Native methods are defined in Java and written in traditional languages such as C and C++ [[JNI 06]]). The added extensibility comes at the cost of flexibility and portability as the code no longer conforms to the policies enforced by Java. In the past, native method were used for performing platform specific operations, interfacing with legacy library code and improving program performance [[Bloch 08]]. Although this is not completely true in present times (due to poor portability, safety and quite ironically, performance issues), they are still used to interface with legacy code.
Defining a wrapper method facilitates installing appropriate security manager checks, performing input validation before passing the arguments to the native code, defensively copying mutable inputs and sanitizing user supplied input.
Noncompliant Code Example
Security manager checks are not conducted automatically in case of native method invocations. Additionally, as demonstrated in the noncompliant code example, it is easy to overlook proper input validation before the call. The doOperation() method invokes the nativeOperation() native method but fails to provide adequate validation. Also, the access specifier of the native method is public which raises risks associated with untrusted callers.
public final class NativeMethod {
// public native method
public native void nativeOperation(byte[] data, int offset, int len);
// wrapper method that does not perform any security checks or input validation
public void doOperation(byte[] data, int offset, int len) {
nativeOperation(data, offset, len);
}
static {
// load native library in static initializer of class
System.loadLibrary("NativeMethodLib");
}
}
Compliant Solution
This compliant solution makes the actual native method private and defines a public wrapper that calls securityManagerCheck() which in turn performs routine permission checks to determine if the succeeding operations can continue. This is followed by the creation of a copy of the mutable input array, data and input range checking of the parameters. Finally the nativeOperation method is called with sanitized inputs. Ensure that the validation checks produce outputs that are coherent with the input requirements of the native implementations/libraries.
public final class NativeMethodWrapper {
// private native method
private native void nativeOperation(byte[] data, int offset, int len);
// wrapper method performs SecurityManager and input validation checks
public void doOperation(byte[] data, int offset, int len) {
// permission needed to invoke native method
securityManagerCheck();
if (data == null) {
throw new NullPointerException();
}
// copy mutable input
data = data.clone();
// validate input
if ((offset < 0) || (len < 0) || (offset > (data.length - len))) {
throw new IllegalArgumentException();
}
nativeOperation(data, offset, len);
}
static {
// load native library in static initializer of class
System.loadLibrary("NativeMethodLib");
}
}
Risk Assessment
Failure to define wrappers around native methods can allow unprivileged callers to invoke them and exploit inherent vulnerabilities such as those resulting from invalid input validation.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
|---|---|---|---|---|---|
SEC30- J |
medium |
probable |
high |
P4 |
L3 |
Automated Detection
TODO
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
References
[[JNI 06]]
[[SCG 07]] Guideline 3-3 Define wrappers around native methods
[[Liang 97]]
[[Macgregor 98]] Section 2.2.3, Interfaces and Architectures
[[MITRE 09]] CWE ID 111
"Direct Use of Unsafe JNI"
SEC10-J. Call the superclass's getPermissions method when writing a custom class loader 02. Platform Security (SEC) SEC31-J. Guard doPrivileged blocks against untrusted invocations