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/*++ BUILD Version: 0010 // Increment this if a change has global effects
Copyright (c) Microsoft Corporation. All rights reserved.
Module Name:
arc.h
Abstract:
This header file defines the ARC system firmware interface and the
NT structures that are dependent on ARC types.
Author:
David N. Cutler (davec) 18-May-1991
Revision History:
--*/
#ifndef _ARC_
#define _ARC_
#include "profiles.h"
//
// Define console input and console output file ids.
//
#define ARC_CONSOLE_INPUT 0
#define ARC_CONSOLE_OUTPUT 1
//
// Define ARC_STATUS type.
//
typedef ULONG ARC_STATUS;
//
// Define the firmware entry point numbers.
//
typedef enum _FIRMWARE_ENTRY {
LoadRoutine,
InvokeRoutine,
ExecuteRoutine,
HaltRoutine,
PowerDownRoutine,
RestartRoutine,
RebootRoutine,
InteractiveModeRoutine,
Reserved1,
GetPeerRoutine,
GetChildRoutine,
GetParentRoutine,
GetDataRoutine,
AddChildRoutine,
DeleteComponentRoutine,
GetComponentRoutine,
SaveConfigurationRoutine,
GetSystemIdRoutine,
MemoryRoutine,
Reserved2,
GetTimeRoutine,
GetRelativeTimeRoutine,
GetDirectoryEntryRoutine,
OpenRoutine,
CloseRoutine,
ReadRoutine,
ReadStatusRoutine,
WriteRoutine,
SeekRoutine,
MountRoutine,
GetEnvironmentRoutine,
SetEnvironmentRoutine,
GetFileInformationRoutine,
SetFileInformationRoutine,
FlushAllCachesRoutine,
TestUnicodeCharacterRoutine,
GetDisplayStatusRoutine,
MaximumRoutine
} FIRMWARE_ENTRY;
//
// Define software loading and execution routine types.
//
typedef
ARC_STATUS
(*PARC_EXECUTE_ROUTINE) (
IN CHAR * FIRMWARE_PTR ImagePath,
IN ULONG Argc,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Argv,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Envp
);
typedef
ARC_STATUS
(*PARC_INVOKE_ROUTINE) (
IN ULONG EntryAddress,
IN ULONG StackAddress,
IN ULONG Argc,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Argv,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Envp
);
typedef
ARC_STATUS
(*PARC_LOAD_ROUTINE) (
IN CHAR * FIRMWARE_PTR ImagePath,
IN ULONG TopAddress,
OUT ULONG * FIRMWARE_PTR EntryAddress,
OUT ULONG * FIRMWARE_PTR LowAddress
);
//
// Define firmware software loading and execution prototypes.
//
ARC_STATUS
FwExecute (
IN CHAR * FIRMWARE_PTR ImagePath,
IN ULONG Argc,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Argv,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Envp
);
ARC_STATUS
FwInvoke (
IN ULONG EntryAddress,
IN ULONG StackAddress,
IN ULONG Argc,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Argv,
IN CHAR * FIRMWARE_PTR * FIRMWARE_PTR Envp
);
ARC_STATUS
FwLoad (
IN CHAR * FIRMWARE_PTR ImagePath,
IN ULONG TopAddress,
OUT ULONG * FIRMWARE_PTR EntryAddress,
OUT ULONG * FIRMWARE_PTR LowAddress
);
//
// Define program termination routine types.
//
typedef
VOID
(*PARC_HALT_ROUTINE) (
VOID
);
typedef
VOID
(*PARC_POWERDOWN_ROUTINE) (
VOID
);
typedef
VOID
(*PARC_RESTART_ROUTINE) (
VOID
);
typedef
VOID
(*PARC_REBOOT_ROUTINE) (
VOID
);
typedef
VOID
(*PARC_INTERACTIVE_MODE_ROUTINE) (
VOID
);
//
// Define firmware program termination prototypes.
//
VOID
FwHalt (
VOID
);
VOID
FwPowerDown (
VOID
);
VOID
FwRestart (
VOID
);
VOID
FwReboot (
VOID
);
VOID
FwEnterInteractiveMode (
VOID
);
// begin_ntddk
//
// Define configuration routine types.
//
// Configuration information.
//
// end_ntddk
typedef enum _CONFIGURATION_CLASS {
SystemClass,
ProcessorClass,
CacheClass,
AdapterClass,
ControllerClass,
PeripheralClass,
MemoryClass,
MaximumClass
} CONFIGURATION_CLASS, *PCONFIGURATION_CLASS;
// begin_ntddk
typedef enum _CONFIGURATION_TYPE {
ArcSystem,
CentralProcessor,
FloatingPointProcessor,
PrimaryIcache,
PrimaryDcache,
SecondaryIcache,
SecondaryDcache,
SecondaryCache,
EisaAdapter,
TcAdapter,
ScsiAdapter,
DtiAdapter,
MultiFunctionAdapter,
DiskController,
TapeController,
CdromController,
WormController,
SerialController,
NetworkController,
DisplayController,
ParallelController,
PointerController,
KeyboardController,
AudioController,
OtherController,
DiskPeripheral,
FloppyDiskPeripheral,
TapePeripheral,
ModemPeripheral,
MonitorPeripheral,
PrinterPeripheral,
PointerPeripheral,
KeyboardPeripheral,
TerminalPeripheral,
OtherPeripheral,
LinePeripheral,
NetworkPeripheral,
SystemMemory,
DockingInformation,
RealModeIrqRoutingTable,
RealModePCIEnumeration,
MaximumType
} CONFIGURATION_TYPE, *PCONFIGURATION_TYPE;
// end_ntddk
typedef struct _CONFIGURATION_COMPONENT {
CONFIGURATION_CLASS Class;
CONFIGURATION_TYPE Type;
DEVICE_FLAGS Flags;
USHORT Version;
USHORT Revision;
ULONG Key;
ULONG AffinityMask;
ULONG ConfigurationDataLength;
ULONG IdentifierLength;
CHAR * FIRMWARE_PTR Identifier;
} CONFIGURATION_COMPONENT, * FIRMWARE_PTR PCONFIGURATION_COMPONENT;
typedef
PCONFIGURATION_COMPONENT
(*PARC_GET_CHILD_ROUTINE) (
IN PCONFIGURATION_COMPONENT Component OPTIONAL
);
typedef
PCONFIGURATION_COMPONENT
(*PARC_GET_PARENT_ROUTINE) (
IN PCONFIGURATION_COMPONENT Component
);
typedef
PCONFIGURATION_COMPONENT
(*PARC_GET_PEER_ROUTINE) (
IN PCONFIGURATION_COMPONENT Component
);
typedef
PCONFIGURATION_COMPONENT
(*PARC_ADD_CHILD_ROUTINE) (
IN PCONFIGURATION_COMPONENT Component,
IN PCONFIGURATION_COMPONENT NewComponent,
IN VOID * FIRMWARE_PTR ConfigurationData
);
typedef
ARC_STATUS
(*PARC_DELETE_COMPONENT_ROUTINE) (
IN PCONFIGURATION_COMPONENT Component
);
typedef
PCONFIGURATION_COMPONENT
(*PARC_GET_COMPONENT_ROUTINE) (
IN CHAR * FIRMWARE_PTR Path
);
typedef
ARC_STATUS
(*PARC_GET_DATA_ROUTINE) (
OUT VOID * FIRMWARE_PTR ConfigurationData,
IN PCONFIGURATION_COMPONENT Component
);
typedef
ARC_STATUS
(*PARC_SAVE_CONFIGURATION_ROUTINE) (
VOID
);
//
// Define firmware configuration prototypes.
