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How do you generate a secure random (or pseudo-random) alphanumeric string in Java efficiently?

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hmm could you define what you mean by secure and random? is psuedo-random good enough for example? Or do you need cryptographic strength true randomness? –  mikera Aug 18 '11 at 17:39
possible duplicate of How to generate a random alpha-numeric string in Java –  erickson Aug 18 '11 at 17:42
pseudo-random would be good enough. –  devon Aug 18 '11 at 19:16
this is not a duplicate because the other question is not for a secure string. The one answer that is secure is not fast enough. –  devon Aug 18 '11 at 19:18
Do you need to restrict the string to uppercase or lowercase only? Do you accept dashes? Do you have a specific length requirement, can any fixed length suffice, or will they have to be of random length also? Finally, define how fast is 'fast'? The basic Random or SecureRandom solution will both require n calls to nextInt(). –  aisrael Aug 19 '11 at 0:16

6 Answers 6

Initialize an array containing all the accepted chars (CHARS_ARRAY), then instantiate a SecureRandom instance, and call nextInt(CHARS_ARRAY.length) repeatedly to get a random index in your char array. Append each char to a StringBuilder until you get the expected number of chars.

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+1 for a good way to restrict a generated string to a defined list of characters. –  Bigwheels Aug 18 '11 at 17:49

It looks like you're using SecureRandom.nextInt() when you should really be using Random.nextInt() seeded with secure random bits.

private static char[] VALID_CHARACTERS =

// cs = cryptographically secure
public static String csRandomAlphaNumericString(int numChars) {
    SecureRandom srand = new SecureRandom();
    Random rand = new Random();
    char[] buff = new char[numChars];

    for (int i = 0; i < numChars; ++i) {
      // reseed rand once you've used up all available entropy bits
      if ((i % 10) == 0) {
          rand.setSeed(srand.nextLong()); // 64 bits of random!
      buff[i] = VALID_CHARACTERS[rand.nextInt(VALID_CHARACTERS.length)];
    return new String(buff);

Every call to SecureRandom.nextInt() uses up 32 bits of pure randomness, entropy bits, which gets produced at a very slow rate (see wiki article). You only need 6 entropy bits to get a fully random alphanumeric character 2^6 = 64 > (26 + 26 + 10).

So what you can do is seed Random with 64 bits of entropy bits. Every call to Random.nextInt(62) will consume 6 bits of entropy, so you can generate 10 alphanumeric characters that are "fully random" before you run out of entropy bits (64/10 > log2(62)).

This means you get 5 times the characters for the same number of entropy bits. This is the fastest way to generate purely random alphanumeric strings.


If you want to use only lowercase/uppercase instead of allowing both, you can get away with reseeding every 12 calls instead of 10 (64/12 = 5.333 > log2(26+10) = 5.16).

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Using UUIDs:

UUID random = UUID.randomUUID();
System.out.println( random );
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UUIDs are random enough for accidental collisions. However, they are NOT useable for security, they fail against an attacker actively trying to guess values. –  Tito May 22 '13 at 14:57

Here's a slightly modified version of my code from the duplicate question.

public final class RandomString

  /* Assign a string that contains the set of characters you allow. */
  private static final String symbols = "ABCDEFGJKLMNPRSTUVWXYZ0123456789"; 

  private final Random random = new SecureRandom();

  private final char[] buf;

  public RandomString(int length)
    if (length < 1)
      throw new IllegalArgumentException("length < 1: " + length);
    buf = new char[length];

  public String nextString()
    for (int idx = 0; idx < buf.length; ++idx) 
      buf[idx] = symbols.charAt(random.nextInt(symbols.length()));
    return new String(buf);

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This is not fast enough--maybe because of the multiple calls to nextInt()? –  devon Aug 18 '11 at 19:45
Secure is slow. Insecure is fast. If you want a secure random number then it will take a little time. –  rossum Aug 18 '11 at 22:11
@devon - Initializing a SecureRandom instance is slow. In fact, if it's implemented correctly on your system, it can take quite a while to gather enough entropy for a seed. Make sure that you don't count that initialization time in your tests. Or, if you don't need cryptographic quality, use a different RNG. –  erickson Aug 19 '11 at 19:34
@Erickson I know your comment is old, but when testing this, it was very fast. In eclipse, the second I click run, it printed out my string. Does that mean something is wrong? Or is this fast 2 years later? –  Michael Scott Dec 25 '13 at 4:48
@MichaelScott It depends on the underlying operating system, and the "entropy gathering device" setting in the Java security properties. On Linux, there are two devices provided by the operating system that Java can read to get random seeds for new SecureRandom instances. One of the devices only returns random bits (generated slowly by timing various system events), and if you consume a lot of entropy on the system, it will soon block, and take a while to create new instances. The other device uses pseudo-random bits and is non-blocking. With this one, you wouldn't see any delays. –  erickson Dec 25 '13 at 9:39

For what purpose ?

Generate a public key for an open-key encryption algorithm and convert the byte sequence to string via Base64 algorithm.

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From the Javadoc:

SecureRandom random = new SecureRandom();
byte bytes[] = new byte[20];
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Not alphanumeric. –  erickson Aug 18 '11 at 18:09

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