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可能有人知道Cookie的生成由machineKey有关,machineKey用于决定Cookie生成的算法和密钥,并如果使用多台服务器做负载均衡时,必须指定一致的machineKey用于解密,那么这个过程到底是怎样的呢? 如果需要在.NET Core中使用ASP.NET Cookie,本文将提到的内容也将是一些必经之路。 抽丝剥茧,一步一步分析 // // POST: /Account/Login public async Task<ActionResult> Login(LoginViewModel model, string returnUrl) { if (!ModelState.IsValid) { return View(model); } var result = await SignInManager.PasswordSignInAsync(model.Email, model.Password, model.RememberMe, shouldLockout: false); switch (result) { case SignInStatus.Success: return RedirectToLocal(returnUrl); // ......省略其它代码 } } 它调用了SignInManager的PasswordSignInAsync方法,该方法代码如下(有删减): public virtual async Task<SignInStatus> PasswordSignInAsync(string userName, string password, bool isPersistent, bool shouldLockout) { // ...省略其它代码 if (await UserManager.CheckPasswordAsync(user, password).WithCurrentCulture()) { if (!await IsTwoFactorEnabled(user)) { await UserManager.ResetAccessFailedCountAsync(user.Id).WithCurrentCulture(); } return await SignInOrTwoFactor(user, isPersistent).WithCurrentCulture(); } // ...省略其它代码 return SignInStatus.Failure; } 想浏览原始代码,可参见官方的Github链接: 可见它先需要验证密码,密码验证正确后,它调用了SignInOrTwoFactor方法,该方法代码如下: private async Task<SignInStatus> SignInOrTwoFactor(TUser user, bool isPersistent) { var id = Convert.ToString(user.Id); if (await IsTwoFactorEnabled(user) && !await AuthenticationManager.TwoFactorBrowserRememberedAsync(id).WithCurrentCulture()) { var identity = new ClaimsIdentity(DefaultAuthenticationTypes.TwoFactorCookie); identity.AddClaim(new Claim(ClaimTypes.NameIdentifier, id)); AuthenticationManager.SignIn(identity); return SignInStatus.RequiresVerification; } await SignInAsync(user, isPersistent, false).WithCurrentCulture(); return SignInStatus.Success; } 该代码只是判断了是否需要做双重验证,在需要双重验证的情况下,它调用了AuthenticationManager的SignIn方法;否则调用SignInAsync方法。SignInAsync的源代码如下: public virtual async Task SignInAsync(TUser user, bool isPersistent, bool rememberBrowser) { var userIdentity = await CreateUserIdentityAsync(user).WithCurrentCulture(); // Clear any partial cookies from external or two factor partial sign ins AuthenticationManager.SignOut(DefaultAuthenticationTypes.ExternalCookie, DefaultAuthenticationTypes.TwoFactorCookie); if (rememberBrowser) { var rememberBrowserIdentity = AuthenticationManager.CreateTwoFactorRememberBrowserIdentity(ConvertIdToString(user.Id)); AuthenticationManager.SignIn(new AuthenticationProperties { IsPersistent = isPersistent }, userIdentity, rememberBrowserIdentity); } else { AuthenticationManager.SignIn(new AuthenticationProperties { IsPersistent = isPersistent }, userIdentity); } } 可见,最终所有的代码都是调用了AuthenticationManager.SignIn方法,所以该方法是创建Cookie的关键。 AuthenticationManager的实现定义在Microsoft.Owin中,因此无法在ASP.NET Identity中找到其源代码,因此我们打开Microsoft.Owin的源代码继续跟踪(有删减): public void SignIn(AuthenticationProperties properties, params ClaimsIdentity[] identities) { AuthenticationResponseRevoke priorRevoke = AuthenticationResponseRevoke; if (priorRevoke != null) { // ...省略不相关代码 AuthenticationResponseRevoke = new AuthenticationResponseRevoke(filteredSignOuts); } AuthenticationResponseGrant priorGrant = AuthenticationResponseGrant; if (priorGrant == null) { AuthenticationResponseGrant = new AuthenticationResponseGrant(new ClaimsPrincipal(identities), properties); } else { // ...