//
PCONFIGURATION_COMPONENT
FwGetChild (
IN PCONFIGURATION_COMPONENT Component OPTIONAL
);
PCONFIGURATION_COMPONENT
FwGetParent (
IN PCONFIGURATION_COMPONENT Component
);
PCONFIGURATION_COMPONENT
FwGetPeer (
IN PCONFIGURATION_COMPONENT Component
);
PCONFIGURATION_COMPONENT
FwAddChild (
IN PCONFIGURATION_COMPONENT Component,
IN PCONFIGURATION_COMPONENT NewComponent,
IN VOID * FIRMWARE_PTR ConfigurationData OPTIONAL
);
ARC_STATUS
FwDeleteComponent (
IN PCONFIGURATION_COMPONENT Component
);
PCONFIGURATION_COMPONENT
FwGetComponent(
IN CHAR * FIRMWARE_PTR Path
);
ARC_STATUS
FwGetConfigurationData (
OUT VOID * FIRMWARE_PTR ConfigurationData,
IN PCONFIGURATION_COMPONENT Component
);
ARC_STATUS
FwSaveConfiguration (
VOID
);
//
// System information.
//
typedef struct _SYSTEM_ID {
CHAR VendorId[8];
CHAR ProductId[8];
} SYSTEM_ID, * FIRMWARE_PTR PSYSTEM_ID;
typedef
PSYSTEM_ID
(*PARC_GET_SYSTEM_ID_ROUTINE) (
VOID
);
//
// Define system identifier query routine type.
//
PSYSTEM_ID
FwGetSystemId (
VOID
);
//
// Memory information.
//
typedef enum _MEMORY_TYPE {
MemoryExceptionBlock,
MemorySystemBlock,
MemoryFree,
MemoryBad,
MemoryLoadedProgram,
MemoryFirmwareTemporary,
MemoryFirmwarePermanent,
MemoryFreeContiguous,
MemorySpecialMemory,
MemoryMaximum
} MEMORY_TYPE;
typedef struct _MEMORY_DESCRIPTOR {
MEMORY_TYPE MemoryType;
ULONG BasePage;
ULONG PageCount;
} MEMORY_DESCRIPTOR, * FIRMWARE_PTR PMEMORY_DESCRIPTOR;
#if defined(_IA64_)
//
// Cache Attribute.
//
#define WTU 0x1
#define WTO 0x2
#define WBO 0x4
#define WBU 0x8
#define WCU 0x10
#define UCU 0x20
#define UCUE 0x40
#define UCO 0x80
typedef enum _MEMORY_USAGE_TYPE {
RegularMemory,
MemoryMappedIo,
ProcessorIoBlock,
BootServicesCode,
BootServicesData,
RuntimeServicesCode,
RuntimeServicesData,
FirmwareSpace,
DisplayMemory,
CacheAttributeMaximum
} MEMORY_USAGE_TYPE;
typedef struct _CACHE_ATTRIBUTE_DESCRIPTOR {
LIST_ENTRY ListEntry;
MEMORY_USAGE_TYPE MemoryUsage;
ULONG CacheAttribute;
ULONG BasePage;
ULONG PageCount;
} CACHE_ATTRIBUTE_DESCRIPTOR, *PCACHE_ATTRIBUTE_DESCRIPTOR;
#endif // defined(_IA64_)
typedef
PMEMORY_DESCRIPTOR
(*PARC_MEMORY_ROUTINE) (
IN PMEMORY_DESCRIPTOR MemoryDescriptor OPTIONAL
);
//
// Define memory query routine type.
//
PMEMORY_DESCRIPTOR
FwGetMemoryDescriptor (
IN PMEMORY_DESCRIPTOR MemoryDescriptor OPTIONAL
);
//
// Query time functions.
//
typedef
PTIME_FIELDS
(*PARC_GET_TIME_ROUTINE) (
VOID
);
typedef
ULONG
(*PARC_GET_RELATIVE_TIME_ROUTINE) (
VOID
);
//
// Define query time routine types.
//
PTIME_FIELDS
FwGetTime (
VOID
);
ULONG
FwGetRelativeTime (
VOID
);
//
// Define I/O routine types.
//
#define ArcReadOnlyFile 1
#define ArcHiddenFile 2
#define ArcSystemFile 4
#define ArcArchiveFile 8
#define ArcDirectoryFile 16
#define ArcDeleteFile 32
typedef enum _OPEN_MODE {
ArcOpenReadOnly,
ArcOpenWriteOnly,
ArcOpenReadWrite,
ArcCreateWriteOnly,
ArcCreateReadWrite,
ArcSupersedeWriteOnly,
ArcSupersedeReadWrite,
ArcOpenDirectory,
ArcCreateDirectory,
ArcOpenMaximumMode
} OPEN_MODE;
typedef struct _FILE_INFORMATION {
LARGE_INTEGER StartingAddress;
LARGE_INTEGER EndingAddress;
LARGE_INTEGER CurrentPosition;
CONFIGURATION_TYPE Type;
ULONG FileNameLength;
UCHAR Attributes;
CHAR FileName[32];
} FILE_INFORMATION, * FIRMWARE_PTR PFILE_INFORMATION;
typedef enum _SEEK_MODE {
SeekAbsolute,
SeekRelative,
SeekMaximum
} SEEK_MODE;
typedef enum _MOUNT_OPERATION {
MountLoadMedia,
MountUnloadMedia,
MountMaximum
} MOUNT_OPERATION;
typedef struct _DIRECTORY_ENTRY {
ULONG FileNameLength;
UCHAR FileAttribute;
CHAR FileName[32];
} DIRECTORY_ENTRY, * FIRMWARE_PTR PDIRECTORY_ENTRY;
typedef
ARC_STATUS
(*PARC_CLOSE_ROUTINE) (
IN ULONG FileId
);
typedef
ARC_STATUS
(*PARC_MOUNT_ROUTINE) (
IN CHAR * FIRMWARE_PTR MountPath,
IN MOUNT_OPERATION Operation
);
typedef
ARC_STATUS
(*PARC_OPEN_ROUTINE) (
IN CHAR * FIRMWARE_PTR OpenPath,
IN OPEN_MODE OpenMode,
OUT ULONG * FIRMWARE_PTR FileId
);
typedef
ARC_STATUS
(*PARC_READ_ROUTINE) (
IN ULONG FileId,
OUT VOID * FIRMWARE_PTR Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Count
);
typedef
ARC_STATUS
(*PARC_READ_STATUS_ROUTINE) (
IN ULONG FileId
);
typedef
ARC_STATUS
(*PARC_SEEK_ROUTINE) (
IN ULONG FileId,
IN LARGE_INTEGER * FIRMWARE_PTR Offset,
IN SEEK_MODE SeekMode
);
typedef
ARC_STATUS
(*PARC_WRITE_ROUTINE) (
IN ULONG FileId,
IN VOID * FIRMWARE_PTR Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Count
);
typedef
ARC_STATUS
(*PARC_GET_FILE_INFO_ROUTINE) (
IN ULONG FileId,
OUT PFILE_INFORMATION FileInformation
);
typedef
ARC_STATUS
(*PARC_SET_FILE_INFO_ROUTINE) (
IN ULONG FileId,
IN ULONG AttributeFlags,
IN ULONG AttributeMask
);
typedef
ARC_STATUS
(*PARC_GET_DIRECTORY_ENTRY_ROUTINE) (
IN ULONG FileId,
OUT PDIRECTORY_ENTRY Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Count
);
//
// Define firmware I/O prototypes.
//
ARC_STATUS
FwClose (
IN ULONG FileId
);
ARC_STATUS
FwMount (
IN CHAR * FIRMWARE_PTR MountPath,
IN MOUNT_OPERATION Operation
);
ARC_STATUS
FwOpen (
IN CHAR * FIRMWARE_PTR OpenPath,
IN OPEN_MODE OpenMode,
OUT ULONG * FIRMWARE_PTR FileId
);
ARC_STATUS
FwRead (
IN ULONG FileId,
OUT VOID * FIRMWARE_PTR Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Count
);
ARC_STATUS
FwGetReadStatus (
IN ULONG FileId
);
ARC_STATUS
FwSeek (
IN ULONG FileId,
IN LARGE_INTEGER * FIRMWARE_PTR Offset,
IN SEEK_MODE SeekMode
);
ARC_STATUS
FwWrite (
IN ULONG FileId,
IN VOID * FIRMWARE_PTR Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Count
);
ARC_STATUS
FwGetFileInformation (
IN ULONG FileId,
OUT PFILE_INFORMATION FileInformation
);
ARC_STATUS
FwSetFileInformation (
IN ULONG FileId,
IN ULONG AttributeFlags,
IN ULONG AttributeMask
);
ARC_STATUS
FwGetDirectoryEntry (
IN ULONG FileId,
OUT PDIRECTORY_ENTRY Buffer,
IN ULONG Length,
OUT ULONG * FIRMWARE_PTR Count
);
//
// Define environment routine types.
