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Do not operate on unvalidated or untrusted data (also known as tainted data) in a doPrivileged() privileged block. An attacker can supply malicious input that could result in privilege escalation attacks. Appropriate mitigations include hard coding values rather than accepting arguments (when appropriate) , and validating or validating/ sanitizing data before the performing privileged operations .This rule concerns untrusted information entering a doPrivileged () block. For prevention of sensitive information escaping from a doPrivileged() block, see SEC00see IDS00-J. Do not allow doPrivileged() blocks to leak sensitive information outside a trust boundaryPrevent SQL injection).

Noncompliant Code Example

This noncompliant code example accepts a tainted filename path or file name as an argument. An attacker can supply the path name of a sensitive password file, consequently allowing an unprivileged user to access a protected fileaccess a protected file by supplying its path name as an argument to this method.

private void privilegedMethod(final String filename) 
                              throws FileNotFoundException {
  try {
    FileInputStream fis =
        (FileInputStream) AccessController.doPrivileged(
          new PrivilegedExceptionAction() {
        public FileInputStream run() throws FileNotFoundException {
          return new FileInputStream(filename);
        }
      }
    );
    // doDo something with the file and then close it
  } catch (PrivilegedActionException e) {
    // forwardForward to handler and log
  }
}

Compliant Solution (Input Validation)

This compliant solution invokes a sanitization method the cleanAFilenameAndPath(cleanAFilenameAndPath) that can distinguish acceptable inputs from ) method to sanitize malicious inputs. Successful operation completion of the sanitization method indicates that the input is acceptable , and the doPrivileged() block can be executed.

private void privilegedMethod(final String filename) 
                              throws FileNotFoundException {
  final String cleanFilename;
  try {
    cleanFilename = cleanAFilenameAndPath(filename);
  } catch (/* exception as per spec of cleanAFileNameAndPath */) {
    // logLog or forward to handler as appropriate based on specification
    // of cleanAFilenameAndPath
  }
  try {
    FileInputStream fis =
        (FileInputStream) AccessController.doPrivileged(
          new PrivilegedExceptionAction() {
        public FileInputStream run() throws FileNotFoundException {
          return new FileInputStream(cleanFilename);
        }
      }
    );
    // doDo something with the file and then close it
  } catch (PrivilegedActionException e) {
    // forwardForward to handler and log
  }
}

One potential drawback of this approach is that effective sanitization methods can be difficult to write. A benefit of this approach is that it works well in combination with taint analysis (see the Automated Detection , belowsection for this rule). For more information on how to securely validate and sanitize a fileperform secure file operations, see FIO00-J. Do not operate on files in shared directories.

Compliant Solution (Built-in File Name and Path)

Sanitization of tainted inputs always carries the risk that the data is not fully sanitized. Both file and path name equivalence and directory traversal are common examples of vulnerabilities arising from the improper sanitization of path and file name inputs (see IDS02 FIO16-J. Canonicalize path names before validating them). A design that requires an unprivileged user to access an arbitrary, protected file (or other resource) is always suspect. Consider alternatives such as using a hardcodeed hard-coded resource name or permitting the user to select only from a list of options that are indirectly mapped to the resource names.

This compliant solution both explicitly hardcodes hard codes the name of the file and also confines the variables used in the privileged block to the same method. This declares the variable as static final to prevent it from being modified. This technique ensures that no malicious file can be loaded by exploiting the privileges of the corresponding codeprivileged method.

static final String FILEPATH = "/path/to/protected/file/fn.ext";

private void privilegedMethod() throws FileNotFoundException {
 
  try {
    FileInputStream fis =
        (FileInputStream) AccessController.doPrivileged(
            new PrivilegedExceptionAction() {
        public FileInputStream run() throws FileNotFoundException {
          return new FileInputStream(FILEPATH);
        }
      }
    );
    // doDo something with the file and then close it
  } catch (PrivilegedActionException e) {
    // forwardForward to handler and log
  }
}

Risk Assessment

Allowing tainted inputs in privileged operations can lead to result in privilege escalation attacks.

Automated Detection

Tools that support taint analysis enable assurance of code usage that is substantially similar to the first compliant solution. Typical taint analyses assume that a method one or more methods exist (s) that can "clean" sanitize potentially tainted inputs, providing untainted outputs (or appropriate errors). The taint analysis then ensures that only untainted data is used inside the doPrivileged block. Note that the static analyses must necessarily assume that the cleaning sanitization methods are always successful; , but in reality, this may not be the case.

Related Vulnerabilities

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

Related Guidelines

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SCG 2009

Related Guidelines

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MITRE CWE

CWE-266

"

, Incorrect Privilege Assignment

"

 

CWE-272

"

, Least Privilege Violation

"

 

CWE-732

"

, Incorrect Permission Assignment for Critical Resource

"

Bibliography

Android Implementation Details

The code examples using the java.security package are not applicable to Android, but the principle of the rule is applicable to Android apps.

Bibliography

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Image Added Image Added Image AddedSEC00-J. Do not allow doPrivileged() blocks to leak sensitive information outside a trust boundary      14. Platform Security (SEC)      SEC02-J. Remove superfluous code from privileged blocks