.NET获取硬盘序列号的几个方法

最近作软件注册，收集了很多.NET相关的获取硬盘物理序列号的方法，主要分为使用WMI方式和API方式。但这些方法均可能有问题。

1，使用WMI方式，有的机器根本取不到硬盘序列号，有的方式在Vista下面会报错。

常用的使用WMI的方式主要有下面一些方式：

1. class HardDrive
2.     {
3.         private string model = null;
4.         private string type = null;
5.         private string serialNo = null;
7.         public string Model
8.         {
9.             get {return model;}
10.             set {model = value;}
11.         }
13.         public string Type
14.         {
15.             get {return type;}
16.             set {type = value;}
17.         }
19.         public string SerialNo
20.         {
21.             get {return serialNo;}
22.             set {serialNo = value;}
23.         }
24.     }
26.     class TestProgram
27.     {
28.         /// <summary>
29.         /// The main entry point for the application.
30.         /// </summary>
31.         [STAThread]
32.         static void Main(string[] args)
33.         {
34.             //在Vista下面失败
35.             ArrayList hdCollection = new ArrayList();
37.             ManagementObjectSearcher searcher = new
38.                 ManagementObjectSearcher("SELECT * FROM Win32_DiskDrive");
40.             foreach(ManagementObject wmi_HD in searcher.Get())
41.             {
42.                 HardDrive hd = new HardDrive();
43.                 hd.Model    = wmi_HD["Model"].ToString();
44.                 hd.Type     = wmi_HD["InterfaceType"].ToString();
46.                 hdCollection.Add(hd);
47.             }
49.             searcher = new
50.                 ManagementObjectSearcher("SELECT * FROM Win32_PhysicalMedia");
52.             int i = 0;
53.             foreach(ManagementObject wmi_HD in searcher.Get())
54.             {
55.                 // get the hard drive from collection
56.                 // using index
57.                 HardDrive hd = (HardDrive)hdCollection[i];
59.                 // get the hardware serial no.
60.                 if (wmi_HD["SerialNumber"] == null)
61.                     hd.SerialNo = "None";
62.                 else
63.                     hd.SerialNo = wmi_HD["SerialNumber"].ToString();
65.                 ++i;
66.             }
68.             // Display available hard drives
69.             foreach(HardDrive hd in hdCollection)
70.             {
71.                 Console.WriteLine("Model/t/t: " + hd.Model);
72.                 Console.WriteLine("Type/t/t: " + hd.Type);
73.                 Console.WriteLine("Serial No./t: " + hd.SerialNo);
74.                 Console.WriteLine();
75.             }
77.             // Pause application
78.             Console.WriteLine("Press [Enter] to exit...");
79.             Console.ReadLine();
80.         }
81.     }

 上面的方式先查询Win32_DiskDrive，然后再查询 Win32_PhysicalMedia，经过测试，这种方式不能保证在所有机器上均取得硬盘序列号，而且在Vista下面还会出错，程序直接抛出无法处理的异常。

 

另外，还可以使用另外一WMI方式，就是查询 PNPDeviceID 的 signature，代码如下：

1. /// <summary>
2.        /// 获取硬盘唯一序列号（不是卷标号），可能需要以管理员身份运行程序
3.        /// </summary>
4.        /// <returns></returns>
5.         public static string GetHdId()
6.         {
7.             ManagementObjectSearcher wmiSearcher = new ManagementObjectSearcher();
8.             /*
9.              * PNPDeviceID   的数据是由四部分组成的：   
10.   1、接口，通常有   IDE，ATA，SCSI；   
11.   2、型号   
12.   3、（可能）驱动版本号   
13.   4、（可能）硬盘的出厂序列号   
14.              * 
15.              * 
16.              */
19.             //signature 需要程序以管理员身份运行（经过测试，2003系统上非管理员身份也可以运行，查相关资料说，可能在2000系统上获取的值为空）
21.             wmiSearcher.Query = new SelectQuery(
22.             "Win32_DiskDrive",
23.             "",
24.             new string[] { "PNPDeviceID", "signature" }
25.             );
26.             ManagementObjectCollection myCollection = wmiSearcher.Get();
27.             ManagementObjectCollection.ManagementObjectEnumerator em =
28.             myCollection.GetEnumerator();
29.             em.MoveNext();
30.             ManagementBaseObject mo = em.Current;
31.             //string id = mo.Properties["PNPDeviceID"].Value.ToString().Trim();
32.             string id = mo.Properties["signature"].Value.ToString().Trim();
33.             return id;
34.         }

