Goal Reached Thanks to every supporter — we hit 100%!

Goal: 1000 CNY · Raised: 1000 CNY

100.0%
Buy Us a Coffee

CWE-502 (可信数据的反序列化) — Vulnerability Class 1698

1698 vulnerabilities classified as CWE-502 (可信数据的反序列化). AI Chinese analysis included.

CWE-502 represents a critical security weakness where applications deserialize untrusted data without validating its integrity or structure. Attackers typically exploit this vulnerability by crafting malicious serialized objects that, when processed by the application, trigger unintended code execution or logic flaws. This often leads to remote code execution, denial of service, or privilege escalation, as the deserialization process may instantiate dangerous classes or invoke unsafe methods. To mitigate this risk, developers must strictly avoid deserializing data from untrusted sources. Instead, they should implement robust input validation, use allowlists for permitted data types, or adopt safer serialization formats like JSON that do not inherently support arbitrary object instantiation. Additionally, employing cryptographic signatures to verify data authenticity before deserialization ensures that only trusted, unaltered payloads are processed, effectively neutralizing the threat of malicious object injection.

MITRE CWE Description
The product deserializes untrusted data without sufficiently ensuring that the resulting data will be valid.
Common Consequences (3)
IntegrityModify Application Data, Unexpected State
Attackers can modify unexpected objects or data that was assumed to be safe from modification. Deserialized data or code could be modified without using the provided accessor functions, or unexpected functions could be invoked.
AvailabilityDoS: Resource Consumption (CPU)
If a function is making an assumption on when to terminate, based on a sentry in a string, it could easily never terminate.
OtherVaries by Context
The consequences can vary widely, because it depends on which objects or methods are being deserialized, and how they are used. Making an assumption that the code in the deserialized object is valid is dangerous and can enable exploitation. One example is attackers using gadget chains to perform una…
Mitigations (5)
Architecture and Design, ImplementationIf available, use the signing/sealing features of the programming language to assure that deserialized data has not been tainted. For example, a hash-based message authentication code (HMAC) could be used to ensure that data has not been modified.
ImplementationWhen deserializing data, populate a new object rather than just deserializing. The result is that the data flows through safe input validation and that the functions are safe.
ImplementationExplicitly define a final object() to prevent deserialization.
Architecture and Design, ImplementationMake fields transient to protect them from deserialization. An attempt to serialize and then deserialize a class containing transient fields will result in NULLs where the transient data should be. This is an excellent way to prevent time, environment-based, or sensitive variables from being carried over and used improperly.
ImplementationAvoid having unnecessary types or gadgets (a sequence of instances and method invocations that can self-execute during the deserialization process, often found in libraries) available that can be leveraged for malicious ends. This limits the potential for unintended or unauthorized types and gadgets to be leveraged by the attacker. Add only acceptable classes to an allowlist. Note: new gadgets are…
Examples (2)
This code snippet deserializes an object from a file and uses it as a UI button:
try { File file = new File("object.obj"); ObjectInputStream in = new ObjectInputStream(new FileInputStream(file)); javax.swing.JButton button = (javax.swing.JButton) in.readObject(); in.close(); }
Bad · Java
private final void readObject(ObjectInputStream in) throws java.io.IOException { throw new java.io.IOException("Cannot be deserialized"); }
Good · Java
