According to the Java API [[API 2006]], class Character
documentation (Unicode Character Representations)
The
char
data type (and consequently the value that aCharacter
object encapsulates) are based on the original Unicode specification, which defined characters as fixed-width 16-bit entities. The Unicode standard has since been changed to allow for characters whose representation requires more than 16 bits. The range of legal code points is now U+0000 to U+10FFFF, known as Unicode scalar value.The Java 2 platform uses the UTF-16 representation in
char
arrays and in theString
andStringBuffer
classes. In this representation, supplementary characters are represented as a pair ofchar
values, the first from the high-surrogates range, (\uD800-\uDBFF), the second from the low-surrogates range (\uDC00-\uDFFF).An
int
value represents all Unicode code points, including supplementary code points. The lower (least significant) 21 bits ofint
are used to represent Unicode code points and the upper (most significant) 11 bits must be zero. Unless otherwise specified, the behavior with respect to supplementary characters and surrogate char values is as follows:
- The methods that only accept a
char
value cannot support supplementary characters. They treatchar
values from the surrogate ranges as undefined characters. For example,Character.isLetter('\uD840')
returnsfalse
, even though this specific value if followed by any low-surrogate value in a string would represent a letter.- The methods that accept an
int
value support all Unicode characters, including supplementary characters. For example,Character.isLetter(0x2F81A)
returnstrue
because the code point value represents a letter (a CJK ideograph).
Security vulnerabilities may arise if an application expects input in a form that an adversary is capable of bypassing. This can happen when an application disregards supplementary characters or when it does not use combining characters appropriately. Combining characters are characters that modify other characters. Refer to the Combining Diacritical Marks chart for more details on combining characters.
Noncompliant Code Example
This noncompliant code example attempts to trim leading letters from the string
. It fails to accomplish this task because Character.isLetter()
does not work for supplementary and combining characters [[Hornig 2007]].
// Fails for supplementary or combining characters public static String trim_bad1(String string) { char ch; for (int i = 0; i < string.length(); i += 1) { ch = string.charAt(i); if (!Character.isLetter(ch)) { break; } } return string.substring(i); }
Noncompliant Code Example
This noncompliant code example ameliorates the problem by using the String.codePointAt()
method, which accepts an int
argument. This works for supplementary characters but not for combining characters [[Hornig 2007]].
// Fails for combining characters public static String trim_bad2(String string) { int ch; for (int i = 0; i < string.length(); i += Character.charCount(ch)) { int ch = string.codePointAt(i); if (!Character.isLetter(ch)) { break; } } return string.substring(i); }
Compliant Solution
This compliant solution works for both supplementary and combining characters [[Hornig 2007]]. According to the Java API [[API 2006]], class java.text.BreakIterator
documentation
The
BreakIterator
class implements methods for finding the location of boundaries in text. Instances ofBreakIterator
maintain a current position and scan over text returning the index of characters where boundaries occur.The boundaries returned may be those of supplementary characters, combining character sequences, or ligature clusters. For example, an accented character might be stored as a base character and a diacritical mark.
public static String trim_good(String string) { BreakIterator iter = BreakIterator.getCharacterInstance(); iter.setText(string); for (int i = iter.first(); i != BreakIterator.DONE; i = iter.next()) { int ch = string.codePointAt(i); if (!Character.isLetter(ch)) { break; } } if (i == BreakIterator.DONE) { // Reached first or last text boundary return ""; // The input was either blank or had only (leading) letters } else { return string.substring(i); } }
To perform locale-sensitive String
comparisons for searching and sorting, use the java.text.Collator
class.
Risk Assessment
Failing to account for supplementary and combining characters can lead to unexpected behavior.
Guideline |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
---|---|---|---|---|---|
IDS13-J |
low |
unlikely |
medium |
P2 |
L3 |
Automated Detection
TODO
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this guideline on the CERT website.
Bibliography
[[API 2006]] Classes Character
and BreakIterator
[[Hornig 2007]] Problem areas: Characters
IDS12-J. Prevent code injection Input Validation and Data Sanitization (IDS) IDS14-J. Perform loss less conversion of String to given encoding and back