_hmat_sllbi_t; /* HMAT: Memory Side Cache Information structure */ typedef struct acpi_hmat_msci { u16 type; /* Type (2) */ u16 resv; u32 length; /* Length in bytes */ u32 domain; /* Proximity domain for the memory */ u32 resv1; u64 cache_size; /* Describes level, associativity, write policy, cache line size */ u32 cache_attributes; u16 resv2; /* * Number of SMBIOS handlers that contribute to the * memory side cache physical devices */ u16 num_handlers; /* Followed by SMBIOS handlers*/ } __packed acpi_hmat_msci_t; /* SRAT (System Resource Affinity Table) */ typedef struct acpi_srat { acpi_header_t header; u32 resv; u64 resv1; /* Followed by static resource allocation structure[n] */ } __packed acpi_srat_t; #define ACPI_SRAT_STRUCTURE_LAPIC 0 #define ACPI_SRAT_STRUCTURE_MEM 1 #define ACPI_SRAT_STRUCTURE_GIA 5 /* SRAT: Processor Local APIC/SAPIC Affinity Structure */ typedef struct acpi_srat_lapic { u8 type; /* Type (0) */ u8 length; /* Length in bytes (16) */ u8 proximity_domain_7_0; /* Proximity domain bits[7:0] */ u8 apic_id; /* Local APIC ID */ u32 flags; /* Enable bit 0 = 1, other bits reserved to 0 */ u8 local_sapic_eid; /* Local SAPIC EID */ u8 proximity_domain_31_8[3]; /* Proximity domain bits[31:8] */ u32 clock_domain; /* _CDM Clock Domain */ } __packed acpi_srat_lapic_t; /* SRAT: Memory Affinity Structure */ typedef struct acpi_srat_mem { u8 type; /* Type (1) */ u8 length; /* Length in bytes (40) */ u32 proximity_domain; /* Proximity domain */ u16 resv; u32 base_address_low; /* Mem range base address, low */ u32 base_address_high; /* Mem range base address, high */ u32 length_low; /* Mem range length, low */ u32 length_high; /* Mem range length, high */ u32 resv1; u32 flags; /* Enable bit 0, hot pluggable bit 1; Non Volatile bit 2, * other bits reserved to 0 */ u32 resv2[2]; } __packed acpi_srat_mem_t; /* SRAT: Generic Initiator Affinity Structure (ACPI spec 6.4 section 5.2.16.6) */ typedef struct acpi_srat_gia { u8 type; /* Type (5) */ u8 length; /* Length in bytes (32) */ u8 resv; u8 dev_handle_type; /* Device handle type */ u32 proximity_domain; /*Proximity domain */ u8 dev_handle[16]; /* Device handle */ u32 flags; u32 resv1; } __packed acpi_srat_gia_t; #define ACPI_SRAT_GIA_DEV_HANDLE_ACPI 0 #define ACPI_SRAT_GIA_DEV_HANDLE_PCI 1 /* SLIT (System Locality Distance Information Table) */ typedef struct acpi_slit { acpi_header_t header; /* Followed by static resource allocation 8+byte[num*num] */ } __packed acpi_slit_t; /* MADT (Multiple APIC Description Table) */ typedef struct acpi_madt { acpi_header_t header; u32 lapic_addr; /* Local APIC address */ u32 flags; /* Multiple APIC flags */ } __packed acpi_madt_t; /* * LPIT (Low Power Idle Table) * Conforms to "Intel Low Power S0 Idle" specification, rev 002 from July 2017. */ typedef struct acpi_lpit { acpi_header_t header; } __packed acpi_lpit_t; /* LPIT: LPI descriptor flags */ typedef struct acpi_lpi_flags { uint32_t disabled : 1; uint32_t counter_not_available : 1; uint32_t reserved : 30; } __packed acpi_lpi_desc_flags_t; /* LPIT: LPI descriptor types */ enum acpi_lpi_desc_type { ACPI_LPI_DESC_TYPE_NATIVE_CSTATE = 0x00, /* type >= 1 reserved */ }; /* LPIT: LPI descriptor header */ typedef struct acpi_lpi_desc_hdr { uint32_t type; uint32_t length; uint16_t uid; uint16_t reserved; } __packed acpi_lpi_desc_hdr_t; #define ACPI_LPIT_CTR_FREQ_TSC 0 /* LPIT: Native C-state instruction based LPI structure */ typedef struct acpi_lpi_desc_ncst { acpi_lpi_desc_hdr_t header; acpi_lpi_desc_flags_t flags; acpi_addr_t entry_trigger; /* Entry trigger C-state */ uint32_t min_residency; /* Minimum residency or "break-even" in microseconds */ uint32_t max_latency; /* Worst case exit latency in microseconds */ acpi_addr_t residency_counter; uint64_t counter_frequency; /* Frequency in cycles per second - 0 means TSC freq */ } __packed acpi_lpi_desc_ncst_t; /* VFCT image header */ typedef struct acpi_vfct_image_hdr { u32 PCIBus; u32 PCIDevice; u32 PCIFunction; u16 VendorID; u16 DeviceID; u16 SSVID; u16 SSID; u32 Revision; u32 ImageLength; u8 