audk/DynamicTablesPkg/Include/ArmNameSpaceObjects.h

1303 lines
41 KiB
C

/** @file
Copyright (c) 2017 - 2022, Arm Limited. All rights reserved.<BR>
SPDX-License-Identifier: BSD-2-Clause-Patent
@par Glossary:
- Cm or CM - Configuration Manager
- Obj or OBJ - Object
- Std or STD - Standard
**/
#ifndef ARM_NAMESPACE_OBJECTS_H_
#define ARM_NAMESPACE_OBJECTS_H_
#include <AmlCpcInfo.h>
#include <StandardNameSpaceObjects.h>
#pragma pack(1)
/** The EARM_OBJECT_ID enum describes the Object IDs
in the ARM Namespace
*/
typedef enum ArmObjectID {
EArmObjReserved, ///< 0 - Reserved
EArmObjBootArchInfo, ///< 1 - Boot Architecture Info
EArmObjCpuInfo, ///< 2 - CPU Info
EArmObjPowerManagementProfileInfo, ///< 3 - Power Management Profile Info
EArmObjGicCInfo, ///< 4 - GIC CPU Interface Info
EArmObjGicDInfo, ///< 5 - GIC Distributor Info
EArmObjGicMsiFrameInfo, ///< 6 - GIC MSI Frame Info
EArmObjGicRedistributorInfo, ///< 7 - GIC Redistributor Info
EArmObjGicItsInfo, ///< 8 - GIC ITS Info
EArmObjSerialConsolePortInfo, ///< 9 - Serial Console Port Info
EArmObjSerialDebugPortInfo, ///< 10 - Serial Debug Port Info
EArmObjGenericTimerInfo, ///< 11 - Generic Timer Info
EArmObjPlatformGTBlockInfo, ///< 12 - Platform GT Block Info
EArmObjGTBlockTimerFrameInfo, ///< 13 - Generic Timer Block Frame Info
EArmObjPlatformGenericWatchdogInfo, ///< 14 - Platform Generic Watchdog
EArmObjPciConfigSpaceInfo, ///< 15 - PCI Configuration Space Info
EArmObjHypervisorVendorIdentity, ///< 16 - Hypervisor Vendor Id
EArmObjFixedFeatureFlags, ///< 17 - Fixed feature flags for FADT
EArmObjItsGroup, ///< 18 - ITS Group
EArmObjNamedComponent, ///< 19 - Named Component
EArmObjRootComplex, ///< 20 - Root Complex
EArmObjSmmuV1SmmuV2, ///< 21 - SMMUv1 or SMMUv2
EArmObjSmmuV3, ///< 22 - SMMUv3
EArmObjPmcg, ///< 23 - PMCG
EArmObjGicItsIdentifierArray, ///< 24 - GIC ITS Identifier Array
EArmObjIdMappingArray, ///< 25 - ID Mapping Array
EArmObjSmmuInterruptArray, ///< 26 - SMMU Interrupt Array
EArmObjProcHierarchyInfo, ///< 27 - Processor Hierarchy Info
EArmObjCacheInfo, ///< 28 - Cache Info
EArmObjReserved29, ///< 29 - Reserved
EArmObjCmRef, ///< 30 - CM Object Reference
EArmObjMemoryAffinityInfo, ///< 31 - Memory Affinity Info
EArmObjDeviceHandleAcpi, ///< 32 - Device Handle Acpi
EArmObjDeviceHandlePci, ///< 33 - Device Handle Pci
EArmObjGenericInitiatorAffinityInfo, ///< 34 - Generic Initiator Affinity
EArmObjSerialPortInfo, ///< 35 - Generic Serial Port Info
EArmObjCmn600Info, ///< 36 - CMN-600 Info
EArmObjLpiInfo, ///< 37 - Lpi Info
EArmObjPciAddressMapInfo, ///< 38 - Pci Address Map Info
EArmObjPciInterruptMapInfo, ///< 39 - Pci Interrupt Map Info
EArmObjRmr, ///< 40 - Reserved Memory Range Node
EArmObjMemoryRangeDescriptor, ///< 41 - Memory Range Descriptor
EArmObjCpcInfo, ///< 42 - Continuous Performance Control Info
EArmObjPccSubspaceType0Info, ///< 43 - Pcc Subspace Type 0 Info
EArmObjPccSubspaceType1Info, ///< 44 - Pcc Subspace Type 2 Info
EArmObjPccSubspaceType2Info, ///< 45 - Pcc Subspace Type 2 Info
EArmObjPccSubspaceType3Info, ///< 46 - Pcc Subspace Type 3 Info
EArmObjPccSubspaceType4Info, ///< 47 - Pcc Subspace Type 4 Info
EArmObjPccSubspaceType5Info, ///< 48 - Pcc Subspace Type 5 Info
EArmObjMax
} EARM_OBJECT_ID;
/** A structure that describes the
ARM Boot Architecture flags.
ID: EArmObjBootArchInfo
*/
typedef struct CmArmBootArchInfo {
/** This is the ARM_BOOT_ARCH flags field of the FADT Table
described in the ACPI Table Specification.
*/
UINT16 BootArchFlags;
} CM_ARM_BOOT_ARCH_INFO;
/** A structure that describes the
Power Management Profile Information for the Platform.