//
typedef
CHAR * FIRMWARE_PTR
(*PARC_GET_ENVIRONMENT_ROUTINE) (
IN CHAR * FIRMWARE_PTR Variable
);
typedef
ARC_STATUS
(*PARC_SET_ENVIRONMENT_ROUTINE) (
IN CHAR * FIRMWARE_PTR Variable,
IN CHAR * FIRMWARE_PTR Value
);
//
// Define firmware environment prototypes.
//
CHAR * FIRMWARE_PTR
FwGetEnvironmentVariable (
IN CHAR * FIRMWARE_PTR Variable
);
ARC_STATUS
FwSetEnvironmentVariable (
IN CHAR * FIRMWARE_PTR Variable,
IN CHAR * FIRMWARE_PTR Value
);
//
// Define functions to acquire and release the firmware lock and the stub
// function prototypes necessary to interface with the 32-bit firmware on
// 64-bit systems.
//
// These routines are required for the 64-bit system until (if) 64-bit
// firmware is ever supplied.
//
#if defined(_AXP64_) && defined(_NTHAL_)
extern ULONGLONG HalpMarshallBuffer[];
extern KSPIN_LOCK HalpFirmwareLock;
CHAR * FIRMWARE_PTR
HalpArcGetEnvironmentVariable(
IN CHAR * FIRMWARE_PTR Variable
);
ARC_STATUS
HalpArcSetEnvironmentVariable(
IN CHAR * FIRMWARE_PTR Variable,
IN CHAR * FIRMWARE_PTR Value
);
KIRQL
FwAcquireFirmwareLock(
VOID
);
VOID
FwReleaseFirmwareLock(
IN KIRQL OldIrql
);
#endif // _AXP64_ && defined(_NTHAL_)
//
// Define cache flush routine types
//
typedef
VOID
(*PARC_FLUSH_ALL_CACHES_ROUTINE) (
VOID
);
//
// Define firmware cache flush prototypes.
//
VOID
FwFlushAllCaches (
VOID
);
//
// Define TestUnicodeCharacter and GetDisplayStatus routines.
//
typedef struct _ARC_DISPLAY_STATUS {
USHORT CursorXPosition;
USHORT CursorYPosition;
USHORT CursorMaxXPosition;
USHORT CursorMaxYPosition;
UCHAR ForegroundColor;
UCHAR BackgroundColor;
BOOLEAN HighIntensity;
BOOLEAN Underscored;
BOOLEAN ReverseVideo;
} ARC_DISPLAY_STATUS, * FIRMWARE_PTR PARC_DISPLAY_STATUS;
typedef
ARC_STATUS
(*PARC_TEST_UNICODE_CHARACTER_ROUTINE) (
IN ULONG FileId,
IN WCHAR UnicodeCharacter
);
typedef
PARC_DISPLAY_STATUS
(*PARC_GET_DISPLAY_STATUS_ROUTINE) (
IN ULONG FileId
);
ARC_STATUS
FwTestUnicodeCharacter(
IN ULONG FileId,
IN WCHAR UnicodeCharacter
);
PARC_DISPLAY_STATUS
FwGetDisplayStatus(
IN ULONG FileId
);
//
// Define low memory data structures.
//
// Define debug block structure.
//
typedef struct _DEBUG_BLOCK {
ULONG Signature;
ULONG Length;
} DEBUG_BLOCK, * FIRMWARE_PTR PDEBUG_BLOCK;
//
// Define restart block structure.
//
#define ARC_RESTART_BLOCK_SIGNATURE 0x42545352
typedef struct _BOOT_STATUS {
ULONG BootStarted : 1;
ULONG BootFinished : 1;
ULONG RestartStarted : 1;
ULONG RestartFinished : 1;
ULONG PowerFailStarted : 1;
ULONG PowerFailFinished : 1;
ULONG ProcessorReady : 1;
ULONG ProcessorRunning : 1;
ULONG ProcessorStart : 1;
} BOOT_STATUS, * FIRMWARE_PTR PBOOT_STATUS;
typedef struct _ALPHA_RESTART_STATE {
#if defined(_ALPHA_) || defined(_AXP64_)
//
// Control information
//
ULONG HaltReason;
VOID * FIRMWARE_PTR LogoutFrame;
ULONGLONG PalBase;
//
// Integer Save State
//
ULONGLONG IntV0;
ULONGLONG IntT0;
ULONGLONG IntT1;
ULONGLONG IntT2;
ULONGLONG IntT3;
ULONGLONG IntT4;
ULONGLONG IntT5;
ULONGLONG IntT6;
ULONGLONG IntT7;
ULONGLONG IntS0;
ULONGLONG IntS1;
ULONGLONG IntS2;
ULONGLONG IntS3;
ULONGLONG IntS4;
ULONGLONG IntS5;
ULONGLONG IntFp;
ULONGLONG IntA0;
ULONGLONG IntA1;
ULONGLONG IntA2;
ULONGLONG IntA3;
ULONGLONG IntA4;
ULONGLONG IntA5;
ULONGLONG IntT8;
ULONGLONG IntT9;
ULONGLONG IntT10;
ULONGLONG IntT11;
ULONGLONG IntRa;
ULONGLONG IntT12;
ULONGLONG IntAT;
ULONGLONG IntGp;
ULONGLONG IntSp;
ULONGLONG IntZero;
//
// Floating Point Save State
//
ULONGLONG Fpcr;
ULONGLONG FltF0;
ULONGLONG FltF1;
ULONGLONG FltF2;
ULONGLONG FltF3;
ULONGLONG FltF4;
ULONGLONG FltF5;
ULONGLONG FltF6;
ULONGLONG FltF7;
ULONGLONG FltF8;
ULONGLONG FltF9;
ULONGLONG FltF10;
ULONGLONG FltF11;
ULONGLONG FltF12;
ULONGLONG FltF13;
ULONGLONG FltF14;
ULONGLONG FltF15;
ULONGLONG FltF16;
ULONGLONG FltF17;
ULONGLONG FltF18;
ULONGLONG FltF19;
ULONGLONG FltF20;
ULONGLONG FltF21;
ULONGLONG FltF22;
ULONGLONG FltF23;
ULONGLONG FltF24;
ULONGLONG FltF25;
ULONGLONG FltF26;
ULONGLONG FltF27;
ULONGLONG FltF28;
ULONGLONG FltF29;
ULONGLONG FltF30;
ULONGLONG FltF31;
//
// Architected Internal Processor State.
//
ULONG Asn;
VOID * FIRMWARE_PTR GeneralEntry;
VOID * FIRMWARE_PTR Iksp;
VOID * FIRMWARE_PTR InterruptEntry;
VOID * FIRMWARE_PTR Kgp;
ULONG Mces;
VOID * FIRMWARE_PTR MemMgmtEntry;
VOID * FIRMWARE_PTR PanicEntry;
VOID * FIRMWARE_PTR Pcr;
VOID * FIRMWARE_PTR Pdr;
ULONG Psr;
VOID * FIRMWARE_PTR ReiRestartAddress;
ULONG Sirr;
VOID * FIRMWARE_PTR SyscallEntry;
VOID * FIRMWARE_PTR Teb;
VOID * FIRMWARE_PTR Thread;
//
// Processor Implementation-dependent State.
//
ULONGLONG PerProcessorState[175]; // allocate 2K maximum restart block
#else
ULONG PlaceHolder;
#endif
} ALPHA_RESTART_STATE, * FIRMWARE_PTR PALPHA_RESTART_STATE;
typedef struct _I386_RESTART_STATE {
#if defined(_X86_)
//
// Put state structure here.
