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According to the Java API [API 2006] for class java.io.File:

A pathname, whether abstract or in string form, may be either absolute or relative. An absolute pathname is complete in that no other information is required to locate the file that it denotes. A relative pathname, in contrast, must be interpreted in terms of information taken from some other pathname.

Absolute or relative path names may contain file links such as symbolic (soft) links, hard links, shortcuts, shadows, aliases, and junctions. These file links must be fully resolved before any file validation operations are performed. For example, the final target of a symbolic link called trace might be the path name /home/system/trace. Path names may also contain special file names that make validation difficult:

1. "." refers to the directory itself.
2. Inside a directory, the special file name ".." refers to the directory's parent directory.

In addition to these specific issues, a wide variety of operating system–specific and file system–specific naming conventions make validation difficult.

sometimes contain aliases, shadows, symbolic links and shortcuts as opposed to canonical paths, which refer to actual files/directories that these point to. Canonicalizing file names makes it much easier to verify validate a path name. More than one path name can refer to a single directory or file. Further, the textual representation of a path name may yield little or no information regarding the directory or file to which it refers. Consequently, all path names must be fully resolved or canonicalized before validation.

Validation may be necessary, for example, when attempting to restrict user access to files within a particular directory or to otherwise make security decisions based on the name of a file name or path name by making it easier to compare names. Frequently, these restrictions can be circumvented by an attacker by exploiting a directory traversal or path equivalence vulnerability. A directory traversal vulnerability allows an I/O operation to escape a specified operating directory. A path equivalence vulnerability occurs when an attacker provides a different but equivalent name for a resource to bypass security checks.

Canonicalization contains an inherent race window between the time the program obtains the canonical path name and the time it opens the file. While the canonical path name is being validated, the file system may have been modified and the canonical path name may no longer reference the original valid file. Fortunately, this race condition can be easily mitigated. The canonical path name can be used to determine whether the referenced file name is in a secure directory (see FIO00-J. Do not operate on files in shared directories for more information). If the referenced file is in a secure directory, then, by definition, an attacker cannot tamper with it and cannot exploit the race condition.

This recommendation is a specific instance of IDS01-J. Normalize strings before validating them.

Noncompliant Code Example

In this example, the user inputs a part of the path as a command line argument. Let {{argv\[1\]}} be "java" where {{/tmp/java}} is a symbolic link that points to another file in some directory. On UNIX, the {{getAbsolutePath()}} method includes {{/tmp/java}} (name of the symbolic link) in the path that it returns. On the other hand, on Windows and Macintosh systems, this behavior is not observed. The symbolic link is fully resolved in this case leading to implementation defined behavior.

This noncompliant code example allows the user to specify the path of an image file to open. By prepending /img/ to the directory, this code enforces a policy that only files in this directory should be opened. The program also uses the isInSecureDir() method defined in FIO00-J. Do not operate on files in shared directories. 

However, the user can still specify a file outside the intended directory by entering an argument that contains ../ sequences.  An attacker can also create a link in the /img directory that refers to a directory or file outside of that directory. The path name of the link might appear to reside in the /img directory and consequently pass validation, but the operation will actually be performed on the final target of the link, which can reside outside the intended directory.

File file

public static void main(String[] args) {

  File f = new File("/tmpimg/" + args[10]);
if  String absPath = f.getAbsolutePath(!isInSecureDir(file)) {
  throw new IllegalArgumentException();

}

Compliant Solution

}
FileOutputStream fis = new FileOutputStream(file);
// ...

Noncompliant Code Example (getCanonicalPath())

This noncompliant code example attempts to mitigate the issue by using the File.getCanonicalPath() method, introduced in Java 2, which fully resolves the argument and constructs a canonicalized path. Special file names such as dot dot (..) are also removed so that the input is reduced to a canonicalized form before validation is carried out. An attacker cannot use ../ sequences to break out of the specified directory when the validate() method is present. For example, the path /img/../etc/passwd resolves to /etc/passwd. The Use the getCanonicalPath() method wherever possible since it resolves the aliases, shortcuts or symbolic links across all platforms. The value of the alias is not included in the returned value. Moreover, relative references like the double period (..) are also removed. The getCanonicalPath() method throws a security exception when used within in applets since because it reveals too much information about the host machine. The getCanonicalFile() method (Java 2) behaves like getCanonicalPath() but returns a new File object instead of a String.

