我尝试将以下C ++结构移植到C#。
#pragma pack(push,1)
struct FatBootSectorStruct {
UCHAR BS_jmpBoot[3]; // 0
UCHAR BS_OEMName[8]; // 3
USHORT BPB_BytsPerSec; // 11
UCHAR BPB_SecPerClus; // 13
USHORT BPB_RsvdSecCnt; // 14
UCHAR BPB_NumFATs; // 16
USHORT BPB_RootEntCnt; // 17
USHORT BPB_TotSec16; // 19
UCHAR BPB_Media; // 21
USHORT BPB_FATSz16; // 22
USHORT BPB_SecPerTrk; // 24
USHORT BPB_NumHeads; // 26
ULONG BPB_HiddSec; // 28
ULONG BPB_TotSec32; // 32
union {
struct {
UCHAR BS_DrvNum; // 36
UCHAR BS_Reserved1; // 37
UCHAR BS_BootSig; // 38
ULONG BS_VolID; // 39
UCHAR BS_VolLab[11]; // 43
UCHAR BS_FilSysType[8]; // 54
UCHAR BS_Reserved2[448]; // 62
} Fat16;
struct {
ULONG BPB_FATSz32; // 36
USHORT BPB_ExtFlags; // 40
USHORT BPB_FSVer; // 42
ULONG BPB_RootClus; // 44
USHORT BPB_FSInfo; // 48
USHORT BPB_BkBootSec; // 50
UCHAR BPB_Reserved[12]; // 52
UCHAR BS_DrvNum; // 64
UCHAR BS_Reserved1; // 65
UCHAR BS_BootSig; // 66
ULONG BS_VolID; // 67
UCHAR BS_VolLab[11]; // 71
UCHAR BS_FilSysType[8]; // 82
UCHAR BPB_Reserved2[420]; // 90
} Fat32;
};
USHORT Signature; // 510
};
这就是我所拥有的:
[StructLayout(LayoutKind.Explicit, Size = 512, Pack=1)]
internal struct FATBootSector
{
[FieldOffset(0)]
public byte[] BS_jmpBoot; // 0
[FieldOffset(3)]
public byte[] BS_OEMName; // 3
[FieldOffset(11)]
public ushort BPB_BytsPerSec; // 11
[FieldOffset(13)]
public byte BPB_SecPerClus; // 13
[FieldOffset(14)]
public ushort BPB_RsvdSecCnt; // 14
[FieldOffset(16)]
public byte BPB_NumFATs; // 16
[FieldOffset(17)]
public ushort BPB_RootEntCnt; // 17
[FieldOffset(19)]
public ushort BPB_TotSec16; // 19
[FieldOffset(21)]
public byte BPB_Media; // 21
[FieldOffset(22)]
public ushort BPB_FATSz16; // 22
[FieldOffset(24)]
public ushort BPB_SecPerTrk; // 24
[FieldOffset(26)]
public ushort BPB_NumHeads; // 26
[FieldOffset(28)]
public ulong BPB_HiddSec; // 28
[FieldOffset(32)]
public ulong BPB_TotSec32; // 32
// FAT16
[FieldOffset(36)]
public byte FAT16_BS_DrvNum; // 36
[FieldOffset(37)]
public byte FAT16_BS_Reserved1; // 37
[FieldOffset(38)]
public byte FAT16_BS_BootSig; // 38
[FieldOffset(39)]
public ulong FAT16_BS_VolID; // 39
[FieldOffset(43)]
public byte[] FAT16_BS_VolLab; // 43
[FieldOffset(54)]
public byte[] FAT16_BS_FilSysType; // 54
[FieldOffset(62)]
public byte[] FAT16_BS_Reserved2; // 62
// FAT32
[FieldOffset(36)]
public ulong FAT32_BPB_FATSz32; // 36
[FieldOffset(40)]
public ushort FAT32_BPB_ExtFlags; // 40
[FieldOffset(42)]
public ushort FAT32_BPB_FSVer; // 42
[FieldOffset(44)]
public ulong FAT32_BPB_RootClus; // 44
[FieldOffset(48)]
public ushort FAT32_BPB_FSInfo; // 48
[FieldOffset(50)]
public ushort FAT32_BPB_BkBootSec; // 50
[FieldOffset(52)]
public byte[] FAT32_BPB_Reserved; // 52
[FieldOffset(64)]
public byte FAT32_BS_DrvNum; // 64
[FieldOffset(65)]
public byte FAT32_BS_Reserved1; // 65
[FieldOffset(66)]
public byte FAT32_BS_BootSig; // 66
[FieldOffset(67)]
public byte FAT32_BS_VolID; // 67
[FieldOffset(71)]