//
ULONG PlaceHolder;
#else
ULONG PlaceHolder;
#endif
} I386_RESTART_STATE, *PI386_RESTART_STATE;
#if defined(_IA64_)
#include "pshpck16.h"
#endif
typedef struct _IA64_RESTART_STATE {
#if defined(_IA64_)
//
// This structure is copied from CONTEXT structure in sdk/ntia64.h.
//
//
// The flags values within this flag control the contents of
// a CONTEXT record.
//
// If the context record is used as an input parameter, then
// for each portion of the context record controlled by a flag
// whose value is set, it is assumed that that portion of the
// context record contains valid context. If the context record
// is being used to modify a thread's context, then only that
// portion of the threads context will be modified.
//
// If the context record is used as an IN OUT parameter to capture
// the context of a thread, then only those portions of the thread's
// context corresponding to set flags will be returned.
//
// The context record is never used as an OUT only parameter.
//
ULONG ContextFlags;
ULONG Fill1[3]; // for alignment of following on 16-byte boundary
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_DEBUG.
//
// N.B. CONTEXT_DEBUG is *not* part of CONTEXT_FULL.
//
ULONGLONG DbI0; // Instruction debug registers
ULONGLONG DbI1;
ULONGLONG DbI2;
ULONGLONG DbI3;
ULONGLONG DbI4;
ULONGLONG DbI5;
ULONGLONG DbI6;
ULONGLONG DbI7;
ULONGLONG DbD0; // Data debug registers
ULONGLONG DbD1;
ULONGLONG DbD2;
ULONGLONG DbD3;
ULONGLONG DbD4;
ULONGLONG DbD5;
ULONGLONG DbD6;
ULONGLONG DbD7;
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_LOWER_FLOATING_POINT.
//
FLOAT128 FltS0; // Lower saved (preserved)
FLOAT128 FltS1;
FLOAT128 FltS2;
FLOAT128 FltS3;
FLOAT128 FltS4;
FLOAT128 FltS5;
FLOAT128 FltT0; // Lower temporary (scratch)
FLOAT128 FltT1;
FLOAT128 FltT2;
FLOAT128 FltT3;
FLOAT128 FltT4;
FLOAT128 FltT5;
FLOAT128 FltT6;
FLOAT128 FltT7;
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_HIGHER_FLOATING_POINT.
//
FLOAT128 FltS6; // Higher saved (preserved) floats
FLOAT128 FltS7;
FLOAT128 FltS8;
FLOAT128 FltS9;
FLOAT128 FltS10;
FLOAT128 FltS11;
FLOAT128 FltS12;
FLOAT128 FltS13;
FLOAT128 FltS14;
FLOAT128 FltS15;
FLOAT128 FltS16;
FLOAT128 FltS17;
FLOAT128 FltS18;
FLOAT128 FltS19;
FLOAT128 FltS20;
FLOAT128 FltS21;
FLOAT128 FltF32;
FLOAT128 FltF33;
FLOAT128 FltF34;
FLOAT128 FltF35;
FLOAT128 FltF36;
FLOAT128 FltF37;
FLOAT128 FltF38;
FLOAT128 FltF39;
FLOAT128 FltF40;
FLOAT128 FltF41;
FLOAT128 FltF42;
FLOAT128 FltF43;
FLOAT128 FltF44;
FLOAT128 FltF45;
FLOAT128 FltF46;
FLOAT128 FltF47;
FLOAT128 FltF48;
FLOAT128 FltF49;
FLOAT128 FltF50;
FLOAT128 FltF51;
FLOAT128 FltF52;
FLOAT128 FltF53;
FLOAT128 FltF54;
FLOAT128 FltF55;
FLOAT128 FltF56;
FLOAT128 FltF57;
FLOAT128 FltF58;
FLOAT128 FltF59;
FLOAT128 FltF60;
FLOAT128 FltF61;
FLOAT128 FltF62;
FLOAT128 FltF63;
FLOAT128 FltF64;
FLOAT128 FltF65;
FLOAT128 FltF66;
FLOAT128 FltF67;
FLOAT128 FltF68;
FLOAT128 FltF69;
FLOAT128 FltF70;
FLOAT128 FltF71;
FLOAT128 FltF72;
FLOAT128 FltF73;
FLOAT128 FltF74;
FLOAT128 FltF75;
FLOAT128 FltF76;
FLOAT128 FltF77;
FLOAT128 FltF78;
FLOAT128 FltF79;
FLOAT128 FltF80;
FLOAT128 FltF81;
FLOAT128 FltF82;
FLOAT128 FltF83;
FLOAT128 FltF84;
FLOAT128 FltF85;
FLOAT128 FltF86;
FLOAT128 FltF87;
FLOAT128 FltF88;
FLOAT128 FltF89;
FLOAT128 FltF90;
FLOAT128 FltF91;
FLOAT128 FltF92;
FLOAT128 FltF93;
FLOAT128 FltF94;
FLOAT128 FltF95;
FLOAT128 FltF96;
FLOAT128 FltF97;
FLOAT128 FltF98;
FLOAT128 FltF99;
FLOAT128 FltF100;
FLOAT128 FltF101;
FLOAT128 FltF102;
FLOAT128 FltF103;
FLOAT128 FltF104;
FLOAT128 FltF105;
FLOAT128 FltF106;
FLOAT128 FltF107;
FLOAT128 FltF108;
FLOAT128 FltF109;
FLOAT128 FltF110;
FLOAT128 FltF111;
FLOAT128 FltF112;
FLOAT128 FltF113;
FLOAT128 FltF114;
FLOAT128 FltF115;
FLOAT128 FltF116;
FLOAT128 FltF117;
FLOAT128 FltF118;
FLOAT128 FltF119;
FLOAT128 FltF120;
FLOAT128 FltF121;
FLOAT128 FltF122;
FLOAT128 FltF123;
FLOAT128 FltF124;
FLOAT128 FltF125;
FLOAT128 FltF126;
FLOAT128 FltF127;
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_LOWER_FLOATING_POINT | CONTEXT_HIGHER_FLOATING_POINT.
// **** TBD **** in some cases it may more efficient to return with
// CONTEXT_CONTROL
//
ULONGLONG StFPSR; // FP status
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_INTEGER.
//
// N.B. The registers gp, sp, rp are part of the control context
//
ULONGLONG IntGp; // global pointer (r1)
ULONGLONG IntT0;
ULONGLONG IntT1;
ULONGLONG IntS0;
ULONGLONG IntS1;
ULONGLONG IntS2;
ULONGLONG IntS3;
ULONGLONG IntV0; // return value (r8)
ULONGLONG IntAp; // argument pointer (r9)
ULONGLONG IntT2;
ULONGLONG IntT3;
ULONGLONG IntSp; // stack pointer (r12)
ULONGLONG IntT4;
ULONGLONG IntT5;
ULONGLONG IntT6;
ULONGLONG IntT7;
ULONGLONG IntT8;
ULONGLONG IntT9;
ULONGLONG IntT10;
ULONGLONG IntT11;
ULONGLONG IntT12;
ULONGLONG IntT13;
ULONGLONG IntT14;
ULONGLONG IntT15;
ULONGLONG IntT16;
ULONGLONG IntT17;
ULONGLONG IntT18;
ULONGLONG IntT19;
ULONGLONG IntT20;
ULONGLONG IntT21;
ULONGLONG IntT22;
ULONGLONG IntNats; // Nat bits for general registers
// r1-r31 in bit positions 1 to 31.
