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MEMORY_DEFECT
構造体サイズ=各フィールドのバイト数(x64/x86 で異なる場合は x64/x86 と併記)。x64/x86 列=フィールドのバイトオフセット(HSPで dupptr / lpoke / wpoke 等に使用)。
フィールド
| フィールド | 型 | サイズ | x64 | x86 | 説明 |
|---|---|---|---|---|---|
| Version | DWORD | 4 | +0 | +0 | 構造体のバージョンを示す。 |
| DimmInfo | DIMM_INFO | 32 | +4 | +4 | 欠陥が検出された DIMM の情報(DIMM_INFO)を保持する。 |
| ErrType | PAGE_OFFLINE_ERROR_TYPES | 4 | +36 | +36 | ページオフライン化の原因となったエラー種別(PAGE_OFFLINE_ERROR_TYPES)を示す。 |
各言語での定義
#include <windows.h>
// DIMM_ADDRESS (x64 24 / x86 24 バイト)
typedef struct DIMM_ADDRESS {
_Ddr4_e__Struct Ddr4;
_Ddr5_e__Struct Ddr5;
} DIMM_ADDRESS;
// DIMM_ADDR_VALID_BITS_DDR4 (x64 4 / x86 4 バイト)
#pragma pack(push, 1)
typedef struct DIMM_ADDR_VALID_BITS_DDR4 {
DWORD _bitfield;
} DIMM_ADDR_VALID_BITS_DDR4;
#pragma pack(pop)
// DIMM_ADDR_VALID_BITS_DDR5 (x64 4 / x86 4 バイト)
#pragma pack(push, 1)
typedef struct DIMM_ADDR_VALID_BITS_DDR5 {
DWORD _bitfield;
} DIMM_ADDR_VALID_BITS_DDR5;
#pragma pack(pop)
// DIMM_ADDR_VALID_BITS (x64 4 / x86 4 バイト)
#pragma pack(push, 1)
typedef struct DIMM_ADDR_VALID_BITS {
DIMM_ADDR_VALID_BITS_DDR4 VB_DDR4;
DIMM_ADDR_VALID_BITS_DDR5 VB_DDR5;
DWORD AsUINT32;
} DIMM_ADDR_VALID_BITS;
#pragma pack(pop)
// DIMM_INFO (x64 32 / x86 32 バイト)
typedef struct DIMM_INFO {
DIMM_ADDRESS DimmAddress;
DIMM_ADDR_VALID_BITS ValidBits;
} DIMM_INFO;
// MEMORY_DEFECT (x64 40 / x86 40 バイト)
#pragma pack(push, 1)
typedef struct MEMORY_DEFECT {
DWORD Version;
DIMM_INFO DimmInfo;
PAGE_OFFLINE_ERROR_TYPES ErrType;
} MEMORY_DEFECT;
#pragma pack(pop)using System;
using System.Runtime.InteropServices;
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
public struct DIMM_ADDRESS
{
public _Ddr4_e__Struct Ddr4;
public _Ddr5_e__Struct Ddr5;
}
[StructLayout(LayoutKind.Sequential, Pack = 1, CharSet = CharSet.Unicode)]
public struct DIMM_ADDR_VALID_BITS_DDR4
{
public uint _bitfield;
}
[StructLayout(LayoutKind.Sequential, Pack = 1, CharSet = CharSet.Unicode)]
public struct DIMM_ADDR_VALID_BITS_DDR5
{
public uint _bitfield;
}
[StructLayout(LayoutKind.Sequential, Pack = 1, CharSet = CharSet.Unicode)]
public struct DIMM_ADDR_VALID_BITS
{
public DIMM_ADDR_VALID_BITS_DDR4 VB_DDR4;
public DIMM_ADDR_VALID_BITS_DDR5 VB_DDR5;
public uint AsUINT32;
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
public struct DIMM_INFO
{
public DIMM_ADDRESS DimmAddress;
public DIMM_ADDR_VALID_BITS ValidBits;
}
[StructLayout(LayoutKind.Sequential, Pack = 1, CharSet = CharSet.Unicode)]
public struct MEMORY_DEFECT
{
public uint Version;
public DIMM_INFO DimmInfo;
public int ErrType;
}Imports System.Runtime.InteropServices
<StructLayout(LayoutKind.Sequential, CharSet:=CharSet.Unicode)>
Public Structure DIMM_ADDRESS
Public Ddr4 As _Ddr4_e__Struct
Public Ddr5 As _Ddr5_e__Struct
End Structure
<StructLayout(LayoutKind.Sequential, Pack:=1, CharSet:=CharSet.Unicode)>
Public Structure DIMM_ADDR_VALID_BITS_DDR4