 

有人说，使用 signature 需要程序以管理员身份运行（经过测试，2003系统上非管理员身份也可以运行），而且查询相关资料说，可能在2000系统上获取的值为空。

使用这种方式，在Vista上面工作良好。

经过测试，使用 signature  均能够取得硬盘序列号，但是跟 Win32_PhysicalMedia 查询出来的号不一样。目前我也不能肯定 使用 signature  能够100%取道硬盘序列号。

 

使用WMI方式需要客户机开启WMI服务，但这个往往不能保证，所以使用这种方式有一定局限性。

 

2，使用API方式。

在网上找到一片资料，说使用 RING3调用 API DeviceIoControl()来获取硬盘信息，下面是原话：

硬盘序列号（Serial Number）不等于卷标号（Volume Name），后者虽然很容易得到，但是格式化分区后就会重写，不可靠。遗憾的是很多朋友往往分不清这一点。

要得到硬盘的物理序列号，可以通过WMI，也就是Win32_PhysicalMedia.SerialNumber。可惜的是Windows 98/ME的WMI并不支持这个类，访问时会出现异常。

受陆麟的例子的启发，我们还可以通过S.M.A.R.T.接口，直接从RING3调用 API DeviceIoControl()来获取硬盘信息，而不需要写VXD或者DRIVER。这样这个问题就解决了，我对它进行了封装，大量使用了 P/Invoke技术，一个完整的Library。支持Windows 98-2003。

使用上很简单：

HardDiskInfo hdd = AtapiDevice.GetHddInfo(0); // 第一个硬盘
Console.WriteLine("Module Number: {0}", hdd.ModuleNumber);
Console.WriteLine("Serial Number: {0}", hdd.SerialNumber);
Console.WriteLine("Firmware: {0}", hdd.Firmware);
Console.WriteLine("Capacity: {0} M", hdd.Capacity);

 

