Many classes, including Pattern
and those that support XML
and SQL
based actions by passing String
arguments to methods, allow inclusion of escape sequences in character and string literals. According to [[JLS 05]] section 3.10.6 "Escape Sequences for Character and String Literals":
The character and string escape sequences allow for the representation of some nongraphic characters as well as the single quote, double quote, and backslash characters in character literals (§3.10.4) and string literals (§3.10.5).
In order to correctly use escape sequences pertaining to String
literals, an understanding of how they are interpreted is essential. For example, SQL
statements written in Java, sometimes require certain special escape characters or sequences (for instance, sequences containing \t
, \n
, \r
). In SQL
queries, all escape sequences must be preceded by an extra backslash for correct interpretation.
As yet another example, consider the Pattern
class that finds extensive use in performing regular expression related tasks. In Java, a given String
literal used for pattern matching is compiled into an instance of the Pattern
type. If the pattern to be matched contains an undesired escape sequence such as a '\n', to avoid it being interpreted by the Java bytecode compiler as an escape sequence, the Pattern
class requires the literal to be preceded by a backslash ("\n", which now correctly denotes back references instead of a new line).
In general, for a particular escape character of the form '\X', the equivalent Java representation is "\\\\X". As an aside, this particular condition gains remarkable importance in automatic exploit signature detection systems and filters that rely on patter matching.
Noncompliant Code Example
In the following example, a method splitWords()
finds matches between the String
literal and the input sequence. Since '\b' is the escape sequence for a word boundary, the misleading notion that String
literals can be used as is, can convince the implementer that the pattern matches to word boundaries and thus splits a given string into individual words. Instead, the string WORDS
silently compiles to a backspace character.
import java.util.regex.Pattern; public class BadSplitter { private final String WORDS = "\b"; // Intend to split on word boundaries public String[] splitWords(String input){ Pattern p = Pattern.compile(WORDS); String[] input_array = p.split(input); return input_array; } }
Compliant Solution
This compliant solution shows the correctly escaped value of the String
literal WORDS
that results in a regular expression designed to split on word boundaries.
import java.util.regex.Pattern; public class GoodSplitter { private final String WORDS = "\\b"; // Will allow splitting on word boundaries public String[] split(String input){ Pattern p = Pattern.compile(WORDS); String[] input_array = p.split(input); return input_array; } }
Risk Assessment
Incorrect usage of escape characters in String
literals can result in misinterpretation and potential corruption of data.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
---|---|---|---|---|---|
MSC35-J |
low |
unlikely |
high |
P1 |
L3 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
References
[[JLS 05]] 3.10.6 Escape Sequences for Character and String Literals
[[API 06]] Class Pattern "Backslashes, escapes, and quoting"
[[API 06]] Package java.sql