Unfortunately, the canonicalization is performed after the validation, which renders the validation ineffective.

File file = new File("/img/" + args[0]);
if (!isInSecureDir(file)) {
  throw new IllegalArgumentException();
}
String canonicalPath = file.getCanonicalPath();
FileOutputStream fis = new FileOutputStream(canonicalPath);
// ...

Compliant Solution (getCanonicalPath())

This compliant solution obtains the file name from the untrusted user input, canonicalizes it, and then validates it against a list of benign path names. It operates on the specified file only when validation succeeds, that is, only if the file is one of the two valid files file1.txt or file2.txt in /img/java.

File file
public static void main(String[] args) throws IOException {

  File f = new File("/tmpimg/" + args[10]);
if (!isInSecureDir(file)) {
  throw new IllegalArgumentException();
}
String canonicalPath = f.getCanonicalPath();

}file.getCanonicalPath();
if (!canonicalPath.equals("/img/java/file1.txt") &&
    !canonicalPath.equals("/img/java/file2.txt")) {
   // Invalid file; handle error
}

FileInputStream fis = new FileInputStream(f);

Compliant Solution (Security Manager)

A comprehensive way to handle this issue is to grant the application the permissions to operate only on files present within the intended directory—the /img directory in this example. This compliant solution specifies the absolute path of the program in its security policy file and grants java.io.FilePermission with target /img/java and the read action.
This solution requires that the /img directory is a secure directory, as described in FIO00-J. Do not operate on files in shared directories.

// All files in /img/java can be read
grant codeBase "file:/home/programpath/" {
  permission java.io.FilePermission "/img/java", "read";
};

Risk Assessment

Using path names from untrusted sources without first canonicalizing the filenames involved may seriously compromise the security of a Java application them and then validating them can result in directory traversal and path equivalence vulnerabilities.

Automated Detection

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TODO

Related Vulnerabilities

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

Other Languages

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Tool	Version	Checker	Description
The Checker Framework	Include Page The Checker Framework_V The Checker Framework_V	Tainting Checker	Trust and security errors (see Chapter 8)
Coverity	7.5	BAD_EQ PATH_MANIPULATION	Implemented
Fortify	1.0	Path_Manipulation	Implemented
Parasoft Jtest	Include Page Parasoft_V Parasoft_V	CERT.FIO16.CDBV	Canonicalize data before validation

Related Vulnerabilities

CVE-2005-0789 describes a directory traversal vulnerability in LimeWire 3.9.6 through 4.6.0 that allows remote attackers to read arbitrary files via a .. (dot dot) in a magnet request.

CVE-2008-5518 describes multiple directory traversal vulnerabilities in the web administration console in Apache Geronimo Application Server 2.1 through 2.1.3 on Windows that allow remote attackers to upload files to arbitrary directories.

Related Guidelines

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References

\[[API 06|AA. Java References#API 06]\] [method getCanonicalPath()|http://java.sun.com/javase/6/docs/api/java/io/File.html#getCanonicalPath()]
\[[API 06|AA. Java References#API 06]\] [method getCanonicalFile()|http://java.sun.com/javase/6/docs/api/java/io/File.html#getCanonicalFile()]
\[[Harold 99|AA. Java References#Harold 99]\]
\[[MITRE 09|AA. Java References#MITRE 09]\] [CWE ID 171|http://cwe.mitre.org/data/definitions/171.html] "Cleansing, Canonicalization, and Comparison Errors"

Android Implementation Details

This rule is applicable in principle to Android. Please refer to the Android-specific instance of this rule: DRD08-J. Always canonicalize a URL received by a content provider.

Bibliography

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Image Added Image Added Image AddedFIO00-J. Validate deserialized objects      07. Input Output (FIO)      FIO02-J. Use Runtime.exec() correctly