感谢原文作者的贡献，（在这里我已经不知道原文作者是谁了，网上的文章都是转载的），经过测试，这种方式比较准确，但是需要管理员权限运行。

下面把代码分享：

1. using System;
2. using System.Runtime.InteropServices;
3. using System.Text;
5. namespace HardwareUtility
6. {
7.     [Serializable]
8.     public struct HardDiskInfo
9.     {
10.         /// <summary>
11.         /// 型号
12.         /// </summary>
13.         public string ModuleNumber;
14.         /// <summary>
15.         /// 固件版本
16.         /// </summary>
17.         public string Firmware;
18.         /// <summary>
19.         /// 序列号
20.         /// </summary>
21.         public string SerialNumber;
22.         /// <summary>
23.         /// 容量，以M为单位
24.         /// </summary>
25.         public uint Capacity;
26.     }
28.     #region Internal Structs
30.     [StructLayout(LayoutKind.Sequential, Pack = 1)]
31.     internal struct GetVersionOutParams
32.     {
33.         public byte bVersion;
34.         public byte bRevision;
35.         public byte bReserved;
36.         public byte bIDEDeviceMap;
37.         public uint fCapabilities;
38.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 4)]
39.         public uint[] dwReserved; // For future use.
40.     }
42.     [StructLayout(LayoutKind.Sequential, Pack = 1)]
43.     internal struct IdeRegs
44.     {
45.         public byte bFeaturesReg;
46.         public byte bSectorCountReg;
47.         public byte bSectorNumberReg;
48.         public byte bCylLowReg;
49.         public byte bCylHighReg;
50.         public byte bDriveHeadReg;
51.         public byte bCommandReg;
52.         public byte bReserved;
53.     }
55.     [StructLayout(LayoutKind.Sequential, Pack = 1)]
56.     internal struct SendCmdInParams
57.     {
58.         public uint cBufferSize;
59.         public IdeRegs irDriveRegs;
60.         public byte bDriveNumber;
61.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 3)]
62.         public byte[] bReserved;
63.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 4)]
64.         public uint[] dwReserved;
65.         public byte bBuffer;
66.     }
68.     [StructLayout(LayoutKind.Sequential, Pack = 1)]
69.     internal struct DriverStatus
70.     {
71.         public byte bDriverError;
72.         public byte bIDEStatus;
73.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 2)]
74.         public byte[] bReserved;
75.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 2)]
76.         public uint[] dwReserved;
77.     }
79.     [StructLayout(LayoutKind.Sequential, Pack = 1)]
80.     internal struct SendCmdOutParams
81.     {
82.         public uint cBufferSize;
83.         public DriverStatus DriverStatus;
84.         public IdSector bBuffer;
85.     }
87.     [StructLayout(LayoutKind.Sequential, Pack = 1, Size = 512)]
88.     internal struct IdSector
89.     {
90.         public ushort wGenConfig;
91.         public ushort wNumCyls;
92.         public ushort wReserved;
93.         public ushort wNumHeads;
94.         public ushort wBytesPerTrack;
95.         public ushort wBytesPerSector;
96.         public ushort wSectorsPerTrack;
97.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 3)]
98.         public ushort[] wVendorUnique;
99.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 20)]
100.         public byte[] sSerialNumber;
101.         public ushort wBufferType;
102.         public ushort wBufferSize;
103.         public ushort wECCSize;
104.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 8)]
105.         public byte[] sFirmwareRev;
106.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 40)]
107.         public byte[] sModelNumber;
108.         public ushort wMoreVendorUnique;
109.         public ushort wDoubleWordIO;
110.         public ushort wCapabilities;
111.         public ushort wReserved1;
112.         public ushort wPIOTiming;
113.         public ushort wDMATiming;
114.         public ushort wBS;
115.         public ushort wNumCurrentCyls;
116.         public ushort wNumCurrentHeads;
117.         public ushort wNumCurrentSectorsPerTrack;
118.         public uint ulCurrentSectorCapacity;
119.         public ushort wMultSectorStuff;
120.         public uint ulTotalAddressableSectors;
121.         public ushort wSingleWordDMA;
122.         public ushort wMultiWordDMA;
123.         [MarshalAs(UnmanagedType.ByValArray, SizeConst = 128)]
124.         public byte[] bReserved;
125.     }
127.     #endregion
129.     /// <summary>
130.     /// ATAPI驱动器相关
131.     /// </summary>
132.     public class AtapiDevice
133.     {
135.         #region DllImport
137.         [DllImport("kernel32.dll", SetLastError = true)]
138.         static extern int CloseHandle(IntPtr hObject);
140.         [DllImport("kernel32.dll", SetLastError = true)]
141.         static extern IntPtr CreateFile(
142.             string lpFileName,
143.             uint dwDesiredAccess,
144.             uint dwShareMode,
145.             IntPtr lpSecurityAttributes,
146.             uint dwCreationDisposition,
147.             uint dwFlagsAndAttributes,
148.             IntPtr hTemplateFile);
150.         [DllImport("kernel32.dll")]
151.         static extern int DeviceIoControl(
152.             IntPtr hDevice,