ULONGLONG Preds; // Predicates
ULONGLONG BrS0l; // Branch registers
ULONGLONG BrS0h;
ULONGLONG BrS1l;
ULONGLONG BrS1h;
ULONGLONG BrS2l;
ULONGLONG BrS2h;
ULONGLONG BrS3l;
ULONGLONG BrS3h;
ULONGLONG BrS4l;
ULONGLONG BrS4h;
ULONGLONG BrT0l;
ULONGLONG BrT0h;
ULONGLONG BrT1l;
ULONGLONG BrT1h;
ULONGLONG BrRpl; // return pointer
ULONGLONG BrRph;
ULONGLONG BrT2l;
ULONGLONG BrT2h;
ULONGLONG BrT3l;
ULONGLONG BrT3h;
ULONGLONG BrT4l;
ULONGLONG BrT4h;
ULONGLONG BrT5l;
ULONGLONG BrT5h;
ULONGLONG BrT6l;
ULONGLONG BrT6h;
ULONGLONG BrT7l;
ULONGLONG BrT7h;
ULONGLONG BrT8l;
ULONGLONG BrT8h;
ULONGLONG BrT9l;
ULONGLONG BrT9h;
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_CONTROL.
//
// Other application registers
ULONGLONG ApSunatcr; // User Nat collection register (preserved)
ULONGLONG ApSlc; // Loop counter register (preserved)
ULONGLONG ApTccv; // CMPXCHG value register (volatile)
ULONGLONG ApDCR;
// Register stack info
ULONGLONG RsPFS;
ULONGLONG RsBSP;
ULONGLONG RsBSPStore;
ULONGLONG RsRSC;
ULONGLONG RsRNAT;
// Trap Status Information
ULONGLONG StIPSR; // Interrupt Processor Status
ULONGLONG StIIP; // Interrupt IP
ULONGLONG StIFS; // Interrupt Frame Marker
ULONGLONG Fill; // padding for 16-byte alignment on stack, if needed
#else
ULONG PlaceHolder;
#endif // defined(_IA64_)
} IA64_RESTART_STATE, *PIA64_RESTART_STATE;
typedef struct _RESTART_BLOCK {
ULONG Signature;
ULONG Length;
USHORT Version;
USHORT Revision;
struct _RESTART_BLOCK * FIRMWARE_PTR NextRestartBlock;
VOID * FIRMWARE_PTR RestartAddress;
ULONG BootMasterId;
ULONG ProcessorId;
volatile BOOT_STATUS BootStatus;
ULONG CheckSum;
ULONG SaveAreaLength;
union {
ULONG SaveArea[1];
ALPHA_RESTART_STATE Alpha;
I386_RESTART_STATE I386;
IA64_RESTART_STATE Ia64;
} u;
} RESTART_BLOCK, * FIRMWARE_PTR PRESTART_BLOCK;
#if defined(_IA64_)
#include "poppack.h"
#endif
//
// Define system parameter block structure.
//
typedef struct _SYSTEM_PARAMETER_BLOCK {
ULONG Signature;
ULONG Length;
USHORT Version;
USHORT Revision;
PRESTART_BLOCK RestartBlock;
PDEBUG_BLOCK DebugBlock;
VOID * FIRMWARE_PTR GenerateExceptionVector;
VOID * FIRMWARE_PTR TlbMissExceptionVector;
ULONG FirmwareVectorLength;
VOID * FIRMWARE_PTR * FIRMWARE_PTR FirmwareVector;
ULONG VendorVectorLength;
VOID * FIRMWARE_PTR * FIRMWARE_PTR VendorVector;
ULONG AdapterCount;
ULONG Adapter0Type;
ULONG Adapter0Length;
VOID * FIRMWARE_PTR * FIRMWARE_PTR Adapter0Vector;
} SYSTEM_PARAMETER_BLOCK, * FIRMWARE_PTR PSYSTEM_PARAMETER_BLOCK;
//
// structure defining the function types passed in the FirmwareVector
// of the system block.
// define this because the compiler does not like the casting of
// void * pointers to function pointers
//
typedef struct _GLOBAL_FIRMWARE_VECTOR {
ARC_STATUS (* LoadRoutine)(CHAR * FIRMWARE_PTR, ULONG, ULONG * FIRMWARE_PTR, ULONG * FIRMWARE_PTR);
ARC_STATUS (* InvokeRoutine)(ULONG, ULONG, ULONG, CHAR * FIRMWARE_PTR * FIRMWARE_PTR, CHAR * FIRMWARE_PTR * FIRMWARE_PTR);
ARC_STATUS (* ExecuteRoutine)(CHAR * FIRWARE_PTR, ULONG, CHAR * FIRMWARE_PTR * FIRMWARE_PTR, CHAR * FIRMWARE_PTR * FIRMWARE_PTR);
VOID (* HaltRoutine)(VOID);
VOID (* PowerDownRoutine)(VOID);
VOID (* RestartRoutine)(VOID);
VOID (* RebootRoutine)(VOID);
VOID (* InteractiveModeRoutine)(VOID);
VOID (* Reserved1)(VOID);
PCONFIGURATION_COMPONENT (* GetPeerRoutine)(PCONFIGURATION_COMPONENT);
PCONFIGURATION_COMPONENT (* GetChildRoutine)(PCONFIGURATION_COMPONENT);
PCONFIGURATION_COMPONENT (* GetParentRoutine)(PCONFIGURATION_COMPONENT);
ARC_STATUS (* GetDataRoutine)(VOID * FIRMWARE_PTR, PCONFIGURATION_COMPONENT);
PCONFIGURATION_COMPONENT (* AddChildRoutine)(PCONFIGURATION_COMPONENT, PCONFIGURATION_COMPONENT, VOID * FIRMWARE_PTR);
ARC_STATUS (* DeleteComponentRoutine)(PCONFIGURATION_COMPONENT);
PCONFIGURATION_COMPONENT (* GetComponentRoutine)(CHAR * FIRMWARE_PTR);
ARC_STATUS (* SaveConfigurationRoutine)(VOID);
PSYSTEM_ID (* GetSystemIdRoutine)(VOID);
PMEMORY_DESCRIPTOR (* MemoryRoutine)(PMEMORY_DESCRIPTOR);
VOID (* Reserved2)(VOID);
PTIME_FIELDS (* GetTimeRoutine)(VOID);
ULONG (* GetRelativeTimeRoutine)(VOID);
ARC_STATUS (* GetDirectoryEntryRoutine)(ULONG, PDIRECTORY_ENTRY, ULONG, ULONG * FIRMWARE_PTR);
ARC_STATUS (* OpenRoutine)(CHAR * FIRMWARE_PTR, OPEN_MODE, ULONG * FIRMWARE_PTR);
ARC_STATUS (* CloseRoutine)(ULONG);
ARC_STATUS (* ReadRoutine)(ULONG, VOID * FIRMWARE_PTR, ULONG, ULONG * FIRMWARE_PTR);
ARC_STATUS (* ReadStatusRoutine)(ULONG);
ARC_STATUS (* WriteRoutine)(ULONG, VOID * FIRMWARE_PTR, ULONG, ULONG * FIRMWARE_PTR);
ARC_STATUS (* SeekRoutine)(ULONG, LARGE_INTEGER * FIRMWARE_PTR, SEEK_MODE);
ARC_STATUS (* MountRoutine)(CHAR * FIRMWARE_PTR, MOUNT_OPERATION);
CHAR * FIRMWARE_PTR (* GetEnvironmentRoutine)(CHAR * FIRMWARE_PTR);
ARC_STATUS (* SetEnvironmentRoutine)(CHAR * FIRMWARE_PTR, CHAR * FIRMWARE_PTR);
ARC_STATUS (* GetFileInformationRoutine)(ULONG, PFILE_INFORMATION);
ARC_STATUS (* SetFileInformationRoutine)(ULONG, ULONG, ULONG);
VOID (* FlushAllCachesRoutine)(VOID);
ARC_STATUS (* TestUnicodeCharacterRoutine)(ULONG, WCHAR);
PARC_DISPLAY_STATUS (* GetDisplayStatusRoutine)(ULONG);
} GLOBAL_FIRMWARE_VECTOR, * FIRMWARE_PTR PGLOBAL_FIRMWARE_VECTOR;
//
// Define macros that call firmware routines indirectly through the firmware
// vector and provide type checking of argument values.