Public _bitfield As UInteger
End Structure
<StructLayout(LayoutKind.Sequential, Pack:=1, CharSet:=CharSet.Unicode)>
Public Structure DIMM_ADDR_VALID_BITS_DDR5
Public _bitfield As UInteger
End Structure
<StructLayout(LayoutKind.Sequential, Pack:=1, CharSet:=CharSet.Unicode)>
Public Structure DIMM_ADDR_VALID_BITS
Public VB_DDR4 As DIMM_ADDR_VALID_BITS_DDR4
Public VB_DDR5 As DIMM_ADDR_VALID_BITS_DDR5
Public AsUINT32 As UInteger
End Structure
<StructLayout(LayoutKind.Sequential, CharSet:=CharSet.Unicode)>
Public Structure DIMM_INFO
Public DimmAddress As DIMM_ADDRESS
Public ValidBits As DIMM_ADDR_VALID_BITS
End Structure
<StructLayout(LayoutKind.Sequential, Pack:=1, CharSet:=CharSet.Unicode)>
Public Structure MEMORY_DEFECT
Public Version As UInteger
Public DimmInfo As DIMM_INFO
Public ErrType As Integer
End Structureimport ctypes
from ctypes import wintypes
class DIMM_ADDRESS(ctypes.Structure):
_fields_ = [
("Ddr4", _Ddr4_e__Struct),
("Ddr5", _Ddr5_e__Struct),
]
class DIMM_ADDR_VALID_BITS_DDR4(ctypes.Structure):
_pack_ = 1
_fields_ = [
("_bitfield", wintypes.DWORD),
]
class DIMM_ADDR_VALID_BITS_DDR5(ctypes.Structure):
_pack_ = 1
_fields_ = [
("_bitfield", wintypes.DWORD),
]
class DIMM_ADDR_VALID_BITS(ctypes.Structure):
_pack_ = 1
_fields_ = [
("VB_DDR4", DIMM_ADDR_VALID_BITS_DDR4),
("VB_DDR5", DIMM_ADDR_VALID_BITS_DDR5),
("AsUINT32", wintypes.DWORD),
]
class DIMM_INFO(ctypes.Structure):
_fields_ = [
("DimmAddress", DIMM_ADDRESS),
("ValidBits", DIMM_ADDR_VALID_BITS),
]
class MEMORY_DEFECT(ctypes.Structure):
_pack_ = 1
_fields_ = [
("Version", wintypes.DWORD),
("DimmInfo", DIMM_INFO),
("ErrType", ctypes.c_int),
]#[repr(C)]
pub struct DIMM_ADDRESS {
pub Ddr4: _Ddr4_e__Struct,
pub Ddr5: _Ddr5_e__Struct,
}
#[repr(C, packed(1))]
pub struct DIMM_ADDR_VALID_BITS_DDR4 {
pub _bitfield: u32,
}
#[repr(C, packed(1))]
pub struct DIMM_ADDR_VALID_BITS_DDR5 {
pub _bitfield: u32,
}
#[repr(C, packed(1))]
pub struct DIMM_ADDR_VALID_BITS {
pub VB_DDR4: DIMM_ADDR_VALID_BITS_DDR4,
pub VB_DDR5: DIMM_ADDR_VALID_BITS_DDR5,
pub AsUINT32: u32,
}
#[repr(C)]
pub struct DIMM_INFO {
pub DimmAddress: DIMM_ADDRESS,
pub ValidBits: DIMM_ADDR_VALID_BITS,
}
#[repr(C, packed(1))]
pub struct MEMORY_DEFECT {
pub Version: u32,
pub DimmInfo: DIMM_INFO,
pub ErrType: i32,
}import "golang.org/x/sys/windows"
type DIMM_ADDRESS struct {
Ddr4 _Ddr4_e__Struct
Ddr5 _Ddr5_e__Struct
}
type DIMM_ADDR_VALID_BITS_DDR4 struct {
_bitfield uint32
}
type DIMM_ADDR_VALID_BITS_DDR5 struct {
_bitfield uint32
}
type DIMM_ADDR_VALID_BITS struct {
VB_DDR4 DIMM_ADDR_VALID_BITS_DDR4
VB_DDR5 DIMM_ADDR_VALID_BITS_DDR5
AsUINT32 uint32
}
type DIMM_INFO struct {
DimmAddress DIMM_ADDRESS
ValidBits DIMM_ADDR_VALID_BITS
}
type MEMORY_DEFECT struct {
Version uint32
DimmInfo DIMM_INFO
ErrType int32
}type
DIMM_ADDRESS = record
Ddr4: _Ddr4_e__Struct;
Ddr5: _Ddr5_e__Struct;
end;
DIMM_ADDR_VALID_BITS_DDR4 = packed record
