When Java source code is compiled, it is converted into bytecode, saved in one or more class files, and executed by the Java Virtual Machine (JVM). Java class files may be compiled on one machine and executed on another machine. A properly generated class file is said to be conforming. When the JVM loads a class file, it has no way of knowing whether the class file is conforming. The class file could have been created by some other process, or an attacker may have tampered with a conforming class file.
The Java bytecode verifier is an internal component of the JVM and that is responsible for detecting non-confirming nonconforming Java codebytecode. It performs tasks such as ensuring ensures that the class file is in the proper Java class format, that illegal type casts are not performed and preventing operand stack overflows or underflows.
Noncompliant Code Example
avoided, that operand stack underflows are impossible, and that each method eventually removes from the operand stack everything pushed by that method.
Users often assume that Java class files obtained from a trustworthy source will be conforming and, consequently, safe for execution. This belief can erroneously lead them to see bytecode verification as a superfluous activity for such classes. Consequently, they might disable bytecode verification, undermining Java's safety and security guarantees. The bytecode verifier must not be suppressed.
Noncompliant Code Example
The bytecode verification process runs by default. The -Xverify:none flag on the JVM command line suppresses the verification process. This noncompliant code example uses the flag to disable bytecode verification:In the noncompliant code snippet shown below, two classes, Ssn and SsnVerify are defined. If at some later time, the programmer changes the access modifier of the ssn field from public to private, a possibility exists that only the modified Ssn class is recompiled but the SsnVerify class is overlooked. As a result, SsnVerify can now illegally access the private ssn field of the Ssn class.
| Code Block | ||
|---|---|---|
| ||
package ssnvault.values;
public class Ssn {
public String ssn = "001 01 0001";
}
package ssnvault.values;
public class SsnVerify {
public static void main(String[] args) {
Ssn number = new Ssn();
System.out.println("Please enter last four digits of your SSN:");
//perform verification
}
}
|
Compliant Solution
It is vital to re-compile both Ssn and SsnVerify classes so that the bytecode verifier can be applied to detect the non-conforming code.
Alternatively, to force bytecode verification when the unmodified class is loaded, the -verify flag can be specified on the java command line.
The verification process is automatically initiated unless the -noverify flag is specified at command line. On Java 2 systems, classes loaded by the primordial class loader (that loads classes from the boot class path) are not required to perform bytecode verification.
Risk Assessment
java -Xverify:none ApplicationName
|
Compliant Solution
Most JVM implementations perform bytecode verification by default; it is also performed during dynamic class loading.
Specifying the -Xverify:all flag on the command line requires the JVM to enable bytecode verification (even when it would otherwise have been suppressed), as shown in this compliant solution:
| Code Block | ||
|---|---|---|
| ||
java -Xverify:all ApplicationName
|
Exceptions
ENV04-J-EX0: On Java 2 systems, the primordial class loader is permitted to omit bytecode verification of classes loaded from the boot class path. These system classes are protected through platform and file system protections rather than by the bytecode verification process.
Risk Assessment
Bytecode verification ensures that the bytecode contains many of the security checks mandated by the Java Language Specification. Omitting the verification step could permit execution of insecure Java codeIf the bytecode verifier is not applied to all code then code could be loaded into a java system that does not conform to the Java Language Specification. This code could bypass checks that are normally expected to be performed by Java code, thereby compromising security.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
|---|
ENV04-J |
High |
Likely |
Low |
P??
P27 | L1 |
Automated Detection
TODO
Related Vulnerabilities
Search for vulnerabilities resulting from the violation Static checking of this rule on the CERT website.
References
is not feasible in the general case.
Android Implementation Details
Under the default settings, bytecode verification is enabled on the Dalvik VM. To change the settings, use the adb shell to set the appropriate system property: for example, adb shell setprop dalvik.vm.dexopt-flags v=a or pass -Xverify:all as an argument to the Dalvik VM.
Bibliography
"The Bytecode Verifier" | |
Section 7.3, "The Class File Verifier" |
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