//
#if defined(_ALPHA_) || defined(_AXP64_)
#define SYSTEM_BLOCK ((SYSTEM_PARAMETER_BLOCK *)(KSEG0_BASE | 0x6FE000))
#elif defined(_IA64_)
extern SYSTEM_PARAMETER_BLOCK GlobalSystemBlock;
#define SYSTEM_BLOCK (&GlobalSystemBlock)
#elif defined(_X86_)
#if defined(ARCI386)
#define SYSTEM_BLOCK ((PSYSTEM_PARAMETER_BLOCK)(0x1000))
#else
extern SYSTEM_PARAMETER_BLOCK GlobalSystemBlock;
#define SYSTEM_BLOCK (&GlobalSystemBlock)
#endif
#endif
#define FIRMWARE_VECTOR_BLOCK ((PGLOBAL_FIRMWARE_VECTOR) (SYSTEM_BLOCK->FirmwareVector))
//
// Define software loading and execution functions.
//
#define ArcExecute FIRMWARE_VECTOR_BLOCK->ExecuteRoutine
#define ArcInvoke FIRMWARE_VECTOR_BLOCK->InvokeRoutine
#define ArcLoad FIRMWARE_VECTOR_BLOCK->LoadRoutine
//
// Define program termination functions.
//
#define ArcHalt FIRMWARE_VECTOR_BLOCK->HaltRoutine
#define ArcPowerDown FIRMWARE_VECTOR_BLOCK->PowerDownRoutine
#define ArcRestart FIRMWARE_VECTOR_BLOCK->RestartRoutine
#define ArcReboot FIRMWARE_VECTOR_BLOCK->RebootRoutine
#define ArcEnterInteractiveMode FIRMWARE_VECTOR_BLOCK->InteractiveModeRoutine
//
// Define configuration functions.
//
#define ArcGetChild FIRMWARE_VECTOR_BLOCK->GetChildRoutine
#define ArcGetParent FIRMWARE_VECTOR_BLOCK->GetParentRoutine
#define ArcGetPeer FIRMWARE_VECTOR_BLOCK->GetPeerRoutine
#define ArcAddChild FIRMWARE_VECTOR_BLOCK->AddChildRoutine
#define ArcDeleteComponent FIRMWARE_VECTOR_BLOCK->DeleteComponentRoutine
#define ArcGetComponent FIRMWARE_VECTOR_BLOCK->GetComponentRoutine
#define ArcGetConfigurationData FIRMWARE_VECTOR_BLOCK->GetDataRoutine
#define ArcSaveConfiguration FIRMWARE_VECTOR_BLOCK->SaveConfigurationRoutine
#define ArcGetSystemId FIRMWARE_VECTOR_BLOCK->GetSystemIdRoutine
#define ArcGetMemoryDescriptor FIRMWARE_VECTOR_BLOCK->MemoryRoutine
#define ArcGetTime FIRMWARE_VECTOR_BLOCK->GetTimeRoutine
#define ArcGetRelativeTime FIRMWARE_VECTOR_BLOCK->GetRelativeTimeRoutine
//
// Define I/O functions.
//
#define ArcClose FIRMWARE_VECTOR_BLOCK->CloseRoutine
#define ArcGetReadStatus FIRMWARE_VECTOR_BLOCK->ReadStatusRoutine
#define ArcMount FIRMWARE_VECTOR_BLOCK->MountRoutine
#define ArcOpen FIRMWARE_VECTOR_BLOCK->OpenRoutine
#define ArcRead FIRMWARE_VECTOR_BLOCK->ReadRoutine
#define ArcSeek FIRMWARE_VECTOR_BLOCK->SeekRoutine
#define ArcWrite FIRMWARE_VECTOR_BLOCK->WriteRoutine
#define ArcGetFileInformation FIRMWARE_VECTOR_BLOCK->GetFileInformationRoutine
#define ArcSetFileInformation FIRMWARE_VECTOR_BLOCK->SetFileInformationRoutine
#define ArcGetDirectoryEntry FIRMWARE_VECTOR_BLOCK->GetDirectoryEntryRoutine
//
// Define environment functions.
//
#if defined(_AXP64_) && defined(_NTHAL_)
__inline
CHAR * FIRMWARE_PTR
ArcGetEnvironmentVariable(
IN PCHAR Variable
)
{
CHAR * FIRMWARE_PTR FwValue;
CHAR * FIRMWARE_PTR FwVariable;
//
// Raise IRQL to high level and acquire firmware lock.
//
KIRQL OldIrql = FwAcquireFirmwareLock();
//
// Copy variable name to a buffer that is addressable by firmware
// and query the firmware for the variable value.
//
FwVariable = (CHAR * FIRMWARE_PTR)&HalpMarshallBuffer[0];
strcpy(FwVariable, Variable);
FwValue = HalpArcGetEnvironmentVariable(FwVariable);
//
// Release the firmware lock and lower IRQL to its previous level.
//
FwReleaseFirmwareLock(OldIrql);
return FwValue;
}
#else
#define ArcGetEnvironmentVariable FIRMWARE_VECTOR_BLOCK->GetEnvironmentRoutine
#endif // _AXP64_ && defined(_NTHAL_)
#if defined(_AXP64_) && defined(_NTHAL_)
__inline
ARC_STATUS
ArcSetEnvironmentVariable(
IN PCHAR Variable,
IN PCHAR Value
)
{
ARC_STATUS ArcStatus;
CHAR * FIRMWARE_PTR FwValue;
CHAR * FIRMWARE_PTR FwVariable;
ULONG Length;
//
// Raise IRQL to high level and acquire firmware lock.
//
KIRQL OldIrql = FwAcquireFirmwareLock();
//
// Copy variable name and value to a buffer that is addressable by
// firmware and call firmware to set the variable value.
//
Length = strlen(Variable);
FwVariable = (CHAR * FIRMWARE_PTR)&HalpMarshallBuffer[0];
FwValue = FwVariable + Length + 1;
strcpy(FwVariable, Variable);
strcpy(FwValue, Value);
ArcStatus = HalpArcSetEnvironmentVariable(FwVariable, FwValue);
//
// Release the firmware lock and lower IRQL to its previous level.
//
FwReleaseFirmwareLock(OldIrql);
return ArcStatus;
}
#else
#define ArcSetEnvironmentVariable FIRMWARE_VECTOR_BLOCK->SetEnvironmentRoutine
#endif // _AXP64_ && defined(_NTHAL_)
//
// Define cache flush functions.
//
#define ArcFlushAllCaches FIRMWARE_VECTOR_BLOCK->FlushAllCachesRoutine
//
// Define TestUnicodeCharacter and GetDisplayStatus functions.
//
#define ArcTestUnicodeCharacter FIRMWARE_VECTOR_BLOCK->TestUnicodeCharacterRoutine
#define ArcGetDisplayStatus FIRMWARE_VECTOR_BLOCK->GetDisplayStatusRoutine
//
// Define configuration data structure used in all systems.
//
typedef struct _CONFIGURATION_COMPONENT_DATA {
struct _CONFIGURATION_COMPONENT_DATA *Parent;
struct _CONFIGURATION_COMPONENT_DATA *Child;
struct _CONFIGURATION_COMPONENT_DATA *Sibling;
CONFIGURATION_COMPONENT ComponentEntry;
PVOID ConfigurationData;
} CONFIGURATION_COMPONENT_DATA, *PCONFIGURATION_COMPONENT_DATA;
//
// Define generic display configuration data structure.
//
typedef struct _MONITOR_CONFIGURATION_DATA {
USHORT Version;
USHORT Revision;
USHORT HorizontalResolution;
USHORT HorizontalDisplayTime;
USHORT HorizontalBackPorch;
USHORT HorizontalFrontPorch;
USHORT HorizontalSync;
USHORT VerticalResolution;
USHORT VerticalBackPorch;
USHORT VerticalFrontPorch;
USHORT VerticalSync;
USHORT HorizontalScreenSize;
USHORT VerticalScreenSize;
} MONITOR_CONFIGURATION_DATA, *PMONITOR_CONFIGURATION_DATA;
//
// Define generic floppy configuration data structure.
