/** @file FADT table parser Copyright (c) 2016 - 2020, ARM Limited. All rights reserved. Copyright (c) 2022, AMD Incorporated. All rights reserved. SPDX-License-Identifier: BSD-2-Clause-Patent @par Reference(s): - ACPI 6.3 Specification - January 2019 **/ #include #include #include "AcpiParser.h" #include "AcpiTableParser.h" #include "AcpiView.h" // Local variables STATIC CONST UINT32 *DsdtAddress; STATIC CONST UINT64 *X_DsdtAddress; STATIC CONST UINT32 *Flags; STATIC CONST UINT32 *FirmwareCtrl; STATIC CONST UINT64 *X_FirmwareCtrl; STATIC CONST UINT8 *FadtMinorRevision; STATIC ACPI_DESCRIPTION_HEADER_INFO AcpiHdrInfo; /** A macro defining the Hardware reduced ACPI flag **/ #define HW_REDUCED_ACPI BIT20 /** Offset to the FACS signature from the start of the FACS. **/ #define FACS_SIGNATURE_OFFSET 0 /** Offset to the FACS revision from the start of the FACS. **/ #define FACS_VERSION_OFFSET 32 /** Offset to the FACS length from the start of the FACS. **/ #define FACS_LENGTH_OFFSET 4 /** Get the ACPI XSDT header info. **/ CONST ACPI_DESCRIPTION_HEADER_INFO * EFIAPI GetAcpiXsdtHeaderInfo ( VOID ); /** This function validates the Firmware Control Field. @param [in] Ptr Pointer to the start of the field data. @param [in] Context Pointer to context specific information e.g. this could be a pointer to the ACPI table header. **/ STATIC VOID EFIAPI ValidateFirmwareCtrl ( IN UINT8 *Ptr, IN VOID *Context ) { #if defined (MDE_CPU_ARM) || defined (MDE_CPU_AARCH64) if (*(UINT32 *)Ptr != 0) { IncrementErrorCount (); Print ( L"\nERROR: Firmware Control must be zero for ARM platforms." ); } #endif } /** This function validates the X_Firmware Control Field. @param [in] Ptr Pointer to the start of the field data. @param [in] Context Pointer to context specific information e.g. this could be a pointer to the ACPI table header. **/ STATIC VOID EFIAPI ValidateXFirmwareCtrl ( IN UINT8 *Ptr, IN VOID *Context ) { #if defined (MDE_CPU_ARM) || defined (MDE_CPU_AARCH64) if (*(UINT64 *)Ptr != 0) { IncrementErrorCount (); Print ( L"\nERROR: X Firmware Control must be zero for ARM platforms." ); } #endif } /** This function validates the flags. @param [in] Ptr Pointer to the start of the field data. @param [in] Context Pointer to context specific information e.g. this could be a pointer to the ACPI table header. **/ STATIC VOID EFIAPI ValidateFlags ( IN UINT8 *Ptr, IN VOID *Context ) { #if defined (MDE_CPU_ARM) || defined (MDE_CPU_AARCH64) if (((*(UINT32 *)Ptr) & HW_REDUCED_ACPI) == 0) { IncrementErrorCount (); Print ( L"\nERROR: HW_REDUCED_ACPI flag must be set for ARM platforms." ); } #endif } STATIC CONST ACPI_PARSER FadtFlagParser[] = { { L"WBINVD", 1, 0, L"%d", NULL, NULL, NULL, NULL }, { L"WBINVD_FLUSH", 1, 1, L"%d", NULL, NULL, NULL, NULL }, { L"PROC_C1", 1, 2, L"%d", NULL, NULL, NULL, NULL }, { L"P_LVL2_UP", 1, 3, L"%d", NULL, NULL, NULL, NULL }, { L"PWR_BUTTON", 