VbiosContent; // dummy - copy VBIOS here } __packed acpi_vfct_image_hdr_t; /* VFCT (VBIOS Fetch Table) */ typedef struct acpi_vfct { acpi_header_t header; u8 TableUUID[16]; u32 VBIOSImageOffset; u32 Lib1ImageOffset; u32 Reserved[4]; acpi_vfct_image_hdr_t image_hdr; } __packed acpi_vfct_t; typedef struct acpi_ivrs_info { } __packed acpi_ivrs_info_t; /* IVRS IVHD (I/O Virtualization Hardware Definition Block) Type 10h */ typedef struct acpi_ivrs_ivhd { uint8_t type; uint8_t flags; uint16_t length; uint16_t device_id; uint16_t capability_offset; uint32_t iommu_base_low; uint32_t iommu_base_high; uint16_t pci_segment_group; uint16_t iommu_info; uint32_t iommu_feature_info; uint8_t entry[0]; } __packed acpi_ivrs_ivhd_t; /* IVRS (I/O Virtualization Reporting Structure) Type 10h */ typedef struct acpi_ivrs { acpi_header_t header; uint32_t iv_info; uint32_t reserved[2]; struct acpi_ivrs_ivhd ivhd; } __packed acpi_ivrs_t; /* CRAT (Component Resource Affinity Table Structure) */ struct acpi_crat_header { acpi_header_t header; uint32_t total_entries; uint16_t num_nodes; uint8_t reserved[6]; } __packed; /* IVHD Type 11h IOMMU Attributes */ typedef struct ivhd11_iommu_attr { uint32_t reserved1 : 13; uint32_t perf_counters : 4; uint32_t perf_counter_banks : 6; uint32_t msi_num_ppr : 5; uint32_t reserved2 : 4; } __packed ivhd11_iommu_attr_t; /* IVRS IVHD (I/O Virtualization Hardware Definition Block) Type 11h */ typedef struct acpi_ivrs_ivhd_11 { uint8_t type; uint8_t flags; uint16_t length; uint16_t device_id; uint16_t capability_offset; uint32_t iommu_base_low; uint32_t iommu_base_high; uint16_t pci_segment_group; uint16_t iommu_info; struct ivhd11_iommu_attr iommu_attributes; uint32_t efr_reg_image_low; uint32_t efr_reg_image_high; uint32_t reserved[2]; uint8_t entry[0]; } __packed acpi_ivrs_ivhd11_t; enum dev_scope_type { SCOPE_PCI_ENDPOINT = 1, SCOPE_PCI_SUB = 2, SCOPE_IOAPIC = 3, SCOPE_MSI_HPET = 4, SCOPE_ACPI_NAMESPACE_DEVICE = 5 }; typedef struct dev_scope { u8 type; u8 length; u8 reserved[2]; u8 enumeration; u8 start_bus; struct { u8 dev; u8 fn; } __packed path[0]; } __packed dev_scope_t; enum dmar_type { DMAR_DRHD = 0, DMAR_RMRR = 1, DMAR_ATSR = 2, DMAR_RHSA = 3, DMAR_ANDD = 4, DMAR_SATC = 5 }; enum { DRHD_INCLUDE_PCI_ALL = 1 }; enum { ATC_REQUIRED = 1 }; enum dmar_flags { DMAR_INTR_REMAP = 1 << 0, DMAR_X2APIC_OPT_OUT = 1 << 1, DMA_CTRL_PLATFORM_OPT_IN_FLAG = 1 << 2, }; typedef struct dmar_entry { u16 type; u16 length; u8 flags; u8 reserved; u16 segment; u64 bar; } __packed dmar_entry_t; typedef struct dmar_rmrr_entry { u16 type; u16 length; u16 reserved; u16 segment; u64 bar; u64 limit; } __packed dmar_rmrr_entry_t; typedef struct dmar_atsr_entry { u16 type; u16 length; u8 flags; u8 reserved; u16 segment; } __packed dmar_atsr_entry_t; typedef struct dmar_rhsa_entry { u16 type; u16 length; u32 reserved; u64 base_address; u32 proximity_domain; } __packed dmar_rhsa_entry_t; typedef struct dmar_andd_entry { u16 type; u16 length; u8 reserved[3]; u8 device_number; u8 device_name[]; } __packed dmar_andd_entry_t; typedef struct dmar_satc_entry { u16 type; u16 length; u8 flags; u8 reserved; u16 segment_number; } __packed dmar_satc_entry_t; /* DMAR (DMA Remapping Reporting Structure) */ typedef struct acpi_dmar { acpi_header_t header; u8 host_address_width; u8 flags; u8 reserved[10]; dmar_entry_t structure[0]; } __packed acpi_dmar_t; /* MADT: APIC Structure Types */ enum acpi_apic_types { LOCAL_APIC, /* Processor local APIC */ IO_APIC, /* I/O APIC */ IRQ_SOURCE_OVERRIDE, /* Interrupt source override */ NMI_TYPE, /* NMI source */ LOCAL_APIC_NMI, /* Local APIC NMI */ LAPIC_ADDRESS_OVERRIDE, /* Local APIC address override */ IO_SAPIC, /* I/O SAPIC */ LOCAL_SAPIC, /* Local SAPIC */ PLATFORM_IRQ_SOURCES, /* Platform interrupt sources */ LOCAL_X2APIC, /* Processor local x2APIC */ LOCAL_X2APIC_NMI, /* Local x2APIC NMI */ GICC, /* GIC CPU Interface */ GICD, /* GIC Distributor */ GIC_MSI_FRAME, /* GIC MSI Frame */ GICR, /* GIC Redistributor */ GIC_ITS, /* Interrupt Translation Service */ /* 0x10-0x7f: Reserved */ /* 0x80-0xff: Reserved for OEM use */ }; /* MADT: Processor Local APIC Structure */ typedef struct acpi_madt_lapic { u8 type; /* Type (0) */ u8 length; /* Length in bytes (8) */ u8 processor_id; /* ACPI processor ID */ u8 apic_id; /* Local APIC ID */ u32 flags; /* Local APIC flags */ } __packed acpi_madt_lapic_t; /* MADT: Local APIC NMI Structure */ typedef struct acpi_madt_lapic_nmi { u8 type; /* Type (4) */ u8 length; /* Length in bytes (6) */ u8 processor_id; /* ACPI processor ID */ u16 flags; /* MPS INTI flags */ u8 lint; /* Local APIC LINT# */ } __packed acpi_madt_lapic_nmi_t; #define ACPI_MADT_LAPIC_NMI_ALL_PROCESSORS 0xff /* MADT: I/O APIC Structure */ typedef struct acpi_madt_ioapic { u8 type; /* Type (1) */ u8 length; /* Length in bytes (12) */ u8 ioapic_id; /* I/O APIC ID */ u8 reserved; u32 ioapic_addr; /* I/O APIC address */ u32 gsi_base; /* Global system interrupt base */ } __packed acpi_madt_ioapic_t; /* MADT: Interrupt Source Override Structure */ typedef struct acpi_madt_irqoverride { u8 type; /* Type (2) */ u8 length; /* Length in bytes (10) */ u8 bus; /* ISA (0) */ u8 source; /* Bus-relative int. source (IRQ) */ u32 gsirq; /* Global system interrupt */ u16 flags; /* MPS INTI flags */ } __packed acpi_madt_irqoverride_t; /* MADT: Processor Local x2APIC Structure */ typedef struct acpi_madt_lx2apic { u8 type; /* Type (9) */ u8 length; /* Length in bytes (16) */ u16 reserved; u32 x2apic_id; /* Local x2APIC ID */ u32 flags; /* Same as Local APIC flags */ u32 processor_id; /* ACPI processor ID */ } __packed acpi_madt_lx2apic_t; /* MADT: Processor Local x2APIC NMI Structure */ typedef struct acpi_madt_lx2apic_nmi { u8 type; /* Type (10) */ u8 length; /* Length in bytes (12) */ u16 flags; /* Same as MPS INTI flags */ u32 processor_id; /* ACPI processor ID */ u8 lint; /* Local APIC LINT# */ u8 reserved[3]; } __packed acpi_madt_lx2apic_nmi_t; #define ACPI_DBG2_PORT_SERIAL 0x8000 #define ACPI_DBG2_PORT_SERIAL_16550 0x0000 #define ACPI_DBG2_PORT_SERIAL_16550_DBGP 0x0001 #define ACPI_DBG2_PORT_SERIAL_ARM_PL011 0x0003 #define ACPI_DBG2_PORT_SERIAL_ARM_SBSA 0x000e #define ACPI_DBG2_PORT_SERIAL_ARM_DDC 0x000f #define ACPI_DBG2_PORT_SERIAL_BCM2835 0x0010 #define ACPI_DBG2_PORT_IEEE1394 0x8001 #define ACPI_DBG2_PORT_IEEE1394_STANDARD 0x0000 #define ACPI_DBG2_PORT_USB 0x8002 #define ACPI_DBG2_PORT_USB_XHCI 0x0000 #define ACPI_DBG2_PORT_USB_EHCI 0x0001 #define ACPI_DBG2_PORT_NET 0x8003 /* DBG2: Microsoft Debug Port Table 2 header */ typedef struct acpi_dbg2_header { acpi_header_t header; uint32_t devices_offset; uint32_t devices_count; } __attribute__((packed)) acpi_dbg2_header_t; /* DBG2: Microsoft Debug Port Table 2 device entry */ typedef struct acpi_dbg2_device { uint8_t revision; uint16_t length; uint8_t address_count; uint16_t namespace_string_length; uint16_t namespace_string_offset; uint16_t oem_data_length; uint16_t oem_data_offset; uint16_t port_type; uint16_t port_subtype; uint8_t reserved[2]; uint16_t base_address_offset; uint16_t address_size_offset; } __attribute__((packed)) acpi_dbg2_device_t; /* FADT (Fixed ACPI Description Table) */ typedef struct acpi_fadt { acpi_header_t header; u32 firmware_ctrl; u32 dsdt; u8 reserved; /* Should be 0 */ u8 preferred_pm_profile; u16 sci_int; u32 smi_cmd; u8 acpi_enable; u8 acpi_disable; u8 s4bios_req; u8 pstate_cnt; u32 pm1a_evt_blk; u32 pm1b_evt_blk; u32 pm1a_cnt_blk; u32 pm1b_cnt_blk; u32 pm2_cnt_blk; u32 pm_tmr_blk; u32 gpe0_blk; u32 gpe1_blk; u8 pm1_evt_len; u8 pm1_cnt_len; u8 pm2_cnt_len; u8 pm_tmr_len; u8 gpe0_blk_len; u8 gpe1_blk_len; u8 gpe1_base; u8 cst_cnt; u16 p_lvl2_lat; u16 p_lvl3_lat; u16 flush_size; u16 flush_stride; u8 duty_offset; u8 duty_width; u8 day_alrm; u8 mon_alrm; u8 century; u16 iapc_boot_arch; u8 res2; u32 flags; acpi_addr_t reset_reg; u8 reset_value; u16 ARM_boot_arch; /* Must be zero if ACPI Revision <= 5.0 */ u8 FADT_MinorVersion; /* Must be zero if ACPI Revision <= 5.0 */ u32 x_firmware_ctl_l; u32 x_firmware_ctl_h; u32 x_dsdt_l; u32 x_dsdt_h; acpi_addr_t x_pm1a_evt_blk; acpi_addr_t x_pm1b_evt_blk; acpi_addr_t