WebApi實現用戶端與伺服器之間的資料交換加密

本文主要介紹了WebApi實現通訊加密的方法，具有很好的參考價值，下面跟著小編一起來看下吧

一. 情境介紹:

如題如何有效,最少量的現有代碼侵入從而實現用戶端與伺服器之間的資料交換加密呢?

二. 探究:

1.需求分析

webapi服務端 有如下介面:

public class ApiTestController : ApiController{ // GET api/<controller>/5 public object Get(int id) {  return "value" + id; }}ApiTestController

無加密請求

GET /api/apitest?id=10

返回結果

response "value10"

我們想要達到的效果為:

Get /api/apitest?aWQ9MTA=
response InZhbHVlMTAi (解密所得 "value10")

或者更多其它方式加密

2.功能分析

要想對現有代碼不做任何修改, 我們都知道所有api controller 初始化在router確定之後, 因此我們應在router之前將GET參數和POST的參數進行加密才行.

看 webapi 生命週期:

我們看到在 路由routing 之前 有DelegationgHander 層進行訊息處理.

因為我們要對每個請求進行參數解密處理,並且又將返回訊息進行加密處理, 因此我們 瞄準 MessageProcessingHandler

 // // 摘要: //  A base type for handlers which only do some small processing of request and/or //  response messages. public abstract class MessageProcessingHandler : DelegatingHandler {  //  // 摘要:  //  Creates an instance of a System.Net.Http.MessageProcessingHandler class.  protected MessageProcessingHandler();  //  // 摘要:  //  Creates an instance of a System.Net.Http.MessageProcessingHandler class with  //  a specific inner handler.  //  // 參數:  // innerHandler:  //  The inner handler which is responsible for processing the HTTP response messages.  protected MessageProcessingHandler(HttpMessageHandler innerHandler);  //  // 摘要:  //  Performs processing on each request sent to the server.  //  // 參數:  // request:  //  The HTTP request message to process.  //  // cancellationToken:  //  A cancellation token that can be used by other objects or threads to receive  //  notice of cancellation.  //  // 返回結果:  //  Returns System.Net.Http.HttpRequestMessage.The HTTP request message that was  //  processed.  protected abstract HttpRequestMessage ProcessRequest(HttpRequestMessage request, CancellationToken cancellationToken);  //  // 摘要:  //  Perform processing on each response from the server.  //  // 參數:  // response:  //  The HTTP response message to process.  //  // cancellationToken:  //  A cancellation token that can be used by other objects or threads to receive  //  notice of cancellation.  //  // 返回結果:  //  Returns System.Net.Http.HttpResponseMessage.The HTTP response message that was  //  processed.  protected abstract HttpResponseMessage ProcessResponse(HttpResponseMessage response, CancellationToken cancellationToken);  //  // 摘要:  //  Sends an HTTP request to the inner handler to send to the server as an asynchronous  //  operation.  //  // 參數:  // request:  //  The HTTP request message to send to the server.  //  // cancellationToken:  //  A cancellation token that can be used by other objects or threads to receive  //  notice of cancellation.  //  // 返回結果:  //  Returns System.Threading.Tasks.Task`1.The task object representing the asynchronous  //  operation.  //  // 異常:  // T:System.ArgumentNullException:  //  The request was null.  protected internal sealed override Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken); }MessageProcessingHandler

三. 實踐:

現在我們將來 先實現2個版本的通訊加密解密功能,定為 版本1.0 base64加密, 版本1.1 Des加密

/// <summary> /// 加密解密介面 /// </summary> public interface IMessageEnCryption {  /// <summary>  /// 加密  /// </summary>  /// <param name="content"></param>  /// <returns></returns>  string Encode(string content);  /// <summary>  /// 解密  /// </summary>  /// <param name="content"></param>  /// <returns></returns>  string Decode(string content); }IMessageEnCryption

編寫版本1.0 base64加密解密

/// <summary> /// 加解密 只做 base64 /// </summary> public class MessageEncryptionVersion1_0 : IMessageEnCryption {  public string Decode(string content)  {   return content?.DecryptBase64();  }  public string Encode(string content)  {   return content.EncryptBase64();  } }MessageEncryptionVersion1_0

編寫版本1.1 des加密解密

/// <summary> /// 資料加解密 des /// </summary> public class MessageEncryptionVersion1_1 : IMessageEnCryption {  public static readonly string KEY = "fHil/4]0";  public string Decode(string content)  {   return content.DecryptDES(KEY);  }  public string Encode(string content)  {   return content.EncryptDES(KEY);  } }MessageEncryptionVersion1_1