public byte[] BS_VolLab; // 71
[FieldOffset(82)]
public byte[] FAT32_BS_FilSysType; // 82
[FieldOffset(90)]
public byte[] FAT32_BPB_Reserved2; // 90
[FieldOffset(510)]
public ushort Signature;
}
问题在于字段偏移0和3.当我尝试在C#中加载结构时,我得到Could not load type 'FATBootSector' from assembly 'xxxx' because it contains an object field at offset 3 that is incorrectly aligned or overlapped by a non-object field.。我遇到了this previous question on SO,但这似乎没什么帮助。
我也尝试将其更改为如下所示的顺序结构:
[StructLayout(LayoutKind.Sequential, Size = 512, Pack=1, CharSet=CharSet.Ansi)]
internal struct FATBootSector
{
[MarshalAs(UnmanagedType.U1)]
public byte BS_jmpBoot0; // 0
[MarshalAs(UnmanagedType.U1)]
public byte BS_jmpBoot1; // 0
[MarshalAs(UnmanagedType.U1)]
public byte BS_jmpBoot2; // 0
[MarshalAs(UnmanagedType.LPStr, SizeConst=8)]
public string BS_OEMName; // 3
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_BytsPerSec; // 11
[MarshalAs(UnmanagedType.U1)]
public byte BPB_SecPerClus; // 13
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_RsvdSecCnt; // 14
[MarshalAs(UnmanagedType.U1)]
public byte BPB_NumFATs; // 16
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_RootEntCnt; // 17
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_TotSec16; // 19
[MarshalAs(UnmanagedType.U1)]
public byte BPB_Media; // 21
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_FATSz16; // 22
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_SecPerTrk; // 24
[MarshalAs(UnmanagedType.U2)]
public ushort BPB_NumHeads; // 26
[MarshalAs(UnmanagedType.U4)]
public ulong BPB_HiddSec; // 28
[MarshalAs(UnmanagedType.U4)]
public ulong BPB_TotSec32; // 32
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 474)]
public byte[] FAT1632Info;
[MarshalAs(UnmanagedType.U2)]
public ushort Signature;
}
我使用以下代码来获取结构:
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern bool ReadFile(IntPtr hFile, [Out] IntPtr lpBuffer, uint nNumberOfBytesToRead, out uint lpNumberOfBytesRead, [In] ref System.Threading.NativeOverlapped lpOverlapped);
public bool GetPartitionDetails()
{
uint BytesRead;
IntPtr BootSectorPtr = Marshal.AllocHGlobal(512);
PInvoke.FATBootSector BootSector;
System.Threading.NativeOverlapped Overlapped = new System.Threading.NativeOverlapped();
bool ret = PInvoke.ReadFile(this.Handle, BootSectorPtr, (uint)512, out BytesRead, ref Overlapped);
BootSector = (PInvoke.FATBootSector)Marshal.PtrToStructure(BootSectorPtr, typeof(PInvoke.FATBootSector)); // causes access violation
return true;
}
我希望我不必,但我能想到的唯一选择是使用IntPtr迭代内存。有什么想法吗?
答案 0 :(得分:2)
这里有很多问题。首先,你在滥用FieldOffset。当编译器无法为您布局结构时,可以使用它。总而言之,就是你有一个工会。请勿在此处使用FieldOffset。当然不要预先指定尺寸。再次,让编译器这样做。检查本机版本。
然后你错误地处理数组。您不需要fixed,但您需要说明数组的长度。结构的开头应如下所示:
[StructLayout(LayoutKind.Sequential, Pack = 1)]
internal struct FATBootSector
{
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 3)]
public byte[] BS_jmpBoot;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 8)]
public byte[] BS_OEMName;
....