ID: EArmObjPowerManagementProfileInfo
*/
typedef struct CmArmPowerManagementProfileInfo {
/** This is the Preferred_PM_Profile field of the FADT Table
described in the ACPI Specification
*/
UINT8 PowerManagementProfile;
} CM_ARM_POWER_MANAGEMENT_PROFILE_INFO;
/** A structure that describes the
GIC CPU Interface for the Platform.
ID: EArmObjGicCInfo
*/
typedef struct CmArmGicCInfo {
/// The GIC CPU Interface number.
UINT32 CPUInterfaceNumber;
/** The ACPI Processor UID. This must match the
_UID of the CPU Device object information described
in the DSDT/SSDT for the CPU.
*/
UINT32 AcpiProcessorUid;
/** The flags field as described by the GICC structure
in the ACPI Specification.
*/
UINT32 Flags;
/** The parking protocol version field as described by
the GICC structure in the ACPI Specification.
*/
UINT32 ParkingProtocolVersion;
/** The Performance Interrupt field as described by
the GICC structure in the ACPI Specification.
*/
UINT32 PerformanceInterruptGsiv;
/** The CPU Parked address field as described by
the GICC structure in the ACPI Specification.
*/
UINT64 ParkedAddress;
/** The base address for the GIC CPU Interface
as described by the GICC structure in the
ACPI Specification.
*/
UINT64 PhysicalBaseAddress;
/** The base address for GICV interface
as described by the GICC structure in the
ACPI Specification.
*/
UINT64 GICV;
/** The base address for GICH interface
as described by the GICC structure in the
ACPI Specification.
*/
UINT64 GICH;
/** The GICV maintenance interrupt
as described by the GICC structure in the
ACPI Specification.
*/
UINT32 VGICMaintenanceInterrupt;
/** The base address for GICR interface
as described by the GICC structure in the
ACPI Specification.
*/
UINT64 GICRBaseAddress;
/** The MPIDR for the CPU
as described by the GICC structure in the
ACPI Specification.
*/
UINT64 MPIDR;
/** The Processor Power Efficiency class
as described by the GICC structure in the
ACPI Specification.
*/
UINT8 ProcessorPowerEfficiencyClass;
/** Statistical Profiling Extension buffer overflow GSIV. Zero if
unsupported by this processor. This field was introduced in
ACPI 6.3 (MADT revision 5) and is therefore ignored when
generating MADT revision 4 or lower.
*/
UINT16 SpeOverflowInterrupt;
/** The proximity domain to which the logical processor belongs.
This field is used to populate the GICC affinity structure
in the SRAT table.
*/
UINT32 ProximityDomain;
/** The clock domain to which the logical processor belongs.
This field is used to populate the GICC affinity structure
in the SRAT table.
*/
UINT32 ClockDomain;
/** The GICC Affinity flags field as described by the GICC Affinity structure
in the SRAT table.
*/
UINT32 AffinityFlags;
/** Optional field: Reference Token for the Cpc info of this processor.
i.e. a token referencing a CM_ARM_CPC_INFO object.
*/
CM_OBJECT_TOKEN CpcToken;
} CM_ARM_GICC_INFO;
/** A structure that describes the
GIC Distributor information for the Platform.
ID: EArmObjGicDInfo
*/
typedef struct CmArmGicDInfo {
/// The Physical Base address for the GIC Distributor.
UINT64 PhysicalBaseAddress;
/** The global system interrupt
number where this GIC Distributor's
interrupt inputs start.
*/
UINT32 SystemVectorBase;
/** The GIC version as described
by the GICD structure in the
ACPI Specification.
*/
UINT8 GicVersion;
} CM_ARM_GICD_INFO;
/** A structure that describes the
GIC MSI Frame information for the Platform.
ID: EArmObjGicMsiFrameInfo
*/
typedef struct CmArmGicMsiFrameInfo {
/// The GIC MSI Frame ID
UINT32 GicMsiFrameId;
/// The Physical base address for the MSI Frame
UINT64 PhysicalBaseAddress;
/** The GIC MSI Frame flags
as described by the GIC MSI frame
structure in the ACPI Specification.
*/
UINT32 Flags;
/// SPI Count used by this frame
UINT16 SPICount;
/// SPI Base used by this frame
UINT16 SPIBase;
} CM_ARM_GIC_MSI_FRAME_INFO;
/** A structure that describes the
GIC Redistributor information for the Platform.
ID: EArmObjGicRedistributorInfo
*/
typedef struct CmArmGicRedistInfo {
/** The physical address of a page range
containing all GIC Redistributors.
*/
UINT64 DiscoveryRangeBaseAddress;
/// Length of the GIC Redistributor Discovery page range
UINT32 DiscoveryRangeLength;
} CM_ARM_GIC_REDIST_INFO;
/** A structure that describes the
GIC Interrupt Translation Service information for the Platform.
ID: EArmObjGicItsInfo
*/
typedef struct CmArmGicItsInfo {
/// The GIC ITS ID
UINT32 GicItsId;
/// The physical address for the Interrupt Translation Service
UINT64 PhysicalBaseAddress;
/** The proximity domain to which the logical processor belongs.
This field is used to populate the GIC ITS affinity structure
in the SRAT table.
*/
UINT32 ProximityDomain;
} CM_ARM_GIC_ITS_INFO;
/** A structure that describes the
Serial Port information for the Platform.