附上加密解密的基本的一個封裝類

public static class EncrypExtends {  //預設密鑰向量  private static byte[] Keys = { 0x12, 0x34, 0x56, 0x78, 0x90, 0xAB, 0xCD, 0xEF };  internal static string Key = "*@&$(@#H";  //// <summary>  /// DES加密字串  /// </summary>  /// <param name="encryptString">待加密的字串</param>  /// <param name="encryptKey">加密金鑰,要求為8位</param>  /// <returns>加密成功返回加密後的字串，失敗返回源串</returns>  public static string EncryptDES(this string encryptString, string encryptKey)  {   try   {    byte[] rgbKey = Encoding.UTF8.GetBytes(encryptKey.Substring(0, 8));    byte[] rgbIV = Keys;    byte[] inputByteArray = Encoding.UTF8.GetBytes(encryptString);    DESCryptoServiceProvider dCSP = new DESCryptoServiceProvider();    MemoryStream mStream = new MemoryStream();    CryptoStream cStream = new CryptoStream(mStream, dCSP.CreateEncryptor(rgbKey, rgbIV), CryptoStreamMode.Write);    cStream.Write(inputByteArray, 0, inputByteArray.Length);    cStream.FlushFinalBlock();    return Convert.ToBase64String(mStream.ToArray());   }   catch   {    return encryptString;   }  }  //// <summary>  /// DES解密字串  /// </summary>  /// <param name="decryptString">待解密的字串</param>  /// <param name="decryptKey">解密密鑰,要求為8位,和加密金鑰相同</param>  /// <returns>解密成功返回解密後的字串，失敗返源串</returns>  public static string DecryptDES(this string decryptString, string key)  {   try   {    byte[] rgbKey = Encoding.UTF8.GetBytes(key.Substring(0, 8));    byte[] rgbIV = Keys;    byte[] inputByteArray = Convert.FromBase64String(decryptString);    DESCryptoServiceProvider DCSP = new DESCryptoServiceProvider();    MemoryStream mStream = new MemoryStream();    CryptoStream cStream = new CryptoStream(mStream, DCSP.CreateDecryptor(rgbKey, rgbIV), CryptoStreamMode.Write);    cStream.Write(inputByteArray, 0, inputByteArray.Length);    cStream.FlushFinalBlock();    return Encoding.UTF8.GetString(mStream.ToArray());   }   catch   {    return decryptString;   }  }  public static string EncryptBase64(this string encryptString)  {   return Convert.ToBase64String(Encoding.UTF8.GetBytes(encryptString));  }  public static string DecryptBase64(this string encryptString)  {   return Encoding.UTF8.GetString(Convert.FromBase64String(encryptString));  }  public static string DecodeUrl(this string cryptString)  {   return System.Web.HttpUtility.UrlDecode(cryptString);  }  public static string EncodeUrl(this string cryptString)  {   return System.Web.HttpUtility.UrlEncode(cryptString);  } }EncrypExtends

OK! 到此我們前題工作已經完成了80%,開始進行HTTP請求的 訊息進和出的加密解密功能的實現.

我們暫時將加密的版本資訊定義為 HTTP header頭中 以 api_version 的value 來判別分別是用何種方式加密解密

header例:

　　api_version: 1.0

　　api_version: 1.1

/// <summary> /// API訊息請求處理 /// </summary> public class JoyMessageHandler : MessageProcessingHandler {  /// <summary>  /// 接收到request時 處理  /// </summary>  /// <param name="request"></param>  /// <param name="cancellationToken"></param>  /// <returns></returns>  protected override HttpRequestMessage ProcessRequest(HttpRequestMessage request, CancellationToken cancellationToken)  {   if (request.Content.IsMimeMultipartContent())    return request;   // 擷取要求標頭中 api_version版本號碼   var ver = System.Web.HttpContext.Current.Request.Headers.GetValues("api_version")?.FirstOrDefault();   // 根據api_version版本號碼擷取加密對象, 如果為null 則不需要加密   var encrypt = MessageEncryptionCreator.GetInstance(ver);   if (encrypt != null)   {    // 讀取請求body中的資料    string baseContent = request.Content.ReadAsStringAsync().Result;    // 擷取加密的資訊    // 相容 body: 加密資料 和 body: code=加密資料    baseContent = baseContent.Match("(code=)*(?<code>[\\S]+)", 2);    // URL解碼資料    baseContent = baseContent.DecodeUrl();    // 用加密對象解密資料    baseContent = encrypt.Decode(baseContent);    string baseQuery = string.Empty;    if (!request.RequestUri.Query.IsNullOrEmpty())    {     // 同 body     // 讀取請求 url query資料     baseQuery = request.RequestUri.Query.Substring(1);     baseQuery = baseQuery.Match("(code=)*(?<code>[\\S]+)", 2);     baseQuery = baseQuery.DecodeUrl();     baseQuery = encrypt.Decode(baseQuery);    }    // 將解密後的 URL 重設URL請求    request.RequestUri = new Uri($"{request.RequestUri.AbsoluteUri.Split('?')[0]}?{baseQuery}");    // 將解密後的BODY資料 重設    request.Content = new StringContent(baseContent);   }   return request;  }  /// <summary>  /// 處理將要向用戶端response時  /// </summary>  /// <param name="response"></param>  /// <param name="cancellationToken"></param>  /// <returns></returns>  protected override HttpResponseMessage ProcessResponse(HttpResponseMessage response, CancellationToken cancellationToken)  {   //var isMediaType = response.Content.Headers.ContentType.MediaType.Equals(mediaTypeName, StringComparison.OrdinalIgnoreCase);   var ver = System.Web.HttpContext.Current.Request.Headers.GetValues("api_version")?.FirstOrDefault();   var encrypt = MessageEncryptionCreator.GetInstance(ver);   if (encrypt != null)   {    if (response.StatusCode == HttpStatusCode.OK)    {     var result = response.Content.ReadAsStringAsync().Result;     // 返回訊息 進行加密     var encodeResult = encrypt.Encode(result);     response.Content = new StringContent(encodeResult);    }   }   return response;  } }JoyMessageHandler

最後在 webapiconfig 中將我們的訊息處理添加到容器中

public static class WebApiConfig {  public static void Register(HttpConfiguration config)  {   // Web API 配置和服務   // 將 Web API 配置為僅使用不記名令牌身分識別驗證。   config.SuppressDefaultHostAuthentication();   config.Filters.Add(new HostAuthenticationFilter(OAuthDefaults.AuthenticationType));   // Web API 路由   config.MapHttpAttributeRoutes();   config.Routes.MapHttpRoute(    name: "DefaultApi",    routeTemplate: "api/{controller}/{id}",    defaults: new { id = RouteParameter.Optional }   );   // 添加自訂訊息處理   config.MessageHandlers.Add(new JoyMessageHandler());  } }WebApiConfig

編寫單元測試:

[TestMethod()]  public void GetTest()  {   var id = 10;   var resultSuccess = $"\"value{id}\"";   //不加密   Trace.WriteLine($"without encryption.");   var url = $"api/ApiTest?id={id}";   Trace.WriteLine($"get url : {url}");   var response = http.GetAsync(url).Result;   var result = response.Content.ReadAsStringAsync().Result;   Assert.AreEqual(result, resultSuccess);   Trace.WriteLine($"result : {result}");   //使用 方案1加密   Trace.WriteLine($"encryption case one.");   url = $"api/ApiTest?code=" + $"id={id}".EncryptBase64().EncodeUrl();   Trace.WriteLine($"get url : {url}");   http.DefaultRequestHeaders.Clear();   http.DefaultRequestHeaders.Add("api_version", "1.0");   response = http.GetAsync(url).Result;   result = response.Content.ReadAsStringAsync().Result;   Trace.WriteLine($"result : {result}");   result = result.DecryptBase64();   Trace.WriteLine($"DecryptBase64 : {result}");   Assert.AreEqual(result, resultSuccess);   //使用 方案2 加密通訊   Trace.WriteLine($"encryption case one.");   url = $"api/ApiTest?code=" + $"id={id}".EncryptDES(MessageEncryptionVersion1_1.KEY).EncodeUrl();   Trace.WriteLine($"get url : {url}");   http.DefaultRequestHeaders.Clear();   http.DefaultRequestHeaders.Add("api_version", "1.1");   response = http.GetAsync(url).Result;   result = response.Content.ReadAsStringAsync().Result;   Trace.WriteLine($"result : {result}");   result = result.DecryptDES(MessageEncryptionVersion1_1.KEY);   Trace.WriteLine($"DecryptBase64 : {result}");   Assert.AreEqual(result, resultSuccess);  }ApiTestControllerTests

至此為止功能實現完畢..

四.思想延伸

要想更加安全的方案,可以將給每位使用者產生不同的 private key , 利用AES加密解密

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