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Note that the read() methods return as soon as they find available input data. Ignoring the result returned by the read() methods is a violation of guideline EXP00-J. Do not ignore values returned by methods. Security issues can arise even when return values are considered, because the default behavior of the read() methods lacks any guarantee that the entire buffer array will be filled. The programmer must check the number of bytes actually read and call the read() method again as required.

Another source of data read errors is failure to correctly handle multibyte encoded data. Multibyte encodings such as UTF-8 are used for character sets that require more than one byte to uniquely identify each constituent character. For example, the Japanese encoding Shift-JIS (shown below), supports multibyte encoding wherein the maximum character length is two bytes (one leading and one trailing byte).

The trailing byte ranges overlap the range of both the single byte and lead byte characters. When a multibyte character is separated across a buffer boundary, it can be interpreted differently than it if were not separated across the buffer boundary; this difference arises due to the ambiguity of its composing bytes [Phillips 2005].

Noncompliant Code Example

This noncompliant code example attempts to read 1024 bytes encoded in UTF-8 from an InputStream and to return them as a String. It explicitly specifies the the encoding to build the string, in compliance with A third data reading issue arises from the behavior of the String class constructor with respect to the default encoding. See guideline IDS17-J. Use compatible encodings on both sides of file or network IO for more details.

Noncompliant Code Example

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public static String readBytes(FileInputStreamInputStream in) throws IOException {
  String str = "";
  byte[] data = new byte[1024];
  whileif (in.read(data) >== -1) {
    str +=throw new StringEOFException(data);
  }
  return strnew String( data, "UTF-8");
}

This noncompliant code example can fail in several different ways. First, the The programmer's misunderstanding of the general contract of the read() methods can result in failure to read the intended data in full. Second, the code fails to consider the interaction between characters represented with a multi-byte encoding and the boundaries between the loop iterations. When the last byte read from the data stream is the leading byte of a multibyte character, the trailing bytes will not be encountered until the next iteration of the while loop. However, multi-byte encoding is resolved during construction of the new String within the loop. Consequently, the multibyte encoding will be interpreted incorrectly in this case. Finally, because no specific character encoding is specified in the call to the String class constructor, the constructor uses the system default character encoding to interpret the bytes in the buffer. If the input used a character encoding that differs from the system's default character encoding, the resulting string can be corrupted.it is possible for the data to be less than 1024 bytes long, with additional data available from the InputStream.

Compliant Solution (Multiple calls to read())

This compliant solution reads all the desired bytes into its buffer, accounting for the total number of bytes read and adjusting the remaining bytes' offset, thus ensuring that the required data are read in full. It also avoids splitting multibyte encoded characters across buffers by deferring construction of the result string until the data have been read in full. It also facilitates portability across systems that use different default character encodings by specifying an explicit character encoding for the String constructor, see IDS13-J. Do not assume every character in a string is the same size for more information.

public static String readBytes(FileInputStreamInputStream in) throws IOException {
  int offset = 0;
  int bytesRead = 0;
  byte[] data = new byte[1024];
  while (true) { 
    bytesRead += in.read(data, offset, data.length - offset);
    if (bytesRead == -1 || offset >= data.length)
      break;
    offset += bytesRead;
  }
  String str = new String(data, "UTF-8");
  return str;
}

The size of the data byte buffer depends on the maximum number of bytes required to write an encoded character. For example, UTF-8 encoded data requires four bytes to represend any character above U+FFFF. Because Java uses the UTF-16 character encoding to represent char data, such sequences are split into two separate char values of two bytes each. Consequently, the buffer size should be four times the size of a typical byte sequence.

Compliant Solution (readFully())

The no-argument and one-argument readFully() methods of the DataInputStream class guarantee that they either will read all of the requested data or will throw an exception. These methods throw EOFException if they detect the end of input before the required number of bytes have been read; they throw IOException if some other input/output error occurs. This compliant solution also specifies an explicit character encoding to the String constructor.

public static String readBytes(FileInputStream fis) throws IOException {
  byte[] data = new byte[1024];
  DataInputStream dis = new DataInputStream(fis);
  dis.readFully(data);
  String str = new String(data, "UTF-8");
  return str;
}

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