}
其余问题是由错误的类型转换引起的。 C ++中的ULONG是一个4字节无符号类型。那是C#中的uint。您使用宽度为8个字节的ulong。
这是结构的一个版本,它至少可以避免访问冲突:
[StructLayout(LayoutKind.Sequential, Pack = 1)]
internal struct FATBootSector
{
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 3)]
public byte[] BS_jmpBoot;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 8)]
public byte[] BS_OEMName;
public ushort BPB_BytsPerSec;
public byte BPB_SecPerClus;
public ushort BPB_RsvdSecCnt;
public byte BPB_NumFATs;
public ushort BPB_RootEntCnt;
public ushort BPB_TotSec16;
public byte BPB_Media;
public ushort BPB_FATSz16;
public ushort BPB_SecPerTrk;
public ushort BPB_NumHeads;
public uint BPB_HiddSec;
public uint BPB_TotSec32;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 474)]
public byte[] FAT1632Info;
public ushort Signature;
}
要翻译FAT16 / FAT32联合,您可能需要使用fixed。或者有两种FATBootSector类型。一个用于FAT16,一个用于FAT32。
答案 1 :(得分:0)
我决定使用IntPtr来填写结构字段。以下代码遍历内存并获取每个字段。
internal struct FATBootSector
{
public byte[] BS_jmpBoot; // 0
public string BS_OEMName; // 3
public ushort BytesPerSector; // 11
public byte SectorsPerCluster; // 13
public ushort ReservedSectors; // 14
public byte NumberOfFATs; // 16
public ushort RootEntries; // 17
public ushort TotalSectors16; // 19
public byte MediaDescriptor; // 21
public ushort SectorsPerFAT; // 22
public ushort SectorsPerTrack; // 24
public ushort Heads; // 26
public uint HiddenSectors; // 28
public uint TotalSectors32; // 32
public FAT1632Info FAT1632Info;
public ushort Signature;
public FATBootSector(IntPtr ptr)
{
int i;
this.BS_jmpBoot = new byte[3];
for (i = 0; i < 3; i++)
{
this.BS_jmpBoot[i] = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
}
StringBuilder oemInfo = new StringBuilder(8);
for (i = 0; i < 8; i++)
{
char c = (char)Marshal.ReadByte(ptr);
oemInfo.Append(c);
ptr = IntPtr.Add(ptr, 1);
}
this.BS_OEMName = oemInfo.ToString();
this.BytesPerSector = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.SectorsPerCluster = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
this.ReservedSectors = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.NumberOfFATs = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
this.RootEntries = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.TotalSectors16 = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.MediaDescriptor = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
this.SectorsPerFAT = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.SectorsPerTrack = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.Heads = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
this.HiddenSectors = (uint)Marshal.ReadInt32(ptr);
ptr = IntPtr.Add(ptr, 4);
this.TotalSectors32 = (uint)Marshal.ReadInt32(ptr);
ptr = IntPtr.Add(ptr, 4);
this.FAT1632Info = new PInvoke.FAT1632Info(ptr);
ptr = IntPtr.Add(ptr, 474);
this.Signature = (ushort)Marshal.ReadInt16(ptr);
ptr = IntPtr.Add(ptr, 2);
}
}
[StructLayout(LayoutKind.Sequential, Size=474, Pack=1)]
internal struct FAT1632Info
{
// FAT16
public byte FAT16_LogicalDriveNumber; // 36
public byte FAT16_Reserved1; // 37
public byte FAT16_ExtendedSignature; // 38
public uint FAT16_PartitionSerialNumber; // 39
public string FAT16_VolumeName; // 43
public string FAT16_FSType; // 54
public byte[] FAT16_Reserved2; // 62
// FAT32