In Python, the Pickle library handles the serialization and deserialization processes. In this example derived from [REF-467], the code receives and parses data, and afterwards tries to authenticate a user based on validating a token.
try { class ExampleProtocol(protocol.Protocol): def dataReceived(self, data): # Code that would be here would parse the incoming data # After receiving headers, call confirmAuth() to authenticate def confirmAuth(self, headers): try: token = cPickle.loads(base64.b64decode(headers['AuthToken'])) if not check_hmac(token['signature'], token['data'], getSecretKey()): raise AuthFail self.secure_data = token['data'] except: raise AuthFail }
Bad · Python
CVE IDTitleCVSSSeverityPublished
CVE-2021-21349 A Server-Side Forgery Request can be activated unmarshalling with XStream to access data streams from an arbitrary URL referencing a resource in an intranet or the local host — xstream 6.1 Medium2021-03-22
CVE-2021-21342 A Server-Side Forgery Request can be activated unmarshalling with XStream to access data streams from an arbitrary URL referencing a resource in an intranet or the local host — xstream 5.3 Medium2021-03-22
CVE-2021-21371 Execution of untrusted code through config file — integration-jira-cloud 5.0 Medium2021-03-10
CVE-2021-22855 Soar Cloud System Co., Ltd. HR Portal - Arbitrary Code Execution — HR Portal 9.8 Critical2021-02-17
CVE-2020-27868 Qognify Ocularis 代码问题漏洞 — Ocularis 9.8 -2021-02-11
CVE-2020-12525 WAGO/M&M Software Deserialization of untrusted data in fdtCONTAINER component — fdtCONTAINER Component 7.3 High2021-01-22
CVE-2021-20190 FasterXML jackson-databind 代码问题漏洞 — jackson-databind 8.1 -2021-01-19
CVE-2020-11995 Apache Dubbo default deserialization protocol Hessian2 cause CRE — Apache Dubbo 9.8 -2021-01-11
CVE-2020-17531 Deserialization flaw in EOL Tapestry 4. — Apache Tapestry 9.8 -2020-12-08
CVE-2020-26207 Unsafe deserialization in DatabaseSchemaViewer — dbschemareader 8.0 High2020-11-04
CVE-2020-10721 fabric8-maven-plugin 代码问题漏洞 — fabric8-maven-plugin 7.8 -2020-10-22
CVE-2020-15244 RCE in Magento — magento-lts 8.0 High2020-10-21
CVE-2020-26867 ARC Informatique PcVue Deserialization of Untrusted Data — PcVue 9.8 Critical2020-10-12
CVE-2020-7811 Samsung Update Local Privilege Escalation Vulnerability — Samsung Update 6.2 Medium2020-10-12
CVE-2020-15188 Unauthenticated Remote Code Execution in SOY CMS — soycms 10.0 Critical2020-09-18
CVE-2020-7532 施耐德 SCADAPack 代码问题漏洞 — SCADAPack x70 Security Administrator V1.2.0 and prior. 7.8 -2020-09-16
CVE-2020-7528 SCADAPack Remote Connect 代码问题漏洞 — SCADAPack 7x Remote Connect V3.6.3.574 and prior. 7.8 -2020-09-16
CVE-2020-15172 Remote Code Execution in Act module — FluffyCogs 8.7 High2020-09-15
CVE-2020-15148 Unsafe deserialization in Yii 2 — yii2 8.9 High2020-09-15
CVE-2020-17405 Senstar Symphony 代码执行漏洞 — Symphony 8.8 -2020-09-01
CVE-2020-5413 Kryo Configuration Allows Code Execution with Unknown "Serialization Gadgets" — Spring Integration 9.8 -2020-07-31
CVE-2019-11286 JMX Credential Deserialization in GemFire — VMware GemFire 9.1 -2020-07-31
CVE-2020-10917 NEC ESMPRO Manager 代码问题漏洞 — ESMPRO Manager 9.8 -2020-07-22
CVE-2020-12007 Mitsubishi Electric MC Works64和ICONICS GENESIS64 FrameWorX Server 代码问题漏洞 — MC Works64 9.8 -2020-07-16
CVE-2020-12015 Mitsubishi Electric MC Works64和ICONICS GENESIS64 Platform Services 代码问题漏洞 — MC Works64 7.5 -2020-07-16
CVE-2020-12009 Mitsubishi Electric MC Works64和ICONICS GENESIS64 Workbench Pack-and-Go 代码问题漏洞 — MC Works64 7.5 -2020-07-16
CVE-2020-10740 Red Hat Wildfly 代码问题漏洞 — wildfly 6.6 Medium2020-06-22
CVE-2020-8165 Ruby on Rails 代码问题漏洞 — https://github.com/rails/rails 9.8 -2020-06-19
CVE-2020-8164 Ruby on Rails 代码问题漏洞 — https://github.com/rails/rails 7.5 -2020-06-19
CVE-2020-5411 Jackson Configuration Allows Code Execution with Unknown "Serialization Gadgets" — Spring Batch 9.8 -2020-06-11

Vulnerabilities classified as CWE-502 (可信数据的反序列化) represent 1698 CVEs. The CWE taxonomy describes the weakness; review individual CVEs for product-specific impact.