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According to the Java API \[[API 2006|AA. Java References#API 06]\], class {{SecurityManager}} documentation

The security manager is a class that allows applications to implement a security policy. It allows an application to determine, before performing a possibly unsafe or sensitive operation, what the operation is and whether it is being attempted in a security context that allows the operation to be performed. The application can allow or disallow the operation.

As an example, the applet security manager denies applets all but the most essential privileges. It is designed to protect inadvertent system modification, information leakage and user impersonation. The use of security managers is not limited to client side protection. Webservers such as Tomcat and Websphere use this facility to isolate trojan servlets, malicious JSP code and protect sensitive system resources from inadvertent access.

For Java applications that run from the command line, a default or custom security manager can be set using a special flag. Alternatively, it is possible to install a security manager programatically. Installing a security manager this way helps create a default sandbox that allows or denies sensitive actions based on the security policy in effect.

From Java 2 SE Platform onwards, SecurityManager is a non-abstract class. As a result, there is no explicit requirement of overriding its methods. To create and use a security manager programatically, the code must have the runtime permissions createSecurityManager (to instantiate SecurityManager) and setSecurityManager to install it. These permissions are checked only if a security manager is already installed. This is useful for situations where there is a global-default security manager in place, such as on a virtual host, and individual hosts need to be denied the requisite permissions for overriding the default security manager with a custom one.

The security manager is closely tied to the AccessController class. The former is used as a hub for access control whereas the latter is the actual implementer of the access control algorithm. Two requirements necessitate the use of the security manager:

  • Providing backward compatibility: Legacy code often contains custom implementations of the security manager class because it was originally abstract.
  • Defining custom policies: It is sometimes desired to subclass the security manager to define multilevel, coarse or fine grained security policies.

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Regarding the implementation and use of custom security managers as opposed to default ones, the Java Security Architecture Specification \[[SecuritySpec 2008|AA. Java References#SecuritySpec 08]\] states

We encourage the use of AccessController in application code, while customization of a security manager (via subclassing) should be the last resort and should be done with extreme care. Moreover, a customized security manager, such as one that always checks the time of the day before invoking standard security checks, could and should utilize the algorithm provided by AccessController whenever appropriate.

Many of the Java SE APIs use security manager checks by default before performing sensitive operations. For example, the constructor of class java.io.FileInputStream throws a SecurityException if the caller does not have the permission to read a file. Note that the documentation of some APIs, for example the java.io.FileReader class, may not contain information about the SecurityException because it is a subclass of RuntimeException; it is not mandatory to document runtime exceptions.

Noncompliant Code Example (Command Line Installation)

This noncompliant code example does not install the security manager from the command line (assuming that the security manager is not set programatically).

Code Block
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java LocalJavaApp

Compliant Solution (Default Policy File)

Any Java program (bean, servlet or application) can instantiate a SecurityManager programatically in the absence of a default, global security manager that does not permit this operation. Applications designed to run locally can use a default global security manager by explicitly setting a flag on the command line while invoking the application.

The command line option is usually preferred when applications must be prohibited from installing custom security managers programmatically, and are required to abide by the default global security policy under all circumstances. This compliant solution installs the default security manager using the appropriate command line flags. The security policy file grants permissions to the application for allowable actions.

Code Block
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java -Djava.security.manager -Djava.security.policy=policyURL LocalJavaApp

Even a custom security manager can be made the default and enforced globally from the command line by specifying its absolute path location, immediately after an equal-to sign that must appear after the -Djava.security.manager flag. If it is known in advance that the user prefers using the default global security manager installed from the command line, invoking the setSecurityManager() method can be forgone in code. In fact, using this method will throw a SecurityException if the current security policy enforced by the global security manager does not permit replacements (by not granting the RuntimePermission("setSecurityManager")).

The default security policy file java.policy grants a few permissions (reading system properties, binding to unprivileged ports and so forth) and can be found in the ~/java.home/lib/security directory on UNIX-like systems and its equivalent on Microsoft Windows systems. There is also a user specific policy file in the user's home directory. The union of both these policy files defines the permissions given to a program. Refer to the java.security file to set which policy files should be used. If either of these is deleted, by default no permissions are granted to the implementing code.

Compliant Solution (Custom Policy File)

If the default policy file needs to be bypassed in lieu of a custom policy file, the double equals (==) idiom should be used instead of the single equals =.

Code Block
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java -Djava.security.manager -Djava.security.policy==policyURL LocalJavaApp

Compliant Solution (Additional Policy Files)

The appletviewer automatically installs a security manager with the standard policy file. To specify additional policy files, use the -J flag.

Code Block
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appletviewer -J-Djava.security.manager -Djava.security.policy==policyURL LocalJavaApp

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Notably, the policy file specified in the argument is ignored when the {{policy.allowSystemProperty}} property in the security properties file ({{java.security}}) is set to {{false}}. Its default value is {{true}}. The document "Default Policy Implementation and Policy File Syntax" \[[Policy 2002|AA. Java References#Policy 02]\] discusses writing policy files in depth.

Noncompliant Code Example (Programmatic Installation)

When the SecurityManager API is used to install the security manager instead of the command line, there can be instances where the appropriate checks are not installed.

This noncompliant code example passes a null value to the setSecurityManager method that is responsible for setting the expected SecurityManager argument. As a result, no security manager is installed (assuming that the security manager is not installed from the command line).

Code Block
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try {
  System.setSecurityManager(null);
} catch (SecurityException se) {
  // cannot set security manager, log to file
}

Compliant Solution (Default Security Manager)

This compliant solution instantiates and sets the default security manager.

Code Block
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try {
  System.setSecurityManager(new SecurityManager());
} catch (SecurityException se) {
  // cannot set security manager, log to file
}

Compliant Solution (Custom Security Manager)

This compliant solution demonstrates how a custom SecurityManager class called CustomSecurityManager can be instantiated by invoking its constructor with a password, and set as the default security manager.

Code Block
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try {
  System.setSecurityManager(new CustomSecurityManager("password here"));
} catch (SecurityException se) {
  // cannot set security manager, log to file
}

The APIs that have security checks built into them will use the custom security manager subsequently. As noted earlier, custom security managers should only be rolled out when the default security manager does not provide the required functionality.

Risk Assessment

Running Java code without a Security Manager being set means that there is no restrictive sandbox and arbitrary code may execute.

Guideline

Severity

Likelihood

Remediation Cost

Priority

Level

ENV02-J

high

probable

low

P18

L1

Automated Detection

TODO

Related Vulnerabilities

Search for vulnerabilities resulting from the violation of this rule on the CERT website.

References

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\[[API 2006|AA. Java References#API 06]\] [Class SecurityManager|http://java.sun.com/javase/6/docs/api/java/lang/SecurityManager.html], Class AccessControlContext, Class AccessController
\[[Policy 2002|AA. Java References#Policy 02]\]
\[[Pistoia 2004|AA. Java References#Pistoia 04]\] Section 7.4, The Security Manager
\[[Gong 2003|AA. Java References#Gong 03]\] Section 6.1, Security Manager
\[[SecuritySpec 2008|AA. Java References#SecuritySpec 08]\] 6.2 SecurityManager versus AccessController
\[[MITRE 2009|AA. Java References#MITRE 09]\] [CWE ID 358|http://cwe.mitre.org/data/definitions/358.html] "Improperly Implemented Security Check for Standard"


ENV01-J. Place all privileged code in a single package and seal the package      01. Runtime Environment (ENV)      ENV03-J. Never grant AllPermission to untrusted code