x_pm1a_cnt_blk; acpi_addr_t x_pm1b_cnt_blk; acpi_addr_t x_pm2_cnt_blk; acpi_addr_t x_pm_tmr_blk; acpi_addr_t x_gpe0_blk; acpi_addr_t x_gpe1_blk; /* Revision 5 */ acpi_addr_t sleep_control_reg; acpi_addr_t sleep_status_reg; /* Revision 6 */ u64 hypervisor_vendor_identity; } __packed acpi_fadt_t; /* FADT TABLE Revision values */ #define ACPI_FADT_REV_ACPI_1 1 #define ACPI_FADT_REV_ACPI_2 3 #define ACPI_FADT_REV_ACPI_3 4 #define ACPI_FADT_REV_ACPI_4 4 #define ACPI_FADT_REV_ACPI_5 5 #define ACPI_FADT_REV_ACPI_6 6 /* FADT Minor Version value: * Bits 0-3: minor version * Bits 4-7: Errata * value of 1 means this is compatible with Errata A, * value of 2 would be compatible with Errata B, and so on * Version 6.3 Errata A would be: (1 << 4) | 3 */ #define ACPI_FADT_MINOR_VERSION_0 0 /* coreboot currently use this version */ /* Flags for p_lvl2_lat and p_lvl3_lat */ #define ACPI_FADT_C2_NOT_SUPPORTED 101 #define ACPI_FADT_C3_NOT_SUPPORTED 1001 /* FADT Feature Flags */ #define ACPI_FADT_WBINVD (1 << 0) #define ACPI_FADT_WBINVD_FLUSH (1 << 1) #define ACPI_FADT_C1_SUPPORTED (1 << 2) #define ACPI_FADT_C2_MP_SUPPORTED (1 << 3) #define ACPI_FADT_POWER_BUTTON (1 << 4) #define ACPI_FADT_SLEEP_BUTTON (1 << 5) #define ACPI_FADT_FIXED_RTC (1 << 6) #define ACPI_FADT_S4_RTC_WAKE (1 << 7) #define ACPI_FADT_32BIT_TIMER (1 << 8) #define ACPI_FADT_DOCKING_SUPPORTED (1 << 9) #define ACPI_FADT_RESET_REGISTER (1 << 10) #define ACPI_FADT_SEALED_CASE (1 << 11) #define ACPI_FADT_HEADLESS (1 << 12) #define ACPI_FADT_SLEEP_TYPE (1 << 13) #define ACPI_FADT_PCI_EXPRESS_WAKE (1 << 14) #define ACPI_FADT_PLATFORM_CLOCK (1 << 15) #define ACPI_FADT_S4_RTC_VALID (1 << 16) #define ACPI_FADT_REMOTE_POWER_ON (1 << 17) #define ACPI_FADT_APIC_CLUSTER (1 << 18) #define ACPI_FADT_APIC_PHYSICAL (1 << 19) /* Bits 20-31: reserved ACPI 3.0 & 4.0 */ #define ACPI_FADT_HW_REDUCED_ACPI (1 << 20) #define ACPI_FADT_LOW_PWR_IDLE_S0 (1 << 21) /* bits 22-31: reserved since ACPI 5.0 */ /* FADT Boot Architecture Flags */ #define ACPI_FADT_LEGACY_DEVICES (1 << 0) #define ACPI_FADT_8042 (1 << 1) #define ACPI_FADT_VGA_NOT_PRESENT (1 << 2) #define ACPI_FADT_MSI_NOT_SUPPORTED (1 << 3) #define ACPI_FADT_NO_PCIE_ASPM_CONTROL (1 << 4) #define ACPI_FADT_NO_CMOS_RTC (1 << 5) #define ACPI_FADT_LEGACY_FREE 0x00 /* No legacy devices (including 8042) */ /* FADT ARM Boot Architecture Flags */ #define ACPI_FADT_ARM_PSCI_COMPLIANT (1 << 0) #define ACPI_FADT_ARM_PSCI_USE_HVC (1 << 1) /* bits 2-16: reserved since ACPI 5.1 */ /* FADT Preferred Power Management Profile */ enum acpi_preferred_pm_profiles { PM_UNSPECIFIED = 0, PM_DESKTOP = 1, PM_MOBILE = 2, PM_WORKSTATION = 3, PM_ENTERPRISE_SERVER = 4, PM_SOHO_SERVER = 5, PM_APPLIANCE_PC = 6, PM_PERFORMANCE_SERVER = 7, PM_TABLET = 8, /* ACPI 5.0 & greater */ }; /* FACS (Firmware ACPI Control Structure) */ typedef struct acpi_facs { char signature[4]; /* "FACS" */ u32 length; /* Length in bytes (>= 64) */ u32 hardware_signature; /* Hardware signature */ u32 firmware_waking_vector; /* Firmware waking vector */ u32 global_lock; /* Global lock */ u32 flags; /* FACS flags */ u32 x_firmware_waking_vector_l; /* X FW waking vector, low */ u32 x_firmware_waking_vector_h; /* X FW waking vector, high */ u8 version; /* FACS version */ u8 resv1[3]; /* This value is 0 */ u32 ospm_flags; /* 64BIT_WAKE_F */ u8 resv2[24]; /* This value is 0 */ } __packed acpi_facs_t; /* FACS flags */ #define ACPI_FACS_S4BIOS_F (1 << 0) #define ACPI_FACS_64BIT_WAKE_F (1 << 1) /* Bits 31..2: reserved */ /* ECDT (Embedded Controller Boot Resources Table) */ typedef struct acpi_ecdt { acpi_header_t header; acpi_addr_t ec_control; /* EC control register */ acpi_addr_t ec_data; /* EC data register */ u32 uid; /* UID */ u8 gpe_bit; /* GPE bit */ u8 ec_id[]; /* EC ID */ } __packed acpi_ecdt_t; /* HEST (Hardware Error Source Table) */ typedef struct acpi_hest { acpi_header_t header; u32 error_source_count; /* error_source_struct(s) */ } __packed acpi_hest_t; /* Error Source Descriptors */ typedef struct acpi_hest_esd { u16 type; u16 source_id; u16 