1, 4, L"%d", NULL, NULL, NULL, NULL }, { L"SLP_BUTTON", 1, 5, L"%d", NULL, NULL, NULL, NULL }, { L"FIX_RTC", 1, 6, L"%d", NULL, NULL, NULL, NULL }, { L"RTC_S4", 1, 7, L"%d", NULL, NULL, NULL, NULL }, { L"TMR_VAL_EXT", 1, 8, L"%d", NULL, NULL, NULL, NULL }, { L"DCK_CAP", 1, 9, L"%d", NULL, NULL, NULL, NULL }, { L"RESET_REG_SUP", 1, 10, L"%d", NULL, NULL, NULL, NULL }, { L"SEALED_CASE", 1, 11, L"%d", NULL, NULL, NULL, NULL }, { L"HEADLESS", 1, 12, L"%d", NULL, NULL, NULL, NULL }, { L"CPU_SW_SLP", 1, 13, L"%d", NULL, NULL, NULL, NULL }, { L"PCI_EXP_WAK", 1, 14, L"%d", NULL, NULL, NULL, NULL }, { L"USE_PLATFORM_CLOCK", 1, 15, L"%d", NULL, NULL, NULL, NULL }, { L"S4_RTC_STS_VALID", 1, 16, L"%d", NULL, NULL, NULL, NULL }, { L"REMOTE_POWER_ON_CAPABLE", 1, 17, L"%d", NULL, NULL, NULL, NULL }, { L"FORCE_APIC_CLUSTER_MODEL", 1, 18, L"%d", NULL, NULL, NULL, NULL }, { L"FORCE_APIC_PHYSICAL_DESTINATION_MODE", 1, 19, L"%d", NULL, NULL, NULL, NULL }, { L"HW_REDUCED_ACPI", 1, 20, L"%d", NULL, NULL, NULL, NULL }, { L"LOW_POWER_S0_IDLE_CAPABLE", 1, 21, L"%d", NULL, NULL, NULL, NULL }, { L"Reserved", 10, 22, L"%d", NULL, NULL, NULL, NULL } }; /** This function traces FADT Flags fields. If no format string is specified the Format must be NULL. @param [in] Format Optional format string for tracing the data. @param [in] Ptr Pointer to the start of the buffer. **/ VOID EFIAPI DumpFadtFlags ( IN CONST CHAR16 *Format OPTIONAL, IN UINT8 *Ptr ) { if (Format != NULL) { Print (Format, *(UINT32 *)Ptr); return; } Print (L"0x%X\n", *(UINT32 *)Ptr); ParseAcpiBitFields ( TRUE, 2, NULL, Ptr, 4, PARSER_PARAMS (FadtFlagParser) ); } /** An ACPI_PARSER array describing the ACPI FADT Table. **/ STATIC CONST ACPI_PARSER FadtParser[] = { PARSE_ACPI_HEADER (&AcpiHdrInfo), { L"FIRMWARE_CTRL", 4, 36, L"0x%x", NULL, (VOID **)&FirmwareCtrl, ValidateFirmwareCtrl, NULL }, { L"DSDT", 4, 40, L"0x%x", NULL, (VOID **)&DsdtAddress, NULL, NULL }, { L"Reserved", 1, 44, L"%x", NULL, NULL, NULL, NULL }, { L"Preferred_PM_Profile", 1, 45, L"0x%x", NULL, NULL, NULL, NULL }, { L"SCI_INT", 2, 46, L"0x%x", NULL, NULL, NULL, NULL }, { L"SMI_CMD", 4, 48, L"0x%x", NULL, NULL, NULL, NULL }, { L"ACPI_ENABLE", 1, 52, L"0x%x", NULL, NULL, NULL, NULL }, { L"ACPI_DISABLE", 1, 53, L"0x%x", NULL, NULL, NULL, NULL }, { L"S4BIOS_REQ", 1, 54, L"0x%x", NULL, NULL, NULL, NULL }, { L"PSTATE_CNT", 1, 55, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM1a_EVT_BLK", 4, 56, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM1b_EVT_BLK", 4, 60, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM1a_CNT_BLK", 4, 64, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM1b_CNT_BLK", 4, 68, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM2_CNT_BLK", 4, 72, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM_TMR_BLK", 4, 76, L"0x%x", NULL, NULL, NULL, NULL }, { L"GPE0_BLK", 4, 80, L"0x%x", NULL, NULL, NULL, NULL }, { L"GPE1_BLK", 4, 84, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM1_EVT_LEN", 1, 88, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM1_CNT_LEN", 1, 89, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM2_CNT_LEN", 1, 90, L"0x%x", NULL, NULL, NULL, NULL }, { L"PM_TMR_LEN", 1, 91, L"0x%x", NULL, NULL, NULL, NULL }, { L"GPE0_BLK_LEN", 1, 92, L"0x%x", NULL, NULL, NULL, NULL }, { L"GPE1_BLK_LEN", 1, 93, L"0x%x", NULL, NULL, NULL, NULL }, { L"GPE1_BASE", 1, 94, L"0x%x", NULL, NULL, NULL, NULL }, { L"CST_CNT", 1, 95, L"0x%x", NULL, NULL, NULL, NULL }, { L"P_LVL2_LAT", 2, 96, L"0x%x", NULL, NULL, NULL, NULL }, { L"P_LVL3_LAT", 2, 98, L"0x%x", NULL, NULL, NULL, NULL }, { L"FLUSH_SIZE", 2, 100, L"0x%x", NULL, NULL, NULL, NULL }, { L"FLUSH_STRIDE", 2, 102, L"0x%x", NULL, NULL, NULL, NULL }, { L"DUTY_OFFSET", 1, 104, L"0x%x", NULL, NULL, NULL, NULL }, { L"DUTY_WIDTH", 1, 105, L"0x%x", NULL, NULL, NULL, NULL }, { L"DAY_ALRM", 1, 106, L"0x%x", NULL, NULL, NULL, NULL }, { L"MON_ALRM", 1, 107, L"0x%x", NULL, NULL, NULL, NULL }, { L"CENTURY", 1, 108, L"0x%x", NULL, NULL, NULL, NULL }, { L"IAPC_BOOT_ARCH", 2, 109, L"0x%x", NULL, NULL, NULL, NULL }, { L"Reserved", 1, 111, L"0x%x", NULL, NULL, NULL, NULL }, { L"Flags", 4, 112, NULL, DumpFadtFlags, (VOID **)&Flags, ValidateFlags, NULL }, { L"RESET_REG", 12, 116, NULL, DumpGas, NULL, NULL, NULL }, { L"RESET_VALUE", 1, 128, L"0x%x", NULL, NULL, NULL, NULL }, { L"ARM_BOOT_ARCH", 2, 129, L"0x%x", NULL, NULL, NULL, NULL }, { L"FADT Minor Version", 1, 131, L"0x%x", NULL, (VOID **)&FadtMinorRevision, NULL, NULL }, { L"X_FIRMWARE_CTRL", 8, 132, L"0x%lx", NULL, (VOID **)&X_FirmwareCtrl, ValidateXFirmwareCtrl, NULL }, { L"X_DSDT", 8, 140, L"0x%lx", NULL, (VOID **)&X_DsdtAddress, NULL, NULL }, { L"X_PM1a_EVT_BLK", 12, 148, NULL, DumpGas, NULL, NULL, NULL }, { L"X_PM1b_EVT_BLK", 12, 160, NULL, DumpGas, NULL, NULL, NULL }, { L"X_PM1a_CNT_BLK", 12, 172, NULL, DumpGas, NULL, NULL, NULL }, { L"X_PM1b_CNT_BLK", 12, 184, NULL, DumpGas, NULL, NULL, NULL }, { L"X_PM2_CNT_BLK", 12, 196, NULL, DumpGas, NULL, NULL, NULL }, { L"X_PM_TMR_BLK", 12, 208, NULL, DumpGas, NULL, NULL, NULL }, { L"X_GPE0_BLK", 12, 220, NULL, DumpGas, NULL, NULL, NULL }, { L"X_GPE1_BLK", 12, 232, NULL, DumpGas, NULL, NULL, NULL }, { L"SLEEP_CONTROL_REG", 12, 244, NULL, DumpGas, NULL, NULL, NULL }, { L"SLEEP_STATUS_REG", 12, 256, NULL, DumpGas, NULL, NULL, NULL }, { L"Hypervisor VendorIdentity", 8, 268, L"%lx", NULL, NULL, NULL, NULL } }; /** This function parses the ACPI FADT table. This function parses the FADT table and optionally traces the ACPI table fields. This function also performs validation of the ACPI table fields. @param [in] Trace If TRUE, trace the ACPI fields. @param [in] Ptr Pointer to the start of the buffer. @param [in] AcpiTableLength Length of the ACPI table. @param [in] AcpiTableRevision Revision of the ACPI table. **/ VOID