The serialization Serialization and deserialization features can be exploited to bypass security manager checks. A serializable class may install contain security manager checks in its constructors for various reasons, including , for example, preventing untrusted code from modifying the internal state of the class. Such security manager checks must be replicated at all points where wherever a class instance can be constructed. Because deserialization acts like a constructor, all the relevant methods must contain all relevant security checks. If the For example, if a class enables a caller to retrieve sensitive internal state contingent upon security checks, the same those checks must be replicated during deserialization . This ensures to ensure that an attacker cannot glean extract sensitive information by deserializing the object.
Noncompliant Code Example
In this noncompliant code example, security manager checks are used within the constructor but are omitted from the writeObject()
and readObject()
methods that are used in the serialization-deserialization process. This omission allows untrusted code to maliciously create instances of the class.
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public final class Hometown implements Serializable { // Private internal state private String town; private static final String UNKNOWN = "UNKNOWN"; void performSecurityManagerCheck() throws AccessDeniedException { // ... } void validateInput(String newCC) throws InvalidInputException { // ... } public Hometown() { performSecurityManagerCheck(); // Initialize town to default value town = UNKNOWN; } // Allows callers to retrieve internal state String getValue() { performSecurityManagerCheck(); return town; } // Allows callers to modify (private) internal state public void changeTown(String newTown) { if (town.equals(newTown)) { // No change return; } else { performSecurityManagerCheck(); validateInput(newTown); town = newTown; } } // writeObject() correctly enforces checks during serialization private void writeObject(ObjectOutputStream out) throws IOException { out.writeObject(town); } // readObject() correctly enforces checks during deserialization private void readObject(ObjectInputStream in) throws IOException { in.defaultReadObject(); // If the deserialized name does not match the default value normally // created at construction time, duplicate the checks if (!UNKNOWN.equals(town)) { validateInput(town); } } } |
Despite the (Although there are security manager checks, the data in this example is not considered sensitive, as a sensitive serializable class would violate sensitive. Serializing unencrypted sensitive data violates SER03-J. Do not serialize unencrypted , sensitive data.)
We assume that AccessDeniedException
and InvalidInputException
are both security exceptions , and, for that reason, are not checked. So any method can throw them that can be thrown by any method without requiring a throws
declaration.
Compliant Solution
This compliant solution implements the required security manager checks in all constructors and methods that can either modify or retrieve internal state. Consequently, an attacker cannot create a modified instance of the object (using deserialization) or read the serialized byte stream to reveal serialized data.
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public final class Hometown implements Serializable { // ... allAll methods the same except the following: // writeObject() correctly enforces checks during serialization private void writeObject(ObjectOutputStream out) throws IOException { performSecurityManagerCheck(); out.writeObject(town); } // readObject() correctly enforces checks during deserialization private void readObject(ObjectInputStream in) throws IOException { in.defaultReadObject(); // If the deserialized name does not match the default value normally // created at construction time, duplicate the checks if (!UNKNOWN.equals(town)) { performSecurityManagerCheck(); validateInput(town); } } } |
Refer to rule SEC03SEC04-J. Protect sensitive operations with security manager checks to learn for information about implementing the performSecurityManagerCheck()
method. As with rule void SER04-J. Validate deserialized objects, it is important to protect against the finalizer attack, which is important for protection against finalizer attacks.
The ObjectInputStream.defaultReadObject()
fills the object's fields with data from the input stream. Because each field is deserialized recursively, it is possible for the this
reference to escape from control of the deserialization routines. This can happen if a referenced object publishes the this
reference in its constructors or field initializers (see TSM01-J. Do not let the this reference escape during object construction for more information). To be compliant, recursively deserialized subobjects must not publish the this
object reference.
Risk Assessment
Allowing serialization or deserialization to bypass the Security Manager security manager may result in classes being constructed without requird required security checks.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
SER04-J |
High |
Probable |
High | P6 | L2 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
Automated Detection
Tool | Version | Checker | Description | ||||||
---|---|---|---|---|---|---|---|---|---|
Parasoft Jtest |
| CERT.SER04.SCSER | Enforce 'SecurityManager' checks in methods of 'Serializable' classes |
Related Guidelines
Guideline 8-4 / SERIAL-4: |
Duplicate the SecurityManager checks enforced in a class during serialization and deserialization |
Android Implementation Details
Bibliography
The java.security
package exists on Android for compatibility purposes only, and it should not be used.
Bibliography
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SER03-J. Do not serialize unencrypted, sensitive data 13. Serialization (SER)