省略不相关代码 AuthenticationResponseGrant = new AuthenticationResponseGrant(new ClaimsPrincipal(mergedIdentities), priorGrant.Properties); } } AuthenticationManager的Github链接如下:https://github.com/aspnet/AspNetKatana/blob/c33569969e79afd9fb4ec2d6bdff877e376821b2/src/Microsoft.Owin/Security/AuthenticationManager.cs 可见它用到了AuthenticationResponseGrant,继续跟踪可以看到它实际是一个属性: public AuthenticationResponseGrant AuthenticationResponseGrant { // 省略get set { if (value == null) { SignInEntry = null; } else { SignInEntry = Tuple.Create((IPrincipal)value.Principal, value.Properties.Dictionary); } } } 发现它其实是设置了SignInEntry,继续追踪: public Tuple<IPrincipal, IDictionary<string, string>> SignInEntry { get { return _context.Get<Tuple<IPrincipal, IDictionary<string, string>>>(OwinConstants.Security.SignIn); } set { _context.Set(OwinConstants.Security.SignIn, value); } } 其中,_context的类型为IOwinContext,OwinConstants.Security.SignIn的常量值为"security.SignIn"。 跟踪完毕…… 啥?跟踪这么久,居然跟丢啦!? 原来,ASP.NET是一种中间件(Middleware)模型,在这个例子中,它会先处理MVC中间件,该中间件处理流程到设置AuthenticationResponseGrant/SignInEntry为止。但接下来会继续执行CookieAuthentication中间件,该中间件的核心代码在aspnet/AspNetKatana仓库中可以看到,关键类是CookieAuthenticationHandler,核心代码如下: protected override async Task ApplyResponseGrantAsync() { AuthenticationResponseGrant signin = Helper.LookupSignIn(Options.AuthenticationType); // ... 省略部分代码 if (shouldSignin) { var signInContext = new CookieResponseSignInContext( Context, Options, Options.AuthenticationType, signin.Identity, signin.Properties, cookieOptions); // ... 省略部分代码 model = new AuthenticationTicket(signInContext.Identity, signInContext.Properties); // ... 省略部分代码 string cookieValue = Options.TicketDataFormat.Protect(model); Options.CookieManager.AppendResponseCookie( Context, Options.CookieName, cookieValue, signInContext.CookieOptions); } // ... 又省略部分代码 } 这个原始函数有超过200行代码,这里我省略了较多,但保留了关键、核心部分,想查阅原始代码可以移步Github链接:https://github.com/aspnet/AspNetKatana/blob/0fc4611e8b04b73f4e6bd68263e3f90e1adfa447/src/Microsoft.Owin.Security.Cookies/CookieAuthenticationHandler.cs#L130-L313 这里挑几点最重要的讲。 与MVC建立关系 建立关系的核心代码就是第一行,它从上文中提到的位置取回了AuthenticationResponseGrant,该Grant保存了Claims、AuthenticationTicket等Cookie重要组成部分: AuthenticationResponseGrant signin = Helper.LookupSignIn(Options.AuthenticationType); public AuthenticationResponseGrant LookupSignIn(string authenticationType) { // ... AuthenticationResponseGrant grant = _context.Authentication.AuthenticationResponseGrant; // ... foreach (var claimsIdentity in grant.Principal.Identities) { if (string.Equals(authenticationType, claimsIdentity.AuthenticationType, StringComparison.Ordinal)) { return new AuthenticationResponseGrant(claimsIdentity, grant.Properties ?? new AuthenticationProperties()); } } return null; } 如此一来,柳暗花明又一村,所有的线索就立即又明朗了。 Cookie的生成 从AuthenticationTicket变成Cookie字节串,最关键的一步在这里: string cookieValue = Options.TicketDataFormat.Protect(model); public void AppendResponseCookie(IOwinContext context, string key, string value, CookieOptions options) { if (context == null) { throw new ArgumentNullException("context"); } if (options == null) { throw new ArgumentNullException("options"); } IHeaderDictionary responseHeaders = context.Response.Headers; // 省去“1万”行计算chunk和处理细节的流程 responseHeaders.AppendValues(Constants.Headers.SetCookie, chunks); } 有兴趣的朋友可以访问Github看原始版本的代码:https://github.com/aspnet/AspNetKatana/blob/0fc4611e8b04b73f4e6bd68263e3f90e1adfa447/src/Microsoft.Owin/Infrastructure/ChunkingCookieManager.cs#L125-L215 可见这个实现比较……简单,就是往Response.Headers中加了个头,重点只要看TicketDataFormat.Protect方法即可。 逐渐明朗 该方法源代码如下: public string Protect(TData data) { byte[] userData = _serializer.Serialize(data); byte[] protectedData = _protector.Protect(userData); string protectedText = _encoder.Encode(protectedData); return protectedText; } 可见它依赖于_serializer、_protector、_encoder三个类,其中,_serializer的关键代码如下: public virtual byte[] Serialize(AuthenticationTicket model) { using (var memory = new MemoryStream()) { using (var compression = new GZipStream(memory, CompressionLevel.Optimal)) { using (var writer = new BinaryWriter(compression)) { Write(writer, model); } } return memory.ToArray(); } } 其本质是进行了一次二进制序列化,并紧接着进行了gzip压缩,确保Cookie大小不要失去控制(因为.NET的二进制序列化结果较大,并且微软喜欢搞xml,更大😂)。 