ID: EArmObjSerialConsolePortInfo or
EArmObjSerialDebugPortInfo or
EArmObjSerialPortInfo
*/
typedef struct CmArmSerialPortInfo {
/// The physical base address for the serial port
UINT64 BaseAddress;
/// The serial port interrupt
UINT32 Interrupt;
/// The serial port baud rate
UINT64 BaudRate;
/// The serial port clock
UINT32 Clock;
/// Serial Port subtype
UINT16 PortSubtype;
/// The Base address length
UINT64 BaseAddressLength;
/// The access size
UINT8 AccessSize;
} CM_ARM_SERIAL_PORT_INFO;
/** A structure that describes the
Generic Timer information for the Platform.
ID: EArmObjGenericTimerInfo
*/
typedef struct CmArmGenericTimerInfo {
/// The physical base address for the counter control frame
UINT64 CounterControlBaseAddress;
/// The physical base address for the counter read frame
UINT64 CounterReadBaseAddress;
/// The secure PL1 timer interrupt
UINT32 SecurePL1TimerGSIV;
/// The secure PL1 timer flags
UINT32 SecurePL1TimerFlags;
/// The non-secure PL1 timer interrupt
UINT32 NonSecurePL1TimerGSIV;
/// The non-secure PL1 timer flags
UINT32 NonSecurePL1TimerFlags;
/// The virtual timer interrupt
UINT32 VirtualTimerGSIV;
/// The virtual timer flags
UINT32 VirtualTimerFlags;
/// The non-secure PL2 timer interrupt
UINT32 NonSecurePL2TimerGSIV;
/// The non-secure PL2 timer flags
UINT32 NonSecurePL2TimerFlags;
/// GSIV for the virtual EL2 timer
UINT32 VirtualPL2TimerGSIV;
/// Flags for the virtual EL2 timer
UINT32 VirtualPL2TimerFlags;
} CM_ARM_GENERIC_TIMER_INFO;
/** A structure that describes the
Platform Generic Block Timer information for the Platform.
ID: EArmObjPlatformGTBlockInfo
*/
typedef struct CmArmGTBlockInfo {
/// The physical base address for the GT Block Timer structure
UINT64 GTBlockPhysicalAddress;
/// The number of timer frames implemented in the GT Block
UINT32 GTBlockTimerFrameCount;
/// Reference token for the GT Block timer frame list
CM_OBJECT_TOKEN GTBlockTimerFrameToken;
} CM_ARM_GTBLOCK_INFO;
/** A structure that describes the
Platform Generic Block Timer Frame information for the Platform.
ID: EArmObjGTBlockTimerFrameInfo
*/
typedef struct CmArmGTBlockTimerFrameInfo {
/// The Generic Timer frame number
UINT8 FrameNumber;
/// The physical base address for the CntBase block
UINT64 PhysicalAddressCntBase;
/// The physical base address for the CntEL0Base block
UINT64 PhysicalAddressCntEL0Base;
/// The physical timer interrupt
UINT32 PhysicalTimerGSIV;
/** The physical timer flags as described by the GT Block
Timer frame Structure in the ACPI Specification.
*/
UINT32 PhysicalTimerFlags;
/// The virtual timer interrupt
UINT32 VirtualTimerGSIV;
/** The virtual timer flags as described by the GT Block
Timer frame Structure in the ACPI Specification.
*/
UINT32 VirtualTimerFlags;
/** The common timer flags as described by the GT Block
Timer frame Structure in the ACPI Specification.
*/
UINT32 CommonFlags;
} CM_ARM_GTBLOCK_TIMER_FRAME_INFO;
/** A structure that describes the
Arm Generic Watchdog information for the Platform.
ID: EArmObjPlatformGenericWatchdogInfo
*/
typedef struct CmArmGenericWatchdogInfo {
/// The physical base address of the Arm Watchdog control frame
UINT64 ControlFrameAddress;
/// The physical base address of the Arm Watchdog refresh frame
UINT64 RefreshFrameAddress;
/// The watchdog interrupt
UINT32 TimerGSIV;
/** The flags for the watchdog as described by the Arm watchdog
structure in the ACPI specification.
*/
UINT32 Flags;
} CM_ARM_GENERIC_WATCHDOG_INFO;
/** A structure that describes the
PCI Configuration Space information for the Platform.
ID: EArmObjPciConfigSpaceInfo
*/
typedef struct CmArmPciConfigSpaceInfo {
/// The physical base address for the PCI segment
UINT64 BaseAddress;
/// The PCI segment group number
UINT16 PciSegmentGroupNumber;
/// The start bus number
UINT8 StartBusNumber;
/// The end bus number
UINT8 EndBusNumber;
/// Optional field: Reference Token for address mapping.
/// Token identifying a CM_ARM_OBJ_REF structure.
CM_OBJECT_TOKEN AddressMapToken;
/// Optional field: Reference Token for interrupt mapping.
/// Token identifying a CM_ARM_OBJ_REF structure.
CM_OBJECT_TOKEN InterruptMapToken;
} CM_ARM_PCI_CONFIG_SPACE_INFO;
/** A structure that describes the
Hypervisor Vendor ID information for the Platform.
ID: EArmObjHypervisorVendorIdentity
*/
typedef struct CmArmHypervisorVendorId {
/// The hypervisor Vendor ID
UINT64 HypervisorVendorId;
} CM_ARM_HYPERVISOR_VENDOR_ID;
/** A structure that describes the
Fixed feature flags for the Platform.