EFIAPI ParseAcpiFadt ( IN BOOLEAN Trace, IN UINT8 *Ptr, IN UINT32 AcpiTableLength, IN UINT8 AcpiTableRevision ) { EFI_STATUS Status; UINT8 *DsdtPtr; UINT8 *FirmwareCtrlPtr; UINT32 FacsSignature; UINT32 FacsLength; UINT8 FacsRevision; PARSE_ACPI_TABLE_PROC FacsParserProc; ParseAcpi ( Trace, 0, "FADT", Ptr, AcpiTableLength, PARSER_PARAMS (FadtParser) ); if (Trace) { if (FadtMinorRevision != NULL) { Print (L"\nSummary:\n"); PrintFieldName (2, L"FADT Version"); Print (L"%d.%d\n", *AcpiHdrInfo.Revision, *FadtMinorRevision); } if (*GetAcpiXsdtHeaderInfo ()->OemTableId != *AcpiHdrInfo.OemTableId) { IncrementErrorCount (); Print (L"ERROR: OEM Table Id does not match with RSDT/XSDT.\n"); } } // If X_FIRMWARE_CTRL is not zero then use X_FIRMWARE_CTRL and ignore // FIRMWARE_CTRL, else use FIRMWARE_CTRL. if ((X_FirmwareCtrl != NULL) && (*X_FirmwareCtrl != 0)) { FirmwareCtrlPtr = (UINT8 *)(UINTN)(*X_FirmwareCtrl); } else if ((FirmwareCtrl != NULL) && (*FirmwareCtrl != 0)) { FirmwareCtrlPtr = (UINT8 *)(UINTN)(*FirmwareCtrl); } else { FirmwareCtrlPtr = NULL; // if HW_REDUCED_ACPI flag is not set, both FIRMWARE_CTRL and // X_FIRMWARE_CTRL cannot be zero, and the FACS Table must be // present. if ((Trace) && (Flags != NULL) && ((*Flags & EFI_ACPI_6_3_HW_REDUCED_ACPI) != EFI_ACPI_6_3_HW_REDUCED_ACPI)) { IncrementErrorCount (); Print ( L"ERROR: No FACS table found, " L"both X_FIRMWARE_CTRL and FIRMWARE_CTRL are zero.\n" ); } } if (FirmwareCtrlPtr != NULL) { // The FACS table does not have a standard ACPI table header. Therefore, // the signature, length and version needs to be initially parsed. // The FACS signature is 4 bytes starting at offset 0. FacsSignature = *(UINT32 *)(FirmwareCtrlPtr + FACS_SIGNATURE_OFFSET); // The FACS length is 4 bytes starting at offset 4. FacsLength = *(UINT32 *)(FirmwareCtrlPtr + FACS_LENGTH_OFFSET); // The FACS version is 1 byte starting at offset 32. FacsRevision = *(UINT8 *)(FirmwareCtrlPtr + FACS_VERSION_OFFSET); Trace = ProcessTableReportOptions ( FacsSignature, FirmwareCtrlPtr, FacsLength ); Status = GetParser (FacsSignature, &FacsParserProc); if (EFI_ERROR (Status)) { Print ( L"ERROR: No registered parser found for FACS.\n" ); return; } FacsParserProc ( Trace, FirmwareCtrlPtr, FacsLength, FacsRevision ); } // If X_DSDT is valid then use X_DSDT and ignore DSDT, else use DSDT. if ((X_DsdtAddress != NULL) && (*X_DsdtAddress != 0)) { DsdtPtr = (UINT8 *)(UINTN)(*X_DsdtAddress); } else if ((DsdtAddress != NULL) && (*DsdtAddress != 0)) { DsdtPtr = (UINT8 *)(UINTN)(*DsdtAddress); } else { // Both DSDT and X_DSDT cannot be invalid. #if defined (MDE_CPU_ARM) || defined (MDE_CPU_AARCH64) if (Trace) { // The DSDT Table is mandatory for ARM systems // as the CPU information MUST be presented in // the DSDT. IncrementErrorCount (); Print (L"ERROR: Both X_DSDT and DSDT are invalid.\n"); } #endif return; } ProcessAcpiTable (DsdtPtr); }