//
typedef struct _FLOPPY_CONFIGURATION_DATA {
USHORT Version;
USHORT Revision;
CHAR Size[8];
ULONG MaxDensity;
ULONG MountDensity;
} FLOPPY_CONFIGURATION_DATA, *PFLOPPY_CONFIGURATION_DATA;
//
// Define memory allocation structures used in all systems.
//
typedef enum _TYPE_OF_MEMORY {
LoaderExceptionBlock = MemoryExceptionBlock, // 0
LoaderSystemBlock = MemorySystemBlock, // 1
LoaderFree = MemoryFree, // 2
LoaderBad = MemoryBad, // 3
LoaderLoadedProgram = MemoryLoadedProgram, // 4
LoaderFirmwareTemporary = MemoryFirmwareTemporary, // 5
LoaderFirmwarePermanent = MemoryFirmwarePermanent, // 6
LoaderOsloaderHeap, // 7
LoaderOsloaderStack, // 8
LoaderSystemCode, // 9
LoaderHalCode, // a
LoaderBootDriver, // b
LoaderConsoleInDriver, // c
LoaderConsoleOutDriver, // d
LoaderStartupDpcStack, // e
LoaderStartupKernelStack, // f
LoaderStartupPanicStack, // 10
LoaderStartupPcrPage, // 11
LoaderStartupPdrPage, // 12
LoaderRegistryData, // 13
LoaderMemoryData, // 14
LoaderNlsData, // 15
LoaderSpecialMemory, // 16
LoaderBBTMemory, // 17
LoaderReserve, // 18
LoaderXIPRom, // 19
LoaderHALCachedMemory, // 1a
LoaderMaximum // 1b
} TYPE_OF_MEMORY;
typedef struct _MEMORY_ALLOCATION_DESCRIPTOR {
LIST_ENTRY ListEntry;
TYPE_OF_MEMORY MemoryType;
ULONG BasePage;
ULONG PageCount;
} MEMORY_ALLOCATION_DESCRIPTOR, *PMEMORY_ALLOCATION_DESCRIPTOR;
//
// Define loader parameter block structure.
//
typedef struct _NLS_DATA_BLOCK {
PVOID AnsiCodePageData;
PVOID OemCodePageData;
PVOID UnicodeCaseTableData;
} NLS_DATA_BLOCK, *PNLS_DATA_BLOCK;
typedef struct _ARC_DISK_SIGNATURE {
LIST_ENTRY ListEntry;
ULONG Signature;
PCHAR ArcName;
ULONG CheckSum;
BOOLEAN ValidPartitionTable;
BOOLEAN xInt13;
BOOLEAN IsGpt;
UCHAR Reserved;
UCHAR GptSignature[16];
} ARC_DISK_SIGNATURE, *PARC_DISK_SIGNATURE;
typedef struct _ARC_DISK_INFORMATION {
LIST_ENTRY DiskSignatures;
} ARC_DISK_INFORMATION, *PARC_DISK_INFORMATION;
typedef struct _I386_LOADER_BLOCK {
#if defined(_X86_) || defined(_AMD64_)
PVOID CommonDataArea;
ULONG MachineType; // Temporary only
ULONG VirtualBias;
#else
ULONG PlaceHolder;
#endif
} I386_LOADER_BLOCK, *PI386_LOADER_BLOCK;
typedef struct _ALPHA_LOADER_BLOCK {
#if defined(_ALPHA_) || defined(_AXP64_)
ULONG_PTR DpcStack;
ULONG FirstLevelDcacheSize;
ULONG FirstLevelDcacheFillSize;
ULONG FirstLevelIcacheSize;
ULONG FirstLevelIcacheFillSize;
ULONG_PTR GpBase;
ULONG_PTR PanicStack;
ULONG PcrPage;
ULONG PdrPage;
ULONG SecondLevelDcacheSize;
ULONG SecondLevelDcacheFillSize;
ULONG SecondLevelIcacheSize;
ULONG SecondLevelIcacheFillSize;
ULONG PhysicalAddressBits;
ULONG MaximumAddressSpaceNumber;
UCHAR SystemSerialNumber[16];
UCHAR SystemType[8];
ULONG SystemVariant;
ULONG SystemRevision;
ULONG ProcessorType;
ULONG ProcessorRevision;
ULONG CycleClockPeriod;
ULONG PageSize;
PVOID RestartBlock;
ULONGLONG FirmwareRestartAddress;
ULONG FirmwareRevisionId;
PVOID PalBaseAddress;
UCHAR FirmwareVersion[16];
UCHAR FirmwareBuildTimeStamp[20];
#else
ULONG PlaceHolder;
#endif
} ALPHA_LOADER_BLOCK, *PALPHA_LOADER_BLOCK;
#if defined(_IA64_)
typedef struct _TR_INFO {
BOOLEAN Valid;
UCHAR Index;
USHORT Spare0;
ULONG PageSize;
ULONGLONG VirtualAddress;
ULONGLONG PhysicalAddress;
ULONGLONG PhysicalAddressMemoryDescriptor;
ULONG PageSizeMemoryDescriptor;
ULONG Spare1;
} TR_INFO, *PTR_INFO;
typedef struct _EFI_MEM_MAP_PARAM {
PUCHAR MemoryMap;
ULONGLONG MemoryMapSize;
ULONGLONG MapKey;
ULONGLONG DescriptorSize;
ULONG DescriptorVersion;
ULONG InitialPlatformPropertiesEfiFlags;
} EFI_MEM_MAP_PARAM, *PEFI_MEM_MAP_PARAM;
//
// VM info structure definitions
//
typedef union _IA64_VM_SUMMARY1 {
struct {
ULONGLONG HwWalker : 1;
ULONGLONG PhysAddrSize : 7;
ULONGLONG KeySize : 8;
ULONGLONG MaxPkr : 8;
ULONGLONG HashTagId : 8;
ULONGLONG MaxDtrEntry : 8;
ULONGLONG MaxItrEntry : 8;
ULONGLONG NumUniqueTcs : 8;
ULONGLONG NumTcLevels : 8;
};
ULONGLONG Ulong64;
} IA64_VM_SUMMARY1;
typedef union _IA64_VM_SUMMARY2 {
struct {
ULONGLONG ImplVaMsb : 8;
ULONGLONG RidSize : 8;
ULONGLONG Rsvd : 48;
};
ULONGLONG Ulong64;
} IA64_VM_SUMMARY2;
typedef union _IA64_DEPENDENT_FEATURES {
struct {
ULONGLONG Rsvd : 41;
ULONGLONG XIregResource : 1;
ULONGLONG XRegResource : 1;
ULONGLONG DisableDynamicPrediatePrediction : 1;
ULONGLONG DisableProcessorPhysicalNumber : 1;
ULONGLONG DisableDynamicDataCachePrefetch : 1;
ULONGLONG DisableDynamicInstructionCache : 1;
ULONGLONG DisableDynamicBranchPrediction : 1;
ULONGLONG Rsvd2 : 8;
ULONGLONG DisableBINIT : 1;
ULONGLONG DisableCoherency : 1;
ULONGLONG DisableCache : 1;
ULONGLONG EnableCMCIPromotion : 1;
ULONGLONG EnableMCAtoBINIT : 1;
};
ULONGLONG Ulong64;
} IA64_DEPENDENT_FEATURES;
typedef struct _IA64_PTCE_INFO {
ULONGLONG PtceBase;
union {
struct {
ULONG Count1;
ULONG Count2;
};
ULONGLONG Ulong64;
} PtceTcCount;
union {
struct {
ULONG Strides1;
ULONG Strides2;
};
ULONGLONG Ulong64;
} PtceStrides;
} IA64_PTCE_INFO;
typedef union _IA64_CACHE_INFO1 {
ULONGLONG Ulong64;
struct {
ULONGLONG Unified : 1;
ULONGLONG Attributes : 2;
ULONGLONG Reserved : 5;
ULONGLONG Associativity : 8;
ULONGLONG LineSize : 8;
ULONGLONG Stride : 8;
ULONGLONG StoreLatency : 8;
ULONGLONG LoadLatency : 8;
ULONGLONG StoreHints : 8;
ULONGLONG LoadHints : 8;
};
}IA64_CACHE_INFO1, *PIA64_CACHE_INFO1;
typedef union _IA64_CACHE_INFO2 {
ULONGLONG Ulong64;
struct {
ULONGLONG Size : 32;
ULONGLONG Alias : 8;
ULONGLONG TagLeastBit : 8;
ULONGLONG TagMostBit : 8;
ULONGLONG Reserved : 8;
};
}IA64_CACHE_INFO2, *PIA64_CACHE_INFO2;
#define CONFIG_INFO_CACHE_LEVELS 3
#define CONFIG_INFO_ICACHE 0
#define CONFIG_INFO_DCACHE 1
typedef struct _IA64_DEBUG_INFO {
ULONGLONG Status; // The following fields are only valid if Status = 0.