ID: EArmObjFixedFeatureFlags
*/
typedef struct CmArmFixedFeatureFlags {
/// The Fixed feature flags
UINT32 Flags;
} CM_ARM_FIXED_FEATURE_FLAGS;
/** A structure that describes the
ITS Group node for the Platform.
ID: EArmObjItsGroup
*/
typedef struct CmArmItsGroupNode {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// The number of ITS identifiers in the ITS node
UINT32 ItsIdCount;
/// Reference token for the ITS identifier array
CM_OBJECT_TOKEN ItsIdToken;
/// Unique identifier for this node.
UINT32 Identifier;
} CM_ARM_ITS_GROUP_NODE;
/** A structure that describes the
Named component node for the Platform.
ID: EArmObjNamedComponent
*/
typedef struct CmArmNamedComponentNode {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Number of ID mappings
UINT32 IdMappingCount;
/// Reference token for the ID mapping array
CM_OBJECT_TOKEN IdMappingToken;
/// Flags for the named component
UINT32 Flags;
/// Memory access properties : Cache coherent attributes
UINT32 CacheCoherent;
/// Memory access properties : Allocation hints
UINT8 AllocationHints;
/// Memory access properties : Memory access flags
UINT8 MemoryAccessFlags;
/// Memory access properties : Address size limit
UINT8 AddressSizeLimit;
/** ASCII Null terminated string with the full path to
the entry in the namespace for this object.
*/
CHAR8 *ObjectName;
/// Unique identifier for this node.
UINT32 Identifier;
} CM_ARM_NAMED_COMPONENT_NODE;
/** A structure that describes the
Root complex node for the Platform.
ID: EArmObjRootComplex
*/
typedef struct CmArmRootComplexNode {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Number of ID mappings
UINT32 IdMappingCount;
/// Reference token for the ID mapping array
CM_OBJECT_TOKEN IdMappingToken;
/// Memory access properties : Cache coherent attributes
UINT32 CacheCoherent;
/// Memory access properties : Allocation hints
UINT8 AllocationHints;
/// Memory access properties : Memory access flags
UINT8 MemoryAccessFlags;
/// ATS attributes
UINT32 AtsAttribute;
/// PCI segment number
UINT32 PciSegmentNumber;
/// Memory address size limit
UINT8 MemoryAddressSize;
/// PASID capabilities
UINT16 PasidCapabilities;
/// Flags
UINT32 Flags;
/// Unique identifier for this node.
UINT32 Identifier;
} CM_ARM_ROOT_COMPLEX_NODE;
/** A structure that describes the
SMMUv1 or SMMUv2 node for the Platform.
ID: EArmObjSmmuV1SmmuV2
*/
typedef struct CmArmSmmuV1SmmuV2Node {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Number of ID mappings
UINT32 IdMappingCount;
/// Reference token for the ID mapping array
CM_OBJECT_TOKEN IdMappingToken;
/// SMMU Base Address
UINT64 BaseAddress;
/// Length of the memory range covered by the SMMU
UINT64 Span;
/// SMMU Model
UINT32 Model;
/// SMMU flags
UINT32 Flags;
/// Number of context interrupts
UINT32 ContextInterruptCount;
/// Reference token for the context interrupt array
CM_OBJECT_TOKEN ContextInterruptToken;
/// Number of PMU interrupts
UINT32 PmuInterruptCount;
/// Reference token for the PMU interrupt array
CM_OBJECT_TOKEN PmuInterruptToken;
/// GSIV of the SMMU_NSgIrpt interrupt
UINT32 SMMU_NSgIrpt;
/// SMMU_NSgIrpt interrupt flags
UINT32 SMMU_NSgIrptFlags;
/// GSIV of the SMMU_NSgCfgIrpt interrupt
UINT32 SMMU_NSgCfgIrpt;
/// SMMU_NSgCfgIrpt interrupt flags
UINT32 SMMU_NSgCfgIrptFlags;
/// Unique identifier for this node.
UINT32 Identifier;
} CM_ARM_SMMUV1_SMMUV2_NODE;
/** A structure that describes the
SMMUv3 node for the Platform.
ID: EArmObjSmmuV3
*/
typedef struct CmArmSmmuV3Node {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Number of ID mappings
UINT32 IdMappingCount;
/// Reference token for the ID mapping array
CM_OBJECT_TOKEN IdMappingToken;
/// SMMU Base Address
UINT64 BaseAddress;
/// SMMU flags
UINT32 Flags;
/// VATOS address
UINT64 VatosAddress;
/// Model
UINT32 Model;
/// GSIV of the Event interrupt if SPI based
UINT32 EventInterrupt;
/// PRI Interrupt if SPI based
UINT32 PriInterrupt;
/// GERR interrupt if GSIV based
UINT32 GerrInterrupt;
/// Sync interrupt if GSIV based
UINT32 SyncInterrupt;
/// Proximity domain flag
UINT32 ProximityDomain;
/// Index into the array of ID mapping
UINT32 DeviceIdMappingIndex;
/// Unique identifier for this node.
UINT32 Identifier;
} CM_ARM_SMMUV3_NODE;
/** A structure that describes the
PMCG node for the Platform.
