前言
在客戶端認證的過程中,我們總要獲取客戶機的唯一識別信息,曾經以為MAC地址是不會變的,但是現在各種改,特別是使用無線上網卡,MAC地址插一次變一次,所以這樣使用MAC就沒有什么意義了,怎么辦,又開始求助Google,最后找到一個折中的方案
原理
通過獲取主板、處理器、BIOS、mac、顯卡、硬盤等的ID生成唯一識別碼
建議
1、使用那些不經常更換的模塊來生成識別碼。
2、如果經常更換MAC,顯卡,硬盤,則不要使用這些ID。
3、確保使用static變量在整個應用來保存唯一識別碼。
實現
注意引用System.Management
using System; using System.Management; using System.Security.Cryptography; using System.Security; using System.Collections; using System.Text; namespace Security { /// <summary> /// Generates a 16 byte Unique Identification code of a computer /// Example: 4876-8DB5-EE85-69D3-FE52-8CF7-395D-2EA9 /// </summary> public class FingerPrint { private static string fingerPrint = string.Empty; public static string Value() { if (string.IsNullOrEmpty(fingerPrint)) { fingerPrint = GetHash("CPU >> " + cpuId() + "\nBIOS >> " + biosId() + "\nBASE >> " + baseId() //+"\nDISK >> "+ diskId() + "\nVIDEO >> " + videoId() +"\nMAC >> "+ macId() ); } return fingerPrint; } private static string GetHash(string s) { MD5 sec = new MD5CryptoServiceProvider(); ASCIIEncoding enc = new ASCIIEncoding(); byte[] bt = enc.GetBytes(s); return GetHexString(sec.ComputeHash(bt)); } private static string GetHexString(byte[] bt) { string s = string.Empty; for (int i = 0; i < bt.Length; i++) { byte b = bt[i]; int n, n1, n2; n = (int)b; n1 = n & 15; n2 = (n >> 4) & 15; if (n2 > 9) s += ((char)(n2 - 10 + (int)'A')).ToString(); else s += n2.ToString(); if (n1 > 9) s += ((char)(n1 - 10 + (int)'A')).ToString(); else s += n1.ToString(); if ((i + 1) != bt.Length && (i + 1) % 2 == 0) s += "-"; } return s; } #region Original Device ID Getting Code //Return a hardware identifier private static string identifier (string wmiClass, string wmiProperty, string wmiMustBeTrue) { string result = ""; System.Management.ManagementClass mc = new System.Management.ManagementClass(wmiClass); System.Management.ManagementObjectCollection moc = mc.GetInstances(); foreach (System.Management.ManagementObject mo in moc) { if (mo[wmiMustBeTrue].ToString() == "True") { //Only get the first one if (result == "") { try { result = mo[wmiProperty].ToString(); break; } catch { } } } } return result; } //Return a hardware identifier private static string identifier(string wmiClass, string wmiProperty) { string result = ""; System.Management.ManagementClass mc = new System.Management.ManagementClass(wmiClass); System.Management.ManagementObjectCollection moc = mc.GetInstances(); foreach (System.Management.ManagementObject mo in moc) { //Only get the first one if (result == "") { try { result = mo[wmiProperty].ToString(); break; } catch { } } } return result; } private static string cpuId() { //Uses first CPU identifier available in order of preference //Don't get all identifiers, as it is very time consuming string retVal = identifier("Win32_Processor", "UniqueId"); if (retVal == "") //If no UniqueID, use ProcessorID { retVal = identifier("Win32_Processor", "ProcessorId"); if (retVal == "") //If no ProcessorId, use Name { retVal = identifier("Win32_Processor", "Name"); if (retVal == "") //If no Name, use Manufacturer { retVal = identifier("Win32_Processor", "Manufacturer"); } //Add clock speed for extra security retVal += identifier("Win32_Processor", "MaxClockSpeed"); } } return retVal; } //BIOS Identifier private static string biosId() { return identifier("Win32_BIOS", "Manufacturer") + identifier("Win32_BIOS", "SMBIOSBIOSVersion") + identifier("Win32_BIOS", "IdentificationCode") + identifier("Win32_BIOS", "SerialNumber") + identifier("Win32_BIOS", "ReleaseDate") + identifier("Win32_BIOS", "Version"); } //Main physical hard drive ID private static string diskId() { return identifier("Win32_DiskDrive", "Model") + identifier("Win32_DiskDrive", "Manufacturer") + identifier("Win32_DiskDrive", "Signature") + identifier("Win32_DiskDrive", "TotalHeads"); } //Motherboard ID private static string baseId() { return identifier("Win32_BaseBoard", "Model") + identifier("Win32_BaseBoard", "Manufacturer") + identifier("Win32_BaseBoard", "Name") + identifier("Win32_BaseBoard", "SerialNumber"); } //Primary video controller ID private static string videoId() { return identifier("Win32_VideoController", "DriverVersion") + identifier("Win32_VideoController", "Name"); } //First enabled network card ID private static string macId() { return identifier("Win32_NetworkAdapterConfiguration", "MACAddress", "IPEnabled"); } #endregion } }
參考
http://www.codeproject.com/Articles/28678/Generating-Unique-Key-Finger-Print-for-a-Computer
補充
現在遇到一些平板等簡陋的機型,竟然獲取到的所有設備標識都一樣(除了mac),最后只好在本地再生成一個軟件自身的標識,然后每次在計算標識的時候附帶上,這樣不會再重復了吧。
代碼如下:
private static string localkey() { string path=Environment.CurrentDirectory + "client.key"; if (File.Exists(path)) { StreamReader sr = new StreamReader(path); string key= sr.ReadLine(); sr.Close(); return key; } else { StreamWriter sw = File.CreateText(path); string key = Guid.NewGuid().ToString(); sw.WriteLine(key); sw.Close(); return key; } }
可以再把該文件設為隱藏等手段,防止用戶誤操作。
補充2
文件容易被誤刪,還可以寫入注冊表,除非系統重裝,但是需要以管理員權限運行
1 class RegistryHelper 2 { 3 const string _uriDeviecId = "SOFTWARE\\YourCompany\\YouApp"; 4 public static string GetDeviceId() 5 { 6 string ret = string.Empty; 7 using (var obj = Registry.LocalMachine.OpenSubKey(_uriDeviecId, false)) 8 { 9 if (obj != null) 10 { 11 var value = obj.GetValue("DeviceId"); 12 if (value != null) 13 ret = Convert.ToString(value); 14 } 15 } 16 return ret; 17 } 18 19 public static void SetDeviceId() 20 { 21 using (MD5 md5Hash = MD5.Create()) 22 { 23 byte[] data = md5Hash.ComputeHash(Encoding.UTF8.GetBytes(DateTime.Now.ToString())); 24 StringBuilder sBuilder = new StringBuilder(); 25 for (int i = 0; i < data.Length; i++) 26 { 27 sBuilder.Append(data[i].ToString("x2")); 28 } 29 30 string id = sBuilder.ToString(); 31 using (var tempk = Registry.LocalMachine.CreateSubKey(_uriDeviecId)) 32 { 33 tempk.SetValue("DeviceId", id); 34 } 35 } 36 } 37 }