153.             uint dwIoControlCode,
154.             IntPtr lpInBuffer,
155.             uint nInBufferSize,
156.             ref GetVersionOutParams lpOutBuffer,
157.             uint nOutBufferSize,
158.             ref uint lpBytesReturned,
159.             [Out] IntPtr lpOverlapped);
161.         [DllImport("kernel32.dll")]
162.         static extern int DeviceIoControl(
163.             IntPtr hDevice,
164.             uint dwIoControlCode,
165.             ref SendCmdInParams lpInBuffer,
166.             uint nInBufferSize,
167.             ref SendCmdOutParams lpOutBuffer,
168.             uint nOutBufferSize,
169.             ref uint lpBytesReturned,
170.             [Out] IntPtr lpOverlapped);
172.         const uint DFP_GET_VERSION = 0x00074080;
173.         const uint DFP_SEND_DRIVE_COMMAND = 0x0007c084;
174.         const uint DFP_RECEIVE_DRIVE_DATA = 0x0007c088;
176.         const uint GENERIC_READ = 0x80000000;
177.         const uint GENERIC_WRITE = 0x40000000;
178.         const uint FILE_SHARE_READ = 0x00000001;
179.         const uint FILE_SHARE_WRITE = 0x00000002;
180.         const uint CREATE_NEW = 1;
181.         const uint OPEN_EXISTING = 3;
183.         #endregion
185.         #region GetHddInfo
187.         /// <summary>
188.         /// 获得硬盘信息
189.         /// </summary>
190.         /// <param name="driveIndex">硬盘序号</param>
191.         /// <returns>硬盘信息</returns>
192.         /// <remarks>
193.         /// 参考lu0的文章：http://lu0s1.3322.org/App/2k1103.html
194.         /// by sunmast for everyone
195.         /// thanks lu0 for his great works
196.         /// 在Windows 98/ME中，S.M.A.R.T并不缺省安装，请将SMARTVSD.VXD拷贝到%SYSTEM%/IOSUBSYS目录下。
197.         /// 在Windows 2000/2003下，需要Administrators组的权限。
198.         /// </remarks>
199.         /// <example>
200.         /// AtapiDevice.GetHddInfo()
201.         /// </example>
202.         public static HardDiskInfo GetHddInfo(byte driveIndex)
203.         {
204.             switch (Environment.OSVersion.Platform)
205.             {
206.                 case PlatformID.Win32Windows:
207.                     return GetHddInfo9x(driveIndex);
208.                 case PlatformID.Win32NT:
209.                     return GetHddInfoNT(driveIndex);
210.                 case PlatformID.Win32S:
211.                     throw new NotSupportedException("Win32s is not supported.");
212.                 case PlatformID.WinCE:
213.                     throw new NotSupportedException("WinCE is not supported.");
214.                 default:
215.                     throw new NotSupportedException("Unknown Platform.");
216.             }
217.         }
219.         #region GetHddInfo9x
221.         private static HardDiskInfo GetHddInfo9x(byte driveIndex)
222.         {
223.             GetVersionOutParams vers = new GetVersionOutParams();
224.             SendCmdInParams inParam = new SendCmdInParams();
225.             SendCmdOutParams outParam = new SendCmdOutParams();
226.             uint bytesReturned = 0;
228.             IntPtr hDevice = CreateFile(
229.                 @"//./Smartvsd",
230.                 0,
231.                 0,
232.                 IntPtr.Zero,
233.                 CREATE_NEW,
234.                 0,
235.                 IntPtr.Zero);
236.             if (hDevice == IntPtr.Zero)
237.             {
238.                 throw new Exception("Open smartvsd.vxd failed.");
239.             }
240.             if (0 == DeviceIoControl(
241.                 hDevice,
242.                 DFP_GET_VERSION,
243.                 IntPtr.Zero,
244.                 0,
245.                 ref vers,
246.                 (uint)Marshal.SizeOf(vers),
247.                 ref bytesReturned,
248.                 IntPtr.Zero))
249.             {
250.                 CloseHandle(hDevice);
251.                 throw new Exception("DeviceIoControl failed:DFP_GET_VERSION");
252.             }
253.             // If IDE identify command not supported, fails
254.             if (0 == (vers.fCapabilities & 1))
255.             {
256.                 CloseHandle(hDevice);
257.                 throw new Exception("Error: IDE identify command not supported.");
258.             }
259.             if (0 != (driveIndex & 1))
260.             {
261.                 inParam.irDriveRegs.bDriveHeadReg = 0xb0;
262.             }
263.             else
264.             {
265.                 inParam.irDriveRegs.bDriveHeadReg = 0xa0;
266.             }
267.             if (0 != (vers.fCapabilities & (16 >> driveIndex)))
268.             {
269.                 // We don't detect a ATAPI device.
270.                 CloseHandle(hDevice);
271.                 throw new Exception(string.Format("Drive {0} is a ATAPI device, we don't detect it", driveIndex + 1));
272.             }
273.             else
274.             {
275.                 inParam.irDriveRegs.bCommandReg = 0xec;
276.             }
277.             inParam.bDriveNumber = driveIndex;
278.             inParam.irDriveRegs.bSectorCountReg = 1;
279.             inParam.irDriveRegs.bSectorNumberReg = 1;
280.             inParam.cBufferSize = 512;