ID: EArmObjPmcg
*/
typedef struct CmArmPmcgNode {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Number of ID mappings
UINT32 IdMappingCount;
/// Reference token for the ID mapping array
CM_OBJECT_TOKEN IdMappingToken;
/// Base Address for performance monitor counter group
UINT64 BaseAddress;
/// GSIV for the Overflow interrupt
UINT32 OverflowInterrupt;
/// Page 1 Base address
UINT64 Page1BaseAddress;
/// Reference token for the IORT node associated with this node
CM_OBJECT_TOKEN ReferenceToken;
/// Unique identifier for this node.
UINT32 Identifier;
} CM_ARM_PMCG_NODE;
/** A structure that describes the
GIC ITS Identifiers for an ITS Group node.
ID: EArmObjGicItsIdentifierArray
*/
typedef struct CmArmGicItsIdentifier {
/// The ITS Identifier
UINT32 ItsId;
} CM_ARM_ITS_IDENTIFIER;
/** A structure that describes the
ID Mappings for the Platform.
ID: EArmObjIdMappingArray
*/
typedef struct CmArmIdMapping {
/// Input base
UINT32 InputBase;
/// Number of input IDs
UINT32 NumIds;
/// Output Base
UINT32 OutputBase;
/// Reference token for the output node
CM_OBJECT_TOKEN OutputReferenceToken;
/// Flags
UINT32 Flags;
} CM_ARM_ID_MAPPING;
/** A structure that describes the Arm
Generic Interrupts.
*/
typedef struct CmArmGenericInterrupt {
/// Interrupt number
UINT32 Interrupt;
/// Flags
/// BIT0: 0: Interrupt is Level triggered
/// 1: Interrupt is Edge triggered
/// BIT1: 0: Interrupt is Active high
/// 1: Interrupt is Active low
UINT32 Flags;
} CM_ARM_GENERIC_INTERRUPT;
/** A structure that describes the SMMU interrupts for the Platform.
Interrupt Interrupt number.
Flags Interrupt flags as defined for SMMU node.
ID: EArmObjSmmuInterruptArray
*/
typedef CM_ARM_GENERIC_INTERRUPT CM_ARM_SMMU_INTERRUPT;
/** A structure that describes the AML Extended Interrupts.
Interrupt Interrupt number.
Flags Interrupt flags as defined by the Interrupt
Vector Flags (Byte 3) of the Extended Interrupt
resource descriptor.
See EFI_ACPI_EXTENDED_INTERRUPT_FLAG_xxx in Acpi10.h
*/
typedef CM_ARM_GENERIC_INTERRUPT CM_ARM_EXTENDED_INTERRUPT;
/** A structure that describes the Processor Hierarchy Node (Type 0) in PPTT
ID: EArmObjProcHierarchyInfo
*/
typedef struct CmArmProcHierarchyInfo {
/// A unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Processor structure flags (ACPI 6.3 - January 2019, PPTT, Table 5-155)
UINT32 Flags;
/// Token for the parent CM_ARM_PROC_HIERARCHY_INFO object in the processor
/// topology. A value of CM_NULL_TOKEN means this node has no parent.
CM_OBJECT_TOKEN ParentToken;
/// Token of the associated CM_ARM_GICC_INFO object which has the
/// corresponding ACPI Processor ID. A value of CM_NULL_TOKEN means this
/// node represents a group of associated processors and it does not have an
/// associated GIC CPU interface.
CM_OBJECT_TOKEN GicCToken;
/// Number of resources private to this Node
UINT32 NoOfPrivateResources;
/// Token of the array which contains references to the resources private to
/// this CM_ARM_PROC_HIERARCHY_INFO instance. This field is ignored if
/// the NoOfPrivateResources is 0, in which case it is recommended to set
/// this field to CM_NULL_TOKEN.
CM_OBJECT_TOKEN PrivateResourcesArrayToken;
/// Optional field: Reference Token for the Lpi state of this processor.
/// Token identifying a CM_ARM_OBJ_REF structure, itself referencing
/// CM_ARM_LPI_INFO objects.
CM_OBJECT_TOKEN LpiToken;
/// Set to TRUE if UID should override index for name and _UID
/// for processor container nodes and name of processors.
/// This should be consistently set for containers or processors to avoid
/// duplicate values
BOOLEAN OverrideNameUidEnabled;
/// If OverrideNameUidEnabled is TRUE then this value will be used for name of
/// processors and processor containers.
UINT16 OverrideName;
/// If OverrideNameUidEnabled is TRUE then this value will be used for
/// the UID of processor containers.
UINT32 OverrideUid;
} CM_ARM_PROC_HIERARCHY_INFO;
/** A structure that describes the Cache Type Structure (Type 1) in PPTT
ID: EArmObjCacheInfo
*/
typedef struct CmArmCacheInfo {
/// A unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Reference token for the next level of cache that is private to the same
/// CM_ARM_PROC_HIERARCHY_INFO instance. A value of CM_NULL_TOKEN means this
/// entry represents the last cache level appropriate to the processor
/// hierarchy node structures using this entry.
CM_OBJECT_TOKEN NextLevelOfCacheToken;
/// Size of the cache in bytes
UINT32 Size;
/// Number of sets in the cache
UINT32 NumberOfSets;
/// Integer number of ways. The maximum associativity supported by
/// ACPI Cache type structure is limited to MAX_UINT8. However,
/// the maximum number of ways supported by the architecture is
/// PPTT_ARM_CCIDX_CACHE_ASSOCIATIVITY_MAX. Therfore this field
/// is 32-bit wide.