public uint FAT32_SectorsPerFAT32; // 36
public ushort FAT32_ExtFlags; // 40
public ushort FAT32_FSVer; // 42
public uint FAT32_RootDirStart; // 44
public ushort FAT32_FSInfoSector; // 48
public ushort FAT32_BackupBootSector; // 50
public byte[] FAT32_Reserved1; // 52
public byte FAT32_LogicalDriveNumber; // 64
public byte FAT32_Reserved2; // 65
public byte FAT32_ExtendedSignature; // 66
public uint FAT32_PartitionSerialNumber; // 67
public string FAT32_VolumeName; // 71
public string FAT32_FSType; // 82
public byte[] FAT32_Reserved3; // 90
public FAT1632Info(IntPtr ptr)
{
int i;
IntPtr startPtr = ptr;
// FAT 16
this.FAT16_LogicalDriveNumber = Marshal.ReadByte(ptr); // 0
ptr = IntPtr.Add(ptr, 1);
this.FAT16_Reserved1 = Marshal.ReadByte(ptr); // 1
ptr = IntPtr.Add(ptr, 1);
this.FAT16_ExtendedSignature = Marshal.ReadByte(ptr); // 2
ptr = IntPtr.Add(ptr, 1);
this.FAT16_PartitionSerialNumber = (uint)Marshal.ReadInt32(ptr); // 3
ptr = IntPtr.Add(ptr, 4);
StringBuilder volName16 = new StringBuilder(11);
for (i = 0; i < 11; i++)
{
char c = (char)Marshal.ReadByte(ptr);
volName16.Append(c);
ptr = IntPtr.Add(ptr, 1);
}
this.FAT16_VolumeName = volName16.ToString();
StringBuilder fileSystemType16 = new StringBuilder(8);
for (i = 0; i < 8; i++)
{
char c = (char)Marshal.ReadByte(ptr);
fileSystemType16.Append(c);
ptr = IntPtr.Add(ptr, 1);
}
this.FAT16_FSType = fileSystemType16.ToString();
this.FAT16_Reserved2 = new byte[448];
for (i = 0; i < 448; i++)
{
this.FAT16_Reserved2[i] = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
}
// FAT32
ptr = startPtr;
this.FAT32_SectorsPerFAT32 = (uint)Marshal.ReadInt32(ptr); // 36, 4
ptr = IntPtr.Add(ptr, 4);
this.FAT32_ExtFlags = (ushort)Marshal.ReadInt16(ptr); // 40, 2
ptr = IntPtr.Add(ptr, 2);
this.FAT32_FSVer = (ushort)Marshal.ReadInt16(ptr); // 42, 2
ptr = IntPtr.Add(ptr, 2);
this.FAT32_RootDirStart = (uint)Marshal.ReadInt32(ptr); // 44, 4
ptr = IntPtr.Add(ptr, 4);
this.FAT32_FSInfoSector = (ushort)Marshal.ReadInt16(ptr); // 48, 2
ptr = IntPtr.Add(ptr, 2);
this.FAT32_BackupBootSector = (ushort)Marshal.ReadInt16(ptr); // 50, 2
ptr = IntPtr.Add(ptr, 2);
this.FAT32_Reserved1 = new byte[12]; // 52, 12
for (i=0;i<12;i++)
{
this.FAT32_Reserved1[i] = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
}
this.FAT32_LogicalDriveNumber = (byte)Marshal.ReadByte(ptr); // 64, 1
ptr = IntPtr.Add(ptr, 1);
this.FAT32_Reserved2 = (byte)Marshal.ReadByte(ptr); // 65, 1
ptr = IntPtr.Add(ptr, 1);
this.FAT32_ExtendedSignature = (byte)Marshal.ReadByte(ptr); // 66, 1
ptr = IntPtr.Add(ptr, 1);
this.FAT32_PartitionSerialNumber = (uint)Marshal.ReadInt32(ptr); // 67, 1
ptr = IntPtr.Add(ptr, 4);
StringBuilder volName32 = new StringBuilder(11); // 71, 11
for (i = 0; i < 11; i++)
{
char c = (char)Marshal.ReadByte(ptr);
volName32.Append(c);
ptr = IntPtr.Add(ptr, 1);
}
this.FAT32_VolumeName = volName32.ToString();
StringBuilder fileSystemType32 = new StringBuilder(8); // 82, 8
for (i = 0; i < 8; i++)
{
char c = (char)Marshal.ReadByte(ptr);
fileSystemType32.Append(c);
ptr = IntPtr.Add(ptr, 1);
}
this.FAT32_FSType = fileSystemType32.ToString();
this.FAT32_Reserved3 = new byte[420]; // 90, 420
for (i = 0; i < 420; i++)
{
this.FAT32_Reserved3[i] = Marshal.ReadByte(ptr);
ptr = IntPtr.Add(ptr, 1);
}
}
}