The below simple java code getting Fortify Path Manipulation error. Please help me to resolve this. I am struggling from long time.

public class Test {
    public static void main(String[] args) {
        File file=new File(args[0]);

  • When are you getting the error? When running it or compiling it? How are you compiling? What are you importing? – Joe Oct 2 '12 at 12:56
  • what param value to you pass? – MaVRoSCy Oct 2 '12 at 12:58
  • I am not getting java compilation error, i ran Fortify Sourceanalyzer, then it is showing Path manipulation vulnerability. – mohan Oct 2 '12 at 12:59
  • i am not passing anything, i just ran fortify analyzer, then it is showing path manipulatino vulnerability. Thank you for your help. – mohan Oct 2 '12 at 13:01

Looking at the OWASP page for Path Manipulation, it says

An attacker can specify a path used in an operation on the filesystem

You are opening a file as defined by a user-given input. Your code is almost a perfect example of the vulnerability! Either

  1. Don't use the above code (don't let the user specify the input file as an argument)
  2. Let the user choose from a list of files that you supply (an array of files with an integer choice)
  3. Don't let the user supply the filename at all, remove the configurability
  4. Accept the vulnerability but protect against it by checking the filename (although this is the worst thing to do - someone may get round it anyway).

Or re-think your application's design.

  • The OWASP recommendation applies to attempts to escape the web root folder in web-based attacks. This doesn't apply to the main() code example in the question because that is user input on the command line. It is not a vulnerability in itself for a user to supply file paths on the command line; they already have access to the command line and all its power. You'd have to be doing something like running software with the setuid bit on for command-line arguments to be a security hole. – drrob May 29 '18 at 10:49

Try to normalize the URL before using it


Path path = Paths.get("/foo/../bar/../baz").normalize();

or use normalize from org.apache.commons.io.FilenameUtils


Stirng path = FilenameUtils.normalize("/foo/../bar/../baz");

For both the result will be \baz


Only allow alnum and a period in input. That means you filter out the control chars, "..", "/", "\" which would make your files vulnerable. For example, one should not be able to enter /path/password.txt.

Once done, rescan and then run Fortify AWB.


Fortify will flag the code even if the path/file doesn't come from user input like a property file. The best way to handle these is to canonicalize the path first, then validate it against a white list of allowed paths.


public class Test {
    public static void main(String[] args) {
        File file=new File(args[0]);



public class Test {
    public static void main(String[] args) {
        File file=new File(args[0]);
        if (!isInSecureDir(file)) {
              throw new IllegalArgumentException();
            String canonicalPath = file.getCanonicalPath();
        if (!canonicalPath.equals("/img/java/file1.txt") &&
            !canonicalPath.equals("/img/java/file2.txt")) {
           // Invalid file; handle error

        FileInputStream fis = new FileInputStream(f);

Source: https://www.securecoding.cert.org/confluence/display/java/FIO16-J.+Canonicalize+path+names+before+validating+them


Assuming you're running Fortify against a web application, during your triage of Fortify vulnerabilities that would likely get marked as "Not an issue". Reasoning being A) obviously this is test code and B) unless you have multiple personality disorder you're not going to be doing a path manipulation exploit against your self when you run that test app.

If very common to see little test utilities committed to a repository which produces this style of false positive.

As for your compilation errors, that generally comes down to classpath issues.


I have a solution to the Fortify Path Manipulation issues.

What it is complaining about is that if you take data from an external source, then an attacker can use that source to manipulate your path. Thus, enabling the attacker do delete files or otherwise compromise your system.

The suggested remedy to this problem is to use a whitelist of trusted directories as valid inputs; and, reject everything else.

This solution is not always viable in a production environment. So, I suggest an alternative solution. Parse the input for a whitelist of acceptable characters. Reject from the input, any character you don't want in the path. It could be either removed or replaced.

Below is an example. This does pass the Fortify review. It is important to remember here to return the literal and not the char being checked. Fortify keeps track of the parts that came from the original input. If you use any of the original input, you may still get the error.

public class CleanPath {

    public static String cleanString(String aString) {
        if (aString == null) return null;
        String cleanString = "";
        for (int i = 0; i < aString.length(); ++i) {
            cleanString += cleanChar(aString.charAt(i));
        return cleanString;

    private static char cleanChar(char aChar) {

        // 0 - 9
        for (int i = 48; i < 58; ++i) {
            if (aChar == i) return (char) i;

        // 'A' - 'Z'
        for (int i = 65; i < 91; ++i) {
            if (aChar == i) return (char) i;

        // 'a' - 'z'
        for (int i = 97; i < 123; ++i) {
            if (aChar == i) return (char) i;

        // other valid characters
        switch (aChar) {
            case '/':
                return '/';
            case '.':
                return '.';
            case '-':
                return '-';
            case '_':
                return '_';
            case ' ':
                return ' ';
        return '%';
  • 1
    This isn't a solution, but simply obscures the vulnerability and doesn't resolve it. I'd call this a dishonest approach, and recommend that the vulnerability instance be marked as a false positive instead. At least then you have an opportunity to explain why the vulnerability isn't a concern. – ProbablyJody Aug 17 '17 at 20:05
  • 2
    I think this depends on what is meant by "fix" the problem. Fortify likes to point out things that aren't really issues. This could be useful information to get around problems with people who misinterpret Fortify results and require unrealistic resolutions. This fixes the problem if the problem is Fortify and the people looking at it. – BenDoingCoding Aug 27 '18 at 17:52

Use regex to validate the file path and file name

fileName = args[0];
final String regularExpression = "([\\w\\:\\\\w ./-]+\\w+(\\.)?\\w+)";
Pattern pattern = Pattern.compile(regularExpression);
boolean isMatched = pattern.matcher(fileName).matches();
  • What is the regex does here ? What is the regex checks, can you explain ? @user5250723 – smilyface Apr 24 at 10:32

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