UINT32 Associativity;
/// Cache attributes (ACPI 6.4 - January 2021, PPTT, Table 5.140)
UINT8 Attributes;
/// Line size in bytes
UINT16 LineSize;
/// Unique ID for the cache
UINT32 CacheId;
} CM_ARM_CACHE_INFO;
/** A structure that describes a reference to another Configuration Manager
object.
This is useful for creating an array of reference tokens. The framework
can then query the configuration manager for these arrays using the
object ID EArmObjCmRef.
This can be used is to represent one-to-many relationships between objects.
ID: EArmObjCmRef
*/
typedef struct CmArmObjRef {
/// Token of the CM object being referenced
CM_OBJECT_TOKEN ReferenceToken;
} CM_ARM_OBJ_REF;
/** A structure that describes the Memory Affinity Structure (Type 1) in SRAT
ID: EArmObjMemoryAffinityInfo
*/
typedef struct CmArmMemoryAffinityInfo {
/// The proximity domain to which the "range of memory" belongs.
UINT32 ProximityDomain;
/// Base Address
UINT64 BaseAddress;
/// Length
UINT64 Length;
/// Flags
UINT32 Flags;
} CM_ARM_MEMORY_AFFINITY_INFO;
/** A structure that describes the ACPI Device Handle (Type 0) in the
Generic Initiator Affinity structure in SRAT
ID: EArmObjDeviceHandleAcpi
*/
typedef struct CmArmDeviceHandleAcpi {
/// Hardware ID
UINT64 Hid;
/// Unique Id
UINT32 Uid;
} CM_ARM_DEVICE_HANDLE_ACPI;
/** A structure that describes the PCI Device Handle (Type 1) in the
Generic Initiator Affinity structure in SRAT
ID: EArmObjDeviceHandlePci
*/
typedef struct CmArmDeviceHandlePci {
/// PCI Segment Number
UINT16 SegmentNumber;
/// PCI Bus Number - Max 256 busses (Bits 15:8 of BDF)
UINT8 BusNumber;
/// PCI Device Number - Max 32 devices (Bits 7:3 of BDF)
UINT8 DeviceNumber;
/// PCI Function Number - Max 8 functions (Bits 2:0 of BDF)
UINT8 FunctionNumber;
} CM_ARM_DEVICE_HANDLE_PCI;
/** A structure that describes the Generic Initiator Affinity structure in SRAT
ID: EArmObjGenericInitiatorAffinityInfo
*/
typedef struct CmArmGenericInitiatorAffinityInfo {
/// The proximity domain to which the generic initiator belongs.
UINT32 ProximityDomain;
/// Flags
UINT32 Flags;
/// Device Handle Type
UINT8 DeviceHandleType;
/// Reference Token for the Device Handle
CM_OBJECT_TOKEN DeviceHandleToken;
} CM_ARM_GENERIC_INITIATOR_AFFINITY_INFO;
/** A structure that describes the CMN-600 hardware.
ID: EArmObjCmn600Info
*/
typedef struct CmArmCmn600Info {
/// The PERIPHBASE address.
/// Corresponds to the Configuration Node Region (CFGR) base address.
UINT64 PeriphBaseAddress;
/// The PERIPHBASE address length.
/// Corresponds to the CFGR base address length.
UINT64 PeriphBaseAddressLength;
/// The ROOTNODEBASE address.
/// Corresponds to the Root node (ROOT) base address.
UINT64 RootNodeBaseAddress;
/// The Debug and Trace Logic Controller (DTC) count.
/// CMN-600 can have maximum 4 DTCs.
UINT8 DtcCount;
/// DTC Interrupt list.
/// The first interrupt resource descriptor pertains to
/// DTC[0], the second to DTC[1] and so on.
/// DtcCount determines the number of DTC Interrupts that
/// are populated. If DTC count is 2 then DtcInterrupt[2]
/// and DtcInterrupt[3] are ignored.
/// Note: The size of CM_ARM_CMN_600_INFO structure remains
/// constant and does not vary with the DTC count.
CM_ARM_EXTENDED_INTERRUPT DtcInterrupt[4];
} CM_ARM_CMN_600_INFO;
/** A structure that describes the Lpi information.
The Low Power Idle states are described in DSDT/SSDT and associated
to cpus/clusters in the cpu topology.
ID: EArmObjLpiInfo
*/
typedef struct CmArmLpiInfo {
/** Minimum Residency. Time in microseconds after which a
state becomes more energy efficient than any shallower state.
*/
UINT32 MinResidency;
/** Worst case time in microseconds from a wake interrupt
being asserted to the return to a running state
*/
UINT32 WorstCaseWakeLatency;
/** Flags.
*/
UINT32 Flags;
/** Architecture specific context loss flags.
*/
UINT32 ArchFlags;
/** Residency counter frequency in cycles-per-second (Hz).
*/
UINT32 ResCntFreq;
/** Every shallower power state in the parent is also enabled.
*/
UINT32 EnableParentState;
/** The EntryMethod _LPI field can be described as an integer
or in a Register resource data descriptor.
If IsInteger is TRUE, the IntegerEntryMethod field is used.