resv; u8 flags; u8 enabled; u32 prealloc_erecords; /* The number of error records to * pre-allocate for this error source. */ u32 max_section_per_record; } __packed acpi_hest_esd_t; /* Hardware Error Notification */ typedef struct acpi_hest_hen { u8 type; u8 length; u16 conf_we; /* Configuration Write Enable */ u32 poll_interval; u32 vector; u32 sw2poll_threshold_val; u32 sw2poll_threshold_win; u32 error_threshold_val; u32 error_threshold_win; } __packed acpi_hest_hen_t; /* BERT (Boot Error Record Table) */ typedef struct acpi_bert { acpi_header_t header; u32 region_length; u64 error_region; } __packed acpi_bert_t; /* Generic Error Data Entry */ typedef struct acpi_hest_generic_data { guid_t section_type; u32 error_severity; u16 revision; u8 validation_bits; u8 flags; u32 data_length; guid_t fru_id; u8 fru_text[20]; /* error data */ } __packed acpi_hest_generic_data_t; /* Generic Error Data Entry v300 */ typedef struct acpi_hest_generic_data_v300 { guid_t section_type; u32 error_severity; u16 revision; u8 validation_bits; u8 flags; /* see CPER Section Descriptor, Flags field */ u32 data_length; guid_t fru_id; u8 fru_text[20]; cper_timestamp_t timestamp; /* error data */ } __packed acpi_hest_generic_data_v300_t; #define HEST_GENERIC_ENTRY_V300 0x300 /* Both Generic Error Status & Generic Error Data Entry, Error Severity field */ #define ACPI_GENERROR_SEV_RECOVERABLE 0 #define ACPI_GENERROR_SEV_FATAL 1 #define ACPI_GENERROR_SEV_CORRECTED 2 #define ACPI_GENERROR_SEV_NONE 3 /* Generic Error Data Entry, Validation Bits field */ #define ACPI_GENERROR_VALID_FRUID BIT(0) #define ACPI_GENERROR_VALID_FRUID_TEXT BIT(1) #define ACPI_GENERROR_VALID_TIMESTAMP BIT(2) /* * Generic Error Status Block * * If there is a raw data section at the end of the generic error status block after the * zero or more generic error data entries, raw_data_length indicates the length of the raw * section and raw_data_offset is the offset of the beginning of the raw data section from * the start of the acpi_generic_error_status block it is contained in. So if raw_data_length * is non-zero, raw_data_offset must be at least sizeof(acpi_generic_error_status_t). */ typedef struct acpi_generic_error_status { u32 block_status; u32 raw_data_offset; /* must follow any generic entries */ u32 raw_data_length; u32 data_length; /* generic data */ u32 error_severity; /* Generic Error Data structures, zero or more entries */ } __packed acpi_generic_error_status_t; /* Generic Status Block, Block Status values */ #define GENERIC_ERR_STS_UNCORRECTABLE_VALID BIT(0) #define GENERIC_ERR_STS_CORRECTABLE_VALID BIT(1) #define GENERIC_ERR_STS_MULT_UNCORRECTABLE BIT(2) #define GENERIC_ERR_STS_MULT_CORRECTABLE BIT(3) #define GENERIC_ERR_STS_ENTRY_COUNT_SHIFT 4 #define GENERIC_ERR_STS_ENTRY_COUNT_MAX 0x3ff #define GENERIC_ERR_STS_ENTRY_COUNT_MASK \ (GENERIC_ERR_STS_ENTRY_COUNT_MAX \ << GENERIC_ERR_STS_ENTRY_COUNT_SHIFT) typedef struct acpi_cstate { u8 ctype; u16 latency; u32 power; acpi_addr_t resource; } __packed acpi_cstate_t; struct acpi_sw_pstate { u32 core_freq; u32 power; u32 transition_latency; u32 bus_master_latency; u32 control_value; u32 status_value; } __packed; struct acpi_xpss_sw_pstate { u64 core_freq; u64 power; u64 transition_latency; u64 bus_master_latency; u64 control_value; u64 status_value; u64 control_mask; u64 status_mask; } __packed; typedef struct acpi_tstate { u32 percent; u32 power; u32 latency; u32 control; u32 status; } __packed acpi_tstate_t; enum acpi_lpi_state_flags { ACPI_LPI_STATE_DISABLED = 0, ACPI_LPI_STATE_ENABLED }; /* Low Power Idle State */ struct acpi_lpi_state { u32 min_residency_us; u32 worst_case_wakeup_latency_us; u32 flags; u32 arch_context_lost_flags; u32 residency_counter_frequency_hz; u32 enabled_parent_state; acpi_addr_t entry_method; acpi_addr_t residency_counter_register; acpi_addr_t usage_counter_register; const char *state_name; }; /* Port types for ACPI _UPC object */ enum acpi_upc_type { UPC_TYPE_A, UPC_TYPE_MINI_AB, UPC_TYPE_EXPRESSCARD, UPC_TYPE_USB3_A, UPC_TYPE_USB3_B, UPC_TYPE_USB3_MICRO_B, UPC_TYPE_USB3_MICRO_AB, UPC_TYPE_USB3_POWER_B, UPC_TYPE_C_USB2_ONLY, UPC_TYPE_C_USB2_SS_SWITCH, UPC_TYPE_C_USB2_SS, UPC_TYPE_PROPRIETARY = 0xff, /* * The following types are not directly defined in the ACPI * spec but are used by coreboot to identify a USB device type. */ UPC_TYPE_INTERNAL = 0xff, UPC_TYPE_UNUSED, UPC_TYPE_HUB }; enum acpi_ipmi_interface_type { IPMI_INTERFACE_RESERVED = 0, IPMI_INTERFACE_KCS, IPMI_INTERFACE_SMIC, IPMI_INTERFACE_BT, IPMI_INTERFACE_SSIF, }; #define ACPI_IPMI_PCI_DEVICE_FLAG (1 << 0) #define ACPI_IPMI_INT_TYPE_SCI (1 << 0) #define ACPI_IPMI_INT_TYPE_APIC (1 << 1) /* ACPI IPMI 2.0 */ struct acpi_spmi { acpi_header_t header; u8 interface_type; u8 reserved; u16 specification_revision; u8 interrupt_type; u8 gpe; u8 reserved2; u8 pci_device_flag; u32 global_system_interrupt; acpi_addr_t base_address; union { struct { u8 pci_segment_group; u8 pci_bus; u8 pci_device; u8 pci_function; }; u8 uid[4]; }; u8 reserved3; } __packed; /* EINJ APEI Standard Definitions */ /* EINJ Error Types Refer to the ACPI spec, EINJ section, for more info on bit definitions */ #define ACPI_EINJ_CPU_CE (1 << 0) #define ACPI_EINJ_CPU_UCE (1 << 1) #define ACPI_EINJ_CPU_UCE_FATAL (1 << 2) #define ACPI_EINJ_MEM_CE (1 << 3) #define ACPI_EINJ_MEM_UCE (1 << 4) #define ACPI_EINJ_MEM_UCE_FATAL (1 << 5) #define ACPI_EINJ_PCIE_CE (1 << 6) #define ACPI_EINJ_PCIE_UCE_NON_FATAL (1 << 7) #define ACPI_EINJ_PCIE_UCE_FATAL (1 << 8) #define ACPI_EINJ_PLATFORM_CE (1 << 9) #define ACPI_EINJ_PLATFORM_UCE (1 << 10) #define ACPI_EINJ_PLATFORM_UCE_FATAL (1 << 11) #define ACPI_EINJ_VENDOR_DEFINED (1 << 31) #define ACPI_EINJ_DEFAULT_CAP (ACPI_EINJ_MEM_CE | ACPI_EINJ_MEM_UCE | \ ACPI_EINJ_PCIE_CE | ACPI_EINJ_PCIE_UCE_FATAL) /* EINJ actions */ #define ACTION_COUNT 9 #define BEGIN_INJECT_OP 0x00 #define GET_TRIGGER_ACTION_TABLE 0x01 #define SET_ERROR_TYPE 0x02 #define GET_ERROR_TYPE 0x03 #define END_INJECT_OP 0x04 #define EXECUTE_INJECT_OP 0x05 #define CHECK_BUSY_STATUS 0x06 #define GET_CMD_STATUS 0x07 #define SET_ERROR_TYPE_WITH_ADDRESS 0x08 #define TRIGGER_ERROR 0xFF /* EINJ Instructions */ #define READ_REGISTER 0x00 #define READ_REGISTER_VALUE 0x01 #define WRITE_REGISTER 0x02 #define WRITE_REGISTER_VALUE 0x03 #define NO_OP 0x04 /* EINJ (Error Injection Table) */ typedef struct acpi_gen_regaddr1 { u8 space_id; /* Address space ID */ u8 bit_width; /* Register size in bits */ u8 bit_offset; /* Register bit offset */ u8 access_size; /* Access size since ACPI 2.0c */ u64 addr; /* Register address */ } __packed acpi_addr64_t; /* Instruction entry */ typedef struct acpi_einj_action_table { u8 action; u8 instruction; u16 flags; acpi_addr64_t reg; u64 value; u64 mask; } __packed acpi_einj_action_table_t; typedef struct acpi_injection_header { u32 einj_header_size; u32 flags; u32 entry_count; } __packed acpi_injection_header_t; typedef struct acpi_einj_trigger_table { u32 header_size; u32 revision; u32 table_size; u32 entry_count; acpi_einj_action_table_t trigger_action[1]; } __packed acpi_einj_trigger_table_t; typedef struct set_error_type { u32 errtype; u32 vendorerrortype; u32 flags; u32 apicid; u64 memaddr; u64 memrange; u32 pciesbdf; } __packed set_error_type_t; #define EINJ_PARAM_NUM 6 typedef struct acpi_einj_smi { u64 op_state; u64 err_inject[EINJ_PARAM_NUM]; u64 trigger_action_table; u64 err_inj_cap; u64 op_status; u64 cmd_sts; u64 einj_addr; u64 einj_addr_msk; set_error_type_t setaddrtable; u64 reserved[50]; } __packed acpi_einj_smi_t; /* EINJ Flags */ #define EINJ_DEF_TRIGGER_PORT 0xb2 #define FLAG_PRESERVE 0x01 #define FLAG_IGNORE 0x00 /* EINJ Registers */ #define EINJ_REG_MEMORY(address) \ { \ .space_id = ACPI_ADDRESS_SPACE_MEMORY, \ .bit_width = 64, \ .bit_offset = 0, \ .access_size = ACPI_ACCESS_SIZE_QWORD_ACCESS, \ .addr = address} #define EINJ_REG_IO() \ { \ .space_id = ACPI_ADDRESS_SPACE_IO, \ .bit_width = 0x10, \ .bit_offset = 0, \ .access_size = ACPI_ACCESS_SIZE_WORD_ACCESS, \ .addr = EINJ_DEF_TRIGGER_PORT} /* HW dependent code can override this also */ typedef struct acpi_einj { acpi_header_t