ULONGLONG InstDebugRegisterPairs; // Number of pairs of Instruction debug registers.
ULONGLONG DataDebugRegisterPairs; // Number of pairs of Data debug registers.
} IA64_DEBUG_INFO, *PIA64_DEBUG_INFO;
typedef struct _IA64_PERFMON_INFO {
ULONGLONG Status; // The following fields are only valid if Status = 0.
union {
ULONGLONG Ulong64;
struct {
ULONGLONG PerfMonGenericPairs : 8;
ULONGLONG ImplementedCounterWidth : 8;
ULONGLONG ProcessorCyclesEventType : 8;
ULONGLONG RetiredInstructionBundlesEventType : 8;
ULONGLONG Reserved : 32;
};
};
// Note: The next following 128 bytes have to be continuous.
UCHAR PerfMonCnfgMask[32]; // which PMC registers are implemented
UCHAR PerfMonDataMask[32]; // which PMD registers are implemented
UCHAR ProcessorCyclesMask[32]; // which registers can count cycles
UCHAR RetiredInstructionBundlesMask[32]; // which registers can count retired bundles
} IA64_PERFMON_INFO, *PIA64_PERFMON_INFO;
typedef struct _PROCESSOR_CONFIG_INFO {
ULONGLONG InsertPageSizeInfo;
ULONGLONG PurgePageSizeInfo;
IA64_VM_SUMMARY1 VmSummaryInfo1;
IA64_VM_SUMMARY2 VmSummaryInfo2;
ULONGLONG NumOfPhysStackedRegs;
ULONGLONG RseHints;
IA64_PTCE_INFO PtceInfo;
IA64_DEPENDENT_FEATURES FeaturesImplemented;
IA64_DEPENDENT_FEATURES FeaturesCurSetting;
IA64_DEPENDENT_FEATURES FeaturesSoftControl;
ULONGLONG ImplRegisterInfo1;
ULONGLONG ImplRegisterInfo2;
ULONG CacheFlushStride;
ULONG LargestCacheLine;
ULONG NumberOfCacheLevels;
IA64_CACHE_INFO1 CacheInfo1[2][CONFIG_INFO_CACHE_LEVELS]; // Pass several levels of cache information
IA64_CACHE_INFO2 CacheInfo2[2][CONFIG_INFO_CACHE_LEVELS]; // One each for instruction and data.
ULONGLONG CpuId3;
IA64_DEBUG_INFO DebugInfo;
IA64_PERFMON_INFO PerfMonInfo;
} PROCESSOR_CONFIG_INFO, *PPROCESSOR_CONFIG_INFO;
#endif
typedef struct _IA64_LOADER_BLOCK {
#if defined(_IA64_)
ULONG MachineType;
ULONG WakeupVector;
ULONG_PTR KernelPhysicalBase;
ULONG_PTR KernelVirtualBase;
ULONG_PTR InterruptStack;
ULONG_PTR PanicStack;
ULONG_PTR PcrPage;
ULONG_PTR PdrPage;
ULONG_PTR PcrPage2;
ULONG_PTR FpswaInterface;
ULONG_PTR EfiSystemTable;
ULONG_PTR AcpiRsdt;
TR_INFO Pal;
//
// K.B. We don't really use a TR to map these, but the TR_INFO structure
// is useful to comminicate info about these entries to the system.
//
TR_INFO Sal;
TR_INFO SalGP;
TR_INFO ItrInfo[8];
TR_INFO DtrInfo[8];
EFI_MEM_MAP_PARAM EfiMemMapParam;
ULONG_PTR Reserved[10];
PROCESSOR_CONFIG_INFO ProcessorConfigInfo;
#else
ULONG PlaceHolder;
#endif
} IA64_LOADER_BLOCK, *PIA64_LOADER_BLOCK;
typedef struct _LOADER_PARAMETER_EXTENSION {
ULONG Size; // set to sizeof (struct _LOADER_PARAMETER_EXTENSION)
PROFILE_PARAMETER_BLOCK Profile;
ULONG MajorVersion;
ULONG MinorVersion;
PVOID InfFileImage; // Inf used to identify "broken" machines.
ULONG InfFileSize;
//
// Pointer to the triage block, if present.
//
PVOID TriageDumpBlock;
ULONG LoaderPagesSpanned; // Virtual Memory spanned by the loader
// that MM cannot recover the VA for.
struct _HEADLESS_LOADER_BLOCK *HeadlessLoaderBlock;
struct _SMBIOS_TABLE_HEADER *SMBiosEPSHeader;
PVOID DrvDBImage; // Database used to identify "broken" drivers.
ULONG DrvDBSize;
// If booting from the Network (PXE) then we will
// save the Network boot params in this loader block
struct _NETWORK_LOADER_BLOCK *NetworkLoaderBlock;
#if defined(_X86_)
//
// Pointers to IRQL translation tables that reside in the HAL
// and are exposed to the kernel for use in the "inlined IRQL"
// build
//
PUCHAR HalpIRQLToTPR;
PUCHAR HalpVectorToIRQL;
#endif
//
// Firmware Location
//
LIST_ENTRY FirmwareDescriptorListHead;
} LOADER_PARAMETER_EXTENSION, *PLOADER_PARAMETER_EXTENSION;
struct _SETUP_LOADER_BLOCK;
struct _HEADLESS_LOADER_BLOCK;
struct _SMBIOS_TABLE_HEADER;
typedef struct _NETWORK_LOADER_BLOCK {
// Binary contents of the entire DHCP Acknowledgment
// packet received by PXE.
PUCHAR DHCPServerACK;
ULONG DHCPServerACKLength;
// Binary contents of the entire BINL Reply
// packet received by PXE.
PUCHAR BootServerReplyPacket;
ULONG BootServerReplyPacketLength;
} NETWORK_LOADER_BLOCK, * PNETWORK_LOADER_BLOCK;
typedef struct _LOADER_PARAMETER_BLOCK {
LIST_ENTRY LoadOrderListHead;
LIST_ENTRY MemoryDescriptorListHead;
LIST_ENTRY BootDriverListHead;
ULONG_PTR KernelStack;
ULONG_PTR Prcb;
ULONG_PTR Process;
ULONG_PTR Thread;
ULONG RegistryLength;
PVOID RegistryBase;
PCONFIGURATION_COMPONENT_DATA ConfigurationRoot;
PCHAR ArcBootDeviceName;
PCHAR ArcHalDeviceName;
PCHAR NtBootPathName;
PCHAR NtHalPathName;
PCHAR LoadOptions;
PNLS_DATA_BLOCK NlsData;
PARC_DISK_INFORMATION ArcDiskInformation;
PVOID OemFontFile;
struct _SETUP_LOADER_BLOCK *SetupLoaderBlock;
PLOADER_PARAMETER_EXTENSION Extension;
union {
I386_LOADER_BLOCK I386;
ALPHA_LOADER_BLOCK Alpha;
IA64_LOADER_BLOCK Ia64;
} u;
} LOADER_PARAMETER_BLOCK, *PLOADER_PARAMETER_BLOCK;
#endif // _ARC_
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