If IsInteger is FALSE, the RegisterEntryMethod field is used.
*/
BOOLEAN IsInteger;
/** EntryMethod described as an Integer.
*/
UINT64 IntegerEntryMethod;
/** EntryMethod described as a EFI_ACPI_GENERIC_REGISTER_DESCRIPTOR.
*/
EFI_ACPI_6_3_GENERIC_ADDRESS_STRUCTURE RegisterEntryMethod;
/** Residency counter register.
*/
EFI_ACPI_6_3_GENERIC_ADDRESS_STRUCTURE ResidencyCounterRegister;
/** Usage counter register.
*/
EFI_ACPI_6_3_GENERIC_ADDRESS_STRUCTURE UsageCounterRegister;
/** String representing the Lpi state
*/
CHAR8 StateName[16];
} CM_ARM_LPI_INFO;
/** A structure that describes a PCI Address Map.
The memory-ranges used by the PCI bus are described by this object.
ID: EArmObjPciAddressMapInfo
*/
typedef struct CmArmPciAddressMapInfo {
/** Pci address space code
Available values are:
- 0: Configuration Space
- 1: I/O Space
- 2: 32-bit-address Memory Space
- 3: 64-bit-address Memory Space
*/
UINT8 SpaceCode;
/// PCI address
UINT64 PciAddress;
/// Cpu address
UINT64 CpuAddress;
/// Address size
UINT64 AddressSize;
} CM_ARM_PCI_ADDRESS_MAP_INFO;
/** A structure that describes a PCI Interrupt Map.
The legacy PCI interrupts used by PCI devices are described by this object.
Cf Devicetree Specification - Release v0.3
s2.4.3 "Interrupt Nexus Properties"
ID: EArmObjPciInterruptMapInfo
*/
typedef struct CmArmPciInterruptMapInfo {
/// Pci Bus.
/// Value on 8 bits (max 255).
UINT8 PciBus;
/// Pci Device.
/// Value on 5 bits (max 31).
UINT8 PciDevice;
/** PCI interrupt
ACPI bindings are used:
Cf. ACPI 6.4, s6.2.13 _PRT (PCI Routing Table):
"0-INTA, 1-INTB, 2-INTC, 3-INTD"
Device-tree bindings are shifted by 1:
"INTA=1, INTB=2, INTC=3, INTD=4"
*/
UINT8 PciInterrupt;
/** Interrupt controller interrupt.
Cf Devicetree Specification - Release v0.3
s2.4.3 "Interrupt Nexus Properties": "parent interrupt specifier"
*/
CM_ARM_GENERIC_INTERRUPT IntcInterrupt;
} CM_ARM_PCI_INTERRUPT_MAP_INFO;
/** A structure that describes the
RMR node for the Platform.
ID: EArmObjRmr
*/
typedef struct CmArmRmrNode {
/// An unique token used to identify this object
CM_OBJECT_TOKEN Token;
/// Number of ID mappings
UINT32 IdMappingCount;
/// Reference token for the ID mapping array
CM_OBJECT_TOKEN IdMappingToken;
/// Unique identifier for this node.
UINT32 Identifier;
/// Reserved Memory Range flags.
UINT32 Flags;
/// Memory range descriptor count.
UINT32 MemRangeDescCount;
/// Reference token for the Memory Range descriptor array
CM_OBJECT_TOKEN MemRangeDescToken;
} CM_ARM_RMR_NODE;
/** A structure that describes the
Memory Range descriptor.
ID: EArmObjMemoryRangeDescriptor
*/
typedef struct CmArmRmrDescriptor {
/// Base address of Reserved Memory Range,
/// aligned to a page size of 64K.
UINT64 BaseAddress;
/// Length of the Reserved Memory range.
/// Must be a multiple of the page size of 64K.
UINT64 Length;
} CM_ARM_MEMORY_RANGE_DESCRIPTOR;
/** A structure that describes the Cpc information.
Continuous Performance Control is described in DSDT/SSDT and associated
to cpus/clusters in the cpu topology.
Unsupported Optional registers should be encoded with NULL resource
Register {(SystemMemory, 0, 0, 0, 0)}
For values that support Integer or Buffer, integer will be used
if buffer is NULL resource.
If resource is not NULL then Integer must be 0
Cf. ACPI 6.4, s8.4.7.1 _CPC (Continuous Performance Control)
ID: EArmObjCpcInfo
*/
typedef AML_CPC_INFO CM_ARM_CPC_INFO;
/** A structure that describes a
PCC Mailbox Register.
*/
typedef struct PccMailboxRegisterInfo {
/// GAS describing the Register.
EFI_ACPI_6_4_GENERIC_ADDRESS_STRUCTURE Register;
/** Mask of bits to preserve when writing.
This mask is also used for registers. The Register is only read
and there is no write mask required. E.g.:
- Error Status mask (Cf. PCC Subspace types 3/4/5).
- Command Complete Check mask (Cf. PCC Subspace types 3/4/5).
*/
UINT64 PreserveMask;
/// Mask of bits to set when writing.
UINT64 WriteMask;
} PCC_MAILBOX_REGISTER_INFO;
/** A structure that describes the
PCC Subspace CHannel Timings.
*/
typedef struct PccSubspaceChannelTimingInfo {
/// Expected latency to process a command, in microseconds.