header; acpi_injection_header_t inj_header; acpi_einj_action_table_t action_table[ACTION_COUNT]; } __packed acpi_einj_t; uintptr_t get_coreboot_rsdp(void); void acpi_create_einj(acpi_einj_t *einj, uintptr_t addr, u8 actions); unsigned long fw_cfg_acpi_tables(unsigned long start); /* These are implemented by the target port or north/southbridge. */ void preload_acpi_dsdt(void); unsigned long write_acpi_tables(unsigned long addr); unsigned long acpi_fill_madt(unsigned long current); unsigned long acpi_fill_ivrs_ioapic(acpi_ivrs_t *ivrs, unsigned long current); void acpi_create_ssdt_generator(acpi_header_t *ssdt, const char *oem_table_id); void acpi_write_bert(acpi_bert_t *bert, uintptr_t region, size_t length); void acpi_create_fadt(acpi_fadt_t *fadt, acpi_facs_t *facs, void *dsdt); void soc_lpi_get_constraints(void *unused); void acpi_fill_fadt(acpi_fadt_t *fadt); void arch_fill_fadt(acpi_fadt_t *fadt); void soc_fill_fadt(acpi_fadt_t *fadt); void mainboard_fill_fadt(acpi_fadt_t *fadt); void acpi_fill_gnvs(void); void acpi_fill_cnvs(void); unsigned long acpi_fill_lpit(unsigned long current); /* These can be used by the target port. */ u8 acpi_checksum(u8 *table, u32 length); void acpi_add_table(acpi_rsdp_t *rsdp, void *table); int acpi_create_madt_lapic(acpi_madt_lapic_t *lapic, u8 cpu, u8 apic); int acpi_create_madt_ioapic(acpi_madt_ioapic_t *ioapic, u8 id, u32 addr, u32 gsi_base); int acpi_create_madt_irqoverride(acpi_madt_irqoverride_t *irqoverride, u8 bus, u8 source, u32 gsirq, u16 flags); int acpi_create_madt_lapic_nmi(acpi_madt_lapic_nmi_t *lapic_nmi, u8 cpu, u16 flags, u8 lint); void acpi_create_madt(acpi_madt_t *madt); unsigned long acpi_create_madt_lapics(unsigned long current); int acpi_create_madt_lx2apic(acpi_madt_lx2apic_t *lapic, u32 cpu, u32 apic); int acpi_create_madt_lx2apic_nmi(acpi_madt_lx2apic_nmi_t *lapic_nmi, u32 cpu, u16 flags, u8 lint); int acpi_create_srat_lapic(acpi_srat_lapic_t *lapic, u8 node, u8 apic); int acpi_create_srat_mem(acpi_srat_mem_t *mem, u8 node, u32 basek, u32 sizek, u32 flags); /* * Given the Generic Initiator device's BDF, the proximity domain's ID * and flag, create Generic Initiator Affinity structure in SRAT. */ int acpi_create_srat_gia_pci(acpi_srat_gia_t *gia, u32 proximity_domain, u16 seg, u8 bus, u8 dev, u8 func, u32 flags); int acpi_create_mcfg_mmconfig(acpi_mcfg_mmconfig_t *mmconfig, u32 base, u16 seg_nr, u8 start, u8 end); unsigned long acpi_create_srat_lapics(unsigned long current); void acpi_create_srat(acpi_srat_t *srat, unsigned long (*acpi_fill_srat)(unsigned long current)); void acpi_create_slit(acpi_slit_t *slit, unsigned long (*acpi_fill_slit)(unsigned long current)); /* * Create a Memory Proximity Domain Attributes structure for HMAT, * given proximity domain for the attached initiaor, and * proximimity domain for the memory. */ int acpi_create_hmat_mpda(acpi_hmat_mpda_t *mpda, u32 initiator, u32 memory); /* Create Heterogeneous Memory Attribute Table */ void acpi_create_hmat(acpi_hmat_t *hmat, unsigned long (*acpi_fill_hmat)(unsigned long current)); void acpi_create_vfct(const struct device *device, acpi_vfct_t *vfct, unsigned long (*acpi_fill_vfct)(const struct device *device, acpi_vfct_t *vfct_struct, unsigned long current)); void acpi_create_ipmi(const struct device *device, struct acpi_spmi *spmi, const u16 ipmi_revision, const acpi_addr_t *addr, const enum acpi_ipmi_interface_type type, const s8 gpe_interrupt, const u32 apic_interrupt, const u32 uid); void acpi_create_ivrs(acpi_ivrs_t *ivrs, unsigned long (*acpi_fill_ivrs)(acpi_ivrs_t *ivrs_struct, unsigned long current)); void acpi_create_crat(struct acpi_crat_header *crat, unsigned long (*acpi_fill_crat)(struct acpi_crat_header *crat_struct, unsigned long current)); void acpi_create_hpet(acpi_hpet_t *hpet); unsigned long acpi_write_hpet(const struct device *device, unsigned long start, acpi_rsdp_t *rsdp); /* cpu/intel/speedstep/acpi.c */ void generate_cpu_entries(const struct device *device); void acpi_create_mcfg(acpi_mcfg_t *mcfg); void acpi_create_facs(acpi_facs_t *facs); void