_bitfield: DWORD;
end;
DIMM_ADDR_VALID_BITS_DDR5 = packed record
_bitfield: DWORD;
end;
DIMM_ADDR_VALID_BITS = packed record
VB_DDR4: DIMM_ADDR_VALID_BITS_DDR4;
VB_DDR5: DIMM_ADDR_VALID_BITS_DDR5;
AsUINT32: DWORD;
end;
DIMM_INFO = record
DimmAddress: DIMM_ADDRESS;
ValidBits: DIMM_ADDR_VALID_BITS;
end;
MEMORY_DEFECT = packed record
Version: DWORD;
DimmInfo: DIMM_INFO;
ErrType: Integer;
end;const DIMM_ADDRESS = extern struct {
Ddr4: _Ddr4_e__Struct,
Ddr5: _Ddr5_e__Struct,
};
const DIMM_ADDR_VALID_BITS_DDR4 = extern struct {
_bitfield: u32,
};
const DIMM_ADDR_VALID_BITS_DDR5 = extern struct {
_bitfield: u32,
};
const DIMM_ADDR_VALID_BITS = extern struct {
VB_DDR4: DIMM_ADDR_VALID_BITS_DDR4,
VB_DDR5: DIMM_ADDR_VALID_BITS_DDR5,
AsUINT32: u32,
};
const DIMM_INFO = extern struct {
DimmAddress: DIMM_ADDRESS,
ValidBits: DIMM_ADDR_VALID_BITS,
};
const MEMORY_DEFECT = extern struct {
Version: u32,
DimmInfo: DIMM_INFO,
ErrType: i32,
};type
DIMM_ADDRESS {.bycopy.} = object
Ddr4: _Ddr4_e__Struct
Ddr5: _Ddr5_e__Struct
DIMM_ADDR_VALID_BITS_DDR4 {.packed.} = object
_bitfield: uint32
DIMM_ADDR_VALID_BITS_DDR5 {.packed.} = object
_bitfield: uint32
DIMM_ADDR_VALID_BITS {.packed.} = object
VB_DDR4: DIMM_ADDR_VALID_BITS_DDR4
VB_DDR5: DIMM_ADDR_VALID_BITS_DDR5
AsUINT32: uint32
DIMM_INFO {.bycopy.} = object
DimmAddress: DIMM_ADDRESS
ValidBits: DIMM_ADDR_VALID_BITS
MEMORY_DEFECT {.packed.} = object
Version: uint32
DimmInfo: DIMM_INFO
ErrType: int32struct DIMM_ADDRESS
{
_Ddr4_e__Struct Ddr4;
_Ddr5_e__Struct Ddr5;
}
align(1)
struct DIMM_ADDR_VALID_BITS_DDR4
{
uint _bitfield;
}
align(1)
struct DIMM_ADDR_VALID_BITS_DDR5
{
uint _bitfield;
}
align(1)
struct DIMM_ADDR_VALID_BITS
{
DIMM_ADDR_VALID_BITS_DDR4 VB_DDR4;
DIMM_ADDR_VALID_BITS_DDR5 VB_DDR5;
uint AsUINT32;
}
struct DIMM_INFO
{
DIMM_ADDRESS DimmAddress;
DIMM_ADDR_VALID_BITS ValidBits;
}
align(1)
struct MEMORY_DEFECT
{
uint Version;
DIMM_INFO DimmInfo;
int ErrType;
}HSP用 定義
HSP3.7/3.8 は構造体機能が無いため4byte整数配列(dim)+peek/poke で操作(32/64bitでサイズ・位置が異なる場合はタブで分割)。IronHSP は NSTRUCT(#defstruct/stdim/->)で32/64bit共通。
; HSP3.7/3.8 は構造体機能が無いため、4byte整数の配列変数で操作します。(x64 レイアウト)
; MEMORY_DEFECT サイズ: 40 バイト(x64)
dim st, 10 ; 4byte整数×10(構造体サイズ 40 / 4 切り上げ)
; Version : DWORD (+0, 4byte) st.0 = 値 / 値 = st.0 (lpoke/lpeek も可)
; DimmInfo : DIMM_INFO (+4, 32byte) varptr(st)+4 を基点に操作(32byte:入れ子/配列)
; ErrType : PAGE_OFFLINE_ERROR_TYPES (+36, 4byte) st.9 = 値 / 値 = st.9 (lpoke/lpeek も可)
; ※4byte境界の整数は添字 st.N(N=オフセット/4)で読み書き可。それ以外は peek/poke 系を使用。; IronHSP は NSTRUCT(構造体)をサポート。32bit/64bit どちらでも同じコードで動作します。
; ※GUID・入れ子構造体はデフォルト型でないため、依存する #defstruct を先に定義(下記に同梱)。
#defstruct global DIMM_INFO
#field byte DimmAddress 24
#field byte ValidBits 4
#endstruct
#defstruct global MEMORY_DEFECT, pack=1
#field int Version
#field DIMM_INFO DimmInfo
#field int ErrType
#endstruct
stdim st, MEMORY_DEFECT ; NSTRUCT 変数を確保
st->Version = 100
mes "Version=" + st->Version