UINT32 NominalLatency;
/** Maximum number of periodic requests that the subspace channel can
support, reported in commands per minute. 0 indicates no limitation.
This field is ignored for the PCC Subspace type 5 (HW Registers based).
*/
UINT32 MaxPeriodicAccessRate;
/** Minimum amount of time that OSPM must wait after the completion
of a command before issuing the next command, in microseconds.
*/
UINT16 MinRequestTurnaroundTime;
} PCC_SUBSPACE_CHANNEL_TIMING_INFO;
/** A structure that describes a
Generic PCC Subspace (Type 0).
*/
typedef struct CmArmPccSubspaceGenericInfo {
/** Subspace Id.
Cf. ACPI 6.4, s14.7 Referencing the PCC address space
Cf. s14.1.2 Platform Communications Channel Subspace Structures
The subspace ID of a PCC subspace is its index in the array of
subspace structures, starting with subspace 0.
At most 256 subspaces are supported.
*/
UINT8 SubspaceId;
/// Table type (or subspace).
UINT8 Type;
/// Base address of the shared memory range.
/// This field is ignored for the PCC Subspace type 5 (HW Registers based).
UINT64 BaseAddress;
/// Address length.
UINT64 AddressLength;
/// Doorbell Register.
PCC_MAILBOX_REGISTER_INFO DoorbellReg;
/// Mailbox Timings.
PCC_SUBSPACE_CHANNEL_TIMING_INFO ChannelTiming;
} PCC_SUBSPACE_GENERIC_INFO;
/** A structure that describes a
PCC Subspace of type 0 (Generic).
ID: EArmObjPccSubspaceType0Info
*/
typedef PCC_SUBSPACE_GENERIC_INFO CM_ARM_PCC_SUBSPACE_TYPE0_INFO;
/** A structure that describes a
PCC Subspace of type 1 (HW-Reduced).
ID: EArmObjPccSubspaceType1Info
*/
typedef struct CmArmPccSubspaceType1Info {
/** Generic Pcc information.
The Subspace of Type0 contains information that can be re-used
in other Subspace types.
*/
PCC_SUBSPACE_GENERIC_INFO GenericPccInfo;
/// Platform Interrupt.
CM_ARM_GENERIC_INTERRUPT PlatIrq;
} CM_ARM_PCC_SUBSPACE_TYPE1_INFO;
/** A structure that describes a
PCC Subspace of type 2 (HW-Reduced).
ID: EArmObjPccSubspaceType2Info
*/
typedef struct CmArmPccSubspaceType2Info {
/** Generic Pcc information.
The Subspace of Type0 contains information that can be re-used
in other Subspace types.
*/
PCC_SUBSPACE_GENERIC_INFO GenericPccInfo;
/// Platform Interrupt.
CM_ARM_GENERIC_INTERRUPT PlatIrq;
/// Platform Interrupt Register.
PCC_MAILBOX_REGISTER_INFO PlatIrqAckReg;
} CM_ARM_PCC_SUBSPACE_TYPE2_INFO;
/** A structure that describes a
PCC Subspace of type 3 (Extended)
ID: EArmObjPccSubspaceType3Info
*/
typedef struct CmArmPccSubspaceType3Info {
/** Generic Pcc information.
The Subspace of Type0 contains information that can be re-used
in other Subspace types.
*/
PCC_SUBSPACE_GENERIC_INFO GenericPccInfo;
/// Platform Interrupt.
CM_ARM_GENERIC_INTERRUPT PlatIrq;
/// Platform Interrupt Register.
PCC_MAILBOX_REGISTER_INFO PlatIrqAckReg;
/// Command Complete Check Register.
/// The WriteMask field is not used.
PCC_MAILBOX_REGISTER_INFO CmdCompleteCheckReg;
/// Command Complete Update Register.
PCC_MAILBOX_REGISTER_INFO CmdCompleteUpdateReg;
/// Error Status Register.
/// The WriteMask field is not used.
PCC_MAILBOX_REGISTER_INFO ErrorStatusReg;
} CM_ARM_PCC_SUBSPACE_TYPE3_INFO;
/** A structure that describes a
PCC Subspace of type 4 (Extended)
ID: EArmObjPccSubspaceType4Info
*/
typedef CM_ARM_PCC_SUBSPACE_TYPE3_INFO CM_ARM_PCC_SUBSPACE_TYPE4_INFO;
/** A structure that describes a
PCC Subspace of type 5 (HW-Registers).
ID: EArmObjPccSubspaceType5Info
*/
typedef struct CmArmPccSubspaceType5Info {
/** Generic Pcc information.
The Subspace of Type0 contains information that can be re-used
in other Subspace types.
MaximumPeriodicAccessRate doesn't need to be populated for
this structure.
*/
PCC_SUBSPACE_GENERIC_INFO GenericPccInfo;
/// Version.
UINT16 Version;
/// Platform Interrupt.
CM_ARM_GENERIC_INTERRUPT PlatIrq;
/// Command Complete Check Register.
/// The WriteMask field is not used.
PCC_MAILBOX_REGISTER_INFO CmdCompleteCheckReg;
/// Error Status Register.
/// The WriteMask field is not used.
PCC_MAILBOX_REGISTER_INFO ErrorStatusReg;
} CM_ARM_PCC_SUBSPACE_TYPE5_INFO;
#pragma pack()
#endif // ARM_NAMESPACE_OBJECTS_H_