然后来看一下_encoder源代码: public string Encode(byte[] data) { if (data == null) { throw new ArgumentNullException("data"); } return Convert.ToBase64String(data).TrimEnd('=').Replace('+', '-').Replace('/', '_'); } 可见就是进行了一次简单的base64-url编码,注意该编码把=号删掉了,所以在base64-url解码时,需要补=号。 这两个都比较简单,稍复杂的是_protector,它的类型是IDataProtector。 IDataProtector 它在CookieAuthenticationMiddleware中进行了初始化,创建代码和参数如下: IDataProtector dataProtector = app.CreateDataProtector( typeof(CookieAuthenticationMiddleware).FullName, Options.AuthenticationType, "v1"); 注意它传了三个参数,第一个参数是CookieAuthenticationMiddleware的FullName,也就是"Microsoft.Owin.Security.Cookies.CookieAuthenticationMiddleware",第二个参数如果没定义,默认值是CookieAuthenticationDefaults.AuthenticationType,该值为定义为"Cookies"。 但是,在默认创建的ASP.NET MVC模板项目中,该值被重新定义为ASP.NET Identity的默认值,即"ApplicationCookie",需要注意。 然后来看看CreateDataProtector的源码: public static IDataProtector CreateDataProtector(this IAppBuilder app, params string[] purposes) { if (app == null) { throw new ArgumentNullException("app"); } IDataProtectionProvider dataProtectionProvider = GetDataProtectionProvider(app); if (dataProtectionProvider == null) { dataProtectionProvider = FallbackDataProtectionProvider(app); } return dataProtectionProvider.Create(purposes); } public static IDataProtectionProvider GetDataProtectionProvider(this IAppBuilder app) { if (app == null) { throw new ArgumentNullException("app"); } object value; if (app.Properties.TryGetValue("security.DataProtectionProvider", out value)) { var del = value as DataProtectionProviderDelegate; if (del != null) { return new CallDataProtectionProvider(del); } } return null; } 可见它先从IAppBuilder的"security.DataProtectionProvider"属性中取一个IDataProtectionProvider,否则使用DpapiDataProtectionProvider。 我们翻阅代码,在OwinAppContext中可以看到,该值被指定为MachineKeyDataProtectionProvider: builder.Properties[Constants.SecurityDataProtectionProvider] = new MachineKeyDataProtectionProvider().ToOwinFunction(); 我们翻阅MachineKeyDataProtector的源代码,刚好看到它依赖于MachineKey: internal class MachineKeyDataProtector { private readonly string[] _purposes; public MachineKeyDataProtector(params string[] purposes) { _purposes = purposes; } public virtual byte[] Protect(byte[] userData) { return MachineKey.Protect(userData, _purposes); } public virtual byte[] Unprotect(byte[] protectedData) { return MachineKey.Unprotect(protectedData, _purposes); } } 最终到了我们的老朋友MachineKey。 逆推过程,破解Cookie
设置AuthenticatinResponseGrant 然后进入CookieAuthentication的流程,这些代码集中在Owin中,它会经过: CookieAuthenticationMiddleware(读取AuthenticationResponseGrant) 这些过程,结果上文中找到的所有参数的值,我总结出的“祖传破解代码”如下: string cookie = "nZBqV1M-Az7yJezhb6dUzS_urj1urB0GDufSvDJSa0pv27CnDsLHRzMDdpU039j6ApL-VNfrJULfE85yU9RFzGV_aAGXHVkGckYqkCRJUKWV8SqPEjNJ5ciVzW--uxsCBNlG9jOhJI1FJIByRzYJvidjTYABWFQnSSd7XpQRjY4lb082nDZ5lwJVK3gaC_zt6H5Z1k0lUFZRb6afF52laMc___7BdZ0mZSA2kRxTk1QY8h2gQh07HqlR_p0uwTFNKi0vW9NxkplbB8zfKbfzDj7usep3zAeDEnwofyJERtboXgV9gIS21fLjc58O-4rR362IcCi2pYjaKHwZoO4LKWe1bS4r1tyzW0Ms-39Njtiyp7lRTN4HUHMUi9PxacRNgVzkfK3msTA6LkCJA3VwRm_UUeC448Lx5pkcCPCB3lGat_5ttGRjKD_lllI-YE4esXHB5eJilJDIZlEcHLv9jYhTl17H0Jl_H3FqXyPQJR-ylQfh"; var bytes = TextEncodings.Base64Url.Decode(cookie); var decrypted = MachineKey.Unprotect(bytes, "Microsoft.Owin.Security.Cookies.CookieAuthenticationMiddleware", "ApplicationCookie", "v1"); var serializer = new TicketSerializer(); var ticket = serializer.Deserialize(decrypted); ticket.Dump(); // Dump为LINQPad专有函数,用于方便调试显示,此处可以用循环输出代替 运行前请设置好app.config/web.config中的machineKey节点,并安装NuGet包:Microsoft.Owin.Security,运行结果如下(完美破解): 总结 学习方式有很多种,其中看代码是我个人非常喜欢的一种方式,并非所有代码都会一马平川。像这个例子可能还需要有一定ASP.NET知识背景。 注意这个“祖传代码”是基于.NET Framework,由于其用到了MachineKey,因此无法在.NET Core中运行。我稍后将继续深入聊聊MachineKey这个类,看它底层代码是如何工作的,然后最终得以在.NET Core中直接破解ASP.NET Identity中的Cookie,敬请期待! 以上所述是小编给大家介绍的ASP.NET Cookie是怎么生成的,希望对大家有所帮助! |
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