281.             if (0 == DeviceIoControl(
282.                 hDevice,
283.                 DFP_RECEIVE_DRIVE_DATA,
284.                 ref inParam,
285.                 (uint)Marshal.SizeOf(inParam),
286.                 ref outParam,
287.                 (uint)Marshal.SizeOf(outParam),
288.                 ref bytesReturned,
289.                 IntPtr.Zero))
290.             {
291.                 CloseHandle(hDevice);
292.                 throw new Exception("DeviceIoControl failed: DFP_RECEIVE_DRIVE_DATA");
293.             }
294.             CloseHandle(hDevice);
296.             return GetHardDiskInfo(outParam.bBuffer);
297.         }
299.         #endregion
301.         #region GetHddInfoNT
303.         private static HardDiskInfo GetHddInfoNT(byte driveIndex)
304.         {
305.             GetVersionOutParams vers = new GetVersionOutParams();
306.             SendCmdInParams inParam = new SendCmdInParams();
307.             SendCmdOutParams outParam = new SendCmdOutParams();
308.             uint bytesReturned = 0;
310.             // We start in NT/Win2000
311.             IntPtr hDevice = CreateFile(
312.                 string.Format(@"//./PhysicalDrive{0}", driveIndex),
313.                 GENERIC_READ | GENERIC_WRITE,
314.                 FILE_SHARE_READ | FILE_SHARE_WRITE,
315.                 IntPtr.Zero,
316.                 OPEN_EXISTING,
317.                 0,
318.                 IntPtr.Zero);
319.             if (hDevice == IntPtr.Zero)
320.             {
321.                 throw new Exception("CreateFile faild.");
322.             }
323.             if (0 == DeviceIoControl(
324.                 hDevice,
325.                 DFP_GET_VERSION,
326.                 IntPtr.Zero,
327.                 0,
328.                 ref vers,
329.                 (uint)Marshal.SizeOf(vers),
330.                 ref bytesReturned,
331.                 IntPtr.Zero))
332.             {
333.                 CloseHandle(hDevice);
334.                 throw new Exception(string.Format("Drive {0} may not exists.", driveIndex + 1));
335.             }
336.             // If IDE identify command not supported, fails
337.             if (0 == (vers.fCapabilities & 1))
338.             {
339.                 CloseHandle(hDevice);
340.                 throw new Exception("Error: IDE identify command not supported.");
341.             }
342.             // Identify the IDE drives
343.             if (0 != (driveIndex & 1))
344.             {
345.                 inParam.irDriveRegs.bDriveHeadReg = 0xb0;
346.             }
347.             else
348.             {
349.                 inParam.irDriveRegs.bDriveHeadReg = 0xa0;
350.             }
351.             if (0 != (vers.fCapabilities & (16 >> driveIndex)))
352.             {
353.                 // We don't detect a ATAPI device.
354.                 CloseHandle(hDevice);
355.                 throw new Exception(string.Format("Drive {0} is a ATAPI device, we don't detect it.", driveIndex + 1));
356.             }
357.             else
358.             {
359.                 inParam.irDriveRegs.bCommandReg = 0xec;
360.             }
361.             inParam.bDriveNumber = driveIndex;
362.             inParam.irDriveRegs.bSectorCountReg = 1;
363.             inParam.irDriveRegs.bSectorNumberReg = 1;
364.             inParam.cBufferSize = 512;
366.             if (0 == DeviceIoControl(
367.                 hDevice,
368.                 DFP_RECEIVE_DRIVE_DATA,
369.                 ref inParam,
370.                 (uint)Marshal.SizeOf(inParam),
371.                 ref outParam,
372.                 (uint)Marshal.SizeOf(outParam),
373.                 ref bytesReturned,
374.                 IntPtr.Zero))
375.             {
376.                 CloseHandle(hDevice);
377.                 throw new Exception("DeviceIoControl failed: DFP_RECEIVE_DRIVE_DATA");
378.             }
379.             CloseHandle(hDevice);
381.             return GetHardDiskInfo(outParam.bBuffer);
382.         }
384.         #endregion
386.         private static HardDiskInfo GetHardDiskInfo(IdSector phdinfo)
387.         {
388.             HardDiskInfo hddInfo = new HardDiskInfo();
390.             ChangeByteOrder(phdinfo.sModelNumber);
391.             hddInfo.ModuleNumber = Encoding.ASCII.GetString(phdinfo.sModelNumber).Trim();
393.             ChangeByteOrder(phdinfo.sFirmwareRev);
394.             hddInfo.Firmware = Encoding.ASCII.GetString(phdinfo.sFirmwareRev).Trim();
396.             ChangeByteOrder(phdinfo.sSerialNumber);
397.             hddInfo.SerialNumber = Encoding.ASCII.GetString(phdinfo.sSerialNumber).Trim();
399.             hddInfo.Capacity = phdinfo.ulTotalAddressableSectors / 2 / 1024;
401.             return hddInfo;
402.         }
404.         private static void ChangeByteOrder(byte[] charArray)
405.         {
406.             byte temp;
407.             for (int i = 0; i < charArray.Length; i += 2)
408.             {
409.                 temp = charArray[i];
410.                 charArray[i] = charArray[i + 1];
411.                 charArray[i + 1] = temp;
412.             }
413.         }
415.         #endregion
416.     }
417. }