acpi_create_dbg2(acpi_dbg2_header_t *dbg2_header, int port_type, int port_subtype, acpi_addr_t *address, uint32_t address_size, const char *device_path); unsigned long acpi_write_dbg2_pci_uart(acpi_rsdp_t *rsdp, unsigned long current, const struct device *dev, uint8_t access_size); void acpi_create_dmar(acpi_dmar_t *dmar, enum dmar_flags flags, unsigned long (*acpi_fill_dmar)(unsigned long)); unsigned long acpi_create_dmar_drhd(unsigned long current, u8 flags, u16 segment, u64 bar); unsigned long acpi_create_dmar_rmrr(unsigned long current, u16 segment, u64 bar, u64 limit); unsigned long acpi_create_dmar_atsr(unsigned long current, u8 flags, u16 segment); unsigned long acpi_create_dmar_rhsa(unsigned long current, u64 base_addr, u32 proximity_domain); unsigned long acpi_create_dmar_andd(unsigned long current, u8 device_number, const char *device_name); unsigned long acpi_create_dmar_satc(unsigned long current, u8 flags, u16 segment); void acpi_dmar_drhd_fixup(unsigned long base, unsigned long current); void acpi_dmar_rmrr_fixup(unsigned long base, unsigned long current); void acpi_dmar_atsr_fixup(unsigned long base, unsigned long current); void acpi_dmar_satc_fixup(unsigned long base, unsigned long current); unsigned long acpi_create_dmar_ds_pci_br(unsigned long current, u8 bus, u8 dev, u8 fn); unsigned long acpi_create_dmar_ds_pci(unsigned long current, u8 bus, u8 dev, u8 fn); unsigned long acpi_create_dmar_ds_ioapic(unsigned long current, u8 enumeration_id, u8 bus, u8 dev, u8 fn); unsigned long acpi_create_dmar_ds_msi_hpet(unsigned long current, u8 enumeration_id, u8 bus, u8 dev, u8 fn); void acpi_write_hest(acpi_hest_t *hest, unsigned long (*acpi_fill_hest)(acpi_hest_t *hest)); unsigned long acpi_create_hest_error_source(acpi_hest_t *hest, acpi_hest_esd_t *esd, u16 type, void *data, u16 len); void acpi_create_lpit(acpi_lpit_t *lpit); unsigned long acpi_create_lpi_desc_ncst(acpi_lpi_desc_ncst_t *lpi_desc, uint16_t uid); /* chipsets that select ACPI_BERT must implement this function */ enum cb_err acpi_soc_get_bert_region(void **region, size_t *length); /* For ACPI S3 support. */ void __noreturn acpi_resume(void *wake_vec); void mainboard_suspend_resume(void); void *acpi_find_wakeup_vector(void); /* ACPI_Sn assignments are defined to always equal the sleep state numbers */ enum { ACPI_S0 = 0, ACPI_S1 = 1, ACPI_S2 = 2, ACPI_S3 = 3, ACPI_S4 = 4, ACPI_S5 = 5, }; #if CONFIG(ACPI_INTEL_HARDWARE_SLEEP_VALUES) \ || CONFIG(ACPI_AMD_HARDWARE_SLEEP_VALUES) /* Given the provided PM1 control register return the ACPI sleep type. */ static inline int acpi_sleep_from_pm1(uint32_t pm1_cnt) { switch (((pm1_cnt) & SLP_TYP) >> SLP_TYP_SHIFT) { case SLP_TYP_S0: return ACPI_S0; case SLP_TYP_S1: return ACPI_S1; case SLP_TYP_S3: return ACPI_S3; case SLP_TYP_S4: return ACPI_S4; case SLP_TYP_S5: return ACPI_S5; } return -1; } #endif uint8_t acpi_get_preferred_pm_profile(void); /* Returns ACPI_Sx values. */ int acpi_get_sleep_type(void); /* Read and clear GPE status */ int acpi_get_gpe(int gpe); /* Once we enter payload, is SMI handler installed and capable of responding to APM_CNT Advanced Power Management Control commands. */ static inline int permanent_smi_handler(void) { return CONFIG(HAVE_SMI_HANDLER); } static inline int acpi_s3_resume_allowed(void) { return CONFIG(HAVE_ACPI_RESUME); } static inline int acpi_is_wakeup_s3(void) { if (!acpi_s3_resume_allowed()) return 0; if (ENV_ROMSTAGE_OR_BEFORE) return (acpi_get_sleep_type() == ACPI_S3); return romstage_handoff_is_resume(); } static inline uintptr_t acpi_align_current(uintptr_t current) { return ALIGN_UP(current, 16); } /* ACPI table revisions should match the revision of the ACPI spec * supported. This function keeps the table versions synced. This could * be made into a weak function if there is ever a need to override the * coreboot default ACPI spec version supported. */ int get_acpi_table_revision(enum acpi_tables table); u8 get_acpi_fadt_minor_version(void); #endif // !defined(__ASSEMBLER__) && !defined(__ACPI__) #endif /* __ACPI_ACPI_H__ */